Patients selected for DIEP breast reconstruction were examined with preoperative CTA, Doppler Ultrasound, dynamic infrared thermography (DIRT) and Indocyanin green fluorescent angiography (ICG-FA) for perforator mapping. DIRT and ICG-FA were used to evaluate perfusion of selected perforators. Following anastomoses for the DIEP flap to internal mammary vessels , patency of the anastomosis was evaluated with DIRT and ICG-FA. Recorded images from all the modules were compared.
Introduction: 'The primary aim of our study is to compare invasive and non-invasive techniques to select a dominant perforator when harvesting a DIEP-flap for autologous breast reconstruction. The secondary aim is to compare Dynamic Infrared Thermography (DIRT) and Laser Fluorescence Angiography (LFA) of Indocyanine green (ICG) in order to see whether they could be useful in the early detection of insufficient perfusion following the microvascular anastomotic procedure in DIEP flaps. Material and Method: Patients selected for breast reconstruction with autologous tissue were examined with preoperative CTA and a handheld Doppler Ultrasound for perforator mapping. Thereafter visual images from same area was obtained with dynamic infraredeed thermography (DIRT) and Indocyanin green fluorescent angiography (ICG-FA) before and after dissection of the skin flap with preserved medial and lateral DIEP perforators. Reconstructed breasts with hemi-DIEP-flaps were intraoperatively evaluated with DIRT and LFA immediately after the completion and opening of the microvascular anastomosis.The recorded images from the different techniques were assesses in relation to clinical outcome. .
Study Type
OBSERVATIONAL
Enrollment
30
DIRT and ICG FA are used intraoperatively to evaluate perfusion of the perforators and the anastomosis. Both technique are compared in their ability to visualize perfusion.
Univesity Hospital of North Norway
Tromsø, Norway
RECRUITINGAssessment of quality and location of perforating blood vessels with dynamic infrared thermography and indocyanine green angiography in autologous breast reconstruction: A comparative imaging study.
Pre-and intraoperative use of two different imaging technologies to assess quality and location of perforating blood vessels in autologous breast reconstruction. In this study we will compare images obtained using a non-invasive imaging technique, dynamic infrared thermography and an invasive imaging technique, laser fluorescence angiography of indocyanine green.
Time frame: 2 year
Quality of microvascular anastomosis by measuring perfusion through the anastomosis using dynamic infrared thermography and laser fluorescence angiography of indocyanine green.
The microvascular anastomosis provides blood supply to tissue used in breast reconstruction. The blood flow through the microvascular anastomosis can be monitored by use of different imaging techniques. In this study, perfusion images obtained by non-invasive dynamic infrared thermography and invasive fluorescence angiography of indocyanine green will be compared.
Time frame: 2 years
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