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1.
HYPOTHESIS: As the compliant greater saphenous vein (GSV) adjusts its luminal size to the level of transmural pressure, measurement of its diameter, reflecting the severity of hemodynamic compromise in limbs with GSV reflux, may simplify the hemodynamic criteria of patient selection for saphenectomy. OBJECTIVE: To evaluate the clinical significance of GSV diameter determined in the thigh and calf as a marker of global hemodynamic impairment and clinical severity in a model comprising patients with saphenofemoral junction and truncal GSV incompetence. DESIGN: A cohort study. SETTING: University-associated tertiary care hospitals in Brazil and England. PATIENTS: Eighty-five consecutive patients, aged 28 to 82 (mean, 46.2) years; 112 lower limbs with saphenofemoral junction and truncal GSV incompetence were investigated. INTERVENTIONS: Clinical examination was followed by clinical, etiological, anatomical, and pathophysiological classification (CEAP), vein duplex, and air plethysmography. The GSV diameter was measured on standing at the knee, and at 10, 20, and 30 cm above and below the knee, and in the thigh and calf, respectively, using B-mode imaging. The venous filling index (VFI), venous volume (VV), and residual volume fraction (RVF) were measured by air plethysmography. MAIN OUTCOME MEASURES: The GSV diameter was correlated with the VFI, VV, RVF, and CEAP. The value of the GSV diameter for predicting the presence of critical reflux (VFI >7 mL/s) or the absence of abnormal reflux (VFI <2 mL/s) was determined with receiver-operator curves. RESULTS: The GSV diameter increased significantly overall with CEAP (P<.001) and also increased progressively with proximity to the saphenofemoral junction. The VFI, VV, and RVF increased significantly from CEAP(0) through CEAP(4-6); the VFI correlated well with VV, RVF, and CEAP (P<.001 for all). The GSV diameter at all 7 limb levels studied correlated well with VV (except at the distal calf), VFI, RVF, and CEAP (P< or =.009 for all). A GSV diameter of 5.5 mm or less predicted the absence of abnormal reflux, with a sensitivity of 78%, a specificity of 87%, positive and negative predictive values of 78%, and an accuracy of 82%. A GSV diameter of 7.3 mm or greater predicted critical reflux (VFI >7 mL/s), with an 80% sensitivity, an 85% specificity, and an 84% accuracy. CONCLUSION: The GSV diameter proved to be a relatively accurate measure of hemodynamic impairment and clinical severity in a model of saphenofemoral junction and GSV incompetence, predicting not only the absence of abnormal reflux, but also the presence of critical venous incompetence, assisting in clinical decision making before considering greater saphenectomy. 相似文献
2.
M V L Barros N Labropoulos A L P Ribeiro R Y Okawa F S Machado 《European journal of vascular and endovascular surgery》2006,31(3):320-324
PURPOSE: To evaluate anatomical and haemodynamic differences in patients with great saphenous vein (GSV) insufficiency by duplex scanning and air plethysmography. MATERIAL AND METHODS: Duplex scanning and air plethysmography examination were undertaken. One hundred and twenty-one limbs in 91 patients were selected prospectively and divided into three groups: group A consisted of 27 controls; group B consisted of 25 limbs with GSV reflux and normal saphenous femoral junction (SFJ) and group C consisted of 69 limbs of patients with GSV and SFJ reflux. The presence of reflux and GSV diameter (SFJ, proximal and medial thirds of the thigh, the knee and medial and distal thirds of the calf) were assessed by duplex scanning. Air plethysmography was used to evaluate haemodynamic parameters: total venous volume (VV), venous filling index (VFI), residual volume fraction (RVF) and ejection fraction (EF). RESULTS: There was a significant difference in GSV diameter among the three groups in almost all segments evaluated (e.g. medial thigh group A = 2.4 SD 0.3 mm; B = 3.2 SD 0.7 mm; C = 5.9 SD 2.2mm p<0.001, Anova). A significant difference in VFI was found among the groups (group A = 1.2 SD 0.5; B = 2.0 SD 1.4; C = 4.0 SD 2.5 p<0.05, Anova). VV was statistical different between groups A and C (p = 0.004) and B and C(p = 0.03). EF and RVF were comparable in all groups. The VFI was normal in 68% in group B comparing with only 14.5% in group C patients, finding a reflux more than 5ml/s (determined by VFI) in 26.1% of the group C patients, comparing with only 4% of group B patients (p<0.05). CONCLUSION: We have shown that in patients with GSV reflux those with incompetence of the ostial valve of the GSV show greater venous reflux and dilatation of the saphenous trunk than those in whom the ostial valve is competent. 相似文献
3.
