OBJECTIVE: To investigate preischemic intracoronary autologous mitochondrial transplantation (MT) as a therapeutic strategy for prophylactic myocardial protection in a porcine model of regional ischemia-reperfusion injury (IRI). METHODS: The left coronary artery was cannulated in Yorkshire pigs (n = 26). Mitochondria (1 × 109) or buffer (vehicle [Veh]) were delivered as a single bolus (MTS) or serially (10 injections over 60 minutes; MTSS). At 15 minutes after injection, the heart was subjected to temporary regional ischemia (RI) by snaring the left anterior descending artery. After 30 minutes of RI, the snare was released, and the heart was reperfused for 120 minutes. RESULTS: Coronary blood flow (CBF) and myocardial function were increased temporarily during the pre-RI period. Following 30 minutes of RI, MTS and MTSS hearts had significantly increased CBF that persisted throughout reperfusion (Veh vs MTS and MTSS; P = .04). MTS and MTSS showed a significantly enhanced ejection fraction (Veh vs MTS, P < .001; Veh vs MTSS, P = .04) and developed pressure (Veh vs MTS, P < .001; Veh vs MTSS, P = .03). Regional function, assessed through segmental shortening (Veh vs MTS, P = .03; Veh vs MTSS, P < .001), fractional shortening (Veh vs MTS, P < .001; Veh vs MTSS, P = .04), and strain analysis (Veh vs MTS, P = .002; Veh vs MTSS, P = .003), was also significantly improved. Although there was no difference in the area at risk between treatment groups, infarct size was significantly reduced in both MT groups (Veh vs MTS and MTSS, P < .001). CONCLUSIONS: Preischemic MT by single or serial intracoronary injections provides prophylactic myocardial protection from IRI, significantly decreasing infarct size and enhancing global and regional function.
OBJECTIVE: To investigate preischemic intracoronary autologous mitochondrial transplantation (MT) as a therapeutic strategy for prophylactic myocardial protection in a porcine model of regional ischemia-reperfusion injury (IRI). METHODS: The left coronary artery was cannulated in Yorkshire pigs (n = 26). Mitochondria (1 × 109) or buffer (vehicle [Veh]) were delivered as a single bolus (MTS) or serially (10 injections over 60 minutes; MTSS). At 15 minutes after injection, the heart was subjected to temporary regional ischemia (RI) by snaring the left anterior descending artery. After 30 minutes of RI, the snare was released, and the heart was reperfused for 120 minutes. RESULTS: Coronary blood flow (CBF) and myocardial function were increased temporarily during the pre-RI period. Following 30 minutes of RI, MTS and MTSS hearts had significantly increased CBF that persisted throughout reperfusion (Veh vs MTS and MTSS; P = .04). MTS and MTSS showed a significantly enhanced ejection fraction (Veh vs MTS, P < .001; Veh vs MTSS, P = .04) and developed pressure (Veh vs MTS, P < .001; Veh vs MTSS, P = .03). Regional function, assessed through segmental shortening (Veh vs MTS, P = .03; Veh vs MTSS, P < .001), fractional shortening (Veh vs MTS, P < .001; Veh vs MTSS, P = .04), and strain analysis (Veh vs MTS, P = .002; Veh vs MTSS, P = .003), was also significantly improved. Although there was no difference in the area at risk between treatment groups, infarct size was significantly reduced in both MT groups (Veh vs MTS and MTSS, P < .001). CONCLUSIONS: Preischemic MT by single or serial intracoronary injections provides prophylactic myocardial protection from IRI, significantly decreasing infarct size and enhancing global and regional function.
Authors: Kei Hayashida; Ryosuke Takegawa; Muhammad Shoaib; Tomoaki Aoki; Rishabh C Choudhary; Cyrus E Kuschner; Mitsuaki Nishikimi; Santiago J Miyara; Daniel M Rolston; Sara Guevara; Junhwan Kim; Koichiro Shinozaki; Ernesto P Molmenti; Lance B Becker Journal: J Transl Med Date: 2021-05-17 Impact factor: 5.531
Authors: Eli J Louwagie; Tricia D Larsen; Angela L Wachal; Tyler C T Gandy; Michelle L Baack Journal: Int J Mol Sci Date: 2021-02-27 Impact factor: 5.923