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Варикозное расширение вен нижних конечностей

Список литературы

  1. Jin Y., Xu G., Huang J., Zhou D., Huang X., Shen L. Analysis of the association between an insertion/deletion polymorphism within the 3′ untranslated region of COL1A2 and chronic venous insufficiency // Ann. Vasc. Surg. Elsevier Inc., 2013. Vol. 27, № 7. P. 959–963.
  2. Shadrina A., Tsepilov Y., Sokolova E., Smetanina M., Voronina E., Pakhomov E., Sevost’ianova K., Shevela A., Ilyukhin E., Seliverstov E., Zolotukhin I., Filipenko M. Genome-wide association study in ethnic Russians suggests an association of the MHC class III genomic region with the risk of primary varicose veins // Gene. 2018. Vol. 659. P. 0378–1119.
  3. Hoţoleanui C., Jurj C. The involvement of genetic factors in chronic venous insufficiency. // Rom. J. Intern. Med. 2008. Vol. 46, № 2. P. 119–123.
  4. Bharath V., Kahn S.R., Lazo-Langner A. Genetic polymorphisms of vein wall remodeling in chronic venous disease: A narrative and systematic review // Blood. American Society of Hematology, 2014. Vol. 124, № 8. P. 1242–1250.
  5. Lim C.S., Davies A.H. Pathogenesis of primary varicose veins // Br. J. Surg. John Wiley & Sons, Ltd, 2009. Vol. 96, № 11. P. 1231–1242.
  6. Ng M.Y.M., Andrew T., Spector T.D., Jeffery S. Linkage to the FOXC2 region of chromosome 16 for varicose veins in otherwise healthy, unselected siblings pairs // J. Med. Genet. J Med Genet, 2005. Vol. 42, № 3. P. 235–239.
  7. Surendran S., Girijamma A., Nair R., Ramegowda K.S., Nair D.H., Thulaseedharan J. V., Lakkappa R.B., Kamalapurkar G., Kartha C.C. Forkhead box C2promoter variant c<512C.T is associated with increased susceptibility to chronic venous diseases // PLoS One / ed. Ahrens I. Public Library of Science, 2014. Vol. 9, № 3. P. e90682.
  8. Mellor R.H., Brice G., Stanton A.W.B., French J., Smith A., Jeffery S., Levick J.R., Burnand K.G., Mortimer P.S. Mutations in FOXC2 are strongly associated with primary valve failure in veins of the lower limb // Circulation. Lippincott Williams & Wilkins, 2007. Vol. 115, № 14. P. 1912–1920.
  9. Al-Batayneh K.M., Al Battah R.M. Genetic variation in the proximal 5′ UTR of FOXC2 gene in varicose veins and hemorrhoids patients // Int. J. Integr. Biol. 2008. Vol. 4, № 2. P. 78–80.
  10. Shadrina A.S., Zolotukhin I.A., Filipenko M.L. Molecular Mechanisms Underlying the Development of Varicose Veins of Low Extremities // Flebologiia. Media Sphere Publishing Group, 2017. Vol. 11, № 2. P. 71.
  11. Shadrina A.S., Smetanina M.A., Sokolova E.A., Sevost’ianova K.S., Shevela A.I., Demekhova M.Y., Shonov O.A., Ilyukhin E.A., Voronina E.N., Zolotukhin I.A., Kirienko A.I., Filipenko M.L. Association of polymorphisms near the FOXC2 gene with the risk of varicose veins in ethnic Russians // Phlebol. J. Venous Dis. 2016. Vol. 31, № 9. P. 640–648.
  12. Markovic J.N., Shortell C.K. Genomics of varicose veins and chronic venous insufficiency // Semin. Vasc. Surg. 2013. Vol. 26, № 1. P. 2–13.
  13. Cai G., Zhang B., Weng W., Shi G., Huang Z. The associations between the MCP-1 -2518 A/G polymorphism and ischemic heart disease and ischemic stroke: a meta-analysis of 28 research studies involving 21,524 individuals. // Mol. Biol. Rep. 2015. Vol. 42, № 5. P. 997–1012.
  14. Bergan J. Molecular Mechanisms in Chronic Venous Insufficiency // Ann. Vasc. Surg. 2007. Vol. 21, № 3. P. 260–266.
  15. Pascarella L., Schönbein G.W.S., Bergan J.J. Microcirculation and venous ulcers: A review // Ann. Vasc. Surg. Springer New York, 2005. Vol. 19, № 6. P. 921–927.
  16. Fitts M.K., Pike D.B., Anderson K., Shiu Y.-T. Hemodynamic Shear Stress and Endothelial Dysfunction in Hemodialysis Access // Open Urol. Nephrol. J. Bentham Science Publishers Ltd., 2014. Vol. 7, № 1. P. 33–44.
  17. Anwar M.A., Shalhoub J., Lim C.S., Gohel M.S., Davies A.H. The Effect of Pressure-Induced Mechanical Stretch on Vascular Wall Differential Gene Expression // J. Vasc. Res. Karger Publishers, 2012. Vol. 49, № 6. P. 463–478.
  18. Perrin M., Ramelet A.A. Pharmacological Treatment of Primary Chronic Venous Disease : Rationale , Results and Unanswered Questions // Eur. J. Vasc. Endovasc. Surg. Elsevier Ltd, 2011. Vol. 41, № 1. P. 117–125.
  19. Bergan J.J., Schmid-Schönbein G.W., Coleridge Smith P.D., Nicolaides A.N., Boisseau M.R., Eklof B. Chronic venous disease. // Minerva Cardioangiol. Italy, 2007. Vol. 55, № 4. P. 459–476.
  20. Nicolaides A.N. Chronic venous disease and the leukocyte-endothelium interaction: From symptoms to ulceration // Angiology. Westminster Publications Inc., 2005. Vol. 56, № SUPPL. 1. P. S11–S19.
  21. Pocock E.S., Alsaigh T., Mazor R., Schmid-Schönbein G.W. Cellular and molecular basis of Venous insufficiency // Vasc. Cell. BioMed Central Ltd., 2014. Vol. 6, № 1.
  22. Bergan J.J., Pascarella L., Schmid-Schönbein G.W. Pathogenesis of primary chronic venous disease: Insights from animal models of venous hypertension // J. Vasc. Surg. J Vasc Surg, 2008. Vol. 47, № 1. P. 183–192.
  23. Ojdana D., Safiejko K., Lipska A., Sacha P., Wieczorek P., Radziwon P., Dadan J., Tryniszewska E. The inflammatory reaction during chronic venous disease of lower limbs // Folia Histochem. Cytobiol. Via Medica, 2009. Vol. 47, № 2. P. 185–189.
  24. Sushkou S.A., Samsonava I. V., Galishevich M.M. Expression of the proinflammatory marker CD34 in varicose leg veins // Phlebologie. Schattauer GmbH, 2015. Vol. 44, № 1. P. 19–23.
  25. Akar İ., İnce İ., Aslan C., Benli İ., Demir O., Altındeger N., Dogan A., Ceber M. Oxidative Stress And Prolidase Enzyme Activity In The Pathogenesis Of Primary Varicose Veins // Vascular. SAGE Publications Ltd, 2018. Vol. 26, № 3. P. 315–321.
  26. Lim C., Shalhoub J., Gohel M., Shepherd A., Davies A. Matrix Metalloproteinases in Vascular Disease - A Potential Therapeutic Target? // Curr. Vasc. Pharmacol. Bentham Science Publishers Ltd., 2010. Vol. 8, № 1. P. 75–85.
  27. Raffetto J., Khalil R. Matrix Metalloproteinases in Venous Tissue Remodeling and Varicose Vein Formation // Curr. Vasc. Pharmacol. Bentham Science Publishers Ltd., 2008. Vol. 6, № 3. P. 158–172.
  28. Raffetto J.D. Dermal pathology, cellular biology, and inflammation in chronic venous disease // Thromb. Res. 2009. Vol. 123, № SUPPL. 4.
  29. Mironiuc A., Palcau L., Andercou O., Rogojan L., Todoran M., Gordan G. Clinico-histopathological correlations of venous wall modifications in chronic venous insufficiency // Chirurgia (Bucur). 2008. Vol. 103, № 3. P. 309–312.
  30. Janowski K., Sopiński M., Topol M. Changes in the wall of the great saphenous vein at consecutive stages in patients suffering from chronic vein disease of the lower limbs. // Folia Morphol. (Warsz). Poland, 2007. Vol. 66, № 3. P. 185–189.
  31. Somers P., Knaapen M. The histopathology of varicose vein disease // Angiology. 2006. Vol. 57, № 5. P. 546–555.
  32. Aunapuu M., Arend A. Histopathological changes and expression of adhesion molecules and laminin in varicose veins. // VASA. 2005. Vol. 34, № 3. P. 170–175.
  33. Elsharawy M.A., Naim M.M., Abdelmaguid E.M., Al-Mulhim A.A. Role of saphenous vein wall in the pathogenesis of primary varicose veins // Interact. Cardiovasc. Thorac. Surg. 2007. Vol. 6, № 2. P. 219–224.
  34. Renno W.M., Saleh F., Wali M. A journey across the wall of varicose veins: What physicians do not often see with the naked eye // Med. Princ. Pract. 2005. Vol. 15, № 1. P. 9–23.
  35. Knaapen M.W.M., Somers P., Bortier H., De Meyer G.R.Y., Kockx M.M. Smooth muscle cell hypertrophy in varicose veins is associated with expression of estrogen receptor-β // J. Vasc. Res. 2005. Vol. 42, № 1. P. 8–12.
  36. Stücker M., Krey T., Röchling A., Schultz-Ehrenburg U., Altmeyer P. The histomorphologic changes at the saphenofemoral junction in varicosis of the greater saphenous vein // Vasa - J. Vasc. Dis. Verlag Hans Huber AG, 2000. Vol. 29, № 1. P. 41–46.
  37. Xiao Y., Huang Z., Yin H., Lin Y., Wang S. In vitro differences between smooth muscle cells derived from varicose veins and normal veins // J. Vasc. Surg. 2009. Vol. 50, № 5. P. 1149–1154.
  38. Pascual G., Mendieta C., Mecham R.P., Sommer P., Bellón J.M., Buján J. Down-regulation of lysyl oxydase-like in aging and venous insufficiency // Histol. Histopathol. 2008. Vol. 23, № 2. P. 179–186.
  39. Jeanneret C., Baldi T., Hailemariam S., Koella C., Gewaltig J., Biedermann B.C. Selective loss of extracellular matrix proteins is linked to biophysical properties of varicose veins assessed by ultrasonography // Br. J. Surg. 2007. Vol. 94, № 4. P. 449–456.
  40. Haviarova Z., Janega P., Durdik S., Kovac P., Mraz P., Stvrtinova V. Comparison of collagen subtype I and III presence in varicose and non-varicose vein walls. // Bratisl. Lek. Listy. Slovakia, 2008. Vol. 109, № 3. P. 102–105.
  41. Sansilvestri-Morel P., Rupin A., Jullien N.D., Lembrez N., Mestries-Dubois P., Fabiani J.N., Verbeuren T.J. Decreased production of collagen type III in cultured smooth muscle cells from varicose vein patients is due to a degradation by MMPs: Possible implication of MMP-3 // J. Vasc. Res. 2005. Vol. 42, № 5. P. 388–398.
  42. Wali M.A., Eid R.A. Smooth muscle changes in varicose veins: An ultrastructural study // J. Smooth Muscle Res. 2001. Vol. 37, № 5–6. P. 123–135.
  43. Ducasse E., Giannakakis K., Chevalier J., Dasnoy D., Puppinck P., Speziale F., Fiorani P., Faraggiana T. Dysregulated apoptosis in primary varicose veins // Eur. J. Vasc. Endovasc. Surg. 2005. Vol. 29, № 3. P. 316–323.
  44. Sansilvestri-Morel P., Fioretti F., Rupin A., Senni K., Fabiani J.N., Godeau G., Verbeuren T.J. Comparison of extracellular matrix in skin and saphenous veins from patients with varicose veins: Does the skin reflect venous matrix changes? // Clin. Sci. 2007. Vol. 112, № 3–4. P. 229–239.
  45. de Mello Porciunculla M., Braga Diamante Leiderman D., Altenfeder R., Siqueira Barbosa Pereira C., Fioranelli A., Wolosker N., Castelli V. Clinical, ultrasonographic and histological findings in varicose vein surgery // Rev. Assoc. Med. Bras. Associacao Medica Brasileira, 2018. Vol. 64, № 8. P. 729–735.
  46. Serralheiro P., Soares A., Almeida C.M.C., Verde I. TGF-β1 in vascularwall pathology: Unraveling chronic venous insufficiency pathophysiology // Int. J. Mol. Sci. MDPI AG, 2017. Vol. 18, № 12.
  47. Peschen M., Lahaye T., Hennig B., Weyl A., Simon J.C., Vanscheidt W. Expression of the adhesion molecules ICAM-1, VCAM-1, LFA-1 and VLA-4 in the skin is modulated in progressing stages of chronic venous insufficiency // Acta Derm. Venereol. 1999. Vol. 79, № 1. P. 27–32.
  48. Broszczak D.A., Sydes E.R., Wallace D., Parker T.J. Molecular Aspects of Wound Healing and the Rise of Venous Leg Ulceration: Omics Approaches to Enhance Knowledge and Aid Diagnostic Discovery. // Clin. Biochem. Rev. 2017. Vol. 38, № 1. P. 35–55.
  49. Kim B.-C., Kim H.T., Park S.H., Cha J.-S., Yufit T., Kim S.-J., Falanga V. Fibroblasts from chronic wounds show altered TGF-beta-signaling and decreased TGF-beta Type II receptor expression. // J. Cell. Physiol. United States, 2003. Vol. 195, № 3. P. 331–336.
  50. Yasim A., Kilinc M. Serum concentration of procoagulant , endothelial and oxidative stress markers in early primary varicose veins // Phlebology. 2008. P. 15–20.
  51. Stanley A.C., Park H.Y., Phillips T.J., Russakovsky V., Menzoian J.O., Kent K.C., Schanzer H., Golden M.A., Sidawy A.N., Friedman S.G. Reduced growth of dermal fibroblasts from chronic venous ulcers can be stimulated with growth factors // J. Vasc. Surg. Mosby Inc., 1997. Vol. 26, № 6. P. 994–1001.
  52. Kim I., Moon S.O., Kim S.H., Kim H.J., Koh Y.S., Koh G.Y. Vascular endothelial growth factor expression of intercellular adhesion molecule 1 (ICAM-1), vascular cell adhesion molecule 1 (VCAM-1), and E-selectin through nuclear factor-kappa B activation in endothelial cells. // J. Biol. Chem. United States, 2001. Vol. 276, № 10. P. 7614–7620.
  53. Bates D.O., Harper S.J. Regulation of vascular permeability by vascular endothelial growth factors // Vascul. Pharmacol. Elsevier Inc., 2002. Vol. 39, № 4–5. P. 225–237.
  54. Hosoi Y., Zukowski A., Kakkos S.K., Nicolaides A.N. Ambulatory venous pressure measurements: new parameters derived from a mathematic hemodynamic model. // J. Vasc. Surg. United States, 2002. Vol. 36, № 1. P. 137–142.
  55. Rabe E., Guex J., Puskas A., Scuderi A., Fernandez Quesada F., Coordinators V. Epidemiology of chronic venous disorders in geographically diverse populations: results from the Vein Consult Program // Int Angiol. 2012. Vol. 2. P. 105–115.
  56. Criqui M., Jamosmos M., Fronek A., Denenberg J., Langer R., Bergan J., Golomb B. Chronic Venous Disease in an Ethnically Diverse Population: The San Diego Population Study // Am J Epidemiol. 2003. Vol. 158, № 5. P. 448–456.
  57. VIN F., ALLAERT F.A., LEVARDON M. Influence of Estrogens and Progesterone on the Venous System of the Lower Limbs in Women // J. Dermatol. Surg. Oncol. John Wiley & Sons, Ltd, 1992. Vol. 18, № 10. P. 888–892.