BACKGROUND: The greater saphenous vein (GSV) is one of the best grafts for vascular reconstruction, and a variety of sparing methods in patients with primary varicose veins have been performed. Of these, valvuloplasty of the subterminal valve is useful, but reflux in the proximal GSV via a competent tributary vein still remains. To minimize the subsequent reflux, we propose a new method, "valvuloplasty combined with axial transposition of a competent tributary vein" for the treatment of GSV incompetence. OBJECTIVE: To compare this new method with single valvuloplasty. METHODS: Seventy-eight limbs in 65 patients with GSV incompetence were included. Of these limbs, 38 underwent angioscopic valvuloplasty of the subterminal valve alone (V group). The remaining 40 were treated by angioscopic valvuloplasty combined with axial transposition of a competent tributary vein (V + T group). A competent tributary vein was identified by duplex scan in the thigh before surgery. After angioscopic valvuloplasty had been done, a competent tributary vein was exposed, and was cut 1.5 cm distal to its insertion. The distal cut end of the vein was then transposed to the GSV and end-to-side anastomosis was performed using 8-0 nylon under magnification. The incompetent GSV was ligated between the insertion and the anastomosed region. Venous hemodynamic changes were analyzed using air plethysmography (APG). Values obtained by9 APG included venous volume (VV), venous filling index (VFI), ejection fraction (EF), and residual venous function (RVF). The follow-up period was 18 months. Intergroup differences were analyzed with the Wilcoxon ranked sum test for nonparametric distribution. RESULTS: There were no statistical differences in age, gender, or clinical presentation between the two groups. In the V group, 27 limbs had reflux in the proximal GSV (67.4%). On the other hand, only 6 limbs (13.3%) showed minor reflux in the V + T group. A significant difference was seen in VFI at 1 year, and a continuous increase was observed in the V group during the follow-up examinations (P =.0035, VFI = 2.50 plus minus 1.21, 1.14 plus minus 0.42 at 18 months, respectively). CONCLUSION: Valvuloplasty combined with axial transposition of a competent tributary vein gives a better result than valvuloplasty alone at the 18-month follow-up. A competent valve in this location can be expected to improve VFI to a normal range. 相似文献
4.
V Ibegbuna K T Delis A N Nicolaides 《European journal of vascular and endovascular surgery》2006,31(5):535-541
OBJECTIVE: The purpose of this study was to assess the effect of venous incompetence of the deep, superficial and perforator veins combined (i.e. multi-system incompetence) on the venous haemodynamics and clinical condition of limbs with chronic venous disease (CVD). METHODS: One hundred and thirty two limbs (16-C(1); 30-C(2); 20-C(3); 25-C(4); 21-C(5); 20-C(6)) of 121 patients were studied. We excluded those with previous venous surgery/sclerotherapy, peripheral arterial disease, recent deep vein thrombosis (< or =6 months), or inability to comply with the tests. The CEAP clinical class was assessed. Duplex ultrasonography (ultrasound) enabled classification according to: the presence of superficial([S]) (+/- perforator([P])) or deep([D]) (+/-S, +/-P) reflux (>.5s); the number of incompetent venous systems (single-system([S/P/D]), dual-system([S+P/S+D/P+D]), or triple-system([S+P+D])), and the number of incompetent perforators([0/1/2/> or =3]). The amount of reflux (Venous Filling Index([VFI])); calf pump Ejection Fraction([EF]), and Residual Volume Fraction([RVF]) were studied with air-plethysmography. RESULTS: VFI in limbs with triple-system incompetence (VFI median 6.68 [IQR: 4.7-9.7]ml/s) was higher than in limbs with dual-system incompetence (4.5 [2.1-7.4]ml/s), and VFI in the latter was higher than in limbs with single-system incompetence (1.3 [0.69-2.3]ml/s)(p<0.01 Kruskal-Wallis). Although EF changes were small, RVF in limbs with triple-incompetence (39 [30-51] %) was higher than in single-system incompetence (26 [16-33] %)(p<0.01 Mann-Whitney). Limbs with superficial (+/-P) incompetence had a lower VFI (p<0.01) and RVF (p<0.02) than limbs with deep (+/-S+/-P) incompetence, and limbs with > or =2 incompetent perforator veins had a higher VFI (p<0.04) than those without perforators. All limbs with single-system incompetence were C(1-3,) whereas 78% of those with triple-incompetence were C(4-6) (p<0.01). The number of incompetent systems increased with clinical class (p<0.01). CONCLUSIONS: The frequency of incompetence of more than one venous system increased with the clinical severity of venous disease and was accompanied by a 5-fold increase in the amount of reflux and a 50% rise in the RVF. The number of incompetent perforators per limb increased with the amount of reflux. The number of incompetent venous systems (superficial, deep, perforator) and perforator veins can be assessed by duplex ultrasound giving an objective indication of the functional severity of venous disease. In this way duplex ultrasound could be used to grade venous function in clinical practice as an alternative to APG measures which are less widely available. 相似文献
5.
