Varicose Veins Clinical Trial
Official title:
Endovenous Laser Ablation of the Great Saphenous Vein Comparing 1920-nm and 1470-nm Diode Laser
Objective: Compare venous occlusion rates at a one-year follow-up comparing 1920-nm versus 1470-nm laser treatment. Design: Non-randomized prospective study. Methods: Adult patients with varicose veins associated with great saphenous reflux were included. Procedures were performed between February and April of 2013. The 1470-nm laser ablation was performed in continuous mode, power being set between 8 and 10 W, while for the 1920-nm it was set between 5 and 6 W. Checking for vein closure was performed during the thermal ablation procedure, LEED (linear endovenous energy density) being calculated after the procedure. Follow-up data were collected at the 7-day, 30-day, 3-month, 6-month and 1-year visits, and involved clinical and ultrasound evaluation, measurement of occlusion extent.
INTRODUCTION The treatment of varicose veins secondary to saphenous vein reflux has
undergone a major shift in the past decade, primarily led by the introduction of less
invasive techniques. Wavelengths of 810, 940 and 980 nm have higher rates of absorption by
hemoglobin. Water chromophore is associated with an initial energy absorption peak at 980
nm, followed by peaks at 1500 and 2000 nm. The energy released into the vein lumen is
therefore absorbed by water as well as by cellular and interstitial proteins. In contrast,
laser beams with longer wavelengths act more specifically on water absorbance, resulting in
less energy expenditure, such as in the case of the 1470-nm diode endolaser. An endoluminal
energy density (LEED) around 50-160 J/cm has been demonstrated to effectively lead to venous
occlusion, although LEEDs above 100 J/cm can also be associated with higher complication
rates. In contrast, the 1920-nm diode laser is more specific for water and hemoglobin
chromophores, tissue absorption at this wavelength being at least 2.5 times greater than the
one obtained with the 1470-nm laser. It is therefore expected that less energy would be
required to generate the same amount of venous closure.
The aim of this study is to compare diode 1920-nm versus 1470-nm laser in the treatment of
great saphenous vein reflux. The primary outcome was venous segment occlusion at the
one-year follow-up. Secondary outcomes included LEED, postoperative complications, and
clinical outcomes measured through the Clinical, Etiology, Anatomical and Pathological
classification (CEAP), the Venous Clinical Severity Score (VCSS) and a patient satisfaction
scale.
METHODS This is a prospective study to evaluate the results of the 1920-nm vs. 1470-nm
laser. Patients agreeing to participate were offered informed consent, recruitment occurring
between February and April of 2013. Participants enrolled between February and mid-March of
2013 underwent treatment with the 1470-nm laser, while those enrolled between mid-March and
April underwent treatment with the 1920-nm laser.
Patients between 18 and 70 years old who had varicose veins associated with reflux of the
great saphenous veins were included. The exclusion criteria were: patients with a previous
history of thrombophlebitis, deep vein thrombosis or who had undergone any previous surgery
for this condition, thermal ablation or sclerotherapy. For bilateral cases, both limbs were
treated during the same surgical session.
Data on clinical history, physical examination, CEAP classification, VCSS (Venous Clinical
Severity Score) and VDS (Venous Disability Score) were collected. The extent of the great
saphenous reflux was measured along with its main diameter at the level of the
saphenofemoral junction as well as at the knee level. Reflux was defined as retrograde when
reaching a speed greater than 3 cm/second during a Valsalva maneuver or through leg
compression maneuvers.
All patients underwent procedures under spinal anesthesia. The great saphenous vein was
punctured at the most distal point of reflux and a 6F introducer was positioned. All cases
were conducted with a 600-micron radial fiber positioned between 2.0 and 3.0 cm from the
saphenofemoral junction. A tumescence with 0.9% saline solution was placed under ultrasound
guidance around the full length of the saphenous vein. All patients were in a 30-degree
Trendelenburg position. Surgical procedures involved the saphenous ablation and phlebectomy.
Saphenous ablation with a 1470-nm laser was performed in continuous mode, with a power of 8
to 10 W, determined as a function of the diameter of the vessel as well as surgeon's
preference. The 1920-nm laser was also used in continuous mode, with 5 to 6 W power. Vein
closure monitoring during the thermal ablation procedure was conducted through ultrasound
while pulling-off the fiber. At the end of the procedure, the total amount of energy used in
each limb was recorded for LEED calculation, measured as total energy used in the limb (J)
over vein length (cm).
First follow-up occurred at postoperative week one, with subsequent evaluation at 30 days,
three months, six months and one year. At each assessment, symptoms were recorded and an
ultrasound evaluation was performed. Patient satisfaction was evaluated at 1-week through
the following questions "Are you satisfied with your surgery?" and "Would you choose the
same treatment again?" Both questions were presented as a Likert scale where 0 = very
satisfied, 1 = satisfied, 2 = indifferent, 3 = not satisfied, 4 = very dissatisfied.
The primary endpoint for this study was the percentage of occluded venous segments at the
6-month follow-up. Extension of the occluded saphenous vein segment was measured at each
visit through a tape guided by ultrasound to determine occlusion points. A segment was
considered patent if it was compressible and with reflux after muscle compression in a
standing position. The length of the occluded vein segment was compared with the length of
the segment where thermal ablation was performed, thus allowing us to calculate the segment
closure percentage. Secondary end-points were the presence of ecchymosis, induration,
paresthesia, skin burns and deep vein thrombosis.
;
Allocation: Non-Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Treatment
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