Clinical Outcomes With Normothermic Pulsatile Organ Perfusion in Heart Transplantation: A Report From the OCS Heart Perfusion Registry

Josef Stehlik; Maryjane A. Farr; Mandeep R. Mehra; Jacob N. Schroder; David A. D’Alessandro; Jay D. Pal; Mauricio A. Villavicencio; Peter J. Gruber; Gregory S. Couper; Yasuhiro Shudo; Parag C. Patel; Mani A. Daneshmand; Liviu Klein; Ashish S. Shah; Eric R. Skipper; Fardad Esmailian; Daniel Goldstein; Suguru Ohira; Lucian Lozonschi; David J. Kaczorowski; Koji Takeda; Rajasekhar S.R. Malyala; Jonathan W. Haft; Dan M. Meyer; Benjamin C. Sun; Victor Pretorius; Arman Kilic; Anelechi C. Anyanwu; Celeste T. Williams; Duc T. Pham; Masashi Kai; Nasir Z. Sulemanjee; Akinobu Itoh; Masaki Funamoto; Christopher T. Salerno; John S. Ikonomidis; Lucian A. Durham; Andrew Shaffer; Xiang Zhou; Farhan Zafar; Sean P. Pinney; Carmelo A. Milano

doi:10.1161/circulationaha.124.071743

Clinical Outcomes With Normothermic Pulsatile Organ Perfusion in Heart Transplantation: A Report From the OCS Heart Perfusion Registry

Josef Stehlik, Maryjane A. Farr, Mandeep R. Mehra, Jacob N. Schroder, David A. D’Alessandro, Jay D. Pal, Mauricio A. Villavicencio, Peter J. Gruber, Gregory S. Couper, Yasuhiro Shudo, Parag C. Patel, Mani A. Daneshmand, Liviu Klein, Ashish S. Shah, Eric R. Skipper, Fardad Esmailian, Daniel Goldstein, Suguru Ohira, Lucian Lozonschi, David J. KaczorowskiKoji Takeda, Rajasekhar S.R. Malyala, Jonathan W. Haft, Dan M. Meyer, Benjamin C. Sun, Victor Pretorius, Arman Kilic, Anelechi C. Anyanwu, Celeste T. Williams, Duc T. Pham, Masashi Kai, Nasir Z. Sulemanjee, Akinobu Itoh, Masaki Funamoto, Christopher T. Salerno, John S. Ikonomidis, Lucian A. Durham, Andrew Shaffer, Xiang Zhou, Farhan Zafar, Sean P. Pinney, Carmelo A. Milano

Surgery

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

BACKGROUND: A preservation system, the Organ Care System (OCS; TransMedics) uses normothermic pulsatile perfusion during organ transport for heart transplantation. This system has demonstrated favorable outcomes in hearts recovered from extended-criteria donors after brain death (DBD) and donors after circulatory death (DCD). METHODS: The OCS Heart Perfusion Registry collects data on US heart transplantations using the OCS, static cold storage (SCS), or thoracoabdominal normothermic regional perfusion (NRP) and donor hearts recovered from DBD or DCD donors. We analyzed donor and recipient characteristics and posttransplantation outcomes in patients transplanted with OCS donor hearts (either DBD or DCD) compared with SCS hearts, and with OCS hearts from DCD donors compared with those recovered with NRP followed by SCS. Propensity score matching was used in survival analyses to adjust for differences among recipient characteristics. RESULTS: Between 2021 and 2023, 3225 consecutive heart transplantations enrolled from 56 centers were analyzed in the Heart Perfusion Registry. The OCS was used in 854 of 3225 heart transplantations (26.4%), among which 340 (39.8%) were DBD and 514 (60.2%) were DCD donors, whereas 2174 DBD donors were recovered with SCS and another 197 DCD donors with NRP techniques. The OCS-DBD group experienced a greater number of organ offer refusals before final acceptance (13 versus 6; Wilcoxon rank sum, P<0.001) and a longer transport distance (667 miles versus 232 miles; Wilcoxon rank sum, P<0.001) compared with SCS-DBD. Survival at 12 months was similar between the 2 groups (89.9% for OCS-DBD versus 90.6% for SCS-DBD; marginal Cox model, P=0.54). Among the OCS-DCD and SCS-DBD groups, survival at 12 months was also similar (91.0% versus 92.5%, respectively; marginal Cox model, P=0.32). The OCS-DCD and NRP-DCD groups demonstrated similar survival (91.0% versus 91.7%, respectively; log rank, P=0.63), although the transport distance was longer in OCS-DCD compared with DCD with NRP followed by SCS (400 miles versus 223 miles; Wilcoxon rank sum, P<0.001). By 2023, 90% of all OCS donor management and recovery was performed with dedicated organ recovery teams. CONCLUSIONS: We demonstrate that real-world implementation of the OCS for DBD donors (using predominantly a dedicated recovery team) is associated with expanded donor criteria, longer transport distance, and excellent posttransplantation outcomes. In OCS-DCD donors, outcomes parallel those of donors recovered with NRP-DCD and compare favorably with DBD donor organs.