Enrique Criado MD Patty F. Daniel RN RVT William Marston MD Deborah I. Mansfield RN RVT Blair A. Keagy MD 《Annals of vascular surgery》1995,9(1):102-108
We conducted this study to investigate the physiologic variations in venous valvular function and calf muscle pump function that occur in normal limbs after prolonged stationary standing. Twenty-two limbs from 11 healthy volunteers were studied after a brief period of activity and after 4 to 6 hours of stationary standing. Vein diameter, peak reflux flow velocity (PRFV), and valve closure time (VCT) were measured with duplex scanning in the standing position in the common femoral vein (CFV), superficial femoral vein (SFV), popliteal vein (POP), proximal greater saphenous vein (GSV), and greater saphenous vein at the knee (kGSV). Pneumatic rapid inflation-deflation cuffs were used to elicit reflux. Vein cross-sectional area (VA) and peak reflux volume (PRVol) were calculated. Venous volume (W), venous filling index (VFI), ejection fraction (EF), residual volume fraction (RVF), and outflow fraction (OF) were measured with air plethysmography in all limbs. After stationary standing, there was no significant change or trend toward an increase in diameter or VA in any of the deep veins and there was no change in the PRFV or VCT. In the proximal GSV there was a significant increase in diameter (p=0.0001)and VCT (p=0.048)without a change in PRFV. No significant changes were noted in the kGSV. In the GSV the PRFV was significantly lower (p
<0.05) and the VCT significantly shorter (p <0.05)compared with the SFV and POP but values were no different from those in the CFV. The PRFV was significantly higher in the SFV (p < 0.0001)and the POP (p <0.002)compared with that in the CFV. The VCT was significantly shorter in the CFV (p <0.004)and the POP (p <0.01)compared with the SFV. VCTs in the greater saphenous and deep veins remained <333 msec in 97.5% of all measurements. No significant change in W, VFI, EF, or OF occurred after prolonged standing. Prolonged standing does not produce a significant dilatation or deterioration in valvular function in the large veins of the deep system but does produce a significant dilatation and delayed valve closure in the proximal GSV. VCT in normal lower extremity veins rarely exceeds 1/3 second. Prolonged standing does not produce significant changes in valvular competence or calf muscle pump function in the lower extremities of normal persons as assessed by air plethysmography.Supported in part by grants from The Research Council of The University of North Carolina at Chapel Hill and by a Junior Faculty Development Award from The University of North Carolina at Chapel Hill.Presented at the Nineteenth Annual Meeting of the Peripheral Vascular Surgery Society, Seattle, Wash., June 5, 1994. 相似文献
6.
Changes in Venous Hemodynamics after Superficial Vein Surgery for Mixed Superficial and Deep Venous Insufficiency 总被引:8,自引:0,他引:8
The purpose of this study was to determine the hemodynamic changes after superficial vein surgery in patients with mixed
superficial and deep venous insufficiency (MVI). Between July 1996 and June 1998, all patients with MVI together with saphenofemoral
reflux were evaluated prospectively with air plethysmography (APG) and duplex scanning before and 1 month after superficial
vein surgery. Saphenofemoral flush ligation without stripping was performed with multiple small incisions for avulsion of
varicosities. Seventy-eight patients with 102 operated limbs were included for analysis. The venous filling index (VFI), ejection
fraction (EF), and residual volume fraction (RVF) improved significantly after superficial vein surgery (mean VFI 5.99 ± 3.39
vs. 1.82 ± 1.21 ml/s, p < 0.001; mean EF 48.39% ± 11.74% vs. 52.78% ± 14.33%, p < 0.05; mean RVF 49.80% ± 11.18% vs. 36.19% ± 12.98%, p < 0.001, respectively, before and after operation). The proportion of limbs with deep venous incompetence on duplex scanning
at more than one site decreased from 70% to 44% after operation. The mean number of sites with deep venous incompetence decreased
from 2.14 ± 0.96 to 1.52 ± 1.21 after operation (p < 0.001). In conclusion, superficial vein surgery resulted in significant improvement in hemodynamic parameters in limbs
with MVI. There was also abolition of deep venous reflux after superficial vein surgery alone. Superficial vein surgery should
be the first line of treatment in limbs with MVI, with deep vein reconstructive surgery reserved for those not responding
to superficial vein surgery. 相似文献
7.
Quantitative Assessment of Superficial Venous Insufficiency Using Duplex Ultrasound and Air Plethysmography 总被引:1,自引:0,他引:1
OBJECTIVE: The purpose of this study was to quantitatively evaluate venous reflux in limbs with isolated superficial venous insufficiency using color duplex ultrasound. In addition, air plethysmography (APG) was used to investigate possible correlations of duplex-derived peak velocity, duration of reflux, and CEAP classification. METHODS: One hundred and forty-six legs in 109 patients with isolated superficial venous insufficiency refluxing throughout the length of the limb were selected for prospective study by duplex scan. Reflux was defined as duration of reflux >/=0. 5 seconds. This study was conducted in a university hospital. Venous reflux was evaluated with the patients standing, by the duration of reflux, retrograde peak velocity, reflux volume at the saphenofemoral and saphenopopliteal junction as well as the greater saphenous vein in the thigh. Values obtained by APG were the venous volume (VV), venous filling index (VFI), ejection fraction (EF), and residual venous fraction (RVF). A significant difference was defined as P <.05. Three groups of limbs were analyzed: group A limbs with a retrograde peak velocity greater than 30 cm/second and a duration of reflux of less than 3 seconds; group B with a retrograde peak velocity >/=30 cm/second and a duration of more than 3 seconds; and group C with a retrograde peak velocity of less than 30 cm/second and a duration of reflux of more than 3 seconds. RESULTS: Groups A and B contained 103 limbs, and 24 of these were in CEAP class 5 and 6. Group C contained 43 limbs, none of which were in class 5 or 6. APG demonstrated significant reflux in group A, and VFI was significantly higher compared to group B and group C (P =.0007 and P =.0064, respectively). A significant correlation was demonstrated between peak retrograde reflux velocity and VFI. CONCLUSIONS: Severe chronic venous insufficiency is found in limbs with high reflux velocity (greater than 30 cm/second) and the duration of reflux does not correlate with severe chronic insufficiency. 相似文献
8.