  58. Zolotukhin I.A., Seliverstov E.I., Shevtsov Y.N., Avakiants I.P., Nikishkov A.S., Tatarintsev A.M., Kirienko A.I. Prevalence and Risk Factors for Chronic Venous Disease in the General Russian Population // Eur. J. Vasc. Endovasc. Surg. W.B. Saunders Ltd, 2017. Vol. 54, № 6. P. 752–758.
  59. Aguilar-Ferrándiz M.E., Castro-Sánchez A.M., Matarán-Peñarrocha G.A., de Dios Luna J., Moreno-Lorenzo C., Del Pozo E. Evaluation of pain associated with chronic venous insufficiency in Spanish postmenopausal women. // Menopause. United States, 2015. Vol. 22, № 1. P. 88–95.
  60. Beebe-dimmer J.L., Pfeifer J.R., Engle J.S., Schottenfeld D. The Epidemiology of Chronic Venous Insufficiency and Varicose Veins // Ann Epidemiol. 2005. Vol. 15. P. 175–84.
  61. Dzieciuchowicz, Krasiński Z., Motowidlo K., Gabriel M. The aetiology and influence of age and gender on the development of advanced chronic venous insufficiency in the population of patients of semi-urban county outpatient vascular clinic in Poland // Phlebology. SAGE PublicationsSage UK: London, England, 2011. Vol. 26, № 2. P. 56–61.
  62. Krajcar J., Radaković B., Stefanić L. Pathophysiology of venous insufficiency during pregnancy. // Acta Med. Croatica. Croatia, 1998. Vol. 52, № 1. P. 65–69.
  63. Ropacka-Lesiak M., Kasperczak J., Breborowicz G.H. [Risk factors for the development of venous insufficiency of the lower limbs during pregnancy--part 1]. // Ginekol. Pol. Poland, 2012. Vol. 83, № 12. P. 939–942.
  64. Sisto T., Reunanen A., … J.L.-T.E. journal, 1995 undefined. Prevalence and risk factors of varicose veins in lower extremities: mini-Finland health survey. // europepmc.org.
  65. Iannuzzi A., Panico S., Ciardullo A. V., Bellati C., Cioffi V., Iannuzzo G., Celentano E., Berrino F., Rubba P. Varicose veins of the lower limbs and venous capacitance in postmenopausal women: Relationship with obesity // J. Vasc. Surg. 2002. Vol. 36, № 5. P. 965–968.
  66. Vlajinac H.D., Marinkovic J.M., Maksimovic M.Z., Matic P.A., Radak D.J. Body mass index and primary chronic venous disease--a cross-sectional study. // Eur. J. Vasc. Endovasc. Surg. Off. J. Eur. Soc. Vasc. Surg. England, 2013. Vol. 45, № 3. P. 293–298.
  67. Scott T.E., LaMorte W.W., Gorin D.R., Menzoian J.O. Risk factors for chronic venous insufficiency: a dual case-control study. // J. Vasc. Surg. United States, 1995. Vol. 22, № 5. P. 622–628.
  68. Hirai M., Naiki K., Nakayama R. Prevalence and Risk Factors of Varicose Veins in Japanese Women // Angiology. 1990. Vol. 41, № 3. P. 228–232.
  69. Савельев В.С., Кириенко А.И., Золотухин И.А., Селиверстов Е.И. Проспективное обсервационное исследование СПЕКТР: регистр пациентов с хроническими заболеваниями вен нижних конечностей // Флебология. 2012. Vol. 6, № 1. P. 4–9.
  70. Мазайшвили К.В., Чен В.И. Распространенность хронических заболеваний вен нижних конечностей в Петропавловске-Камчатском // Флебология. 2008. № 4. P. 52–54.
  71. Kirienko AI, Bogachev Vlu, Gavrilov SG, Zolotukhin IA, Golovanova OV, Zhuravleva OV B.A. Chronic diseases of lower extremity veins in industrial workers of Moscow (results of the epidemiological survey) // Angiol Sosud Khir. 1995. Vol. 10, № 1. P. 77–86.
  72. Lurie F., et al. The 2020 update of the CEAP classification system and reporting standards // J Vasc Surg Venous Lymphat Disord. 2020/03/03. 2020. Vol. 8, № 3. P. 342–352.
  73. Nicolaides A., Kakkos S., Eklof B., Perrin M., Nelzen O., Neglen P., Partsch H., Rybak Z. Management of chronic venous disorders of the lower limbs - guidelines according to scientific evidence. // Int Angiol. 2014. Vol. 33, № 2. P. 87–208.
  74. Gloviczki P. Handbook of Venous Disorders Guidelines of the American Venous Forum. 3rd ed. / ed. Gloviczki P. Hodder Arnold Publishers, 2009. 624 p.
  75. Writing Committee, et al. Editor’s Choice – Management of Chronic Venous Disease // Eur. J. Vasc. Endovasc. Surg. Elsevier Ltd, 2015. Vol. 49, № 6. P. 678–737.
  76. Rabe E., Pannier F. Clinical, Aetiological, Anatomical and Pathological Classification (Ceap): Gold Standard and Limits // Phlebology. 2012. Vol. 27, № 1_suppl. P. 114–118.
  77. Кириенко А.И., et al. Russian Clinical Guidelines for the Diagnostics and Treatment of Chronic Venous Diseases // Flebologiia. 2018. Vol. 12, № 3. P. 146.
  78. Gloviczki P., Comerota A.J., Dalsing M.C., Eklof B.G., Gillespie D.L., Gloviczki M.L., Lohr J.M., McLafferty R.B., Meissner M.H., Murad M.H., Padberg F.T., Pappas P.J., Passman M.A., Raffetto J.D., Vasquez M.A., Wakefield T.W. The care of patients with varicose veins and associated chronic venous diseases: Clinical practice guidelines of the Society for Vascular Surgery and the American Venous Forum // J. Vasc. Surg. Elsevier Inc., 2011. Vol. 53, № 5 SUPPL. P. 2S--48S.
  79. Perrin M., et al. Venous symptoms: the SYM Vein Consensus statement developed under the auspices of the European Venous Forum. // Int Angiol. 2016. Vol. 35, № 4. P. 374–398.
  80. Carpentier P.H., Poulain C., Fabry R., Chleir F., Guias B., Bettarel-Binon C. Ascribing leg symptoms to chronic venous disorders: the construction of a diagnostic score. // J. Vasc. Surg. United States, 2007. Vol. 46, № 5. P. 991–996.
  81. Cronenwett J.L., Johnston K.W. Patient Clinical Evaluation // Rutherford’s Vasc. Surg. 2nd ed. Elsevier, 2014. P. 2784.
  82. Langer R.D., Ho E., Denenberg J.O., Fronek A., Allison M., Criqui M., Ho E., Denenberg J. Relationships between symptoms and venous disease: the San Diego population study. // Arch Intern Med. 2005. Vol. 165, № 12. P. 1420–1424.
  83. LePage P.A., Villavicencio J.L., Gomez E.R., Sheridan M.N., Rich N.M. The valvular anatomy of the iliac venous system and its clinical implications. // J Vasc Surg. . 1991. Vol. 14, № 5. P. 678–683.
  84. Bradbury A., Ruckley C. Clinical presentation and assessment of patients with venous disease // Handb. venous Disord. Guidel. Am. Venous Forum. 3rd ed. London, 2009. P. 331–341.
  85. Hoffmann W., Toonder I., Wittens C. Value of the Trendelenburg tourniquet test in the assessment of primary varicose veins // Phlebology. 2004. Vol. 19. P. 77–80.
  86. Coleridge-Smith P., Labropoulos N., Partsch H., Myers K., Nicolaides A., Cavezzi A. Duplex ultrasound investigation of the veins in chronic venous disease of the lower limbs - UIP consensus document. Part I. Basic principles // Eur. J. Vasc. Endovasc. Surg. 2005/10/18. 2006. Vol. 31, № 1. P. 83–92.
  87. Cavezzi A., Labropoulos N., Partsch H., Ricci S., Caggiati A., Myers K., Nicolaides A., Smith P.C. Duplex ultrasound investigation of the veins in chronic venous disease of the lower limbs--UIP consensus document. Part II. Anatomy // Eur J Vasc Endovasc Surg. 2006. Vol. 31, № 3. P. 288–299.
  88. Baker S.R., Burnand K.G., Sommerville K.M., Thomas M.L., Wilson N.M., Browse N.L. Comparison of venous reflux assessed by duplex scanning and descending phlebography in chronic venous disease // Lancet. 1993. Vol. 341, № 8842. P. 400–403.
  89. Magnusson M., Kalebo P., Lukes P., Sivertsson R., Risberg B. Colour Doppler ultrasound in diagnosing venous insufficiency. A comparison to descending phlebography // Eur J Vasc Endovasc Surg. 1995. Vol. 9. P. 437–443.
  90. Baldt M.M., Böhler K., Zontsich T., Bankier A.A., Breitenseher M., Schneider B., Mostbeck G.H. Preoperative imaging of lower extremity varicose veins: color coded duplex sonography or venography. // J Ultrasound Med. . 1996. Vol. 15, № 2. P. 143–154.
  91. Meyer T., Cavallaro A., Lang W. Duplex ultrasonography in the diagnosis of incompetent Cockett veins. // Eur J Ultrasound. 2000. Vol. 11, № 3. P. 175–180.
  92. Blomgren L., Johansson G., Bergqvist D. Randomized clinical trial of routine preoperative duplex imaging before varicose vein surgery // Br J Surg. 2005. Vol. 92, № 6. P. 688–694.
  93. Abai B., Labropoulos N. Duplex ultrasound scanning for chronic venous obstruction and valvular incompetence // Handb. venous Disord. Guidel. Am. Venous Forum. 3rd ed. / ed. Gloviczki P. London, 2009. P. 142–155.
  94. McMullin G.M., Coleridge Smith P.D. An evaluation of Doppler ultrasound and photoplethysmography in the investigation of venous insufficiency. // Aust N Z J Surg. 1992. Vol. 62, № 4. P. 270–275.
  95. Markel A., Meissner M.H., Manzo R.A., Bergelin R.O., Strandness D.E. A comparison of the cuff deflation method with Valsalva’s maneuver and limb compression in detecting venous valvular reflux. // Arch Surg. . 1994. Vol. 129, № 7. P. 701–705.
  96. van Bemmelen P.S., Bedford G., Beach K., Strandness D.E. Quantitative segmental evaluation of venous valvular reflux with duplex ultrasound scanning. // J Vasc Surg. 1989. Vol. 10, № 4. P. 425–431.
  97. Desk R., Williams L., Health K. Investigation of Chronic Venous Insufficiency : A Consensus Statement A. N. Nicolaides Circulation 2000;102;e126-e163 // Circulation. 2000.
  98. Labropoulos N., Mansour M., Kang S., Gloviczki P., Baker W. New Insights into Perforator Vein Incompetence // Eur J Vasc Endovasc Surg. 1999. Vol. 18, № 3. P. 228–234.
  99. Чуриков Д.А., Кириенко А.И. Ультразвуковая диагностика болезней вен. 2nd-е издани ed. Литтерра, 2016. 176 p.
  100. Васильев А.Ю., Постнова Н.А., Дибиров М.Д., А.И. Ш. Руководство по ультразвуковой флебологии. МИА, 2007. 80 p.
  101. Labropoulos N., Tiongson J., Pryor L., Tassiopoulos A.K., Kang S.S., Mansour M.A., Baker W.H. Definition of venous reflux in lower-extremity veins // J. Vasc. Surg. Mosby Inc., 2003. Vol. 38, № 4. P. 793–798.
  102. DePalma R.G., Hart M.T., Zanin L., Massarin E.H. Phyical examination, Doppler ultrasound and colour flow duplex scanning: guides to therapy for primary varicose veins // Phlebology. 1993. Vol. 8. P. 7–11.
  103. Rautio T., Perälä J., Biancari F., Wiik H., Ohtonen P., Haukipuro K., Juvonen T. Accuracy of hand-held Doppler in planning the operation for primary varicose veins. // Eur J Vasc Endovasc Surg. . 2002. Vol. 24, № 5. P. 450–455.
  104. Rutherford R.B., Padberg F.T., Comerota A.J., Kistner R.L., Meissner M.H., Moneta G.L. Venous severity scoring: An adjunct to venous outcome assessment. // J Vasc Surg. . 2000. Vol. 31, № 6. P. 1307–1312.
  105. Vasquez M. a, Rabe E., Mclafferty R.B., Shortell C.K., Marston W. a, Gillespie D., Meissner M.H., Rutherford R.B., Hill C. Revision of the venous clinical severity score: venous outcomes consensus statement: special communication of the American Venous Forum Ad Hoc Outcomes Working Group. // J Vasc Surg. Elsevier Inc., 2010. Vol. 52, № 5. P. 1387–1396.
  106. Ware J.E.J., Gandek B. Overview of the SF-36 Health Survey and the International Quality of Life Assessment (IQOLA) Project. // J. Clin. Epidemiol. United States, 1998. Vol. 51, № 11. P. 903–912.
  107. Launois R., Mansilha A., Jantet G. International psychometric validation of the Chronic Venous Disease quality of life Questionnaire (CIVIQ-20). // Eur. J. Vasc. Endovasc. Surg. Off. J. Eur. Soc. Vasc. Surg. England, 2010. Vol. 40, № 6. P. 783–789.
  108. Rabe E., Partsch H., Morrison N., Meissner M.H., Mosti G., Lattimer C.R., Carpentier P.H., Gaillard S., Jünger M., Urbanek T., Hafner J., Patel M., Wu S., Caprini J., Lurie F., Hirsch T. Risks and contraindications of medical compression treatment - A critical reappraisal. An international consensus statement. // Phlebology. 2020. Vol. 35, № 7. P. 447–460.
  109. Franks P.J., Moffatt C.J., Connolly M., Bosanquet N., Oldroyd M.I., Greenhalgh R.M., McCollum C.N. Factors associated with healing leg ulceration with high compression. // Age Ageing. . 1995. Vol. 24, № 5. P. 407–410.
  110. Carpentier P.H., Becker F., Thiney G., Poensin D., Satger B. Acceptability and practicability of elastic compression stockings in the elderly: a randomized controlled evaluation. // Phlebology. 2011. Vol. 26, № 3. P. 107–113.
  111. Sippel K., Seifert B., Hafner J. Donning devices (foot slips and frames) enable elderly people with severe chronic venous insufficiency to put on compression stockings. // Eur. J. Vasc. Endovasc. Surg. England, 2015. Vol. 49, № 2. P. 221–229.
  112. Palfreyman S.J., Michaels J.A. A systematic review of compression hosiery for uncomplicated varicose veins // Phlebology. 2009. Vol. 24, № Suppl 1. P. 13–33.
  113. Partsch H., Flour M., Smith P.C. Indications for compression therapy in venous and lymphatic disease consensus based on experimental data and scientific evidence. Under the auspices of the IUP. // Int Angiol. 2008. Vol. 27, № 3. P. 193–219.
  114. Rabe E., Partsch H., Jünger M., Abel M., Achhammer I., Becker F., Cornu-Thenard A., Flour M., Hutchinson J., Ißberner K., Moffatt C., Pannier F. Guidelines for Clinical Studies with Compression Devices in Patients with Venous Disorders of the Lower Limb // Eur J Vasc Endovasc Surg. . 2008. Vol. 35, № 4. P. 494–500.
  115. Shingler S., Robertson L., Boghossian S., Stewart M. Compression stockings for the initial treatment of varicose veins in patients without venous ulceration // Cochrane Database Syst Rev. / ed. Shingler S. Chichester, UK: John Wiley & Sons, Ltd, 2013. № 12. P. CD008819.
  116. Vayssairat M., Ziani E., Houot B. [Placebo controlled efficacy of class 1 elastic stockings in chronic venous insufficiency of the lower limbs].[Article in French] // J Mal Vasc. . 2000. Vol. 25, № 4. P. 256–262.
  117. Benigni J.P., Sadoun S., Allaert F.A., Vin F. Efficacy of Class 1 elastic compression stockings in the early stages of chronic venous disease. A comparative study. // Int Angiol. . 2003. Vol. 22, № 4. P. 383–392.
  118. Angiology D., Consulting A. Compression hosiery for occupational leg symptoms and leg volume : a randomized crossover trial in a cohort of hairdressers. 2012. № March. P. 1–9.
