Venous hemodynamic changes in lower limb venous disease: the UIP consensus according to scientific evidence.

There are excellent guidelines for clinicians to manage venous diseases but few reviews to assess their hemodynamic background. Hemodynamic concepts that evolved in the past have largely remained unchallenged in recent decades, perhaps due to their often complicated nature and in part due to emergence of new diagnostic techniques. Duplex ultrasound scanning and other imaging techniques which evolved in the latter part of the 20th century have dominated investigation. They have greatly improved our understanding of the anatomical patterns of venous reflux and obstruction. However, they do not provide the physiological basis for understanding the hemodynamics of flow, pressure, compliance and resistance. Hemodynamic investigations appear to provide a better correlation with post-treatment clinical outcome and quality of life than ultrasound findings. There is a far better prospect for understanding the complete picture of the patient's disability and response to management by combining ultrasound with hemodynamic studies. Accordingly, at the instigation of Dr Angelo Scuderi, the Union Internationale de Phlebologie (UIP) executive board commissioned a large number of experts to assess all aspects of management for venous disease by evidence-based principles. These included experts from various member societies including the European Venous Forum (EVF), American Venous Forum (AVF), American College of Phlebology (ACP) and Cardiovascular Disease Educational and Research Trust (CDERT). Their aim was to confirm or dispel long-held hemodynamic principles and to provide a comprehensive review of venous hemodynamic concepts underlying the pathophysiology of lower limb venous disorders, their usefulness for investigating patients and the relevant hemodynamic changes associated with various forms of treatment. Chapter 1 is devoted to basic hemodynamic concepts and normal venous physiology. Chapter 2 presents the mechanism and magnitude of hemodynamic changes in acute deep vein thrombosis indicating their pathophysiological and clinical significance. Chapter 3 describes the hemodynamic changes that occur in different classes of chronic venous disease and their relation to the anatomic extent of disease in the macrocirculation and microcirculation. The next four chapters (Chapters 4-7) describe the hemodynamic changes resulting from treatmen by compression using different materials, intermittent compression devices, pharmacological agents and finally surgical or endovenous ablation. Chapter 8 discusses the unique hemodynamic features associated with alternative treatment techniques used by the CHIVA and ASVAL. Chapter 9 describes the hemodynamic effects following treatment to relieve pelvic reflux and obstruction. Finally, Chapter 10 demonstrates that contrary to general belief there is a moderate to good correlation between certain hemodynamic measurements and clinical severity of chronic venous disease. The authors believe that this document will be a timely asset to both clinicians and researchers alike. It is directed towards surgeons and physicians who are anxious to incorporate the conclusions of research into their daily practice. It is also directed to postgraduate trainees, vascular technologists and bioengineers, particularly to help them understand the hemodynamic background to pathophysiology, investigations and treatment of patients with venous disorders. Hopefully it will be a platform for those who would like to embark on new research in the field of venous disease.