Successful iliac vein and inferior vena cava stenting ameliorates venous claudication and improves venous outflow, calf muscle pump function, and clinical status in post-thrombotic syndrome 总被引:2,自引:0,他引:2 
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下载免费PDF全文 OBJECTIVES: Stent therapy has been proposed as an effective treatment of chronic iliofemoral (I-F) and inferior vena cava (IVC) thrombosis. The purpose of this study was to determine the effects of technically successful stenting in consecutive patients with advanced CVD (CEAP3-6 +/- venous claudication) for chronic obliteration of the I-F (+/-IVC) trunks, on the venous hemodynamics of the limb, the walking capacity, and the clinical status of CVD. These patients had previously failed to improve with conservative treatment entailing compression and/or wound care for at least 12 months. METHODS: The presence of venous claudication was assessed by > or =3 independent examiners. The CEAP clinical classification was used to determine the severity of CVD. Outflow obstruction [Outflow Fraction at 1- and 4-second (OF1 and OF4) in %], venous reflux [Venous Filling Index (VFI) in mL/100 mL/s], calf muscle pump function [Ejection Fraction (EF) in %] and hypertension [Residual Venous Fraction (RVF) in %], were examined before and after successful venous stenting in 16 patients (23 limbs), 6 females, 10 males, median age 42 years; range, 31-77 yearas, left/right limbs 14/9, using strain gauge plethysmography; 7/16 of these had thrombosis extending to the IVC. Contralateral limbs to those stented without prior I-F +/- IVC thrombosis, nor infrainguinal clots on duplex, were used as control limbs (n = 9). Excluded were patients with stent occlusion or stenoses, peripheral arterial disease (ABI <1.0), symptomatic cardiac disease, unrelated causes of walking impairment, and malignancy. Preinterventional data (< or =30 days) were compared with those after endovascular therapy (8.4 months; interquartile range [IQR], 3-11.8 months). Nonparametric analysis was applied. RESULTS: Compared with the control group, limbs with I-F +/- IVC thrombosis before stenting had reduced venous outflow (OF4) and calf muscle pump function (EF), worse CEAP clinical class, and increased RVF (all, P < 0.05). At 8.4 months (IQR, 3-11.8 months) after successful I-F (+/-IVC) stenting, venous outflow (OF1, OF4) and calf muscle pump function (EF) had both improved (P < 0.001) and the RVF had decreased (P < 0.001), at the expense of venous reflux, which had increased further (increase of median VFI by 24%; P = 0.002); the CEAP status had also improved (P < 0.05) from a median class C3 (range, C3-C6; IQR, C3-C5) [distribution, C6: 6; C4: 4; C3: 13] before intervention to C2 (range, C2-C6; IQR, C2-C4.5) [distribution, C6: 1; C5: 5; C4: 4; C2: 13] after intervention. At this follow up (8.4 months median), venous outflow (OF1, OF4), calf muscle pump function (EF), and RVF of the stented limbs did not differ significantly from those of the control; significantly worse (P < 0.025) were the amount of venous reflux (VFI), and the CEAP clinical class, despite the improvement with stenting. Incapacitating venous claudication noted in 62.5% (10 of 16, 95% CI, 35.8%-89.1%) of patients (15 of 23 limbs; 65.2%, 95% CI, 44.2%-86.3%) before stenting was eliminated in all after stenting (P < 0.001). CONCLUSIONS: Successful I-F (+/-IVC) stenting in limbs with venous outflow obstruction and complicated CVD (C3-C6) ameliorates venous claudication, normalizes outflow, and enhances calf muscle pump function, compounded by a significant clinical improvement of CVD. The significant increase in the amount of venous reflux of the stented limbs indicates that elastic or inelastic compression support of the successfully stented limbs would be pivotal in preventing disease progression. 相似文献
9.
The aim of this study was to prospectively investigate the clinical efficacy of Daflon therapy in patients with mild to moderate chronic venous insufficiency (CVI) (clinical class 1-4) and to assess the changes in venous hemodynamics by using air plethysmography (APG). Fifty-six limbs in 28 patients were studied. They all had primary venous insufficiency with no venous obstruction, and mixed deep and superficial venous incompetence was found in 64% of the limbs. There was a significant decrease in symptom score for swelling and heaviness after 6 months of Daflon therapy. The symptom score for cramps also showed improvement though it did not reach statistical significance. Pain was significantly reduced with a mean pain score of 21.8 +/- 19.3% before comparing to 10.4 +/- 20.2% after 6 months of Daflon therapy (p < 0.01). This was also associated with a decrease in mean calf circumference from 37.0 +/- 4.3 to 36.4 +/- 4.3 cm (p < 0.001). There was no significant change in the venous filling index (VFI), ejection fraction (EF), and residual volume fraction (RVF) before and after 6 months of Daflon therapy (VFI: 3.7 +/- 3.5 vs 3.4 +/- 2.5 mL/s, EF: 54.5 +/- 15.9% vs 57.7 +/- 19.7%, RVF: 41.4 +/- 19.2% vs 39.4 +/- 24.2%). The clinical improvement without associated changes in venous hemodynamics as measured by APG suggests that Daflon mainly works by modifying the microcirculatory environment not detected by APG and this microcirculatory change is associated with clinical improvement. In this regard, Daflon would be especially useful for symptomatic relief in patients with functional venous insufficiency who do not have clinical evidence of varicose veins but suffer from symptoms of venous insufficiency. 相似文献
10.