  119. Amsler F., Blättler W. Compression therapy for occupational leg symptoms and chronic venous disorders - a meta-analysis of randomised controlled trials. // Eur J Vasc Endovasc Surg. . 2008. Vol. 35, № 3. P. 366–372.
  120. Schul M.W., Eaton T., Erdman B. Compression versus sclerotherapy for patients with isolated refluxing reticular veins and telangiectasia: a randomized trial comparing quality-of-life outcomes. // Phlebology. England, 2011. Vol. 26, № 4. P. 148–156.
  121. Rabe E., Partsch H., Hafner J., Lattimer C., Mosti G., Neumann M., Urbanek T., Huebner M., Gaillard S., Carpentier P. Indications for medical compression stockings in venous and lymphatic disorders: An evidence-based consensus statement // Phlebology. 2017/05/28. 2018. Vol. 33, № 3. P. 163–184.
  122. Biswas S., Clark A., Shields D.A. Randomised Clinical Trial of the Duration of Compression Therapy after Varicose Vein Surgery // Eur J Vasc Endovasc Surg. 2007. Vol. 33, № 5. P. 631–637.
  123. Huang T.-W., Chen S.-L., Bai C.-H., Wu C.-H., Tam K.-W. The Optimal Duration of Compression Therapy Following Varicose Vein Surgery: A Meta-analysis of Randomized Controlled Trials // Eur J Vasc Endovasc Surg. . 2013. Vol. 45, № 4. P. 397–402.
  124. Shouler P.J., Runchman P.C. Varicose veins: optimum compression after surgery and sclerotherapy. // Ann R Coll Surg Engl. . 1989. Vol. 71, № 6. P. 402–404.
  125. Bond R., Whyman M.R., Wilkins D.C., Walker A.J., Ashlez S. A randomized trial of different compression dressings following varicose veins surgery // Phlebology. 1999. Vol. 14. P. 9–11.
  126. Bakker N.A., Schieven L.W., Bruins R.M.G., van den Berg M., Hissink R.J. Compression Stockings after Endovenous Laser Ablation of the Great Saphenous Vein: A Prospective Randomized Controlled Trial // Eur J Vasc Endovasc Surg. 2013. Vol. 46, № 5. P. 588–592.
  127. Krasznai A.G., Sigterman T.A., Troquay S., Houtermans-Auckel J.P., Snoeijs M., Rensma H.G., Sikkink C., Bouwman L.H. A randomised controlled trial comparing compression therapy after radiofrequency ablation for primary great saphenous vein incompetence. // Phlebology. 2016. Vol. 31, № 2. P. 118–124.
  128. Bootun R., Belramman A., Bolton-Saghdaoui L., Lane T.R.A., Riga C., Davies A.H. Randomized Controlled Trial of Compression After Endovenous Thermal Ablation of Varicose Veins (COMETA Trial). // Ann. Surg. United States, 2021. Vol. 273, № 2. P. 232–239.
  129. O’Hare J.L., Stephens J., Parkin D., Earnshaw J.J. Randomized clinical trial of different bandage regimens after foam sclerotherapy for varicose veins // Br J Surg. . 2010. Vol. 97, № 5. P. 650–656.
  130. Smyth R.M.D., Aflaifel N., Bamigboye A.A. Interventions for varicose veins and leg oedema in pregnancy // Cochrane Database Syst. Rev. 2015. Vol. 2015, № 10.
  131. Thaler E., Huch R., Huch A., Zimmermann R. Compression stockings prophylaxis of emergent varicose veins in pregnancy: a prospective randomised controlled study. // Swiss Med Wkly. . 2001. Vol. 131, № 45–46. P. 659–662.
  132. Clarke M., Hopewell S., Juszczak E., Eisinga A., Kjeldstrøm M. Compression stockings for preventing deep vein thrombosis in airline passengers. Cochrane Database of Systematic Reviews. 2016. № 9. P. 50.
  133. Государственный реестр лекарственных средств [Electronic resource].
  134. Martinez-Zapata M.J., Vernooij R.W., Simancas-Racines D., Uriona Tuma S.M., Stein A.T., Moreno Carriles R.M.M., Vargas E., Bonfill Cosp X. Phlebotonics for venous insufficiency. // Cochrane database Syst. Rev. England, 2020. Vol. 11. P. CD003229.
  135. Ibáñez L., Ballarín E., Vidal X., Laporte J.R. Agranulocytosis associated with calcium dobesilate clinical course and risk estimation with the case-control and the case-population approaches. // Eur J Clin Pharmacol. . 2000. Vol. 56, № 9–10. P. 763–767.
  136. Ibáñez L., Vidal X., Ballarín E., Laporte J.-R. Population-based drug-induced agranulocytosis. // Arch. Intern. Med. United States, 2005. Vol. 165, № 8. P. 869–874.
  137. Kakkos S.K., Nicolaides A.N. Efficacy of micronized purified flavonoid fraction (Daflon®) on improving individual symptoms, signs and quality of life in patients with chronic venous disease: a systematic review and meta-analysis of randomized double-blind placebo-controlled trials. // Int Angiol. Italy, 2018. Vol. 37, № 2. P. 143–154.
  138. Bush R., Comerota A., Meissner M., Raffetto J.D., Hahn S.R., Freeman K. Recommendations for the medical management of chronic venous disease: The role of Micronized Purified Flavanoid Fraction (MPFF). // Phlebology. England, 2017. Vol. 32, № 1_suppl. P. 3–19.
  139. Jantet G. Chronic venous insufficiency: worldwide results of the RELIEF study. Reflux assEssment and quaLity of lIfe improvEment with micronized Flavonoids. // Angiology. United States, 2002. Vol. 53, № 3. P. 245–256.
  140. Bignamini A.A., Matuška J. Sulodexide for the Symptoms and Signs of Chronic Venous Disease: A Systematic Review and Meta-analysis // Adv. Ther. 2020. Vol. 37, № 3. P. 1013–1033.
  141. Ilyukhin E.A., Abramova S.A., Verbitsky N.S., Voronin M.S., Gerasimova D.E., Kamardin F.I., Kostromitin N.E., Nurtdinov A.R., Skorobogatov O.A., Stoyko Y.M. Multiple-center prospective observational trial on assessment of the compliance of patients with chronic venous insufficiency to sulodexide therapy in routine outpatient practice Allegro // Flebologiya. Media Sphera Publishing Group, 2020. Vol. 14, № 2. P. 74–82.
  142. Ilyukhin E.A. Effectiveness of the oral form of sulodexide in the allegro observational trial // Flebologiya. 2020. Vol. 14, № 2. P. 113–121.
  143. Ilyukhin E.A. Oral form of sulodexide for varicose veins with chronic venous insufficiency: Data of the allegro observational trial // Flebologiya. Media Sphera Publishing Group, 2020. Vol. 14, № 4. P. 304–310.
  144. Azhdari M., Zilaee M., Karandish M., Hosseini S.A., Mansoori A., Zendehdel M., Khodarahpour S. Red vine leaf extract (AS 195) can improve some signs and symptoms of chronic venous insufficiency, a systematic review. // Phytother. Res. England, 2020. Vol. 34, № 10. P. 2577–2585.
  145. Pittler M.H., Ernst E. Horse chestnut seed extract for chronic venous insufficiency // Cochrane Database Syst. Rev. / ed. Pittler M.H. Chichester, UK: John Wiley & Sons, Ltd, 2012. Vol. 11.
  146. Allaert F.A. Meta-analysis of the impact of the principal venoactive drugs agents on malleolar venous edema // Int. Angiol. 2012. Vol. 31, № 4. P. 310–315.
  147. Coleridge-Smith P., Lok C., Ramelet A.A. Venous leg ulcer: A meta-analysis of adjunctive therapy with micronized purified flavonoid fraction // Eur J Vasc Endovasc Surg. Eur J Vasc Endovasc Surg, 2005. Vol. 30, № 2. P. 198–208.
  148. Wu B., Lu J., Yang M., Xu T. Sulodexide for treating venous leg ulcers // Cochrane Database Syst Rev. John Wiley and Sons Ltd, 2016. Vol. 2016, № 6.
  149. Handbook of venous and lymphatic disorders : guidelines of the American Venous Forum. 4th ed. / ed. Gloviczki P. CRC Press, 2017. 866 p.
  150. Mansilha A., Sousa J. Benefits of venoactive drug therapy in surgical or endovenous treatment for varicose veins: a systematic review // Int. Angiol. Italy, 2019. Vol. 38, № 4. P. 291–298.
  151. Gonzalez Ochoa A.J., Carrillo J., Manríquez D., Manrique F., Vazquez A.N. Reducing hyperpigmentation after sclerotherapy: A randomized clinical trial. // J. Vasc. surgery. Venous Lymphat. Disord. United States, 2021. Vol. 9, № 1. P. 154–162.
  152. Lacroix I., Beau A.-B., Hurault-Delarue C., Bouilhac C., Petiot D., Vayssière C., Vidal S., Montastruc J.-L., Damase-Michel C. First epidemiological data for venotonics in pregnancy from the EFEMERIS database. // Phlebology. England, 2016. Vol. 31, № 5. P. 344–348.
  153. Guillot B., Guilhou J.J., De Champvallins M., Mallet C., Moccatti D., Pointel J.P. A long term treatment with a venotropic drug. Results on efficacy and safety of Daflon 500 mg in chronic venous insufficiency // Int Angiol. Int Angiol, 1989. Vol. 8, № 4 SUPPL. P. 67–71.
  154. Nicolaides A., Kakkos S., Baekgaard N., Comerota A., de Maeseneer M., Eklof B., Giannoukas A., Lugli M., Maleti O., Mansilha A., Myers K.A., Nelzén O., Partsch H., Perrin M. Management of chronic venous disorders of the lower limbs. Guidelines According to Scientific Evidence. Part II // Int. Angiol. 2020. Vol. 39, № 3. P. 175–240.
  155. Zhang J., Jing Z., Schliephake D.E., Otto J., Malouf G.M., Gu Y.-Q. Efficacy and safety of Aethoxysklerol® (polidocanol) 0.5%, 1% and 3% in comparison with placebo solution for the treatment of varicose veins of the lower extremities in Chinese patients (ESA-China Study). // Phlebology. 2012. Vol. 27, № 4. P. 184–190.
  156. Hobbs J.T. Surgery and sclerotherapy in the treatment of varicose veins. A random trial. // Arch Surg. . 1974. Vol. 109, № 6. P. 793–796.
  157. de Roos K.-P., Nieman F.H.M., Neumann H.A.M. Ambulatory phlebectomy versus compression sclerotherapy: results of a randomized controlled trial. // Dermatol Surg. . 2003. Vol. 29, № 3. P. 221–226.
  158. Masuda E.M., Kessler D.M., Lurie F., Puggioni A., Kistner R.L., Eklof B. The effect of ultrasound-guided sclerotherapy of incompetent perforator veins on venous clinical severity and disability scores. // J Vasc Surg. . 2006. Vol. 43, № 3. P. 551–556; discussion 556-7.
  159. van Neer P., Veraart J.C.J.M., Neumann H. Posterolateral thigh perforator varicosities in 12 patients: a normal deep venous system and successful treatment with ultrasound-guided sclerotherapy. // Dermatol Surg. 2006. Vol. 32, № 11. P. 1346–1352; discussion 1351-2.
  160. King T., Coulomb G., Goldman A., Sheen V., McWilliams S., Guptan R.C. Experience with concomitant ultrasound-guided foam sclerotherapy and endovenous laser treatment in chronic venous disorder and its influence on Health Related Quality of Life: interim analysis of more than 1000 consecutive procedures. // Int Angiol. 2009. Vol. 28, № 4. P. 289–297.
  161. Bountouroglou D.G., Azzam M., Kakkos S.K., Pathmarajah M., Young P., Geroulakos G. Ultrasound-guided foam sclerotherapy combined with sapheno-femoral ligation compared to surgical treatment of varicose veins: early results of a randomised controlled trial. // Eur J Vasc Endovasc Surg. 2006. Vol. 31, № 1. P. 93–100.
  162. Kakkos S.K., Bountouroglou D.G., Azzam M., Kalodiki E., Daskalopoulos M., Geroulakos G. Effectiveness and safety of ultrasound-guided foam sclerotherapy for recurrent varicose veins: immediate results. // J Endovasc Ther. . 2006. Vol. 13, № 3. P. 357–364.
  163. McDonagh B., Sorenson S., Gray C. Clinical spectrum of recurrent postoperative varicose veins and efficacy of sclerotherapy management using the compass technique // Phlebology. 2003. Vol. 18. P. 173–186.
  164. Darvall K.A.L., Bate G.R., Adam D.J., Silverman S.H., Bradbury A.W. Duplex ultrasound outcomes following ultrasound-guided foam sclerotherapy of symptomatic recurrent great saphenous varicose veins. // Eur J Vasc Endovasc Surg. 2011. Vol. 42, № 1. P. 107–114.
  165. Суковатых Б., Родионов О., Суковатых М., Ходыкин С. Диагностика и лечение атипичных форм варикозной болезни вен таза // Вестник хирургии им. И.И. Грекова. 2008. Vol. 167, № 3. P. 43–45.
  166. Paraskevas P. Successful ultrasound-guided foam sclerotherapy for vulval and leg varicosities secondary to ovarian vein reflux: a case study. // Phlebology. 2011. Vol. 26, № 1. P. 29–31.
  167. Ka R., Ssj P., C B., Ja M. Surgery versus sclerotherapy for the treatment of varicose veins ( Review ) // Vascular. 2009. № 2.
  168. Shadid N., Ceulen R., Nelemans P., Dirksen C., Veraart J., Schurink G.W., van Neer P., vd Kley J., de Haan E., Sommer A. Randomized clinical trial of ultrasound-guided foam sclerotherapy versus surgery for the incompetent great saphenous vein // Br J Surg. 2012. Vol. 99, № 8. P. 1062–1070.
  169. Rasmussen L.H., Lawaetz M., Bjoern L., Vennits B., Blemings A., Eklof B. Randomized clinical trial comparing endovenous laser ablation, radiofrequency ablation, foam sclerotherapy and surgical stripping for great saphenous varicose veins. // Br J Surg. 2011. Vol. 98, № 8. P. 1079–1087.
  170. Rabe E., Breu F.X., Cavezzi A., Smith P.C., Frullini A. European guidelines for sclerotherapy in chronic venous disorders // Phlebology. 2014. Vol. 29, № 6. P. 338–354.
  171. Tisi P. V, Beverley C., Rees A. Injection sclerotherapy for varicose veins // Cochrane Database Syst Rev. / ed. Tisi P. V. Chichester, UK: John Wiley & Sons, Ltd, 2006. № 4. P. CD001732.
  172. Goldman M.P. Treatment of varicose and telangiectatic leg veins: double-blind prospective comparative trial between aethoxyskerol and sotradecol. // Dermatol Surg. 2002. Vol. 28, № 1. P. 52–55.
  173. Labas P., Ohradka B., Cambal M., Reis R., Fillo J. Long term results of compression sclerotherapy. // Bratisl Lek List. . 2003. Vol. 104, № 2. P. 78–81.
  174. Alòs J., Carreño P., López J.A., Estadella B., Serra-Prat M., Marinel-lo J. Efficacy and Safety of Sclerotherapy Using Polidocanol Foam: A Controlled Clinical Trial // Eur J Vasc Endovasc Surg. 2006. Vol. 31, № 1. P. 101–107.
  175. Hamel-Desnos C., Desnos P., Wollmann J.-C., Ouvry P., Mako S., Allaert F.-A. Evaluation of the efficacy of polidocanol in the form of foam compared with liquid form in sclerotherapy of the greater saphenous vein: initial results. // Dermatol Surg. . 2003. Vol. 29, № 12. P. 1170–1175; discussion 1175.
  176. Ouvry P., Allaert F.-A., Desnos P., Hamel-Desnos C. Efficacy of polidocanol foam versus liquid in sclerotherapy of the great saphenous vein: a multicentre randomised controlled trial with a 2-year follow-up. // Eur J Vasc Endovasc Surg. . 2008. Vol. 36, № 3. P. 366–370.
