Receive a weekly summary and discussion of the top papers of the week by leading researchers in the field.

In Frontiers in cardiovascular medicine

INTRODUCTION : Artificial intelligence can recognize complex patterns in large datasets. It is a promising technology to advance heart failure practice, as many decisions rely on expert opinions in the absence of high-quality data-driven evidence.

METHODS : We searched Embase, Web of Science, and PubMed databases for articles containing "artificial intelligence," "machine learning," or "deep learning" and any of the phrases "heart transplantation," "ventricular assist device," or "cardiogenic shock" from inception until August 2022. We only included original research addressing post heart transplantation (HTx) or mechanical circulatory support (MCS) clinical care. Review and data extraction were performed in accordance with PRISMA-Scr guidelines.

RESULTS : Of 584 unique publications detected, 31 met the inclusion criteria. The majority focused on outcome prediction post HTx (n = 13) and post durable MCS (n = 7), as well as post HTx and MCS management (n = 7, n = 3, respectively). One study addressed temporary mechanical circulatory support. Most studies advocated for rapid integration of AI into clinical practice, acknowledging potential improvements in management guidance and reliability of outcomes prediction. There was a notable paucity of external data validation and integration of multiple data modalities.

CONCLUSION : Our review showed mounting innovation in AI application in management of MCS and HTx, with the largest evidence showing improved mortality outcome prediction.

Al-Ani Mohammad A, Bai Chen, Hashky Amal, Parker Alex M, Vilaro Juan R, Aranda Juan M, Shickel Benjamin, Rashidi Parisa, Bihorac Azra, Ahmed Mustafa M, Mardini Mamoun T

2023

LVAD, artificial intelligence, deep learning, heart transplantation, machine learning, mechanical circulatory support