Fresh Look at Bioengineering An Autoengineered Human Heart

Dr Pradeep Kumar Radhakrishnan

Abstract: Cardiac development represents a pinnacle of vertebrate embryology, orchestrated through complex genetic, molecular, and mechanical interactions. Recent advancements in developmental biology, tissue engineering, and gene regulation technologies have shed new light on the foundational processes of heart formation, particularly cardiac looping and chamber specification. A critical early morphogenetic event, dextral cardiac looping, converts a linear heart tube into a spatially structured organ. This transformation is regulated by left?right patterning genes such as Nodal and Pitx2, alongside biomechanical forces that introduce asymmetry into the growing tube. Simultaneously, cardiogenic transcription factors-NKX2 - 5, GATA4, ISL1, and TBX5-play pivotal roles in driving mesodermal cells toward cardiac lineages. With the advent of CRISPR - based gene editing, single - cell omics, and biofabrication platforms, it is now possible to manipulate these pathways to guide heart tissue formation in vitro. The convergence of developmental principles with tissue engineering has laid the groundwork for constructing autoengineered heart tissues, opening possibilities for personalized regenerative therapies. This review consolidates current insights into cardiac embryogenesis, gene regulation networks, and emerging technologies aimed at generating fully functional cardiac constructs.

Keywords: Cardiac Morphogenesis, Dextral Looping, Cardiogenic Gene Regulation, Tissue Engineering, Bioartificial Heart