The current study was a double blind randomised controlled trial that compared radiofrequency ablation (RFA) versus conventional surgery (CS) in patients who served as their own controls and who had intact great saphenous veins (GSVs).
Individuals with symptomatic varicose veins and bilateral GSV insufficiency confirmed by duplex ultrasound examination who were candidates for conventional vein stripping were eligible for inclusion in the study. A total of 18 patients entered the trial. As per protocol, each patient was treated with RFA in one leg and CS on the contralateral limb. Randomisation was performed preoperatively using a randomisation table. Patients were not advised of the treatment allocation in order to ensure that this trial was carried out in a blinded fashion. All operations were performed under regional anaesthesia by the same surgical team, skilled in the management of venous disease with extensive expertise in both techniques. Phlebectomy of varicosities was not concomitantly performed. The independent observer physician not involved in the original operation, the patient, and the duplex ultrasonographer were not aware of the treatment performed in each case and the surgeon was not involved in outcome assessment. CS. Patients underwent standard procedure of cranial ligation of the GSV and branches of the sapheno-femoral junction (SFJ) using a groin crease incision and stripping of the GSV from SFJ to ankle level, using a vein stripper that was brought out through a small incision near the medial malleolus. RFA. The procedure was performed under ultrasound guidance. The GSV proximal to the medial malleolus was cannulated with a 7F sheath using surgical cutdown. The tip of the radiofrequency catheter was placed at least 2 cm distal to the SFJ or just distal to the superficial epigastric vein orifice. Patients received tumescent infiltration with cold normal saline (0.9%) circumferentially around the GSV within its enveloping fascia and along the entire length of the treated vein. This was to prevent nerve injury and thermal injury to the skin. Then the catheter was gradually withdrawn according to the device manufacturer's recommendations. The technique consisted of controlled segmental heating of the GSV, using a catheter with a 7-cm heating element (Closure™ system, VNUS Medical Technologies, Inc., San Jose, California, USA). The temperature was maintained at 120° C per segment using a standard time. The thermoablation continued until the catheter tip reached just below the knee. Immediately following treatment with RFA, intraoperative ultrasound imaging was used to confirm shrinkage of the vein. For limbs operated with the radiofrequency technique, a groin crease incision was made similar to the contralateral side, but with no manipulation of the SFJ. The incision proximal to the medial malleolus was used for sheath insertion. To ensure that the independent observer physician not involved in the original operation, the patient, and the duplex ultrasonographer were not made aware of the treatment done, both incisions were performed on both legs.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
DOUBLE
Enrollment
18
Cranial ligation of the great saphenous vein and branches of the sapheno-femoral junction and stripping of the great saphenous vein
Catheter-based ablation of the great saphenous vein
Hospital Israelita Albert Einstein
São Paulo, São Paulo, Brazil
Change in intensity of hyper pigmentation using a scale of 0 to 10
Patients and physicians were oriented to indicate their subjective perception of intensity of hyperpigmentation on a scale of 0 (no complaint/discomfort) to 10 (maximal complaint/discomfort).
Time frame: One week, one month and six months after surgery
Change in extension of hematoma using a scale of 0 to 10
Patients and physicians were oriented to indicate their subjective perception of extension of hematoma on a scale of 0 (no complaint/discomfort) to 10 (maximal complaint/discomfort).
Time frame: One week, one month and six months after surgery
Change in aesthetic results using a scale of 0 to 10
Patients and physicians were oriented to indicate their subjective perception of aesthetic results on a scale of 0 (unaesthetic) to 10 (excellent results).
Time frame: One week, one month and six months after surgery
Change in pain levels using a scale of 0 to 10
Patients were asked to indicate pain levels on a scale of 0 (no pain) to 10 (worst imaginable pain).
Time frame: One week, one month and six months after surgery
Change in intensity of skin burns using a scale of 0 to 10
Physicians were asked to inform intensity of skin burns on a scale of 0 (no complaint/discomfort) to 10 (maximal complaint/discomfort).
Time frame: One week, one month and six months after surgery
Change in presence of sensitivity alteration
Patients were asked to indicate the presence or absence of sensitivity alteration.
Time frame: One week, one month and six months after surgery
Change in presence of thrombophlebitis
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Physicians were asked to inform the presence or absence of thrombophlebitis.
Time frame: One week, one month and six months after surgery
Change in presence of resection or occlusion of the great saphenous vein
Duplex ultrasound scan was used to evaluate the presence or absence of resection or occlusion (success rate) of the great saphenous vein.
Time frame: One month, six months and 12 months after surgery
Change in presence of reflux in the sapheno-femoral junction and in the great saphenous vein
Duplex ultrasound scan was used to evaluate the presence or absence of reflux in the sapheno-femoral junction and in the great saphenous vein
Time frame: One month, six months and 12 months after surgery
Change in presence of complications
Duplex ultrasound scan was used to evaluate the presence or absence of complications such as deep vein thrombosis (DVT) and lymphocele.
Time frame: One month, six months and 12 months after surgery