Objective To evaluate the efficiency and safety of combinative use of radiofrequency and transilluminated powered phlebectomy for treatment of varicose veins of lower extremity. Methods Three hundred and twenty-one cases of varicose veins of lower extremity were randomly divided into three groups: group A (102 cases): endovenouser whole range closure in situ for great saphenous vein by radiofrequency and transilluminated powered phlebectomy for varicose veins of leg; group B (97 cases): endovenouser whole range closure in situ for upper leg part of great saphenous vein by radiofrequency and transilluminated powered phlebectomy for varicose veins of leg; 122 conventional treatment cases, which high ligation and stripping of great saphenous vein, blood vessel branches and communicating branches resection and ligation were used, were selected as controlled group (group C). Consequences and complications of operation were checked. Results In all cases, the symptoms of swelling in lower extremity, soreness and infirmity disappeared within one month after operation, skin pigmentation was alleviated within one month after operation, and disappeared gradually within three months. Contrasting three groups in complications of skin numbness of legs, ecchymosis of upper leg, wound hematoma, and swelling below ankle, there was no statistical difference between group A and B, and there was statistical difference between group A and C, and B and C. There were more complications in conventional group than those in mini-invasive groups. There was no statistical difference in leg ecchymosisa between group B and C. No deep vein thrombosis of lower extremity and incision infection was detected in all cases. Conclusion It is simple and definitely efficient to combine radiofrequency with transilluminated powered phlebectomy for treatment of varicose veins of lower extremity. Powered phlebectomy is efficient in removal of varicose vein, but not suitable for phlebectomy for trunk of great saphenous vein.
【Abstract】 Objective To study the outcome of wound-heal ing hydrogel in treating chronic venous ulcer of lowerextremities so as to find a new therapy. Methods From April 2007 to September 2007, 60 patients with chronic venous ulcer of lower extremities were randomly assigned to wound-heal ing hydrogel group (group A, 30 cases) and control group (normal sal ine, group B, 30 cases). In group A, there were 24 males and 6 females, aging (57.3 ± 6.8) years; the disease course was (2.9 ± 0.7) years; and the ulcer area was (3.4 ± 0.6) cm2. In group B, there were 20 males and 10 females, aging (60.1 ± 7.4) years; the disease course was (3.3 ± 0.9) years; and the ulcer area was (3.1 ± 0.4) cm2. There were no differences in age, area of ulcer and course of disease between two groups (P gt; 0.05). The area of ulcer was measured every week after the treatment, and the effect of treatmentwas evaluated after 15 days. Results The ulcer area of 7 days and 14 days after treatment was (2.6 ± 0.7) and (1.1 ± 0.2) cm2 in group A, and (2.8 ± 0.6) and (2.3 ± 0.7) cm2 in group B, respectively; showing no statistically significant differences 7 days after treatment (P gt; 0.05), and showing statistically significant difference 14 days after treatment between two groups (P lt; 0.05).The average heal ing time was (12.0 ± 1.7) days in group A, and (31.0 ± 2.9) days in group B, respectively, showing statisticallysignificant difference (P lt; 0.01). The results were excellent, good, fair and poor in 16, 9, 4 and 1 of group A , and were in 3, 9, 14 and 4 of group B, respectively; showing statistically significant difference (P lt; 0.01). Conclusion Wound-heal ing hydrogel is effective in treating chronic venous ulcer of lower extremities.
Eighteen cases of primary incompetence of the valves of the deep veins of leg were treated by various types of operations were reported. The patients were followed up for 4 to 26 months, with complete disappearance of symptoms and marked improvement of the concomittant dermatitis. The ulcerative lesions were healed within 1 to 3 weeks after operation. Three patients received postoperative vcnography with retrograde vcnography, the results showed that the valves had first degree function.