《Journal of vascular surgery》1998,27(4):660-670
Purpose: The role of air plethysmography (APG) in the diagnosis of venous disease is not well defined. We conducted this study to investigate the value of APG in the diagnosis of chronic venous insufficiency and to determine its correlation with the clinical severity of disease and the anatomic distribution of reflux. Methods: We studied 186 lower extremities with duplex scanning and venography and measured the venous volume, venous filling index (VFI), ejection fraction, and residual volume fraction with APG. Limbs were categorized according to the Society for Vascular Surgery and International Society for Cardiovascular Surgery classification of clinical severity of disease and according to the anatomic distribution of valvular incompetence. Results: Sixty-one limbs had no evidence of disease (class 0), 60 limbs had mild disease (classes 1, 2, and 3), and 65 limbs had severe disease (classes 4, 5, and 6). According to the results of duplex scanning and venography, there was no evidence of reflux in 56 limbs. Isolated superficial venous reflux occurred in 52 limbs, and perforator reflux, alone or in conjunction with superficial reflux, occurred in 30. Deep reflux, with or without superficial reflux, was found in 25 limbs. Deep and perforator reflux, with or without superficial reflux, was found in 19 limbs. The VFI had a sensitivity of 80% and 99% positive predictive value for any type of reflux. The VFI was significantly different between groups of limbs with different clinical severities of disease or different types of reflux. The incidence of deep or perforator reflux in limbs with a normal VFI value was 7%, and it was 82% in limbs with a VFI of more than 5. Among 86 limbs with VFI values not corrected with use of a thigh tourniquet, 28% did not have evidence of deep or perforator reflux, and among 15 limbs with VFI values corrected with the use of a tourniquet, 33% had perforator reflux, deep reflux, or both. All APG parameters had low positive predictive values for severe disease or ulceration. The ejection fraction and residual volume fraction did not influence the clinical severity of disease, did not discriminate between types of reflux, and in combination with the VFI did not improve the predictive value of APG. Conclusions: The VFI measured by APG is an excellent predictor of venous reflux, provides an estimate of the clinical severity of disease, and at high levels predicts deep reflux, perforator reflux, or both. Correction of an abnormal VFI with a thigh tourniquet is an unreliable predictor of the absence of deep or perforator incompetence. The predictive value of APG for severe disease or ulceration is poor. The ejection fraction and residual volume fraction, individually or in combination with the VFI, add little to the diagnostic value of APG, and their routine performance may not be clinically justified. (J Vasc Surg 1998;27:660-70.) 相似文献
11.
The value of air plethysmography in predicting clinical outcome after surgical treatment of chronic venous insufficiency 总被引:1,自引:0,他引:1
Owens LV Farber MA Young ML Carlin RE Criado-Pallares E Passman MA Keagy BA Marston WA 《Journal of vascular surgery》2000,32(5):961-968
PURPOSE: The role of air plethysmography (APG) as a predictor of clinical outcome after surgery in venous disease is yet to be defined. The purpose of this study was to investigate the value of APG in predicting clinical outcome after venous surgery for chronic venous insufficiency (CVI). METHODS: Seventy-three extremities in 71 patients with Class 3 through 6 CVI were assessed preoperatively with CEAP (c linical, e tiologic, a natomic, p athophysiologic) criteria, standing reflux duplex ultrasound scan, and APG with measurements of preoperative venous filling index (VFI), venous volumes, ejection fraction, and residual volume fraction. After surgical treatment of the affected limbs, repeat APG studies were obtained within 6 weeks. Established venous reporting standards were used for follow-up to calculate clinical symptom scores (CSSs) in each patient. RESULTS: Superficial venous reflux occurred alone in 24 limbs or in conjunction with perforator incompetence in 26 limbs. Deep and superficial reflux, with or without perforator incompetence, was found in 16 limbs, and seven limbs had isolated deep insufficiency. Follow-up was available in 60 of 71 patients (mean period, 44.3 months). Postoperative APG demonstrated significant hemodynamic changes after surgery as measured with VFI, venous volumes, ejection fraction, and residual volume fraction. Mean CSSs decreased from 7.35 +/- 0.56 preoperatively to 1.79 +/- 0.32 at late follow-up after surgery (P <.001). With the use of logistic regression, the parameter correlating most closely with clinical outcome was the VFI. A normal postoperative VFI (相似文献
12.
