ChristopoulosDGNicolaidesANSzendroG, et alAir-plethysmography and the effect of elastic compression on venous hemodynamics of the leg. J Vasc Surg1987; 5: 148–159.
2.
CriadoEFarberMAMarstonWA, et alThe role of air plethysmography in the diagnosis of chronic venous insufficiency. J Vasc Surg1998; 27: 660–670.
3.
OwensLVFarberMAYoungML, et alThe value of air plethysmography in predicting clinical outcome after surgical treatment of chronic venous insufficiency. J Vasc Surg2000; 32: 961–968.
4.
GhorbanzadehALiedlDElbenawiH, et alRelationship between calf muscle pump function and severity of chronic venous disease. Vasc Med2025; 30: 473–479.
5.
HoughtonDEAshraniALiedlD, et alReduced calf muscle pump function is a risk factor for venous thromboembolism: A population-based cohort study. Blood2021; 137: 3284–3290.
6.
HoughtonDEAshraniALiedlD, et alReduced calf pump function and proximal deep vein incompetence are predictors for ipsilateral deep vein thrombosis. Vasc Med2023; 28: 57–58.
7.
O’DonnellTFJrPassmanMAMarstonWA, et alManagement of venous leg ulcers: Clinical practice guidelines of the Society for Vascular Surgery® and the American Venous Forum. J Vasc Surg2014; 60: 3S–59S.
8.
KolluriRLugliMVillalbaL, et alAn estimate of the economic burden of venous leg ulcers associated with deep venous disease. Vasc Med2022; 27: 63–72.
9.
CherBAYBrownCSObiAT, et alWomen benefit from endovenous ablation with fewer complications: Analysis of the Vascular Quality Initiative Varicose Vein Registry. J Vasc Surg Venous Lymphat Disord2022; 10: 1229–1237.e2.