Objective To investigate the change of vasa vasorum in vessel wall of varicose vein of the lower extre-mity. Methods Thirty-two patients with varicose vein of the lower extremity were collected, in which of 12 patients with simple varicose veins (varicose group), 9 patients with recurrent varicose veins (recurrent group), 11 patients withthrombophlebitis of varicose vein (thrombophlebitis group), 9 patients with normal venous tissue as control group. HE staining was performed to observe the distribution of vasa vasorum and detect the vasa vasorum density. Results The increasing vasa vasorums were observed in the adventitia and media, but few was observed in the intima in the varicose, recurrent, and thrombophlebitis groups. The distribution of vasa vasorum was in the adventitia in the control group. The vasa vasorum densities (/mm2) in the varicose, recurrent, and thrombophlebitis groups (5.65±1.45,6.20±1.73, and 5.94±1.63, respectively) were greater than those in the control group (2.87±0.54), the difference wasstatistically significant (P<0.05), but there was no significant difference of the vasa vasorum density among the varicosevein, recurrent, and thrombophlebitis groups (P>0.05). Conclusion Change of vasa vasorum is an important pathol-gical change with the nosogenis of varicose vein of the lower extremity.
Objective To explore the effect, operational essential, and clinical meaning of transilluminated powered phlebectomy for patients with varicose vein of the lower extremity. Methods In the study, 255 patients with 363 lower extremities of varicose vein in our hospital between May 2006 and November 2009 were treated by transilluminated powered phlebectomy. According to revised clinical etiology anatomic and pathophysiological classification system (CEAP), there were 104 limbs in C2, 53 limbs in C3, 155 limbs in C4, 34 limbs in C5, and 17 limbs in C6. The patients were followed up to observe postoperative complications. Results All varicose vein labeled before operation were resected. Surgical time was (100±20) min in unilateral lower extremity and (147±19) min in bilateral lower extremities. Total 221 patients (302 lower extremities) were followed up in 4 to 46 months, median follow up time was 24.5 months. Total 167 cases (247 lower extremities) had accepted the operation more than 1 year, 154 cases (229 lower extremities) in which were followed up. In the 229 lower extremities above, recurrences occurred in 11 extremities, small amounts of residual small varices were observed in 2 extremities, the recurrence rate was 5.68% (13/229). Twenty-one limbs with ulcer were healing in 3 to 6 weeks after operation. Postoperative complications: there was paresthesias or pain of ankle area in 16 limbs, which was improved in 3 to 6 months after physical therapy; there was ecchymosis of skin of leg in 112 limbs, which disappeared in 3 to 5 weeks after operation; there was light edema in 37 limbs, which disappeared in 1 to 2 weeks after operation; there was local hematoma in 2 limbs, incision light infection in 5 limbs, skin and subcutaneous tissue necrosis above medial malleolus in one limb, and back of knee popliteal skin lesion in 2 limbs, which were all cured by the symptomatic treatment. Conclusions Surgical treatment of varicose veins is actually the combination of various surgical procedures. Varicose vein extraction using transilluminated powered phlebectomy is safe, efficacious, and cosmetically satisfactory.
Objective To evaluate improved effect for deep venous valve function after superficial vein surgery of lower extremity in the intermediate stage. Methods Totally 43 patients (55 limbs) with varicose veins of lower extremity were enrolled to accept surgical management of vein systems in our department from March 2006 to October 2006. All patients were respectively followed up after 6 months and 4 years about the changes of deep venous valve function with color Doppler ultrasonography. Results Thirty-nine patients’ deep venous valve function kept well up to now, and there was no significant difference between the two results. Four patients without proximal saphenous vein ligation recurred, and there was reflux in deep venous. Conclusion Endovenous laser treatment and ablation of varicose veins of lower extremity with deep venous insufficiency could improve deep venous valve function effectively. Proximal great saphenous vein ligation is important for successful operation.
