Back to Search Start Over

Feasibility testing of the Inspired Therapeutics NeoMate mechanical circulatory support system for neonates and infants.

Authors :
Monreal G
Koenig SC
Slaughter MS
Morello GF
Prina SR
Tompkins LH
Huang J
Gellman BN
Dasse KA
Source :
PloS one [PLoS One] 2022 May 11; Vol. 17 (5), pp. e0266822. Date of Electronic Publication: 2022 May 11 (Print Publication: 2022).
Publication Year :
2022

Abstract

Inspired Therapeutics (Merritt Island, FL) is developing a mechanical circulatory support (MCS) system designed as a single driver with interchangeable, extracorporeal, magnetically levitated pumps. The NeoMate system design features an integrated centrifugal rotary pump, motor, and controller that will be housed in a single compact unit. Conceptually, the primary innovation of this technology will be the combination of disposable, low-cost pumps for use with a single, multi-functional, universal controller to support multiple pediatric cardiopulmonary indications. In response to the paucity of clinically available pediatric devices, Inspired Therapeutics is specifically targeting the underserved neonate and infant heart failure (HF) patient population first. In this article, we present the development of the prototype Inspired Therapeutics NeoMate System for pediatric left ventricular assist device (LVAD) support, and feasibility testing in static mock flow loops (H-Q curves), dynamic mock flow loops (hemodynamics), and in an acute healthy ovine model (hemodynamics and clinical applicability). The resultant hydrodynamic and hemodynamic data demonstrated the ability of this prototype pediatric LVAD and universal controller to function over a range of rotary pump speeds (500-6000 RPM), to provide pump flow rates of up to 2.6 L/min, and to volume unload the left ventricle in acute animals. Key engineering challenges observed and proposed solutions for the next design iteration are also presented.<br />Competing Interests: This study was supported by a National Institutes of Health SBIR grant 1R43HL144214-01 (PI Dasse). Drs. Monreal, Koenig, and Slaughter were co-investigators on the NIH SBIR phase I grant (1R43HL144214-01) subcontract with Inspired Therapeutics. Dr. Dasse and Mr. Gellman were PI and Co-I, respectively, on the NIH SBIR phase I grant (1R43HL144214-01) and are employed by Inspired Therapeutics. Dr. Monreal is supported in part by a gift from Robert M. Prizant to the Legacy Foundation of Kentuckiana. Dr. Koenig is co-founder of Cor Habere and MAST developing medical devices supported by NIH SBIR phase I grants (R43HL142337-01, R43HL142385-01, R43HL152894-01); however, these affiliations and funded projects are unrelated to the subcontract with Inspired Therapeutics and independent of the work presented in this manuscript. Dr. Slaughter is co-founder of Cor Habere and MAST developing medical devices supported by NIH SBIR phase I grants (R43HL142337-01, R43HL142385-01, R43HL152894-01) and consultant with Magenta Medical; however, these affiliations and funded projects are unrelated to the subcontract with Inspired Therapeutics and independent of the work presented in this manuscript. Mr. Morello was a consultant on the NIH SBIR phase I grant (1R43HL144214-01) subcontract with Inspired Therapeutics and is employed by Veritium Research. Dr. Prina was a consultant on the NIH SBIR phase I grant (1R43HL144214-01) with Veritium Research LLC. Dr. Prina was also a paid consultant of VADovations Inc and Oregon Institute of Technology through his previous company Applimotion. None of these additional affiliations are related to the work presented in this manuscript. Dr. Tompkins was an engineer on the NIH SBIR phase I grant (1R43HL144214-01) as a graduate student at the University of Louisville and is a consultant for Inspired Therapeutics LLC. Additionally, Dr. Tompkins is a co-owner of MAST LLC, engineer with Cor Habere Corp., and consultant with VADovations Inc.; however, none of these additional affiliations are related to the work presented in this manuscript. Dr. Huang has a research grant from Gilead Sciences, serves as a consultant for GE Healthcare, and has ownership at Microsensor Labs and Degranin Therapeutics. Mr. Gellman is a consultant to Paragonix Technologies, Inc.; Vivante Health, Inc.; and Cardiac Assist Holdings, which are unrelated to to work presented in this manuscript. Dr. Dasse is the CEO and co-Founder of Inspired Therapeutics LLC and serves as PI on the NIH SBIR Phase I grant (1R43HL144214-01) that supported prototype development and feasibility testing presented in this manuscript. In addition, Dr. Dasse is a co-investigator on NIH SBIR phase I grant (R43HL142385-01) and consultant on NIH SBIR grant (R43HL158430), which are unrelated to this manuscript. He is also President and COO of VADovations Inc, and serves as a consultant to BiVACOR Inc, CH-Biomedical USA Inc, Jarvik Heart International, and Vortronix Medical, LLC, Teal Health Inc. CAH Holdings LLC, and “The Kidney Project” affiliated with the University of California San Francisco and Vanderbilt University, which are unrelated to this manuscript. Dr. Dasse serves on the Board of Directors for Makana Therapeutics and Artio Medical, which are unrelated to this manuscript.

Details

Language :
English
ISSN :
1932-6203
Volume :
17
Issue :
5
Database :
MEDLINE
Journal :
PloS one
Publication Type :
Academic Journal
Accession number :
35544516
Full Text :
https://doi.org/10.1371/journal.pone.0266822