  177. Rabe E., Otto J., Schliephake D., Pannier F. Efficacy and safety of great saphenous vein sclerotherapy using standardised polidocanol foam (ESAF): a randomised controlled multicentre clinical trial. // Eur. J. Vasc. Endovasc. Surg. 2008. Vol. 35, № 2. P. 238–245.
  178. Hamel-Desnos C.M., Guias B.J., Desnos P.R., Mesgard A. Foam Sclerotherapy of the Saphenous Veins: Randomised Controlled Trial with or without Compression // Eur J Vasc Endovasc Surg. . 2010. Vol. 39, № 4. P. 500–507.
  179. Kanter A., Thibault P. Saphenofemoral incompetence treated by ultrasound-guided sclerotherapy. // Dermatol Surg. . 1996. Vol. 22, № 7. P. 648–652.
  180. Yamaki T., Hamahata A., Soejima K., Kono T., Nozaki M., Sakurai H. Prospective Randomised Comparative Study of Visual Foam Sclerotherapy Alone or in Combination with Ultrasound-guided Foam Sclerotherapy for Treatment of Superficial Venous Insufficiency: Preliminary Report // Eur J Vasc Endovasc Surg. 2012. Vol. 43, № 3. P. 343–347.
  181. Tessari L., Cavezzi A., Frullini A. Preliminary experience with a new sclerosing foam in the treatment of varicose veins. // Dermatol Surg. . 2001. Vol. 27, № 1. P. 58–60.
  182. de Roos K.-P., Groen L., Leenders A.C.A.P. Foam sclerotherapy: investigating the need for sterile air. // Dermatol Surg. . 2011. Vol. 37, № 8. P. 1119–1124.
  183. Chen J., Liu Y.-R., Sun Y.-D., Liu C., Zhuo S.-Y., Li K., Wei F.-C., Liu S.-H. The risk of bacteria in foam sclerotherapy: does the condition of the air in outpatient vs. operating rooms make a difference? // Br J Dermatol. . 2014. Vol. 171, № 6. P. 1386–1390.
  184. Morrison N., Neuhardt D.L., Rogers C.R., McEown J., Morrison T., Johnson E., Salles-Cunha S.X. Comparisons of side effects using air and carbon dioxide foam for endovenous chemical ablation. // J Vasc Surg. . 2008. Vol. 47, № 4. P. 830–836.
  185. Morrison N., Neuhardt D.L., Rogers C.R., McEown J., Morrison T., Johnson E., Salles-Cunha S.X. Incidence of side effects using carbon dioxide-oxygen foam for chemical ablation of superficial veins of the lower extremity. // Eur J Vasc Endovasc Surg. . 2010. Vol. 40, № 3. P. 407–413.
  186. Beckitt T., Elstone A., Ashley S. Air versus physiological gas for ultrasound guided foam sclerotherapy treatment of varicose veins. // Eur J Vasc Endovasc Surg. . 2011. Vol. 42, № 1. P. 115–119.
  187. Hesse G., Breu F., Kuschmann A., Hartmann K., Salomon N. Sclerotherapy using air- or CO2-O2-foam: post-approval study // Phlebologie. 2012. Vol. 41. P. 77–88.
  188. Cavezzi A., Tessari L. Foam sclerotherapy techniques: different gases and methods of preparation, catheter versus direct injection. // Phlebology. 2009. Vol. 24, № 6. P. 247–251.
  189. Leslie-Mazwi T.M., Avery L.L., Sims J.R. Intra-arterial Air Thrombogenesis after Cerebral Air Embolism Complicating Lower Extremity Sclerotherapy // Neurocrit Care. . 2009. Vol. 11, № 1. P. 97–100.
  190. Scultetus A.H., Villavicencio J.L., Kao T.-C., Gillespie D.L., Ketron G.D., Iafrati M.D., Pikoulis E., Eifert S. Microthrombectomy reduces postsclerotherapy pigmentation: multicenter randomized trial. // J Vasc Surg. 2003. Vol. 38, № 5. P. 896–903.
  191. Nootheti P.K., Cadag K.M., Magpantay A., Goldman M.P. Efficacy of graduated compression stockings for an additional 3 weeks after sclerotherapy treatment of reticular and telangiectatic leg veins. // Dermatologic Surg. Off. Publ. Am. Soc. Dermatologic Surg. [et al.]. United States, 2009. Vol. 35, № 1. P. 53–58.
  192. Weiss R. a, Sadick N.S., Goldman M.P., Weiss M. a. Post-sclerotherapy compression: controlled comparative study of duration of compression and its effects on clinical outcome. // Dermatol. Surg. 1999. Vol. 25, № 2. P. 105–108.
  193. Parsi K. Paradoxical embolism, stroke and sclerotherapy // Phlebology. 2012. Vol. 27, № 4. P. 147–167.
  194. Hansen K., Morrison N., Neuhardt D., Salles-Cunha S. Transthoracic Echocardiogram and Transcranial Doppler Detection of Emboli After Foam Sclerotherapy of Leg Veins // J. Vasc. Ultrasound. 2007. Vol. 31. P. 213–216.
  195. Michaels J.A., Campbell W.B., Brazier J.E., Macintyre J.B., Palfreyman S.J., Ratcliffe J., Rigby K. Randomised clinical trial, observational study and assessment of cost-effectiveness of the treatment of varicose veins (REACTIV trial). // Heal. Technol Assess. . 2006. Vol. 10, № 13. P. 1–196, iii–iv.
  196. Michaels J.A., Brazier J.E., Campbell W.B., MacIntyre J.B., Palfreyman S.J., Ratcliffe J. Randomized clinical trial comparing surgery with conservative treatment for uncomplicated varicose veins // Br J Surg. 2006. Vol. 93, № 2. P. 175–181.
  197. Sam R.., MacKenzie R.., Paisley A.., Ruckley C.., Bradbury A.. The Effect of Superficial Venous Surgery on Generic Health-related Quality of Life // Eur J Vasc Endovasc Surg. 2004. Vol. 28, № 3. P. 253–256.
  198. Shamiyeh A., Schrenk P., Wayand W.U. Prospective trial comparing bilateral and unilateral varicose vein surgery. // Langenbecks Arch Surg. 2003. Vol. 387, № 11–12. P. 402–405.
  199. Gemayel G., Christenson J.T. Can Bilateral Varicose Vein Surgery be Performed Safely in an Ambulatory Setting? // Eur J Vasc Endovasc Surg. 2012. Vol. 43, № 1. P. 95–99.
  200. Caprini J.A. Thrombosis risk assessment as a guide to quality patient care // Dis Mon. 2005/05/19. 2005. Vol. 51, № 2–3. P. 70–78.
  201. Schuller-petrovic S., Pichot O., Rabe E., Maurins U., Morrison N. Guidelines of the First International Consensus Conference on Endovenous Thermal Ablation for Varicose Vein Disease – ETAV Consensus Meeting 2012. 2015. Vol. 30, № 4. P. 257–273.
  202. Van Den Bos R.R., Neumann M., De Roos K.-P., Nijsten T. Endovenous laser ablation-induced complications: review of the literature and new cases. // Dermatol Surg. 2009. Vol. 35, № 8. P. 1206–1214.
  203. Barker T., Evison F., Benson R., Tiwari A. Risk of venous thromboembolism following surgical treatment of superficial venous incompetence // Vasa. 2017. Vol. 46, № 6. P. 484–489.
  204. Malgor R.D., Gasparis A.P., Labropoulos N. Morbidity and mortality after thermal venous ablations. // Int Angiol. 2016. Vol. 35, № 1. P. 57–61.
  205. Brar R., Nordon I.M., Hinchliffe R.J., Loftus I.M., Thompson M.M. Surgical Management of Varicose Veins : Meta-analysis // Vascular. 2010. Vol. 18, № 4. P. 205–220.
  206. Боренштейн А.А.И., Миронова Е.Н., Андрияшкин А.В., Borenshtein A.I., Mironova E.N., Andriyashkin A. V, Zolotukhin I.A. Профилактика венозных тромбоэмболических осложнений после флебэктомии // Флебология. 2012. Vol. 4. P. 29–33.
  207. Knipp B.S., Blackburn S.A., Bloom J.R., Fellows E., Laforge W., Pfeifer J.R., Williams D.M., Wakefield T.W., Michigan Venous Study Group. Endovenous laser ablation: venous outcomes and thrombotic complications are independent of the presence of deep venous insufficiency. // J Vasc Surg. 2008. Vol. 48, № 6. P. 1538–1545.
  208. Marsch P., Price B.A., Holdstock J., Harrison C., Whiteley M.S. Deep vein thrombosis (DVT) after venous thermoablation techniques: rates of endovenous heat-induced thrombosis (EHIT) and classical DVT after radiofrequency and endovenous laser ablation in a single centre // Eur J Vasc Endovasc Surg. 2010.
  209. Chi Y.-W., Woods T.C. Clinical risk factors to predict deep venous thrombosis post-endovenous laser ablation of saphenous veins. // Phlebology. 2014. Vol. 29, № 3. P. 150–153.
  210. Testroote M.J.G., Wittens C.H.A. Prevention of venous thromboembolism in patients undergoing surgical treatment of varicose veins // Phlebology. 2013. Vol. 28, № Supplement 1. P. 86–90.
  211. Kane K., Fisher T., Bennett M., Shutze W., Hicks T., Grimsley B., Gable D., Pearl G., Smith B., Shutze W. The incidence and outcome of endothermal heat-induced thrombosis after endovenous laser ablation // Ann Vasc Surg. Elsevier Ltd, 2014. Vol. 28, № 7. P. 1744–1750.
  212. Rhee S.J., Cantelmo N.L., Conrad M.F., Stoughton J. Factors influencing the incidence of endovenous heat-induced thrombosis (EHIT). // Vasc Endovasc. Surg. 2013. Vol. 47, № 3. P. 207–212.
  213. Бокерия Л.А., Затевахин И.И., Кириенко А.И. Российские клинические рекомендации по диагностике, лечению и профилактике венозных тромбоэмболических осложнений (ВТЭО) // Флебология. 2015. Vol. 4, № 2. P. 1–52.
  214. Keo H.H., Baumann F., Diehm N., Regli C., Staub D. Rivaroxaban versus fondaparinux for thromboprophylaxis after endovenous laser ablation // J Vasc Surg Venous Lymphat Disord. Society for Vascular Surgery, 2017. Vol. 6. P. 817–823.
  215. Wittens C., et al. Management of Chronic Venous Disease // Eur J Vasc Endovasc Surg. 2015. Vol. 49, № 6. P. 678–737.
  216. Nesbitt C., Bedenis R., Bhattacharya V., Stansby G. Endovenous ablation ( radiofrequency and laser ) and foam sclerotherapy versus open surgery for great saphenous vein varices // Cochrane Database Syst Rev. 2014. № 7.
  217. Paravastu S.C.V., Horne M., Dodd P.D.F. Endovenous ablation therapy (laser or radiofrequency) or foam sclerotherapy versus conventional surgical repair for short saphenous varicose veins // Cochrane Database Syst Rev. / ed. Paravastu S.C.V. Chichester, UK: John Wiley & Sons, Ltd, 2016. Vol. 11. P. CD010878.
  218. Creton D., Réa B., Pittaluga P., Chastanet S., Allaert F.A. Evaluation of the pain in varicose vein surgery under tumescent local anaesthesia using sodium bicarbonate as excipient without any intravenous sedation. // Phlebology. 2012. Vol. 27, № 7. P. 368–373.
  219. Hamann S.A.S., Giang J., De Maeseneer M.G.R., Nijsten T.E.C., van den Bos R.R. Five Year Results of Great Saphenous Vein Treatment: A Meta-analysis // Eur. J. Vasc. Endovasc. Surg. Elsevier Ltd, 2017.
  220. Lawaetz M., Serup J., Lawaetz B., Bjoern L., Blemings A., Eklof B., Rasmussen L. Comparison of endovenous ablation techniques, foam sclerotherapy and surgical stripping for great saphenous varicose veins. Extended 5-year follow-up of a RCT. // Int Angiol. 2017. Vol. 36, № 3. P. 281–288.
  221. Paravastu S.C.V., Horne M., Dodd P.D.F. Endovenous ablation therapy (laser or radiofrequency) or foam sclerotherapy versus conventional surgical repair for short saphenous varicose veins // Cochrane Database Syst. Rev. 2016. Vol. 11. P. CD010878.
  222. Boersma D., Kornmann V.N.N., van Eekeren R.R.J.P., Tromp E., Ünlü Ç., Reijnen M.M.J.P., de Vries J.-P.P.M. Treatment Modalities for Small Saphenous Vein Insufficiency: Systematic Review and Meta-analysis. // J Endovasc Ther. 2016. Vol. 23, № 1. P. 199–211.
  223. Hassanin A., Aherne T.M., Greene G., Boyle E., Egan B., Tierney S., Walsh S.R., McHugh S., Aly S. A systematic review and meta-analysis of comparative studies comparing nonthermal versus thermal endovenous ablation in superficial venous incompetence // J. Vasc. Surg. Venous Lymphat. Disord. Elsevier Inc., 2019. Vol. 7, № 6. P. 902-913.e3.
  224. Bellam Premnath K.P., Joy B., Raghavendra V.A., Toms A., Sleeba T. Cyanoacrylate adhesive embolization and sclerotherapy for primary varicose veins. // Phlebology. 2017. P. 268.
  225. Lane T., Bootun R., Dharmarajah B., Lim C.S., Najem M., Renton S., Sritharan K., Davies A.H. A multi-centre randomised controlled trial comparing radiofrequency and mechanical occlusion chemically assisted ablation of varicose veins - Final results of the Venefit versus Clarivein for varicose veins trial. // Phlebology. 2017. Vol. 32, № 2. P. 89–98.
  226. Lun Y., Shen S., Wu X., Jiang H., Xin S., Zhang J. Laser fiber migration into the pelvic cavity: A rare complication of endovenous laser ablation // Phlebol. J. Venous Dis. 2015. Vol. 30, № 9. P. 641–643.
  227. Kim J.S., Park S.W., Yun I.J., Hwang J.J., Lee S.A., Chee H.K., Hwang J.H. Retrograde Endovenous Laser Ablation through Saphenopopliteal Junctional Area for Incompetent Small Saphenous Vein: Comparison with Antegrade Approach. // Korean J Radiol. 2016. Vol. 17, № 3. P. 364–369.
  228. Mozes G., Kalra M., Carmo M., Swenson L., Gloviczki P. Extension of saphenous thrombus into the femoral vein: a potential complication of new endovenous ablation techniques. // J Vasc Surg. 2005. Vol. 41, № 1. P. 130–135.
  229. van Rij A.M., Jones G.T., Hill B.G., Amer M., Thomson I.A., Pettigrew R.A., Packer S.G.K. Mechanical Inhibition of Angiogenesis at the Saphenofemoral Junction in the Surgical Treatment of Varicose Veins: Early Results of a Blinded Randomized Controlled Trial // Circulation. 2008. Vol. 118, № 1. P. 66–74.
  230. Winterborn R.J., Earnshaw J.J. Randomised trial of polytetrafluoroethylene patch insertion for recurrent great saphenous varicose veins. // Eur J Vasc Endovasc Surg. 2007. Vol. 34, № 3. P. 367–373.
  231. Dwerryhouse S., Davies B., Harradine K., Earnshaw J.J. Stripping the long saphenous vein reduces the rate of reoperation for recurrent varicose veins: Five-year results of a randomized trial // J Vasc Surg. 1999. Vol. 29, № 4. P. 589–592.
  232. Winterborn R.J., Foy C., Earnshaw J.J. Causes of varicose vein recurrence: late results of a randomized controlled trial of stripping the long saphenous vein. // J Vasc Surg. 2004. Vol. 40, № 4. P. 634–639.
  233. Holme J.B., Skajaa K., Holme K. Incidence of lesions of the saphenous nerve after partial or complete stripping of the long saphenous vein // Acta Chir Scand. 1990. Vol. 156, № 2. P. 145–148.
  234. VAN DER STRICHT J. [Saphenectomy by invagination by thread]. // Press. Med. 1963. Vol. 71. P. 1081–1082.
  235. Fullarton G.M., Calvert M.H. Intraluminal long saphenous vein stripping: a technique minimizing perivenous tissue trauma. // Br J Surg. 1987. Vol. 74, № 4. P. 255.
