VuylstekeM, van DorpeJ, RoelensJ, Endovenous laser treatment: a morphological study in an animal model. Phlebology2009;24:166–75
2.
BushRG, ShammaHN, HammondKA. Histological changes occurring after endoluminalablation with two diode lasers (940 and 1,319 nm) from acute changes to four months. Lasers Surg Med2008;40:676–9
3.
BushRG, ShammaHN, HammondKA. 940 nm laser for treatment of saphenous insufficiency: histological analysis and long term follow-up. J Photomed Laser Surg2005;23:15–9
4.
VuylstekeM, Van DorpeJ, RoelensJ, De BoTh, MordonS. Endovenous laser treatment: a morphological study in an animal model. Phlebology2009;24:166–75
5.
VuylstekeME, Van DorpeJ, RoelensJ, De BoTh, MordonS, FourneauI. Intraluminal fibre-tip centring can improve endovenous laser ablation: a histological study. Eur J Vasc Endovasc Surg2010;40:110–6
6.
SchmedtCG, SrokaR, SteckmeierS, Investigation on radiofrequency and laser (980 nm) effects after endoluminal treatment of saphenous vein insufficiency in an ex-vivo model. Eur J Vasc Endovasc Surg2006;32:318–325
7.
VuylstekeME, MartinelliT, Van DorpeJ, RoelensJ, MordonS, FourneauI. Endovenous laser ablation: the role of intraluminal blood. Eur J Vasc Endovasc Surg2011;42:120–6
8.
ZimmetSE, MinRJ. Temperature changes in perivenous tissue during endovenous laser treatment in a swine model. J Vasc Interv Radiol2003;14:911–5
9.
VlarengoLMA, Poterio-FilhoJ, PoterioGMB, MenezesFH, MeirellesGV. Endovenous laser treatment for varicose veins in patients with active ulcers: measurement of intravenous and perivenous temperatures during the procedure. Dermatol Surg2007;33:1234–42
10.
FanCM, Rox-AndersonR. Endovenous laser ablation: mechanism of action. Phlebology2008;23:206–13
11.
VuylstekeME, MordonS. Endovenous laser ablation: a review of the mechanisms of action. Article under review