ObjectiveTo analyze the causes of lower extremity varicose veins and assess the value of deep vein imaging in diagnosing and treating venous diseases, according to deep vein angiography examination results under digital subtraction angiography. MethodsDuring January 2012 to January 2013, 689 cases of lower limb varicose veins in 394 patients underwent lower extremity deep venous anterograde contrast examination, among which 87 patients also underwent left femoral venous trocar puncture angiography examination and 46 patients underwent femoral vein puncture inferior vena cava angiography examination at the same time. Then the results of imaging data were analyzed. ResultsThe causes of lower limb varicosity, according to its incidence, were as follows:primary deep venous valve incompetence (349 limbs of 184 patients) accounting for 50.7%, simple varicose veins of lower limbs (148 limbs of 95 patients) accounting for 21.5%, left iliac vein compression syndrome (121 limbs of 69 patients) accounting for 17.6%, cloth plus syndrome (54 limbs of 34 patients) accounting for 7.8%, post-thrombotic syndrome (16 limbs of 11 patients) accounting for 2.3%, and Klipple-Trenaunay syndrome (1 patient) accounting for 0.1%. ConclusionVaricose vein of lower limb is a common clinical manifestation of a variety of diseases, and the primary deep venous valve incompetence is the leading cause. Varicose veins of lower limb deep vein angiography is a reliable method for examination of lower extremity venous disease, and a basis for the choice of other treatments as well.
ObjectiveTo observe the ultrastructural changes of vasa vasorum endothelial cells in the walls of the great saphenous vein and splenic vein, and to evaluate the effect of high hydrostatic pressure and hypoxia upon vasa vasorum endothelial cells. MethodsThirty-four varicose great saphenous vein samples and splenic vein samples with portal hypertension were obtained, and the same number of normal great saphenous vein and splenic vein were used as the control groups. Semi-thin sections stained with HE staining vasa vasorum of the adventitia in great saphenous vein and splenic vein were observed for light microscopy. Samples were made into ultrathin-slices again. The ultrastructural changes of endothelial cells were observed under transmission electron microscopy. ResultsIn varicose great saphenous veins and diseased splenic veins, the nuclear architecture of endothelial cells in vasa vasorum were integrity and the distribution of chromatin were normal. In some mitochondria, the trachychromatic groundplasm, undefined and ruptured cristae were found. ConclusionUnder high hydrostatic pressure and hypoxia conditions, the ultrastructure of vasa vasorum endothelial cells between the great saphenous vein and the splenic vein may appear remodeling phenomenon, and both changes are similar.
ObjectiveTo evaluate feasibility and clinical effect of individual therapy for venous ulceration of lower extremity. MethodsFrom February 2012 to February 2014, 360 cases (totally 421 lower limbs) treated by the individual therapy were analyzed retrospectively. There were 126 male and 234 female patients, with a mean age of 53 years (ranging from 45 to 78 years). The venous ulceration occurred in left limb for 176 cases, right limb for 123 cases, and both limbs for 61 cases. The individualized treatment plans were performed for all the patients according to the color Doppler before the operation. The perforating vein was ligated during the operation, and elastic stockings were wore after operation. The operation time, postoperative VAS pain score, perioperative complications, ulcer healing and recurrence were recorded. ResultsThe operations were completed in all the patients, the average operation time was 35 min. The average VAS pain score was 2.6 at 8 h after operation, the pain was disappeared nearly at 24 h after operation. The time of returning to normal activity was 3 d. The incision bleeding occurred in 5 cases, the ulcer infection occurred in 32 lower limbs. The patients were followed-up for 12 months to 24 months, all the ulcers were healed, there were 9 cases of recurrence. ConclusionIndividual therapy for venous ulceration of lower extremity is safe, effective, fewer complications, fast ulcer healing, and less postoperative pain.
Foam stability affects the efficacy and incidence of side effects of foam sclerotherapy. Exploring the relationship between foam pressure difference and foam stability can provide ideas and basis for obtaining more stable foam. In the experiment, sodium cod liver oleate foam was selected, and poloxamer 188 (concentration of 0%, 4%, 8%, 12%) was added to realize the change of foam pressure. By using the self-written program to process the foam pictures, the foam pressure difference and the relationship between the foam stability indicators (water separation rate curve, half-life) and the foam pressure difference were obtained. The results showed that at first the foam pressure increased with the increase of the concentration, and then it decreased with the increase of the concentration and reached a peak at the concentration of 4%. The foam pressure difference decreases continuously with the increase of decay time. When the additive concentration is low, the foam average pressure difference increases. And if the additive concentration is too high, the foam average pressure difference decreases. The smaller the foam pressure difference is, the better the foam stability is. This paper lays a foundation for the research on the stability of foam hardener.