  236. Oesch A. "Pin-stripping”: a novel method of atraumatic stripping // Phlebology. 1993. Vol. 4. P. 171–173.
  237. Goren G., Yellin A.E. Invaginated axial saphenectomy by a semirigid stripper: perforate-invaginate stripping. // J Vasc Surg. 1994. Vol. 20, № 6. P. 970–977.
  238. Menyhei G., Gyevnár Z., Arató E., Kelemen O., Kollár L. Conventional stripping versus cryostripping: a prospective randomised trial to compare improvement in quality of life and complications. // Eur J Vasc Endovasc Surg. 2008. Vol. 35, № 2. P. 218–223.
  239. Klem T.M.A.L., Schnater J.M., Schütte P.R., Hop W., van der Ham A.C., Wittens C.H.A. A randomized trial of cryo stripping versus conventional stripping of the great saphenous vein // J Vasc Surg. 2009. Vol. 49, № 2. P. 403–409.
  240. Lurie F., Makarova N.P. Clinical Dynamics of Varicose Disease in Patients with High Degree of Venous Reflux During Conservative Treatment and After Surgery: 7-Year Follow-Up // Int. J. Angiol. Georg Thieme Verlag KG, 1998. Vol. 7, № 3. P. 234–237.
  241. Critchley G., Handa A., Maw A., Harvey A., Harvey M.R., Corbett C.R.R. Complications of varicose vein surgery // Ann. R. Coll. Surg. Engl. 1997. Vol. 79, № 2. P. 105–110.
  242. Ramasastry S.S., Dick G.O., Futrell J.W. Anatomy of the saphenous nerve: relevance to saphenous vein stripping. // Am Surg. 1987. Vol. 53, № 5. P. 274–277.
  243. Rudström H., Björck M., Bergqvist D. Iatrogenic vascular injuries in varicose vein surgery: a systematic review. // World J Surg. 2007. Vol. 31, № 1. P. 228–233.
  244. Dermody M., O’Donnell T.F., Balk E.M. Complications of endovenous ablation in randomized controlled trials // J Vasc Surg Venous Lymphat Disord. 2013. Vol. 1, № 4. P. 427-436.e1.
  245. de Alvarenga Yoshida R., Yoshida W.B., Sardenberg T., Sobreira M.L., Rollo H.A., Moura R. Fibular Nerve Injury After Small Saphenous Vein Surgery // Ann Vasc Surg. 2012. Vol. 26, № 5. P. 729.e11-729.e15.
  246. Atkin G.K., Round T., Vattipally V.R., Das S.K. Common peroneal nerve injury as a complication of short saphenous vein surgery. // Phlebology. 2007. Vol. 22, № 1. P. 3–7.
  247. Corder A.P., Schache D.J., Farquharson S.M., Tristram S. Wound infection following high saphenous ligation. A trial comparing two skin closure techniques: subcuticular polyglycolic acid and interrupted monofilament nylon mattress sutures. // J R Coll Surg Edinb. 1991. Vol. 36, № 2. P. 100–102.
  248. Mekako A.I., Chetter I.C., Coughlin P.A., Hatfield J., McCollum P.T. Randomized clinical trial of co-amoxiclav versus no antibiotic prophylaxis in varicose vein surgery // Br. J. Surg. John Wiley and Sons Ltd, 2010. Vol. 97, № 1. P. 29–36.
  249. Асланов Б.И., Зуева Л.П., Колосовская Е.Н., Любимова А.В., Хорошилов В.Ю., Долгий А.А., Дарьина М.Г., Техова И.Г. Принципы организации периоперационной антибиотикопрофилактики в учреждениях здравоохранения // Федеральные клинические рекомендации / ed. Брико Н.И., Брусина Е.Б., Стасенко В.Л. Москва, 2014. 42 p.
  250. Felice E. De. Shedding light : laser physics and mechanism of action // Phlebology. 2010. P. 11–28.
  251. Nwaejike N., Srodon P.D., Kyriakides C. Endovenous laser ablation for the treatment of recurrent varicose vein disease--a single centre experience. // Int J Surg. . 2010. Vol. 8, № 4. P. 299–301.
  252. Carradice D., Leung C., Chetter I. Laser; best practice techniques and evidence. // Phlebology. England, 2015. Vol. 30, № 2 Suppl. P. 36–41.
  253. Vuylsteke M.E., Klitfod L., Mansilha A. Endovenous ablation. // Int. Angiol. Italy, 2019. Vol. 38, № 1. P. 22–38.
  254. van Groenendael L., van der Vliet J.A., Flinkenflögel L., Roovers E.A., van Sterkenburg S.M.M., Reijnen M.M.P.J. Treatment of recurrent varicose veins of the great saphenous vein by conventional surgery and endovenous laser ablation // J Vasc Surg. 2009. Vol. 50, № 5. P. 1106–1113.
  255. Theivacumar N.S., Gough M.J. Endovenous Laser Ablation (EVLA) to Treat Recurrent Varicose Veins // Eur J Vasc Endovasc Surg. 2011. Vol. 41, № 5. P. 691–696.
  256. Siah M.C., Abramowitz S.D., Haser P., Ricotta J., Woo E.Y., Macsata R. Evaluating the venous experience in vascular surgery training // J. Vasc. Surgery. Venous Lymphat. Disord. 2017. Vol. 5, № 3. P. 446–452.
  257. Hwang J.H., Park S.W., Chang I.S., Kim K.H., Kang J.H. Endovenous Thermal Ablation of Recurrent Varicose Veins due to Residual Great Saphenous Venous Insufficiency After Saphenous Venous Surgery: A Comparative Study. // Dermatologic Surg. Off. Publ. Am. Soc. Dermatologic Surg. [et al.]. United States, 2018. Vol. 44, № 10. P. 1287–1294.
  258. Yoon W.J., Dresher M., Crisostomo P.R., Halandras P.M., Bechara C.F., Aulivola B. Delineating the durability outcome differences after saphenous ablation with laser versus radiofrequency // J. Vasc. Surg. Venous Lymphat. Disord. 2019. Vol. 7, № 4. P. 486–492.
  259. Rasmussen L., Lawaetz M., Serup J., Bjoern L., Vennits B., Blemings A., Eklof B. Randomized clinical trial comparing endovenous laser ablation, radiofrequency ablation, foam sclerotherapy, and surgical stripping for great saphenous varicose veins with 3-year follow-up // J Vasc Surg Venous Lymphat Disord. Society for Vascular Surgery, 2013. Vol. 1, № 4. P. 349–356.
  260. Almeida J.I., Kaufman J., Göckeritz O., Chopra P., Evans M.T., Hoheim D.F., Makhoul R.G., Richards T., Wenzel C., Raines J.K. Radiofrequency endovenous ClosureFAST versus laser ablation for the treatment of great saphenous reflux: a multicenter, single-blinded, randomized study (RECOVERY study). // J Vasc Interv Radiol. 2009. Vol. 20, № 6. P. 752–759.
  261. Gale S.S., Lee J.N., Walsh M.E., Wojnarowski D.L., Comerota A.J. A randomized, controlled trial of endovenous thermal ablation using the 810-nm wavelength laser and the ClosurePLUS radiofrequency ablation methods for superficial venous insufficiency of the great saphenous vein. // J Vasc Surg. . 2010. Vol. 52, № 3. P. 645–650.
  262. Goode S.D., Chowdhury A., Crockett M., Beech A., Simpson R., Richards T., Braithwaite B.D. Laser and radiofrequency ablation study (LARA study): a randomised study comparing radiofrequency ablation and endovenous laser ablation (810 nm). // Eur J Vasc Endovasc Surg. 2010. Vol. 40, № 2. P. 246–253.
  263. Nordon I.M., Hinchliffe R.J., Brar R., Moxey P., Black S.A., Thompson M.M., Loftus I.M. A Prospective Double-Blind Randomized Controlled Trial of Radiofrequency Versus Laser Treatment of the Great Saphenous Vein in Patients With Varicose Veins. // Ann Surg. 2011. Vol. 254, № 6. P. 876–881.
  264. Шайдаков Е.В., Илюхин Е.А., Петухов А.В., Григорян А.Г., Росуховский Д.А., Shaidakov E. V, Ilyukhin E.A., Petukhov A. V, Grigoryan A.G., Rosuchovsky D.A. Радиочастотная облитерация ClosureFAST и эндовазальная лазерная облитерация 1470 нм : многоцентровое проспективное нерандомизированное исследование // Флебология. 2012. Vol. 6, № 3. P. 20–27.
  265. Shepherd A.C., Gohel M.S., Brown L.C., Metcalfe M.J., Hamish M., Davies A.H. Randomized clinical trial of VNUS ClosureFAST radiofrequency ablation versus laser for varicose veins. // Br J Surg. 2010. Vol. 97, № 6. P. 810–818.
  266. Flessenkämper I., Hartmann M., Stenger D., Roll S. Endovenous laser ablation with and without high ligation compared with high ligation and stripping in the treatment of great saphenous varicose veins: initial results of a multicentre randomized controlled trial. // Phlebology. 2013. Vol. 28, № 1. P. 16–23.
  267. Brown C.S., Obi A.T., Cronenwett J.L., Kabnick L., Wakefield T.W., Osborne N.H. Outcomes after truncal ablation with or without concomitant phlebectomy for isolated symptomatic varicose veins (C2 disease) // J. Vasc. Surg. Venous Lymphat. Disord. 2020.
  268. Monahan D.L. Can phlebectomy be deferred in the treatment of varicose veins? // J Vasc Surg. . 2005. Vol. 42, № 6. P. 1145–1149.
  269. Welch H.J. Endovenous ablation of the great saphenous vein may avert phlebectomy for branch varicose veins. // J Vasc Surg. 2006. Vol. 44, № 3. P. 601–605.
  270. Hager E.S., Ozvath K.J., Dillavou E.D. Evidence summary of combined saphenous ablation and treatment of varicosities versus staged phlebectomy. // J Vasc Surg Venous Lymphat Disord. Elsevier Inc., 2017. Vol. 5, № 1. P. 134–137.
  271. Mekako A., Hatfield J., Bryce J., Heng M., Lee D., McCollum P., Chetter I. Combined endovenous laser therapy and ambulatory phlebectomy: refinement of a new technique. // Eur J Vasc Endovasc Surg. . 2006. Vol. 32, № 6. P. 725–729.
  272. Carradice D., Mekako A.I., Hatfield J., Chetter I.C. Randomized clinical trial of concomitant or sequential phlebectomy after endovenous laser therapy for varicose veins // Br J Surg. 2009. Vol. 96, № 4. P. 369–375.
  273. Kim H.K., Kim H.J., Shim J.H., Baek M.-J., Sohn Y., Choi Y.H. Endovenous Lasering Versus Ambulatory Phlebectomy of Varicose Tributaries in Conjunction with Endovenous Laser Treatment of the Great or Small Saphenous Vein // Ann Vasc Surg. . 2009. Vol. 23, № 2. P. 207–211.
  274. Aherne T.M., Ryan É.J., Boland M.R., McKevitt K., Hassanin A., Tubassam M., Tang T.Y., Walsh S. Concomitant vs. Staged Treatment of Varicose Tributaries as an Adjunct to Endovenous Ablation: A Systematic Review and Meta-Analysis. // Eur. J. Vasc. Endovasc. Surg. Off. J. Eur. Soc. Vasc. Surg. England, 2020. Vol. 60, № 3. P. 430–442.
  275. Starodubtsev V., Lukyanenko M., Karpenko A., Ignatenko P. Endovenous laser ablation in patients with wide diameter of the proximal segment of the great saphenous vein: Comparison of methods // Phlebology. SAGE Publications Ltd, 2015. Vol. 30, № 10. P. 700–705.
  276. Spinedi L., Stricker H., Staub D., Uthoff H. Endovenous Laser Ablation for Treatment of a Partially Thrombosed Proximal Great Saphenous Vein. // Case Rep. Vasc. Med. 2019. Vol. 2019. P. 1726978.
  277. Gradman W.S. Endovenous saphenous vein ablation in patients with acute isolated superficial-vein thrombosis // Phlebology. 2013/12/07. 2015. Vol. 30, № 3. P. 204–209.
  278. Enzler M.A., Russell D., Schimmelpfennig J. Thermal ablation in the management of superficial thrombophlebitis. // Eur J Vasc Endovasc Surg. England, 2012. Vol. 43, № 6. P. 726–728.
  279. Schoonover J.P., King J.T., Gray C., Campbell K., Sherman C. 3 alternatives to standard varicose vein treatment. // J Fam Pr. . 2009. Vol. 58, № 10. P. 522–526.
  280. Sadick N.S. Advances in the treatment of varicose veins: ambulatory phlebectomy, foam sclerotherapy, endovascular laser, and radiofrequency closure. // Adv Dermatol. 2006. Vol. 22. P. 139–156.
  281. Westin G.G., Cayne N.S., Lee V., Ekstroem J., Yau P.O., Sadek M., Rockman C.B., Kabnick L.S., Berland T.L., Maldonado T.S., Jacobowitz G.R. Radiofrequency and laser vein ablation for patients receiving warfarin anticoagulation is safe, effective, and durable. // J. Vasc. surgery. Venous Lymphat. Disord. United States, 2020. Vol. 8, № 4. P. 610–616.
  282. Sufian S., Arnez A., Labropoulos N., Lakhanpal S. Endothermal venous ablation of the saphenous vein on patients who are on anticoagulation therapy. // Int. Angiol. Italy, 2017. Vol. 36, № 3. P. 268–274.
  283. Riesenman P.J., de Fritas D.J., Konigsberg S.G., Kasirajan K. Noninterruption of warfarin therapy is safe and does not compromise outcome in patients undergoing endovenous laser therapy (EVLT). // Vasc Endovasc. Surg. 2011. Vol. 45, № 6. P. 524–526.
  284. Delaney C.L., Russell D.A., Iannos J., Spark J.I. Is endovenous laser ablation possible while taking warfarin? // Phlebology. 2012. Vol. 27, № 5. P. 231–234.
  285. Pavlovic M.D., Schuller-Petrovic S., Pichot O., Rabe E., Maurins U., Morrison N., Pannier F. Guidelines of the First International Consensus Conference on Endovenous Thermal Ablation for Varicose Vein Disease--ETAV Consensus Meeting 2012 // Phlebology. 2015. Vol. 30, № 4. P. 257–273.
  286. Moro L., Serino F.-M., Ricci S., Abbruzzese G., Antonelli-Incalzi R. Dilution of a mepivacaine-adrenaline solution in isotonic sodium bicarbonate for reducing subcutaneous infiltration pain in ambulatory phlebectomy procedures: a randomized, double-blind, controlled trial. // J. Am. Acad. Dermatol. 2014. Vol. 71, № 5. P. 960–963.
  287. Marsden G., Perry M., Kelley K., Davies A.H. Diagnosis and management of varicose veins in the legs: summary of NICE guidance // BMJ. 2013. Vol. 347. P. f4279.
  288. Samuel N., Wallace T., Carradice D., Shahin Y., Mazari F.A.K., Chetter I.C. Endovenous laser ablation in the treatment of small saphenous varicose veins: does site of access influence early outcomes? // Vasc. Endovascular Surg. United States, 2012. Vol. 46, № 4. P. 310–314.
  289. Doganci S., Yildirim V., Demirkilic U. Does puncture site affect the rate of nerve injuries following endovenous laser ablation of the small saphenous veins? // Eur J Vasc Endovasc Surg. 2011. Vol. 41, № 3. P. 400–405.
  290. Mendes-Pinto D., Bastianetto P., Cavalcanti Braga Lyra L., Kikuchi R., Kabnick L. Endovenous laser ablation of the great saphenous vein comparing 1920-nm and 1470-nm diode laser // Int. Angiol. A J. Int. Union Angiol. 2016. Vol. 35, № 6. P. 599–604.
  291. Vuylsteke M., De Bo T., Dompe G., Di Crisci D., Abbad C., Mordon S. Endovenous laser treatment: is there a clinical difference between using a 1500 nm and a 980 nm diode laser? A multicenter randomised clinical trial. // Int Angiol. 2011. Vol. 30, № 4. P. 327–334.