Venous hemodynamic changes after external banding valvuloplasty with varicosectomy in the treatment of primary varicose veins. 总被引:2,自引:0,他引:2
BACKGROUND: To evaluate venous hemodynamic changes after an external banding valvuloplasty in the treatment of primary varicose veins with saphenofemoral incompetence. METHODS: From June 1996 to December 1997, 79 limbs (10 male and 69 female, age 20-57 years) were treated for primary saphenofemoral incompetence by external banding valvuloplasty. Tightening of the banding was accomplished using a polyester-tailored mesh to narrow the terminal and/or subterminal valve areas of the dilated greater saphenous vein (GSV), same size as its minimum diameter during spasm. Evaluation was done through a pre- and postoperative color-flow duplex scanning and an air-plethysmography (APG). RESULTS: Sixty-three limbs (79.7%) remained patent and were competent. Fourteen limbs (17.7%) remained patent but showed reflux. Two limbs (2.5%) had thrombus within the GSV after surgery. The diameter of GSV of mid-thigh was 6.7+/-1.6 mm preoperatively and 4.1+/-0.9 mm postoperatively (p-value=7.04E-10). Reduction of the diameter was 61.4+/-12.3%. Venous volume was 136.1+/-59.8 ml preoperatively and 103.5+/-39.8 ml postoperatively (p-value=1.6E-20). Reduction of the venous volume was 12.9+/-17.0%. Venous filling index (VFI) was 6.6+11.3 ml/sec preoperatively and 1.9+/-3.3 ml/sec postoperatively (p-value=1.2E-10). Reduction of the VFI was 55.0+/-29.1%. Ejection fraction (EF) was 48.9+/-13.8% preoperatively and 60.1+/-17.2% postoperatively (p-value=2.6E-17). Increase of EF was 29.4+/-43.5%. The residual volume fraction (RVF) was 42.1+/-13.9% preoperatively and 30.2+/-14.5% postoperatively (p-value=5.6E-19). Reduction of RVF was 17.6+/-43.6%. CONCLUSIONS: Early evaluation of saphenofemoral external banding valvuloplasty confirms the satisfactory patency and improvement in venous hemodynamics. Long-term evaluation is clearly indicated but the early safety and efficacy of the procedure have been confirmed. 相似文献
13.
Raikin SM Rapuri VR Vitanzo P 《Foot & ankle international / American Orthopaedic Foot and Ankle Society [and] Swiss Foot and Ankle Society》2005,26(12):1007-1011
BACKGROUND: Chronic exertional compartment syndrome (CECS) occurs bilaterally in approximately 60% of patients. Fasciotomy is the primary corrective treatment. We hypothesized that bilateral fasciotomy can be done during the same operative procedure with early return to sports and low complication rates METHOD: Sixteen patients had simultaneous bilateral lower extremity fasciotomies for CECS confirmed by compartment pressure testing before and after exercise. Ten patients had concomitant superficial peroneal neurolysis for associated numbness. All patients who were athletes (six runners; nine ball sports) (average age 25 years) had sports related pain limiting participation. RESULTS: Patients were followed for an average of 16.4 (range 6 to 48) months. Full return to sports participation occurred at an average of 10.7 weeks. Three patients continued to have mild, but much improved, pain with active sports participation, while 13 were pain free. All 11 patients with exertional related numbness had resolution after operative release. All patients were satisfied and all patients stated that they would have simultaneous fasciotomies again if required. As a nonmatched comparison, three patients who had staged fasciotomies for bilateral CECS were also evaluated, but because of the small number no statistical comparison was made. All three also returned to their previous levels of sports participation, however, at an average of 22.7 months as compared to 10.7 weeks in patients with simultaneous bilateral releases. CONCLUSION: Bilateral simultaneous fasciotomies for CECS can be done safely and effectively with early return to sports participation and low complication rates. 相似文献
14.
P. Pittaluga S. Chastanet T. Locret R. Barbe 《European journal of vascular and endovascular surgery》2010,39(1):122-128
ObjectivesTo evaluate the effect of phlebectomy on venous reflux and diameter of the great saphenous vein (GSV).DesignProspective cohort study.MethodPatients presenting with reflux in the GSV resulting in varicose veins were included in this series. Patients were treated by phlebectomy for dilated and incompetent tributaries of the GSV with conservation of the incompetent GSV. We measured reflux duration (RD), peak reflux velocity (PRV) and the diameter of the GSV using duplex ultrasound imaging at inclusion and 1 month after surgery.PatientsWe included 55 limbs in 54 patients (30 women and 24 men) aged from 37 to 83 (mean age 63) years.ResultsFollowing treatment we observed a significant reduction of the mean RD (0.81s vs. 1.5 s p < 0.01, t-test), mean PRV (120 mm s?1 vs. 249 mm s?1 p < 0.01, t-test) and mean diameter of the GSV (SFJ = 5.6 mm vs. 6.7 mm, p < 0.01, sub-terminal valve 4.8 mm vs. 4.4 mm p < 0.05, mid-thigh 5.0 mm vs. 4.2 mm, p < 0.01, knee 4.0 mm vs. 5.3 mm p < 0.01, mid-calf 2.7 mm vs. 4.0 mm, p < 0.01, t-test).ConclusionsWe noted reduced reflux in the GSV after phlebectomy with a significant reduction in RD and PRV. Phlebectomy also led to a significant reduction in GSV diameter. These data suggest that the haemodynamics and the diameter of the SV can be improved by using a treatment focussing on the saphenous tributaries. 相似文献
15.