Stefano Ricci | Tomasz Urbanek | Paolo Zamboni | Fausto Passariello | Mark Meissner | Robert Kistner | Anders Thurin | Eliete Bouskela | Seshadri Raju | Fedor Lurie | Ying Huang | Lena Blomgren | Kirk Beach | Hugo Partsch | Andrew N Nicolaides | Angelo Scuderi | Massimo Cappelli | Tilo Kölbel | Jovan Markovic | Niels Bækgaard | Claude Franceschi | Nicos Labropoulos | J. Christenson | H. Moore | A. Davies | G. Moneta | A. Nicolaides | K. Beach | G. Geroulakos | S. Kakkos | P. Pittaluga | K. Myers | S. Ricci | C. Wittens | P. Zamboni | E. Bouskela | J. Caprini | M. Meissner | T. Ogawa | F. Lurie | R. Kistner | S. Raju | H. Partsch | J. Laredo | K. Parsi | C. Slagsvold | A. Rosales | E. Mendoza | S. Gianesini | P. Gloviczki | T. Kölbel | O. Nelzén | H. Clarke | A. Gasparis | N. Labropoulos | T. Urbanek | Giovanni Mosti | P. Antignani | Erika Mendoza | Peter Gloviczki | A. Giannoukas | Stavros K Kakkos | George Geroulakos | E. Kalodiki | S. Ermini | M. Cappelli | A. Scuderi | Byung-Boong Lee | P. Carpentier | Veronica Ibegbuna | S. Zimmet | Athanasios Giannoukas | Kurosh Parsi | Nick Morrison | Ying Huang | G. Mosti | A. Cavezzi | Byung B Lee | Kenneth Myers | Evi Kalodiki | Claudio Allegra | Pier L Antignani | Giovanni Belcaro | Stephen Black | Joseph Caprini | Patrick Carpentier | Attilio Cavezzi | Sylvain Chastanet | Jan T Christenson | Demetris Christopoulos | Heather Clarke | Alun Davies | Marianne Demaeseneer | Bo Eklöf | Stefano Ermini | Fidel Fernández | Antonios Gasparis | Sergio Gianesini | Ralph L Kurstjens | James Laredo | Christopher R Lattimer | Marzia Lugli | Oscar Maleti | Javier L Monedero | Gregory Moneta | Hayley Moore | Olle Nelzén | Alfred Obermayer | Tomohiro Ogawa | Michel L Perrin | Paul Pittaluga | Antonio Rosales | Carl E Slagsvold | Andre M VAN Rij | Michael Vasquez | Cees H Wittens | Steven Zimmet | Santiago Z Ezpeleta | B. Eklöf | G. Belcaro | J. Markovic | C. Lattimer | N. Bækgaard | N. Morrison | M. Vasquez | A. Thurin | L. Blomgren | Michel Perrin | A. Obermayer | S. Chastanet | R. Kurstjens | J. L. Monedero | S. Z. Ezpeleta | M. Lugli | O. Maleti | C. Franceschi | F. Passariello | D. Christopoulos | C. Allegra | StephenM. Black | V. Ibegbuna | F. Fernández | M. Demaeseneer | Andre M VAN Rij | Stephen Black

[1]  H Partsch,et al.  The use of pressure change on standing as a surrogate measure of the stiffness of a compression bandage. , 2005, European journal of vascular and endovascular surgery : the official journal of the European Society for Vascular Surgery.

[2]  E H WOOD,et al.  Venous pressure in the saphenous vein at the ankle in man during exercise and changes in posture. , 1949, Journal of applied physiology.

[3]  M. Dohm,et al.  Micro-mobile Foot Compression Device Compared with Pneumatic Compression Device , 2011, Clinical orthopaedics and related research.

[4]  H Partsch,et al.  [Alteration of blood volume distribution throughout the body resulting from physical and pharmacological interventions]. , 1977, VASA. Zeitschrift fur Gefasskrankheiten.

[5]  B. R. Meyerowitz,et al.  MEASUREMENT OF THE VELOCITY OF BLOOD IN LOWER LIMB VEINS WITH AND WITHOUT COMPRESSION. , 1964, Surgery.

[6]  H Partsch,et al.  Compression therapy of the legs. A review. , 1991, The Journal of dermatologic surgery and oncology.

[7]  W. Olszewski,et al.  Intrinsic contractility of prenodal lymph vessels and lymph flow in human leg. , 1980, The American journal of physiology.

[8]  J. Raffetto,et al.  Glycosaminoglycan sulodexide modulates inflammatory pathways in chronic venous disease. , 2014, International angiology : a journal of the International Union of Angiology.

[9]  G M Lyons,et al.  Haemodynamic study examining the response of venous blood flow to electrical stimulation of the gastrocnemius muscle in patients with chronic venous disease. , 2006, European journal of vascular and endovascular surgery : the official journal of the European Society for Vascular Surgery.

[10]  N. Danziger [Pathophysiology of pain in venous disease]. , 2007, Journal des Maladies Vasculaires.