Original language	English (US)
Pages (from-to)	896-909
Number of pages	14
Journal	Circulation
Volume	151
Issue number	13
DOIs	https://doi.org/10.1161/circulationaha.124.071743
State	Published - Apr 1 2025

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Publisher Copyright:
© 2025 American Heart Association, Inc.

Keywords

heart transplantation
organ preservation
perfusion
survival

PubMed: MeSH publication types

Journal Article
Multicenter Study

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10.1161/circulationaha.124.071743

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Stehlik, J., Farr, M. A., Mehra, M. R., Schroder, J. N., D’Alessandro, D. A., Pal, J. D., Villavicencio, M. A., Gruber, P. J., Couper, G. S., Shudo, Y., Patel, P. C., Daneshmand, M. A., Klein, L., Shah, A. S., Skipper, E. R., Esmailian, F., Goldstein, D., Ohira, S., Lozonschi, L., ... Milano, C. A. (2025). Clinical Outcomes With Normothermic Pulsatile Organ Perfusion in Heart Transplantation: A Report From the OCS Heart Perfusion Registry. Circulation, 151(13), 896-909. https://doi.org/10.1161/circulationaha.124.071743

Stehlik, J, Farr, MA, Mehra, MR, Schroder, JN, D’Alessandro, DA, Pal, JD, Villavicencio, MA, Gruber, PJ, Couper, GS, Shudo, Y, Patel, PC, Daneshmand, MA, Klein, L, Shah, AS, Skipper, ER, Esmailian, F, Goldstein, D, Ohira, S, Lozonschi, L, Kaczorowski, DJ, Takeda, K, Malyala, RSR, Haft, JW, Meyer, DM, Sun, BC, Pretorius, V, Kilic, A, Anyanwu, AC, Williams, CT, Pham, DT, Kai, M, Sulemanjee, NZ, Itoh, A, Funamoto, M, Salerno, CT, Ikonomidis, JS, Durham, LA, Shaffer, A, Zhou, X, Zafar, F, Pinney, SP & Milano, CA 2025, 'Clinical Outcomes With Normothermic Pulsatile Organ Perfusion in Heart Transplantation: A Report From the OCS Heart Perfusion Registry', Circulation, vol. 151, no. 13, pp. 896-909. https://doi.org/10.1161/circulationaha.124.071743

@article{36ecf3fd7e2e4b4e9cdaf62a7e86960b,

title = "Clinical Outcomes With Normothermic Pulsatile Organ Perfusion in Heart Transplantation: A Report From the OCS Heart Perfusion Registry",