T. Yamaki M. Nozaki H. Sakurai M. Takeuchi K. Soejima T. Kono 《European journal of vascular and endovascular surgery》2009,37(1):103-108
ObjectiveTo evaluate the efficacy and haemodynamic effects of great saphenous vein (GSV) sparing surgery – valvuloplasty combined with axial transposition of a competent tributary vein (A-VACT).Materials and methodsEighty-five limbs in 74 patients with isolated GSV incompetence were selected for GSV sparing surgery. After angiographic valvuloplasty, the competent tributary vein was exposed and cut 1.5 cm distal to its insertion point on the GSV. The transected vein was anastomosed end-to-side to the GSV, which was ligated between the tributary insertion site and the anastomosis. Venous valve competence were screened by serial postoperative duplex examination, and venous haemodynamic changes were analyzed using venous filling index (VFI) measured by air plethysmograph pre- and postoperatively. The follow-up period was 5-years.ResultsSixty-seven patients were included in whom 76 limbs were treated. There was a statistically significant reduction in the vein diameter at the SFJ after 5-years (0.83 S.D. 0.29 cm to 0.46 S.D. 0.12 cm, p = 0.0002, Wilcoxon). Similarly, significant reduction was found in the GSV at the 5-year follow-up point (0.63 S.D. 0.19 cm to 0.39 S.D. 0.11 cm, p < 0.0001, Wilcoxon). On the other hand, there was significant increase in the diameter of the competent tributary vein postoperatively (0.22 S.D. 0.13 cm to 0.31 S.D. 0.12 cm, p < 0.0001, Wilcoxon). Duplex scanning demonstrated reflux at the SFJ in 12 limbs (16%). Similarly, in the GSV, venous reflux was found in 13 limbs (17%). Reflux in the transposed tributary vein was found in 20 limbs (26%). But only 7 limbs (9%) had minor varicose veins' recurrence. VFI remained normal during the follow-up examination. The preoperative VFI confirmed the presence of venous reflux, but there were significant improvement in the VFI values at all postoperative examinations.ConclusionsA-VACT procedure improves venous function, resolves varicose veins at 5-years follow-up as well as preserving the GSV for future grafting. 相似文献
16.
《Journal of vascular surgery》1997,26(4):638-642
Purpose: Air plethysmography (APG) has the potential to help evaluate different treatments for the prevention of recurrence of venous ulcers; however, there are little reported data on the variation and reliability of the different parameters. This study aimed to assess the variation in different APG parameters in patients with chronic venous disease and to evaluate the reliability of APG in test-retest situations.Method: Seventeen patients (18 limbs) with chronic venous disease were recruited into this study. Subjects were asked to undergo tests on two occasions, 1 to 6 weeks apart. Three tests were performed at each visit, and three patients had 10 tests performed at one visit. The coefficients of variation were calculated for repeated measurements and test-retest reliability, and the differences between the means of three tests and the 10 tests were also analyzed.Results: The coefficients of variation for the repeated measurements ranged from 7.5% to 27% for the majority of parameters of APG. The differences between the means of three tests and the means of 10 tests were less than 10% in this study. The coefficients of variation of method error were approximately 10% in test-retest measures.Conclusions: This study has shown that evaluations of calf pump function and venous reflux using APG display variations in repeated measurements and in the test-retest measures. The variations found within patients and on retesting patients on different days suggest that APG is very unlikely to be able to detect small changes in the parameters of venous reflux and calf pump function. It is essential to understand the inherent variation of APG measurements when they are used to assess treatments that are designed to improve venous function. (J Vasc Surg 1997;26:638-42.) 相似文献
17.
股浅静脉瓣膜外修复成形术后血流动力学动态变化74例分析 总被引:2,自引:1,他引:2
目的检测股浅静脉瓣膜外修复成形术后血流动力学动态变化 ,以分析其治疗下肢深静脉瓣膜功能不全的疗效。方法回顾性分析原发性下肢深静脉瓣膜功能不全 74例 ( 96条肢体 )的资料 ,利用流速剖面图彩超和空气体积描记仪分别于术前、术后 1、3个月及 1年进行血流动力学指标检测并进行统计学分析。结果全组术后静脉返流量、灌注指数、静脉功能不全评分指标于术后 1、3个月、1年均较术前显著降低 (P <0 0 1)。而射血分数、剩余容积分数均值于术后 3个月、1年较术前明显改善 (P <0 0 1)。溃疡愈合率达 78 8% ( 2 6 /33) ,术后 93 6 %的肢体各种症状体征消失和明显缓解。结论股浅静脉瓣膜外修复成形术可显著改善血流动力学状况 ,对治疗原发性下肢深静脉瓣膜功能不全及静脉性溃疡有确切疗效 相似文献
18.
