Abstract
Open coronary arterial bypass grafting (CABG) procedures are inherently risky in regards to the healing capacity of the subsequent sternal wound. Patients often have underlying risk factors for poor healing and the procedure itself often reduces vascularity to the anterior chest with internal mammary artery (IMA) dissection. Currently unrelated is the surgical delay procedure. It is a well-established technique for augmenting vascularity and ultimately tissue survival. It involves partial disruption of the blood supply to a flap for a period of time prior to fully elevating the flap (usually between 3 and 21 days). Recently, endoscopic robotic IMA dissection has become possible as a part of totally endoscopic CABGs for left-sided vessel disease. We are proposing a new technique, using surgical delay for patients who require open sternotomies for CABGS to reduce the rate of postoperative sternal wound complications. To delay the CABG, the majority of a robotic internal IMA dissection would be performed prior to an open CABG via a midline sternotomy. We hypothesize that this may decrease sternal wound complication rates. Potential pitfalls include consequences of disrupting the normal anatomic location of the IMAs and causing inflammation before the open CABG. Animal models will be the next step, as they will evaluate the feasibility of the delay as well as help to determine the optimal timing for the procedure.
Original language | English (US) |
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Article number | 109466 |
Journal | Medical Hypotheses |
Volume | 135 |
DOIs | |
State | Published - Feb 2020 |
Externally published | Yes |
ASJC Scopus subject areas
- General Medicine