abstract = "BACKGROUND: A preservation system, the Organ Care System (OCS; TransMedics) uses normothermic pulsatile perfusion during organ transport for heart transplantation. This system has demonstrated favorable outcomes in hearts recovered from extended-criteria donors after brain death (DBD) and donors after circulatory death (DCD). METHODS: The OCS Heart Perfusion Registry collects data on US heart transplantations using the OCS, static cold storage (SCS), or thoracoabdominal normothermic regional perfusion (NRP) and donor hearts recovered from DBD or DCD donors. We analyzed donor and recipient characteristics and posttransplantation outcomes in patients transplanted with OCS donor hearts (either DBD or DCD) compared with SCS hearts, and with OCS hearts from DCD donors compared with those recovered with NRP followed by SCS. Propensity score matching was used in survival analyses to adjust for differences among recipient characteristics. RESULTS: Between 2021 and 2023, 3225 consecutive heart transplantations enrolled from 56 centers were analyzed in the Heart Perfusion Registry. The OCS was used in 854 of 3225 heart transplantations (26.4\%), among which 340 (39.8\%) were DBD and 514 (60.2\%) were DCD donors, whereas 2174 DBD donors were recovered with SCS and another 197 DCD donors with NRP techniques. The OCS-DBD group experienced a greater number of organ offer refusals before final acceptance (13 versus 6; Wilcoxon rank sum, P<0.001) and a longer transport distance (667 miles versus 232 miles; Wilcoxon rank sum, P<0.001) compared with SCS-DBD. Survival at 12 months was similar between the 2 groups (89.9\% for OCS-DBD versus 90.6\% for SCS-DBD; marginal Cox model, P=0.54). Among the OCS-DCD and SCS-DBD groups, survival at 12 months was also similar (91.0\% versus 92.5\%, respectively; marginal Cox model, P=0.32). The OCS-DCD and NRP-DCD groups demonstrated similar survival (91.0\% versus 91.7\%, respectively; log rank, P=0.63), although the transport distance was longer in OCS-DCD compared with DCD with NRP followed by SCS (400 miles versus 223 miles; Wilcoxon rank sum, P<0.001). By 2023, 90\% of all OCS donor management and recovery was performed with dedicated organ recovery teams. CONCLUSIONS: We demonstrate that real-world implementation of the OCS for DBD donors (using predominantly a dedicated recovery team) is associated with expanded donor criteria, longer transport distance, and excellent posttransplantation outcomes. In OCS-DCD donors, outcomes parallel those of donors recovered with NRP-DCD and compare favorably with DBD donor organs.",

keywords = "heart transplantation, organ preservation, perfusion, survival",

author = "Josef Stehlik and Farr, \{Maryjane A.\} and Mehra, \{Mandeep R.\} and Schroder, \{Jacob N.\} and D{\textquoteright}Alessandro, \{David A.\} and Pal, \{Jay D.\} and Villavicencio, \{Mauricio A.\} and Gruber, \{Peter J.\} and Couper, \{Gregory S.\} and Yasuhiro Shudo and Patel, \{Parag C.\} and Daneshmand, \{Mani A.\} and Liviu Klein and Shah, \{Ashish S.\} and Skipper, \{Eric R.\} and Fardad Esmailian and Daniel Goldstein and Suguru Ohira and Lucian Lozonschi and Kaczorowski, \{David J.\} and Koji Takeda and Malyala, \{Rajasekhar S.R.\} and Haft, \{Jonathan W.\} and Meyer, \{Dan M.\} and Sun, \{Benjamin C.\} and Victor Pretorius and Arman Kilic and Anyanwu, \{Anelechi C.\} and Williams, \{Celeste T.\} and Pham, \{Duc T.\} and Masashi Kai and Sulemanjee, \{Nasir Z.\} and Akinobu Itoh and Masaki Funamoto and Salerno, \{Christopher T.\} and Ikonomidis, \{John S.\} and Durham, \{Lucian A.\} and Andrew Shaffer and Xiang Zhou and Farhan Zafar and Pinney, \{Sean P.\} and Milano, \{Carmelo A.\}",

note = "Publisher Copyright: {\textcopyright} 2025 American Heart Association, Inc.",

year = "2025",

month = apr,

day = "1",

doi = "10.1161/circulationaha.124.071743",

language = "English (US)",

volume = "151",

pages = "896--909",

journal = "Circulation",

issn = "0009-7322",

publisher = "Lippincott Williams and Wilkins",

number = "13",

}

TY - JOUR

T1 - Clinical Outcomes With Normothermic Pulsatile Organ Perfusion in Heart Transplantation

T2 - A Report From the OCS Heart Perfusion Registry

AU - Stehlik, Josef

AU - Farr, Maryjane A.

AU - Mehra, Mandeep R.

AU - Schroder, Jacob N.

AU - D’Alessandro, David A.

AU - Pal, Jay D.

AU - Villavicencio, Mauricio A.

AU - Gruber, Peter J.

AU - Couper, Gregory S.

AU - Shudo, Yasuhiro

AU - Patel, Parag C.

AU - Daneshmand, Mani A.

AU - Klein, Liviu

AU - Shah, Ashish S.

AU - Skipper, Eric R.

AU - Esmailian, Fardad

AU - Goldstein, Daniel

AU - Ohira, Suguru

AU - Lozonschi, Lucian

AU - Kaczorowski, David J.

AU - Takeda, Koji

AU - Malyala, Rajasekhar S.R.