  292. Proebstle T.M., Moehler T., Gül D., Herdemann S. Endovenous treatment of the great saphenous vein using a 1,320 nm Nd:YAG laser causes fewer side effects than using a 940 nm diode laser. // Dermatol Surg. 2005. Vol. 31, № 12. P. 1678–1683.
  293. Goldman M.P., Mauricio M., Rao J. Intravascular 1320-nm laser closure of the great saphenous vein: a 6- to 12-month follow-up study. // Dermatol Surg. . 2004. Vol. 30, № 11. P. 1380–1385.
  294. Pannier F., Rabe E., Maurins U. First results with a new 1470-nm diode laser for endovenous ablation of incompetent saphenous veins. // Phlebology. 2009. Vol. 24, № 1. P. 26–30.
  295. Shaydakov E., Ilyukhin E., Rosukhovskiy D. Blood absorption during 970 and 1470 nm laser radiation in vitro. // Int Angiol. 2015. Vol. 34, № 1.
  296. Park I., Park S.-C. Comparison of Short-Term Outcomes Between Endovenous 1,940-nm Laser Ablation and Radiofrequency Ablation for Incompetent Saphenous Veins. // Front. Surg. 2020. Vol. 7. P. 620034.
  297. Pannier F., Rabe E., Rits J., Kadiss A., Maurins U. Endovenous laser ablation of great saphenous veins using a 1470 nm diode laser and the radial fibre - follow-up after six months // Phlebology. 2011. Vol. 26, № 1. P. 35–39.
  298. Prince E.A., Soares G.M., Silva M., Taner A., Ahn S., Dubel G.J., Jay B.S. Impact of laser fiber design on outcome of endovenous ablation of lower-extremity varicose veins: results from a single practice. // Cardiovasc Interv. Radiol. 2011. Vol. 34, № 3. P. 536–541.
  299. Schwarz T., von Hodenberg E., Furtwängler C., Rastan A., Zeller T., Neumann F.J. Endovenous laser ablation of varicose veins with the 1470-nm diode laser // J Vasc Surg. Elsevier Inc., 2010. Vol. 51, № 6. P. 1474–1478.
  300. Doganci S., Demirkilic U. Comparison of 980 nm laser and bare-tip fibre with 1470 nm laser and radial fibre in the treatment of great saphenous vein varicosities: a prospective randomised clinical trial. // Eur J Vasc Endovasc Surg. Elsevier Ltd, 2010. Vol. 40, № 2. P. 254–259.
  301. Hirokawa M., Ogawa T., Sugawara H., Shokoku S., Sato S. Comparisonof 1470 nm Laserand Radial 2ring Fiberwith 980 nm Laserand Bare-Tip Fiberin Endovenous Laser Ablation of Saphenous Varicose Veins: A Multicenter, Prospective, Randomized, Non-BlindStudy. // AnnVascDis. . 2015. Vol. 8, № 4. P. 282–289.
  302. Hirokawa M., Kurihara N. Comparison of Bare-Tipand Radial Fiberin Endovenous Laser Ablation with 1470 nm Diode Laser // AnnVascDis. 2014. Vol. 7, № 3. P. 239–245.
  303. Cowpland C.A., Cleese A.L., Whiteley M.S. Factors affecting optimal linear endovenous energy density for endovenous laser ablation in incompetent lower limb truncal veins - A review of the clinical evidence. // Phlebology. 2016.
  304. Шайдаков Е.В., Илюхин Е.А., Григорян А.Г., Булатов В.Л., Росуховский Д.А., Шонов О.А. Карбонизация при эндовазальной лазерной облитерации радиальным световодом с длиной волны 1470 и 970 нм // Ангиология и сосудистая хирургия. 2015. Vol. 21, № 3. P. 107–110.
  305. Соколов А.Л., Лядов К.В., Луценко М.М. Лазерная облитерация вен для практических врачей. Москва: ИД Медпрактика-М, 2011. 136 p.
  306. Maurins U., Rabe E., Pannier F. Does laser power influence the results of endovenous laser ablation (EVLA) of incompetent saphenous veins with the 1 470-nm diode laser? A prospective randomized study comparing 15 and 25 W // Int. Angiol. A J. Int. Union Angiol. 2009. Vol. 28, № 1. P. 32–37.
  307. Joh J.H., Kim W.-S., Jung I.M., Park K.-H., Lee T., Kang J.M., Consensus Working Group. Consensus for the Treatment of Varicose Vein with Radiofrequency Ablation // Vasc Spec. Int. 2014. Vol. 30, № 4. P. 105–112.
  308. Bisang U., Meier T.O., Enzler M., Thalhammer C., Husmann M. Results of endovenous ClosureFast treatment for varicose veins in an outpatient setting // Phlebology. 2012.
  309. Proebstle T.M., Alm J., Göckeritz O., Wenzel C., Noppeney T., Lebard C., Pichot O., Sessa C., Creton D., Gockeritz 0. Three-year European follow-up of endovenous radiofrequency-powered segmental thermal ablation of the great saphenous vein with or without treatment of calf varicosities. // J Vasc Surg. Elsevier Inc., 2011. Vol. 54, № 1. P. 146–152.
  310. Proebstle T.M., Alm B.J., Göckeritz O., Wenzel C., Noppeney T., Lebard C., Sessa C., Creton D., Pichot O. Five-year results from the prospective European multicentre cohort study on radiofrequency segmental thermal ablation for incompetent great saphenous veins // Br J Surg. 2015. Vol. 102, № 3. P. 212–218.
  311. Goodyear S.J., Nyamekye I.K. Radiofrequency ablation of varicose veins: Best practice techniques and evidence. // Phlebology. 2015. Vol. 30, № 2 Suppl. P. 9–17.
  312. Reich-Schupke S., Mumme A., Stücker M. Histopathological findings in varicose veins following bipolar radiofrequency-induced thermotherapy--results of an ex vivo experiment. // Phlebology. 2011. Vol. 26, № 2. P. 69–74.
  313. Badham G.E., Dos Santos S.J., Whiteley M.S. Radiofrequency-induced thermotherapy (RFiTT) in a porcine liver model and ex vivo great saphenous vein // Minim Invasive Ther Allied Technol. 2017. Vol. 26, № 4. P. 200–206.
  314. Tesmann J.P., Thierbach H., Dietrich A., Grimme H., Vogt T., Rass K. Radiofrequency induced thermotherapy (RFITT) of varicose veins compared to endovenous laser treatment (EVLT): a non-randomized prospective study concentrating on occlusion rates, side-effects and clinical outcome. // Eur J Dermatol. 2011. Vol. 21, № 6. P. 945–951.
  315. Spiliopoulos S., Theodosiadou V., Sotiriadi A., Karnabatidis D. Endovenous ablation of incompetent truncal veins and their perforators with a new radiofrequency system. Mid-term outcomes. // Vascular. 2015. Vol. 23, № 6. P. 592–598.
  316. Стойко Ю., Игнатьева Н., Захаркина О., Гулиева В., Мазайшвили К., Цыплящук А., Яшкин М., Акимов С., Баграташвили В., Харитонова С. Экспериментальное обоснование режимов радиочастотной термооблитерации // Флебология. 2015. Vol. 9, № 2. P. 12–17.
  317. Shaidakov E. V, Grigoryan A.G., Korzhevskii D.E., Ilyukhin E.A., Rosukhovski D.A., Bulatov V.L., Tsarev O.I. Morphologic changes in the vein after different numbers of radiofrequency ablation cycles // J. Vasc. Surg. Venous Lymphat. Disord. 2015. Vol. 3, № 4. P. 358–363.
  318. Schuller-Petrović S., Schuller-lukic B., Schuller S. Retrospective analysis of routine use of a double heat cycle (DHC) during radiofrequency segmental ablation (ClosureFASTTM) of saphenous veins // J. Eur. Acad. Dermatol. Venereol. 2015. Vol. 30.
  319. Calcagno D., Rossi J.A., Ha C. Effect of saphenous vein diameter on closure rate with ClosureFAST radiofrequency catheter. // Vasc Endovasc. Surg. 2009. Vol. 43, № 6. P. 567–570.
  320. Селиверстов Е., Балашов А., Лебедев И., Ан Е., Солдатский Е. Случай фрагментации световода в большой подкожной вене после эндовенозной лазерной облитерации // Флебология. 2014. Vol. 8, № 4. P. 55–58.
  321. Caggiati A., Franceschini M. Stroke following endovenous laser treatment of varicose veins // J Vasc Surg. 2010. Vol. 51, № 1. P. 218–220.
  322. Wheatcroft M., Lindsay T., Lossing A. Two cases of arteriovenous fistula formation between the external iliac vessels following endovenous laser therapy // Vascular. 2014. Vol. 22, № 6. P. 464–467.
  323. Hashimoto O., Miyazaki T., Hosokawa J., Shimura Y., Okuyama H., Endo M. A case of high-output heart failure caused by a femoral arteriovenous fistula after endovenous laser ablation treatment of the saphenous vein // Phlebology. 2015. Vol. 30, № 4. P. 290–292.
  324. Rudarakanchana N., Berland T.L., Chasin C., Sadek M., Kabnick L.S. Arteriovenous fistula after endovenous ablation for varicose veins // J Vasc Surg. 2012. Vol. 55, № 5. P. 1492–1494.
  325. Ziporin S.J., Ifune C.K., MacConmara M.P., Geraghty P.J., Choi E.T. A case of external iliac arteriovenous fistula and high-output cardiac failure after endovenous laser treatment of great saphenous vein // J Vasc Surg. 2010. Vol. 51, № 3. P. 715–719.
  326. Theivacumar N.S., Gough M.J. Arterio-Venous Fistula Following Endovenous Laser Ablation for Varicose Veins // Eur J Vasc Endovasc Surg. 2009. Vol. 38, № 2. P. 234–236.
  327. Vaz C., Matos A., Oliveira J., Nogueira C., Almeida R., Mendonça M. Iatrogenic Arteriovenous Fistula Following Endovenous Laser Therapy of the Short Saphenous Vein // Ann Vasc Surg. . 2009. Vol. 23, № 3. P. 412.e15-412.e17.
  328. Kabnick L.S., Sadek M., Bjarnason H., Coleman D.M., Dillavou E.D., Hingorani A.P., Lal B.K., Lawrence P.F., Malgor R.D., Puggioni A. Classification and treatment of endothermal heat-induced thrombosis: Recommendations from the American Venous Forum and the Society for Vascular Surgery // J. Vasc. Surg. Venous Lymphat. Disord. by the Society for Vascular Surgery, the American Venous Forum and the Authors, 2020. P. 1–17.
  329. Dexter D., Kabnick L., Berland T., Jacobowitz G., Lamparello P., Maldonado T., Mussa F., Rockman C., Sadek M., Giammaria L.E., Adelman M. Complications of Endovenous Lasers // Phlebology. 2012. Vol. 27, № 1_suppl. P. 40–45.
  330. Sadek M., Kabnick L.S., Rockman C.B., Berland T.L., Zhou D., Chasin C., Jacobowitz G.R., Adelman M.A. Increasing ablation distance peripheral to the saphenofemoral junction may result in a diminished rate of endothermal heat-induced thrombosis. // J Vasc Surg Venous Lymphat Disord. 2013. Vol. 1, № 3. P. 257–262.
  331. Sufian S., Arnez A., Labropoulos N., Lakhanpal S. Incidence, progression, and risk factors for endovenous heat-induced thrombosis after radiofrequency ablation. // J Vasc Surg Venous Lymphat Disord. 2013. Vol. 1, № 2. P. 159–164.
  332. Sufian S., Arnez A., Labropoulos N., Lakhanpal S. Endovenous heat-induced thrombosis after ablation with 1470 nm laser: Incidence, progression, and risk factors. // Phlebology. 2014. Vol. 30, № 5. P. 325–330.
  333. Tang T.Y., Rathnaweera H.P., Kam J.W., Chong T.T., Choke E.C., Tan Y.K. Endovenous cyanoacrylate glue to treat varicose veins and chronic venous insufficiency-Experience gained from our first 100+ truncal venous ablations in a multi-ethnic Asian population using the Medtronic VenaSealTM Closure System. // Phlebology. England, 2019. Vol. 34, № 8. P. 543–551.
  334. Cho S., Gibson K., Lee S.H., Kim S.-Y., Joh J.H. Incidence, classification, and risk factors of endovenous glue-induced thrombosis after cyanoacrylate closure of the incompetent saphenous vein. // J. Vasc. surgery. Venous Lymphat. Disord. United States, 2020. Vol. 8, № 6. P. 991–998.
  335. Parsi K., et al. Cyanoacrylate closure for peripheral veins: Consensus document of the Australasian College of Phlebology // Phlebology. SAGE Publications Ltd, 2020. Vol. 35, № 3. P. 153–175.
  336. Dimech A., Cassar K. Efficacy of Cyanoacrylate Glue Ablation of Primary Truncal Varicose Veins Compared to Existing Endovenous Techniques: A Systematic Review of the Literature // Surg. J. 2020. Vol. 06. P. e77–e86.
  337. Yang G.K., Parapini M., Gagnon J., Chen J.C. Comparison of cyanoacrylate embolization and radiofrequency ablation for the treatment of varicose veins. // Phlebology. England, 2019. Vol. 34, № 4. P. 278–283.
  338. Parsi K., Kang M., Yang A., Kossard S. Granuloma formation following cyanoacrylate glue injection in peripheral veins and arteriovenous malformation. // Phlebology. England, 2020. Vol. 35, № 2. P. 115–123.
  339. Witte M.E., Zeebregts C.J., de Borst G.J., Reijnen M.M.P.J., Boersma D. Mechanochemical endovenous ablation of saphenous veins using the ClariVein: A systematic review // Phlebology. 2017. Vol. 0, № 0. P. 026835551770206.
  340. Gibson K., Ferris B. Cyanoacrylate closure of incompetent great, small and accessory saphenous veins without the use of post-procedure compression: Initial outcomes of a post-market evaluation of the VenaSeal System (the WAVES Study). // Vascular. 2017. Vol. 25, № 2. P. 149–156.
  341. Witte M.E., Holewijn S., van Eekeren R.R., de Vries J.-P., Zeebregts C.J., Reijnen M.M.P.J. Midterm Outcome of Mechanochemical Endovenous Ablation for the Treatment of Great Saphenous Vein Insufficiency // J Endovasc Ther. 2017. Vol. 24, № 1. P. 149–155.
  342. Proebstle T.M., Alm J., Dimitri S., Rasmussen L., Whiteley M., Lawson J., Davies A. Twelve-Month Follow-up of the European Multicenter Study on Cyanoacrylate Embolization of Incompetent Great Saphenous Veins // J Vasc Surg Venous Lymphat Disord. Elsevier Inc., 2014. Vol. 2, № 1. P. 105–106.
  343. Chan Y.C., Law Y., Cheung G.C., Ting A.C., Cheng S.W. Cyanoacrylate glue used to treat great saphenous reflux: Measures of outcome // Phlebology. 2017. Vol. 32, № 2. P. 99–106.
  344. Bozkurt A.K., Y lmaz M.F. A prospective comparison of a new cyanoacrylate glue and laser ablation for the treatment of venous insufficiency // Phlebology. 2016. Vol. 31, № 1 Suppl. P. 106–113.
  345. Morrison N., Gibson K., Vasquez M., Weiss R., Cher D., Madsen M., Jones A. VeClose trial 12-month outcomes of cyanoacrylate closure versus radiofrequency ablation for incompetent great saphenous veins. // J Vasc Surg Venous Lymphat Disord. 2017. Vol. 5, № 3. P. 321–330.
  346. Morrison N., Gibson K., McEnroe S., Goldman M., King T., Weiss R., Cher D., Jones A. Randomized trial comparing cyanoacrylate embolization and radiofrequency ablation for incompetent great saphenous veins (VeClose) // J Vasc Surg. Society for Vascular Surgery, 2015. Vol. 61, № 4. P. 1–10.
