Primitive macrophages induce sarcomeric maturation and functional enhancement of developing human cardiac microtissues via efferocytic pathways

Homaira Hamidzada(University of Toronto), Slava Epelman(University Health Network), Marianne Wauchop(York University), Shabana Vohra(University Health Network), Stéphane Massé(Toronto General Hospital), Shira Landau(University of Toronto), Gordon Keller(University Health Network), Marta Gómez-Garcı́a(University Health Network), Renée A. Gorman(York University), Anthony O. Gramolini(University of Toronto), Erika L. Beroncal(University of Toronto), Crystal Kantores(University Health Network), Jared Nanthakumar(University Health Network), Ian Fernandes(University Health Network), Tamilla Valdman Sadikov(University Health Network), Simon Pascual‐Gil(University Health Network), Wenliang Chen(Guangdong Medical College), Naimeh Rafatian(University of Toronto), Kumaraswamy Nanthakumar(University Health Network), Michael Atkins(University Health Network), Erika Y. Wang(Allen Institute), Michael A. Laflamme(University Health Network), Babak Razani(University of Pittsburgh), Tracy L. McGaha(Centre for Disability Prevention and Rehabilitation), Milica Radisic(University of Toronto), Peter H. Backx(York University), Yimu Zhao(University of Toronto), Uroš Kuzmanov(University of Toronto), Tasnia Subha(Toronto General Hospital), Ana C. Andreazza(University of Toronto), G Kent(University Health Network), Qinghua Wu(University Health Network)
Nature Cardiovascular Research
May 7, 2024
Cited by 54


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