Breast Cancer Clinical Trial
Official title:
Novel Application of Indocyanine Green as a Biomarker to Identify Tissue Necrosis in Mastectomy Patients
Breast reconstruction is a common procedure that can dramatically improve the quality of life
and satisfaction for women who undergo mastectomy, with over 100,000 procedures performed in
the U.S. in 2018. The success of this procedure, however, is limited by its complications,
including mastectomy skin flap necrosis, which occurs at a rate a 10-15%. Mastectomy skin
flap necrosis causes significant morbidity in patients undergoing breast reconstruction,
potentially compromising results and delaying oncologic management. In addition, necrosis can
lead to infection, implant loss, and need for reoperation.
Current approaches to identify mastectomy skin flap necrosis rely largely on the surgeon's
assessment of skin flap color, capillary refill, temperature turgor and dermal bleeding.
However, clinical assessment of necrosis is subjective and is not a reliable predictor of
postoperative complications. ICG microangiography is an accepted adjunct method to aid in
clinical judgment by identifying poor perfusion as a surrogate marker for tissue at risk for
necrosis during reconstructive surgical procedures. However, transient alterations in blood
flow seen by this method may not represent actual necrosis. Furthermore, the common practice
of using vasoconstriction methods to prevent massive blood loss in plastic surgery also
alters microperfusion and renders the microangiography inaccurate. There is an unmet need for
reliable methods to identify mastectomy skin flap necrosis during or post breast
reconstruction procedure in order to improve patient outcomes.
Recently in animal models of burn or ischemic injuries, ICG dye was shown to preferentially
bind to exposed phospholipids in the membranes of necrotic cells, thus acting as a biomarker
for necrotic tissue, when imaged a day after injection rather than minutes after injection,
as is standard for microangiographic use of ICG. This necrosis-avid property of ICG has broad
translational potential for clinical use in a variety of disease processes that result in
necrosis. However, no clinical application of the necrosis-avid property of ICG has been
reported yet. In this study, the investigator will test the feasibility of combining the
necrosis-avid property of ICG and the SPY imaging system at University of Wisconsin hospital
to obtain delayed imaging of ICG fluorescence for direct necrosis detection in breast
reconstruction in mastectomy patients.
This project is an early feasibility study to establish whether ICG imaging, in a delayed
fashion, can be used in mastectomy patients to aid in the detection of necrotic tissue in
breast reconstruction wounds. Investigators will use the preliminary data generated from this
pilot study to generate hypotheses and to power future studies.
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