[11]  G. Rudofsky,et al.  Venous Pressure Dynamics of the Healthy Human Leg , 2001, Journal of Vascular Research.

[12]  R. G. Morgan,et al.  Treatment of lymphedema of the arms and legs with 5,6-benzo-[alpha]-pyrone. , 1993, The New England journal of medicine.

[13]  G. Belcaro,et al.  French Oak Wood (Quercus robur) Extract (Robuvit) in Primary Lymphedema: A Supplement, Pilot, Registry Evaluation , 2014, International Journal of Angiology.

[14]  G. Moneta,et al.  The hemodynamics and diagnosis of venous disease. , 2007, Journal of vascular surgery.

[15]  E. Kruithof,et al.  Effects of intermittent pneumatic compression on venous haemodynamics and fibrinolytic activity , 1997, Blood coagulation & fibrinolysis : an international journal in haemostasis and thrombosis.

[16]  F. Alliot,et al.  Treatment of secondary lymphedema of the upper limb with CYCLO 3 FORT. , 1996, Lymphology.

[17]  Hugo Partsch,et al.  Calf compression pressure required to achieve venous closure from supine to standing positions. , 2005, Journal of vascular surgery.

[18]  Barry J. Broderick,et al.  A pilot evaluation of a neuromuscular electrical stimulation (NMES) based methodology for the prevention of venous stasis during bed rest. , 2010, Medical engineering & physics.

[19]  G. Agnelli,et al.  Randomised, Double Blind, Multicentre, Placebo Controlled Study of Sulodexide in the Treatment of Venous Leg Ulcers , 2002, Thrombosis and Haemostasis.

[20]  R. Khazanchi,et al.  Coumarin and 7-hydroxycoumarin treatment of canine obstructive lymphoedema. , 1989, Clinical science.

[21]  H. Partsch,et al.  Improvement of Ambulatory Venous Hypertension by Narrowing of the Femoral Vein in Congenital Absence of Venous Valves , 1992 .

[22]  B. Ottillinger,et al.  Rational therapy of chronic venous insufficiency – chances and limits of the therapeutic use of horse-chestnut seeds extract , 2001, BMC cardiovascular disorders.

[23]  John V. White,et al.  Hemodynamic deterioration in chronic venous disease. , 1992, Journal of vascular surgery.

[24]  A. Vital,et al.  Evidence for unmyelinated C fibres and inflammatory cells in human varicose saphenous vein. , 2010, The International journal of angiology : official publication of the International College of Angiology, Inc.

[25]  I. Greer,et al.  The effect of graduated compression stockings on blood velocity in the deep venous system of the lower limb in the postnatal period , 2007, BJOG : an international journal of obstetrics and gynaecology.

[26]  H. Partsch,et al.  Unexpected venous diameter reduction by compression stocking of deep, but not of superficial veins , 2012 .

[27]  A. Nicolaides,et al.  Investigation of chronic venous insufficiency: A consensus statement (France, March 5-9, 1997). , 2000, Circulation.

[28]  I. Greer,et al.  Technical note: compression stockings and posture: a comparative study of their effects on the proximal deep veins of the leg at rest. , 1995, The British journal of radiology.

[29]  J. Hasty,et al.  Deep vein thrombosis: Effect of graduated compression stockings on distension of the deep veins of the calf , 1991, The British journal of surgery.

[30]  H. Partsch,et al.  Influence of Different Materials in Multicomponent Bandages on Pressure and Stiffness of the Final Bandage , 2008, Dermatologic surgery : official publication for American Society for Dermatologic Surgery [et al.].

[31]  Gregory E Wilding,et al.  Electrical Foot Stimulation: A Potential New Method of Deep Venous Thrombosis Prophylaxis , 2010, Vascular.

[32]  J. Levick,et al.  Increased dermal lymphatic density in the human leg compared with the forearm. , 1999, Microvascular research.

[33]  H. Partsch [Improving the venous pumping function in chronic venous insufficiency by compression as dependent on pressure and material]. , 1984, VASA. Zeitschrift fur Gefasskrankheiten.