  347. Siribumrungwong B., Wilasrusmee C., Orrapin S., Srikuea K., Benyakorn T., McKay G., Attia J., Rerkasem K., Thakkinstian A. Interventions for great saphenous vein reflux: network meta-analysis of randomized clinical trials // Br. J. Surg. 2021.
  348. Tekin A.İ., Tuncer O.N., Memetoğlu M.E., Arslan Ü., Öztekin A., Yağmur B., Biçer M., Özmen R. Nonthermal, Nontumescent Endovenous Treatment of Varicose Veins // Ann Vasc Surg. 2016. Vol. 36. P. 231–235.
  349. Kianifard B., Holdstock J., Allen C., Smith C., Price B., Whiteley M.S. Randomized clinical trial of the effect of adding subfascial endoscopic perforator surgery to standard great saphenous vein stripping. // Br J Surg. 2007. Vol. 94, № 9. P. 1075–1080.
  350. Золотухин И.А., Каралкин А.В., Ярич А.Н., Селиверстов Е.И., Кириенко А.И. Отказ от диссекции перфорантных вен не влияет на результат флебэктомии у пациентов с варикозной болезнью // Флебология. 2012. Vol. 3. P. 16–19.
  351. van Neer P., Kessels F.G., Estourgie R.J., de Haan E.F., Neumann M.A., Veraart J.C. Persistent reflux below the knee after stripping of the great saphenous vein. // J Vasc Surg. . 2009. Vol. 50, № 4. P. 831–834.
  352. Shi H., Liu X., Lu M., Lu X., Jiang M., Yin M. The Effect of Endovenous Laser Ablation of Incompetent Perforating Veins and the Great Saphenous Vein in Patients with Primary Venous Disease // Eur J Vasc Endovasc Surg. 2015. Vol. 49, № 5. P. 574–580.
  353. Seren M., Dumantepe M., Fazliogullari O., Kucukaksu S. Combined treatment with endovenous laser ablation and compression therapy of incompetent perforating veins for treatment of recalcitrant venous ulcers // Phlebology. 2017. Vol. 32, № 5. P. 307–315.
  354. Bacon J.L., Dinneen a J., Marsh P., Holdstock J.M., Price B. a, Whiteley M.S. Five-year results of incompetent perforator vein closure using TRans-Luminal Occlusion of Perforator. // Phlebology. 2009. Vol. 24, № 2. P. 74–78.
  355. Chehab M., Dixit P., Antypas E., Juncaj M., Wong O., Bischoff M. Endovenous Laser Ablation of Perforating Veins: Feasibility, Safety, and Occlusion Rate Using a 1,470-nm Laser and Bare-Tip Fiber // J Vasc Interv Radiol. 2015. Vol. 26, № 6. P. 871–877.
  356. Proebstle T.M., Lehr H.A., Kargl A., Espinola-Klein C., Rother W., Bethge S., Knop J. Endovenous treatment of the greater saphenous vein with a 940-nm diode laser: thrombotic occlusion after endoluminal thermal damage by laser-generated steam bubbles // J. Vasc. Surg. 2002. Vol. 35, № 4. P. 729–736.
  357. Nelzén O., Fransson I. True long-term healing and recurrence of venous leg ulcers following SEPS combined with superficial venous surgery: a prospective study. // Eur. J. Vasc. Endovasc. Surg. Off. J. Eur. Soc. Vasc. Surg. England, 2007. Vol. 34, № 5. P. 605–612.
  358. Obermayer A., Göstl K., Walli G., Benesch T. Chronic venous leg ulcers benefit from surgery: long-term results from 173 legs. // J. Vasc. Surg. United States, 2006. Vol. 44, № 3. P. 572–579.
  359. Franceschi C., Cappelli M., Ermini S., Gianesini S., Mendoza E., Passariello F., Zamboni P. CHIVA: hemodynamic concept, strategy and results. // Int. Angiol. Italy, 2016. Vol. 35, № 1. P. 8–30.
  360. Franceschi C., Bahnini A. Remark concerning the comments on the CHIVA method in the article by P. Pittaluga and S. Chastanet: «Technique and treatment of varices: How to choose?» // Phlebol. - Ann. Vasc. 2008. Vol. 61. P. 428–430.
  361. Zamboni P., Marcellino M.G., Cappelli M., Feo C. V, Bresadola V., Vasquez G., Liboni A. Saphenous vein sparing surgery: principles, techniques and results. // J. Cardiovasc. Surg. (Torino). Italy, 1998. Vol. 39, № 2. P. 151–162.
  362. Zamboni P., Mendoza E., Gianesini S. Saphenous vein-sparing strategies in chronic venous disease // Saphenous Vein-Sparing Strateg. Chronic Venous Dis. Springer International Publishing, 2018. 1–279 p.
  363. Parés J.O., Juan J., Tellez R., Mata A., Moreno C., Quer F.X., Suarez D., Codony I., Roca J. Varicose vein surgery: stripping versus the CHIVA method: a randomized controlled trial. // Ann Surg. 2010. Vol. 251, № 4. P. 624–631.
  364. Carandina S., Mari C., De Palma M., Marcellino M.G., Cisno C., Legnaro A., Liboni A., Zamboni P. Varicose Vein Stripping vs Haemodynamic Correction (CHIVA): a Long Term Randomised Trial // Eur J Vasc Endovasc Surg. 2008. Vol. 35, № 2. P. 230–237.
  365. Bellmunt-Montoya S., Escribano J.M., Dilme J., Martinez-Zapata M.J., Bellmunt-Montoya S. CHIVA method for the treatment of varicose veins // Cochrane Database Syst. Rev. 2012.
  366. a.M. Biemans A., van den Bos R.R., Hollestein L.M., Maessen-Visch M.B., Vergouwe Y., Neumann H. a. M., de Maeseneer M.G.R., Nijsten T. The effect of single phlebectomies of a large varicose tributary on great saphenous vein reflux // J Vasc Surg Venous Lymphat Disord. Society for Vascular Surgery, 2014. Vol. 2, № 2. P. 179–187.
  367. Pittaluga P., Chastanet S., Locret T., Barbe R. The Effect of Isolated Phlebectomy on Reflux and Diameter of the Great Saphenous Vein : A Prospective Study * // Eur J Vasc Endovasc Surg. Elsevier Ltd, 2010. Vol. 40, № 1. P. 122–128.
  368. Pittaluga P., Chastanet S., Rea B., Barbe R. Midterm results of the surgical treatment of varices by phlebectomy with conservation of a refluxing saphenous vein. // J Vasc Surg. 2009. Vol. 50, № 1. P. 107–118.
  369. Zolotukhin I.A., Seliverstov E.I., Zakharova E.A., Kirienko A.I. Isolated Phlebectomy Leads to Disappearance of Great Saphenous Vein Reflux // Flebologiia. 2016. Vol. 10, № 1. P. 8.
  370. Richards T., Anwar M., Beshr M., Davies A.H., Onida S. Systematic review of ambulatory selective variceal ablation under local anesthetic technique for the treatment of symptomatic varicose veins. // J. Vasc. surgery. Venous Lymphat. Disord. United States, 2021. Vol. 9, № 2. P. 525–535.
  371. Zolotukhin I.A., Seliverstov E.I., Zakharova E.A., Kirienko A.I. Short-term results of isolated phlebectomy with preservation of incompetent great saphenous vein (ASVAL procedure) in primary varicose veins disease. // Phlebology. 2017. Vol. 32, № 9. P. 601–607.
  372. Mirakhmedova S.A., Seliverstov E., Zakharova E.A., Efremova O., Zolotukhin I.A. 5-Year Results of ASVAL Procedure in Patients with Primary Varicose Veins // Flebologiia. 2020. Vol. 14. P. 107.
  373. De Roos K.P., Nieman F.H.M., Martino Neumann H.A. Ambulatory phlebectomy versus compression sclerotherapy: Results of a randomized controlled trial // Dermatologic Surg. 2003. Vol. 29, № 3. P. 221–226.
  374. Golbasi I., Turkay C., Erbasan O., Kemaloğlu C., Sanli S., Turkay M., Bayezid Ö. Endovenous laser with miniphlebectomy for treatment of varicose veins and effect of different levels of laser energy on recanalization. A single center experience. // Lasers Med. Sci. England, 2015. Vol. 30, № 1. P. 103–108.
  375. Olivencia J.A. Minimally invasive vein surgery: ambulatory phlebectomy. // Tech Vasc Interv Radiol. . 2003. Vol. 6, № 3. P. 121–124.
  376. Ramelet A.-A. Phlebectomy. Technique, indications and complications. // Int Angiol. . 2002. Vol. 21, № 2 Suppl 1. P. 46–51.
  377. Kabnick L.S., Ombrellino M. Ambulatory Phlebectomy // Semin Interv. Radiol. . 2005. Vol. 22, № 03. P. 218–224.
  378. Almeida J.I., Raines J.K. Ambulatory phlebectomy in the office // Perspect Vasc Surg Endovasc Ther. 2008. № 20. P. 348–355.
  379. Carr S.C. Update on Venous Procedures Performed in the Office Setting // Perspect Vasc Surg Endovasc Ther. 2009. Vol. 21, № 1. P. 21–26.
  380. Brake M., Lim C.S., Shepherd A.C., Shalhoub J., Davies A.H. Pathogenesis and etiology of recurrent varicose veins // J Vasc Surg. . 2013. Vol. 57, № 3. P. 860–868.
  381. O’Donnell T.F., Balk E.M., Dermody M., Tangney E., Iafrati M.D. Recurrence of varicose veins after endovenous ablation of the great saphenous vein in randomized trials // J Vasc Surg Venous Lymphat Disord. . 2016. Vol. 4, № 1. P. 97–105.
  382. Rass K., Frings N., Glowacki P. Same Site Recurrence is More Frequent After Endovenous Laser Ablation Compared with High Ligation and Stripping of the Great Saphenous Vein: 5 year Results of a Randomized Clinical Trial (RELACS Study) // Eur J Vasc Endovasc Surg. Elsevier Ltd, 2015. Vol. 5, № 50. P. 648–656.
  383. Labropoulos N., Touloupakis E., Giannoukas A.D., Leon M., Katsamouris A., Nicolaides A.N. Recurrent varicose veins: investigation of the pattern and extent of reflux with color flow duplex scanning. // Surgery. 1996. Vol. 119, № 4. P. 406–409.
  384. De Maeseneer M., Pichot O., Cavezzi A., Earnshaw J., van Rij A., Lurie F., Smith P.C., Union Internationale de Phlebologie. Duplex Ultrasound Investigation of the Veins of the Lower Limbs after Treatment for Varicose Veins – UIP Consensus Document // Eur J Vasc Endovasc Surg. 2011. Vol. 42, № 1. P. 89–102.
  385. Hayden A., Holdsworth J. Complications following re-exploration of the groin for recurrent varicose veins. // Ann R Coll Surg Engl. 2001. Vol. 83, № 4. P. 272–273.
  386. van Groenendael L., Flinkenflogel L., van der Vliet J.A., Roovers E.A., van Sterkenburg S.M.M., Reijnen M.M.P.J. Conventional surgery and endovenous laser ablation of recurrent varicose veins of the small saphenous vein: a retrospective clinical comparison and assessment of patient satisfaction // Phlebology. 2010. Vol. 25, № 3. P. 151–157.
  387. Hinchliffe R.J., Ubhi J., Beech A., Ellison J., Braithwaite B.D. A prospective randomised controlled trial of VNUS closure versus surgery for the treatment of recurrent long saphenous varicose veins. // Eur J Vasc Endovasc Surg. 2006. Vol. 31, № 2. P. 212–218.
  388. Creton D., Uhl J.F. Foam sclerotherapy combined with surgical treatment for recurrent varicose veins: short term results. // Eur J Vasc Endovasc Surg. 2007. Vol. 33, № 5. P. 619–624.
  389. Perrin M., Gillet J.-L. Management of recurrent varices at the popliteal fossa after surgical treatment // Phlebology. 2008. Vol. 23, № 2. P. 64–68.
  390. Pittaluga P., Chastanet S., Locret T., Rousset O. Retrospective evaluation of the need of a redo surgery at the groin for the surgical treatment of varicose vein. // J Vasc Surg. 2010. Vol. 51, № 6. P. 1442–1450.
  391. S O.M., Na C., Ea N. Compression for venous leg ulcers ( Review ) // Library (Lond). 2009. № 2.
  392. Fletcher A., Cullum N., Sheldon T. Systematic review of compression treatment for venous leg ulcers // BMJ. 1997. Vol. 315. P. 576–580.
  393. Ashby R.L., Gabe R., Ali S., Adderley U., Bland J.M., Cullum N.A., Dumville J.C., Iglesias C.P., Kangombe A.R., Soares M.O., Stubbs N.C., Torgerson D.J. Clinical and cost-effectiveness of compression hosiery versus compression bandages in treatment of venous leg ulcers (Venous leg Ulcer Study IV, VenUS IV): A randomised controlled trial // Lancet. Lancet Publishing Group, 2014. Vol. 383, № 9920. P. 871–879.
  394. Finlayson K.J., Courtney M.D., Gibb M.A., O’Brien J.A., Parker C.N., Edwards H.E. The effectiveness of a four-layer compression bandage system in comparison with Class 3 compression hosiery on healing and quality of life in patients with venous leg ulcers: a randomised controlled trial // Int. Wound J. John Wiley & Sons, Ltd, 2014. Vol. 11, № 1. P. 21–27.
  395. Milic D.J., Zivic S.S., Bogdanovic D.C., Jovanovic M.M., Jankovic R.J., Milosevic Z.D., Stamenkovic D.M., Trenkic M.S. The influence of different sub-bandage pressure values on venous leg ulcers healing when treated with compression therapy. // J. Vasc. Surg. United States, 2010. Vol. 51, № 3. P. 655–661.
  396. Vanscheidt W., Ukat A., Partsch H. Dose-response of compression therapy for chronic venous edema--higher pressures are associated with greater volume reduction: two randomized clinical studies. // J. Vasc. Surg. United States, 2009. Vol. 49, № 2. P. 395–402, 402.e1.
  397. O’Donnell M.J., McRae S., Kahn S.R., Julian J.A., Kearon C., Mackinnon B., Magier D., Strulovich C., Lyons T., Robinson S., Hirsh J., Ginsberg J.S. Evaluation of a venous-return assist device to treat severe post-thrombotic syndrome (VENOPTS). A randomized controlled trial. // Thromb. Haemost. Germany, 2008. Vol. 99, № 3. P. 623–629.
  398. Opletalová K., Blaizot X., Mourgeon B., Chêne Y., Creveuil C., Combemale P., Laplaud A.-L., Sohyer-Lebreuilly I., Dompmartin A. Maggot therapy for wound debridement: a randomized multicenter trial. // Arch. Dermatol. United States, 2012. Vol. 148, № 4. P. 432–438.
  399. Blumberg S.N., Maggi J., Melamed J., Golinko M., Ross F., Chen W. A histopathologic basis for surgical debridement to promote healing of venous ulcers. // J. Am. Coll. Surg. United States, 2012. Vol. 215, № 6. P. 751–757.
  400. Williams D., Enoch S., Miller D., Harris K., Price P., Harding K.G. Effect of sharp debridement using curette on recalcitrant nonhealing venous leg ulcers: a concurrently controlled, prospective cohort study. // Wound repair Regen. Off. Publ. Wound Heal. Soc. [and] Eur. Tissue Repair Soc. United States, 2005. Vol. 13, № 2. P. 131–137.
  401. O’Meara S.M., Cullum N.A., Majid M., Sheldon T.A. Systematic review of antimicrobial agents used for chronic wounds. // Br. J. Surg. England, 2001. Vol. 88, № 1. P. 4–21.
  402. Shimanko A.I., Dibirov M.D., Zubritsky V.F., Zemlyanoy A.B., Matveev D.A., Tsuranov S. V., Volkov A.S., Shvydko V.S., Maiorov A. V., Tyurin D.S., Magdiev A.K., Gagai S.P. The Combined Treatment of Trophic Ulcers of Venous Etiology // Flebologiia. Media Sphere Publishing Group, 2017. Vol. 11, № 2. P. 91.