Modrall JG Sadjadi J Ali AT Anthony T Welborn MB Valentine RJ Hynan LS Clagett GP 《Journal of vascular surgery》2004,39(2):387-394
OBJECTIVE: Deep thigh veins, including the superficial femoral, superficial femoropopliteal, and profunda femoris veins, are versatile autogenous conduits for arterial reconstruction. Although late venous complications are unusual, deep vein harvest may induce severe venous hypertension and predispose the limb to acute compartment syndrome. The purpose of this study was to define the frequency of fasciotomy in patients undergoing deep vein harvest and to identify clinical predictors of the need for fasciotomy after deep vein harvest. METHODS: Over 9 years, 162 patients underwent arterial reconstruction with deep vein harvested from 264 limbs. Indications for deep vein harvest included aortofemoral reconstruction in 127 patients, brachiocephalic arterial reconstruction in 22 patients, and visceral arterial reconstruction in 13 patients. RESULTS: Fasciotomy was performed in 47 of 264 limbs (17.8%) after deep vein harvest. The prevalence of fasciotomy after deep vein harvest was 20.6% for patients requiring aortofemoral reconstruction, whereas no patients underwent fasciotomy after deep vein harvest for mesenteric or brachiocephalic arterial reconstruction (P =.0068). Fasciotomy was performed in 20.7% of limbs after complete deep vein harvest to a level below the adductor hiatus, but no fasciotomies were performed in patients undergoing subtotal deep vein harvest, ending above the adductor hiatus (P =.0023). The mean preoperative ankle-brachial index (ABI) was significantly lower in limbs requiring fasciotomy (ABI, 0.39 +/- 0.05), compared with patients who did not require fasciotomy (ABI, 0.79 +/- 0.02; P <.0001). Fasciotomy was performed in 76.0% of limbs undergoing concurrent ipsilateral greater saphenous vein (GSV) and deep vein harvest, compared with 11.7% of patients undergoing deep vein harvest alone (P <.0001). The mean volume of intraoperative fluid administered to patients requiring fasciotomy was almost 50% higher than the fluid resuscitation received by patients who did not require fasciotomy (9.6 +/- 1.2 L vs 6.5 +/- 0.6 L; P <.0001). Logistic regression analysis determined that lower preoperative ABI (odds ratio [OR], 60.1; 95% confidence interval [CI], 12.5-289.3; P <.0001) and concurrent harvest of the ipsilateral GSV (OR, 9.9; 95% CI, 3.1-31.3; P <.0001) were predictors of the need for fasciotomy. CONCLUSIONS: One in four patients undergoing deep vein harvest for aortofemoral reconstruction may be expected to develop acute compartment syndrome and require fasciotomy. The risk appears to be greatest in patients with severe lower extremity ischemia and in patients undergoing simultaneous GSV and deep vein harvest. Prophylactic fasciotomy may be appropriate in patients with both risk factors, but vigilance for the development of compartment syndrome after deep vein harvest is required in all patients undergoing deep vein harvest for aortofemoral reconstruction. 相似文献
19.
Treatment of superficial and perforator venous incompetence without deep venous insufficiency: is routine perforator ligation necessary? 总被引:3,自引:0,他引:3
PURPOSE: We investigated whether routine ligation of incompetent perforator veins is necessary in treatment of symptomatic chronic venous insufficiency (CVI) due to combined superficial and perforator vein incompetence, without deep venous insufficiency. METHODS: This was a retrospective review of prospectively collected data. Twenty-four limbs with both superficial and perforator venous incompetence but no deep venous insufficiency were identified at venous duplex scanning. Air plethysmography (APG) was performed preoperatively, to obtain venous volume (VV), venous filling index (VFI), ejection fraction (EF), and residual volume fraction (RVF) of the affected limb. Saphenous vein stripping from the groin to knee and powered transilluminated phlebectomy for varicosity ablation were performed in all patients. Postoperatively, all patients underwent duplex scanning and APG to determine the status of the perforator veins and hemodynamic improvement from surgery. RESULTS: Average patient age was 55.8 years; 62% of patients were women. CVI was class 3 in 4 limbs, class 4 in 12 limbs, and class 5 and class 6 in 4 limbs each. Postoperative duplex scans demonstrated that 71% of previously incompetent perforator vessels were now competent or absent. Significant improvement in all APG values was documented after superficial surgery. VFI improved from 6.0 +/- 2.9 preoperatively to 2.2 +/- 1.3 after surgery (P <.001); EF improved from 56.3 +/- 18 to 62 +/- 21 (P =.02); and RVF improved from 40.1 +/- 19 to 28.3 +/- 18 (P =.009). Mean preoperative symptom score (5.3 +/- 1.9) was significantly improved at mean follow-up of 18.3 months (1.4 +/- 1.2; P <.001). CONCLUSION: Patients with superficial and perforator vein incompetence and a normal deep venous system experienced significant improvement in APG-measured hemodynamic parameters and clinical symptom score after superficial ablative surgery alone. This suggests that ligation of the perforator veins can be reserved for patients with persistent incompetent perforator vessels, with abnormal hemodynamic parameters or continued symptoms after superficial ablative surgery. 相似文献
20.
Bernardino C. Branco Kenji Inaba Galinos Barmparas Beat Schnüriger Thomas Lustenberger Peep Talving Lydia Lam Demetrios Demetriades 《Injury》2011,42(10):1157-1163