Clinical correlation of the area of inferior vena cava, iliac and femoral veins for stent use.
Afsha AurshinaArkady GanelinAnil HingoraniSheila BlumbergYuriy OstrozhynskyyBorislav KheysonEnrico AscherPublished in: Vascular (2017)
Objective The purpose of the study is to evaluate normal anatomical areas of infrarenal inferior vena cava, common iliac, external iliac and common femoral veins by intravascular ultrasound with the goal of assisting the development of venous-specific stents in the treatment of iliac vein stenosis. Method From February 2012 to December 2013, 656 office-based venograms were performed in our facility. Among them, 576 were stented and 80 were not. The measurements of veins were done intraoperatively using an intravascular ultrasound catheter to record areas of the inferior vena cava, proximal, middle and distal segments of common iliac vein, external iliac vein and common femoral vein. The data were compared between non-diseased segments of patients who were stented and those not stented. The stented diseased segments were excluded. Results The mean patient age was 67.33 years (range 22-96, SD ±13.99). Our data included 218 males, 438 females and 324 right lower extremities and 332 left lower extremities. The presenting symptoms of these patients based on CEAP were C1(0), C2 (185), C3(233), C4(107), C5(89) and C6(42). No correlation was found between area of veins and age, gender, laterality and CEAP score (P > .13). Comparison of the areas of non-diseased iliac vein segments between patients not stented and patients who underwent stenting showed a significant difference, with larger areas in non-stented patients in the distal common iliac vein (P = .039) and inferior vena cava (P = .012). Younger age (P = .03) and male gender (P < .0001) were associated with increased area of iliac vein segments. Conclusion Utilizing the intravascular ultrasound-guided technique, we were able to define normal anatomical areas of non-diseased inferior vena cava, iliac and femoral veins, which could be employed to guide the development of appropriate-sized stents and other tools needed for the treatment of venous insufficiency. There is specific variability in areas of normal vein segments with age and gender with/without stents.
Keyphrases
- inferior vena cava
- pulmonary embolism
- end stage renal disease
- vena cava
- newly diagnosed
- ejection fraction
- chronic kidney disease
- endovascular treatment
- peritoneal dialysis
- coronary artery
- ultrasound guided
- magnetic resonance imaging
- prognostic factors
- machine learning
- minimally invasive
- physical activity
- deep learning
- artificial intelligence
- combination therapy