  403. Gohel M., Barwell J., Taylor M., Chant T., Foy C., Earnshaw J., Heather B., Mitchell D., Whyman M., Poskitt K. Long term results of compression therapy alone versus compression plus surgery in chronic venous ulceration (ESCHAR) // BMJ. 2007. Vol. 335. P. 83.
  404. van Gent W.B., Catarinella F.S., Lam Y.L., Nieman F.H.M., Toonder I.M., van der Ham A.C., Wittens C.H.A. Conservative versus surgical treatment of venous leg ulcers: 10-year follow up of a randomized, multicenter trial // Phlebology. 2015/03/03. 2015. Vol. 30, № 1 Suppl. P. 35–41.
  405. Gohel M.S., Heatley F., Liu X., Bradbury A., Bulbulia R., Cullum N., Epstein D.M., Nyamekye I., Poskitt K.R., Renton S., Warwick J., Davies A.H. A Randomized Trial of Early Endovenous Ablation in Venous Ulceration // N. Engl. J. Med. New England Journal of Medicine (NEJM/MMS), 2018. Vol. 378, № 22. P. 2105–2114.
  406. Приказ Министерства труда и социальной защиты РФ от 13.06.2017 N 486н "Об утверждении Порядка разработки и реализации индивидуальной программы реабилитации или абилитации инвалида, индивидуальной программы реабилитации или абилитации ребенка-инвалида, выд [Electronic resource].
  407. Caggiati A., De Maeseneer M., Cavezzi A., Mosti G., Morrison N. Rehabilitation of patients with venous diseases of the lower limbs: State of the art. // Phlebology. England, 2018. Vol. 33, № 10. P. 663–671.
  408. van Rij A.M., De Alwis C.S., Jiang P., Christie R.A., Hill G.B., Dutton S.J., Thomson I.A. Obesity and impaired venous function. // Eur. J. Vasc. Endovasc. Surg. Off. J. Eur. Soc. Vasc. Surg. England, 2008. Vol. 35, № 6. P. 739–744.
  409. Mahapatra S., Pinjala R. krishna, Gupta B., Anusha A., Para M. Correlation of obesity & comorbid conditions with chronic venous insufficiency: Results of a single-centre study // Indian J. Med. Res. 2018. Vol. 147. P. 471.
  410. Davies H.O., Popplewell M., Singhal R., Smith N., Bradbury A.W. Obesity and lower limb venous disease - The epidemic of phlebesity. // Phlebology. England, 2017. Vol. 32, № 4. P. 227–233.
  411. Danielsson G., Eklof B., Grandinetti A., Kistner R.L. The influence of obesity on chronic venous disease. // Vasc. Endovascular Surg. United States, 2002. Vol. 36, № 4. P. 271–276.
  412. Nicolaides A.N., Labropoulos N. Burden and Suffering in Chronic Venous Disease. // Adv. Ther. 2019. Vol. 36, № Suppl 1. P. 1–4.
  413. Seidel A.C., Belczak C.E.Q., Campos M.B., Campos R.B., Harada D.S. The impact of obesity on venous insufficiency. // Phlebology. England, 2015. Vol. 30, № 7. P. 475–480.
  414. Deol Z.K., Lakhanpal S., Franzon G., Pappas P.J. Effect of obesity on chronic venous insufficiency treatment outcomes. // J. Vasc. surgery. Venous Lymphat. Disord. United States, 2020. Vol. 8, № 4. P. 617-628.e1.
  415. Cavalheri G.J., de Godoy J.M.P., Belczak C.E.Q. Correlation of haemodynamics and ankle mobility with clinical classes of clinical, aetiological, anatomical and pathological classification in venous disease. // Phlebology. England, 2008. Vol. 23, № 3. P. 120–124.
  416. de Moura R.M.F., Gomes H. de A., da Silva S.L.A., Britto R.R., Dias R.C. Analysis of the physical and functional parameters of older adults with chronic venous disease. // Arch. Gerontol. Geriatr. Netherlands, 2012. Vol. 55, № 3. P. 696–701.
  417. Yang D., Vandongen Y.K., Stacey M.C. Effect of exercise on calf muscle pump function in patients with chronic venous disease. // Br. J. Surg. England, 1999. Vol. 86, № 3. P. 338–341.
  418. Cetin C., Serbest M.O., Ercan S., Yavuz T., Erdogan A. An evaluation of the lower extremity muscle strength of patients with chronic venous insufficiency. // Phlebology. England, 2016. Vol. 31, № 3. P. 203–208.
  419. Padberg F.T.J., Johnston M. V, Sisto S.A. Structured exercise improves calf muscle pump function in chronic venous insufficiency: a randomized trial. // J. Vasc. Surg. United States, 2004. Vol. 39, № 1. P. 79–87.
  420. O’Brien J., Edwards H., Stewart I., Gibbs H. A home-based progressive resistance exercise programme for patients with venous leg ulcers: a feasibility study. // Int. Wound J. England, 2013. Vol. 10, № 4. P. 389–396.
  421. Iida H., Nakajima T., Kurano M., Yasuda T., Sakamaki M., Sato Y., Yamasoba T., Abe T. Effects of walking with blood flow restriction on limb venous compliance in elderly subjects. // Clin. Physiol. Funct. Imaging. England, 2011. Vol. 31, № 6. P. 472–476.
  422. Back T.L., Padberg F.T.J., Araki C.T., Thompson P.N., Hobson R.W. 2nd. Limited range of motion is a significant factor in venous ulceration. // J. Vasc. Surg. United States, 1995. Vol. 22, № 5. P. 519–523.
  423. Shiman M.I., Pieper B., Templin T.N., Birk T.J., Patel A.R., Kirsner R.S. Venous ulcers: A reappraisal analyzing the effects of neuropathy, muscle involvement, and range of motion upon gait and calf muscle function // Wound Repair Regen. John Wiley & Sons, Ltd, 2009. Vol. 17, № 2. P. 147–152.
  424. Ercan S., Çetin C., Yavuz T., Demir H.M., Atalay Y.B. Effects of isokinetic calf muscle exercise program on muscle strength and venous function in patients with chronic venous insufficiency. // Phlebology. England, 2018. Vol. 33, № 4. P. 261–266.
  425. Gürdal Karakelle S., Ipek Y., Tulin O., Alpagut İ.U. The efficiency of exercise training in patients with venous insufficiency: A double blinded, randomized controlled trial. // Phlebology. England, 2021. P. 268355520985759.
  426. Araujo D.N., Ribeiro C.T., Maciel A.C., Bruno S.S., Fregonezi G.A., Dias F. Al. Physical exercise for the treatment of non-ulcerated chronic venous insufficiency. // Cochrane database Syst. Rev. 2016. Vol. 12, № 12. P. CD010637.
  427. Gianesini S., Tessari M., Bacciglieri P., Malagoni A.M., Menegatti E., Occhionorelli S., Basaglia N., Zamboni P. A specifically designed aquatic exercise protocol to reduce chronic lower limb edema. // Phlebology. England, 2017. Vol. 32, № 9. P. 594–600.
  428. Hartmann B., Drews B., Bassenge E. [Venous capacity and venous outflow in healthy patients and patients with chronic venous insufficiency before and following swimming in 34 degree C warm water]. // Vasa. Suppl. Switzerland, 1991. Vol. 32. P. 443–445.
  429. Forestier R.J., Briancon G., Francon A., Erol F.B., Mollard J.M. Balneohydrotherapy in the treatment of chronic venous insufficiency. // Vasa. Switzerland, 2014. Vol. 43, № 5. P. 365–371.
  430. de Moraes Silva M.A., Nakano L.C., Cisneros L.L., Miranda F.J. Balneotherapy for chronic venous insufficiency. // Cochrane database Syst. Rev. 2019. Vol. 8, № 8. P. CD013085.
  431. Becker B.E. Aquatic therapy: scientific foundations and clinical rehabilitation applications. // PM R. United States, 2009. Vol. 1, № 9. P. 859–872.
  432. Caggiati A., Lattimer C., Kalodiki E., Oberto S., Bergamo G., Kontothanassis D. Underwater Sonography of Leg Veins // EJVES Short Reports. 2018. Vol. 41. P. 13–15.
  433. Bender T., Karagülle Z., Bálint G.P., Gutenbrunner C., Bálint P. V, Sukenik S. Hydrotherapy, balneotherapy, and spa treatment in pain management. // Rheumatol. Int. Germany, 2005. Vol. 25, № 3. P. 220–224.
  434. Menegatti E., Masiero S., Zamboni P., Avruscio G., Tessari M., Pagani A., Gianesini S. Randomized controlled trial on Dryland And Thermal Aquatic standardized exercise protocol for chronic venous disease (DATA study). // J. Vasc. surgery. Venous Lymphat. Disord. United States, 2021.
  435. Carpentier P.H., Blaise S., Satger B., Genty C., Rolland C., Roques C., Bosson J.-L. A multicenter randomized controlled trial evaluating balneotherapy in patients with advanced chronic venous insufficiency. // J. Vasc. Surg. United States, 2014. Vol. 59, № 2. P. 447-454.e1.
  436. Nelson E.A., Hillman A., Thomas K. Intermittent pneumatic compression for treating venous leg ulcers // Cochrane Database Syst. Rev. 2014. Vol. 2014, № 5.
  437. Mohamed W.A.I., Badr N.M., Fouad B.E., Alaal M.E.M.A. Efficacy of Intermittent Pneumatic Compression on Blood Flow in Patient with Varicose Veins // Arch. Pharm. Pract. 2020. Vol. 11, № 2. P. 149–153.
  438. Yamany A., Hamdy B. Effect of sequential pneumatic compression therapy on venous blood velocity, refilling time, pain and quality of life in women with varicose veins: a randomized control study // J. Phys. Ther. Sci. 2016/07/29. The Society of Physical Therapy Science, 2016. Vol. 28, № 7. P. 1981–1987.
  439. Bogachev V.Y., Lobanov V.N., Golovanova O. V, Kuznetsov A.N., Yershov P. V. Electrical muscle stimulation with Veinoplus® device in the treatment of venous ulcers. // Int. Angiol. Italy, 2015. Vol. 34, № 3. P. 257–262.
  440. Le Tohic A., Bastian H., Pujo M., Beslot P., Mollard R., Madelenat P. [Effects of electrostimulation (Veinoplus) on lower limbs venous insufficiency-related symptoms during pregnancy. Preliminary study]. // Gynecol. Obstet. Fertil. France, 2009. Vol. 37, № 1. P. 18–24.
  441. Bogachev V.Y., Golovanova O. V, Kuznetsov A.N., Shekoyan A.O., Bogacheva N. V. Electromuscular stimulation with VEINOPLUS® for the treatment of chronic venous edema. // Int. Angiol. Italy, 2011. Vol. 30, № 6. P. 567–590.
  442. Jeran M., Zaffuto S., Moratti A., Bagnacani M., Cadossi R. Pemf Stimulation of Skin Ulcers of Venous Origin in Humans Preliminary Report of a Double Blind Study // J. Bioelectr. Taylor & Francis, 1987. Vol. 6, № 2. P. 181–188.
  443. Kenkre J.E., Hobbs F.D.R., Carter Y.H., Holder R.L., Holmes E.P. A randomized controlled trial of electromagnetic therapy in the primary care management of venous leg ulceration // Fam. Pract. 1996. Vol. 13, № 3. P. 236–241.
  444. Ieran M., Zaffuto S., Bagnacani M., Annovi M., Moratti A., Cadossi R. Effect of low frequency pulsing electromagnetic fields on skin ulcers of venous origin in humans: A double-blind study // J. Orthop. Res. John Wiley & Sons, Ltd, 1990. Vol. 8, № 2. P. 276–282.
  445. Alekseenko A. V, Gusak V. V. [Treatment of trophic ulcers of the lower extremities using a magnetic field]. // Klin. Khir. Ukraine, 1991. № 7. P. 60–63.
  446. Кульчицкая Д., Кульчицкая Д.Б., Kul’chitskaya D.B. Лазерная допплеровская флоуметрия в оценке эффективности магнитных воздействий у больных с хронической венозной недостаточностью нижних конечностей // Физиотерапия, бальнеология и реабилитация. 2010. Vol. 9, № 1. P. 13–15.
  447. Flemming K., Cullum N. Laser therapy for venous leg ulcers. // Cochrane database Syst. Rev. England, 2000. № 2. P. CD001182.
  448. Kopera D., Kokol R., Berger C., Haas J. Low level laser: does it influence wound healing in venous leg ulcers? A randomized, placebo-controlled, double-blind study. // Br. J. Dermatol. England, 2005. Vol. 152, № 6. P. 1368–1370.
  449. Гавриленко А.В., Мусаев М.М., Вахратьян П.Е. Лазерные технологии в лечении трофических язв венозной этиологии // Лазерная медицина. 2015. Vol. 19, № 4. 58–62 p.
  450. Каторкин С.Е., Жуков А.А., Мельников М.А., Кушнарчук М.Ю. Комбинированное лечение трофических язв при хронических заболеваниях вен нижних конечностей // Лазерная медицина. 2015. Vol. 19, № 3. 23–28 p.
  451. Lagan K.M., Mc Donough S.M., Clements B.A., Baxter G.D. A case report of low intensity laser therapy (LILT) in the management of venous ulceration: potential effects of wound debridement upon efficacy. // J. Clin. Laser Med. Surg. United States, 2000. Vol. 18, № 1. P. 15–22.
  452. Konchugova T.V., Askhadulin E.V., Kulchitskaya D.B., Fesyun A.D., Melnikova E.A., Nikitin M.V. The effectiveness of combined laser therapy in patients with trophic leg ulcer and chronic venous insufficiency // Vopr. Kurortol. Fizioter. i Lech. Fiz. kul’tury. 2020. Vol. 97, № 5. P. 45.
  453. Johannsen F., Gam A.N., Karlsmark T. Ultrasound therapy in chronic leg ulceration: a meta-analysis. // Wound repair Regen. Off. Publ. Wound Heal. Soc. [and] Eur. Tissue Repair Soc. United States, 1998. Vol. 6, № 2. P. 121–126.
  454. Al-Kurdi D., Bell-Syer S.E.M., Flemming K. Therapeutic ultrasound for venous leg ulcers. // Cochrane database Syst. Rev. England, 2008. № 1. P. CD001180.
  455. Приказ Министерства здравоохранения РФ от 29 марта 2019 г. № 173н “Об утверждении порядка проведения диспансерного наблюдения за взрослыми” [Electronic resource].
  456. Mosti G., Mattaliano V., Partsch H. Inelastic compression increases venous ejection fraction more than elastic bandages in patients with superficial venous reflux. // Phlebology. England, 2008. Vol. 23, № 6. P. 287–294.
  457. O’Brien J.F., Grace P.A., Perry I.J., Hannigan A., Clarke Moloney M., Burke P.E. Randomized clinical trial and economic analysis of four-layer compression bandaging for venous ulcers. // Br. J. Surg. England, 2003. Vol. 90, № 7. P. 794–798.
  458. García-Gimeno M., Rodríguez-Camarero S., Tagarro-Villalba S., Ramalle-Gomara E., Ajona García J.A., González Arranz M.A., López García D., González-González E., Vaquero Puerta C. Reflux patterns and risk factors of primary varicose veins’ clinical severity. // Phlebology. England, 2013. Vol. 28, № 3. P. 153–161.
  459. Ismail L., Normahani P., Standfield N.J., Jaffer U. A systematic review and meta-analysis of the risk for development of varicose veins in women with a history of pregnancy. // J. Vasc. surgery. Venous Lymphat. Disord. United States, 2016. Vol. 4, № 4. P. 518-524.e1.
  460. Engelhorn C.A., Cassou M.F., Engelhorn A.L., Salles-Cunha S.X. Does the number of pregnancies affect patterns of great saphenous vein reflux in women with varicose veins? // Phlebology. England, 2010. Vol. 25, № 4. P. 190–195.
  461. Gould M.K., Garcia D. a, Wren S.M., Karanicolas P.J., Arcelus J.I., Heit J. a, Samama C.M. Prevention of VTE in nonorthopedic surgical patients: Antithrombotic Therapy and Prevention of Thrombosis, 9th ed: American College of Chest Physicians Evidence-Based Clinical Practice Guidelines. // Chest. 2012. Vol. 141, № 2 Suppl. P. e227S-77S.

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