[34]  M. Clark,et al.  Classification of Compression Bandages: Practical Aspects , 2008, Dermatologic surgery : official publication for American Society for Dermatologic Surgery [et al.].

[35]  C. McCollum,et al.  Oxerutins in the prevention of recurrence in chronic venous ulceration: Randomized controlled trial , 1991, The British journal of surgery.

[36]  L. Cotton,et al.  ANATOMICAL LOCALIZATION OF VENOUS THROMBOSIS. , 1965, Annals of the Royal College of Surgeons of England.

[37]  M. Setou,et al.  Loss of lymphatic vessels and regional lipid accumulation is associated with great saphenous vein incompetence. , 2012, Journal of vascular surgery.

[38]  D. Clement Management of Venous Edema: Insights from an International Task Force , 2000, Angiology.

[39]  V. C. Roberts,et al.  Passive Flexion and Femoral Vein Flow: A Study Using a Motorized Foot Mover , 1971, British medical journal.

[40]  M. Mai,et al.  The changes in intramuscular pressure and femoral vein flow with continuous passive motion, pneumatic compressive stockings, and leg manipulations. , 1991, Clinical Orthopaedics and Related Research.

[41]  K. Seers,et al.  Benzo-pyrones for reducing and controlling lymphoedema of the limbs. , 2004, The Cochrane database of systematic reviews.

[42]  H. Partsch,et al.  Controlled, Comparative Study of Relation between Volume Changes and Interface Pressure under Short‐Stretch Bandages in Leg Lymphedema Patients , 2008, Dermatologic surgery : official publication for American Society for Dermatologic Surgery [et al.].

[43]  Hugo Partsch,et al.  The Static Stiffness Index: A Simple Method to Assess the Elastic Property of Compression Material In Vivo , 2005, Dermatologic surgery : official publication for American Society for Dermatologic Surgery [et al.].

[44]  J. Scurr,et al.  Mechanism of action of external compression on venous function , 1992, The British journal of surgery.

[45]  P. Novotny,et al.  Lack of effect of coumarin in women with lymphedema after treatment for breast cancer. , 1999, The New England journal of medicine.

[46]  T. O'donnell,et al.  Effect of elastic compression on venous hemodynamics in postphlebitic limbs. , 1979, JAMA.

[47]  K. Yamashita,et al.  Blood flow velocity of the femoral vein with foot exercise compared to pneumatic foot compression. , 2005, Journal of clinical anesthesia.

[48]  John P. Woodcock,et al.  Evidence-Based Compression: Prevention of Stasis and Deep Vein Thrombosis , 2004, Annals of surgery.

[49]  A. Hughes,et al.  Role of MRI in investigating the effects of elastic compression stockings on the deformation of the superficial and deep veins in the lower leg , 2007, Journal of magnetic resonance imaging : JMRI.

[50]  D Bond,et al.  The efficacy of a new stimulation technology to increase venous flow and prevent venous stasis. , 2010, European journal of vascular and endovascular surgery : the official journal of the European Society for Vascular Surgery.

[51]  P. Coleridge-Smith,et al.  Venous leg ulcer: a meta-analysis of adjunctive therapy with micronized purified flavonoid fraction. , 2005, European journal of vascular and endovascular surgery : the official journal of the European Society for Vascular Surgery.

[52]  E. Murillo,et al.  Comparative study of the clinical efficacy of two different coumarin dosages in the management of arm lymphedema after treatment for breast cancer. , 1999, Lymphology.

[53]  E. A. Nelson,et al.  Compression for venous leg ulcers. , 2009, The Cochrane database of systematic reviews.

[54]  H. Partsch,et al.  Inelastic compression increases venous ejection fraction more than elastic bandages in patients with superficial venous reflux , 2008, Phlebology.

[55]  H. Partsch,et al.  Does thigh compression improve venous hemodynamics in chronic venous insufficiency? , 2002, Journal of vascular surgery.