AU - Haft, Jonathan W.

AU - Meyer, Dan M.

AU - Sun, Benjamin C.

AU - Pretorius, Victor

AU - Kilic, Arman

AU - Anyanwu, Anelechi C.

AU - Williams, Celeste T.

AU - Pham, Duc T.

AU - Kai, Masashi

AU - Sulemanjee, Nasir Z.

AU - Itoh, Akinobu

AU - Funamoto, Masaki

AU - Salerno, Christopher T.

AU - Ikonomidis, John S.

AU - Durham, Lucian A.

AU - Shaffer, Andrew

AU - Zhou, Xiang

AU - Zafar, Farhan

AU - Pinney, Sean P.

AU - Milano, Carmelo A.

PY - 2025/4/1

Y1 - 2025/4/1

N2 - BACKGROUND: A preservation system, the Organ Care System (OCS; TransMedics) uses normothermic pulsatile perfusion during organ transport for heart transplantation. This system has demonstrated favorable outcomes in hearts recovered from extended-criteria donors after brain death (DBD) and donors after circulatory death (DCD). METHODS: The OCS Heart Perfusion Registry collects data on US heart transplantations using the OCS, static cold storage (SCS), or thoracoabdominal normothermic regional perfusion (NRP) and donor hearts recovered from DBD or DCD donors. We analyzed donor and recipient characteristics and posttransplantation outcomes in patients transplanted with OCS donor hearts (either DBD or DCD) compared with SCS hearts, and with OCS hearts from DCD donors compared with those recovered with NRP followed by SCS. Propensity score matching was used in survival analyses to adjust for differences among recipient characteristics. RESULTS: Between 2021 and 2023, 3225 consecutive heart transplantations enrolled from 56 centers were analyzed in the Heart Perfusion Registry. The OCS was used in 854 of 3225 heart transplantations (26.4%), among which 340 (39.8%) were DBD and 514 (60.2%) were DCD donors, whereas 2174 DBD donors were recovered with SCS and another 197 DCD donors with NRP techniques. The OCS-DBD group experienced a greater number of organ offer refusals before final acceptance (13 versus 6; Wilcoxon rank sum, P<0.001) and a longer transport distance (667 miles versus 232 miles; Wilcoxon rank sum, P<0.001) compared with SCS-DBD. Survival at 12 months was similar between the 2 groups (89.9% for OCS-DBD versus 90.6% for SCS-DBD; marginal Cox model, P=0.54). Among the OCS-DCD and SCS-DBD groups, survival at 12 months was also similar (91.0% versus 92.5%, respectively; marginal Cox model, P=0.32). The OCS-DCD and NRP-DCD groups demonstrated similar survival (91.0% versus 91.7%, respectively; log rank, P=0.63), although the transport distance was longer in OCS-DCD compared with DCD with NRP followed by SCS (400 miles versus 223 miles; Wilcoxon rank sum, P<0.001). By 2023, 90% of all OCS donor management and recovery was performed with dedicated organ recovery teams. CONCLUSIONS: We demonstrate that real-world implementation of the OCS for DBD donors (using predominantly a dedicated recovery team) is associated with expanded donor criteria, longer transport distance, and excellent posttransplantation outcomes. In OCS-DCD donors, outcomes parallel those of donors recovered with NRP-DCD and compare favorably with DBD donor organs.

AB - BACKGROUND: A preservation system, the Organ Care System (OCS; TransMedics) uses normothermic pulsatile perfusion during organ transport for heart transplantation. This system has demonstrated favorable outcomes in hearts recovered from extended-criteria donors after brain death (DBD) and donors after circulatory death (DCD). METHODS: The OCS Heart Perfusion Registry collects data on US heart transplantations using the OCS, static cold storage (SCS), or thoracoabdominal normothermic regional perfusion (NRP) and donor hearts recovered from DBD or DCD donors. We analyzed donor and recipient characteristics and posttransplantation outcomes in patients transplanted with OCS donor hearts (either DBD or DCD) compared with SCS hearts, and with OCS hearts from DCD donors compared with those recovered with NRP followed by SCS. Propensity score matching was used in survival analyses to adjust for differences among recipient characteristics. RESULTS: Between 2021 and 2023, 3225 consecutive heart transplantations enrolled from 56 centers were analyzed in the Heart Perfusion Registry. The OCS was used in 854 of 3225 heart transplantations (26.4%), among which 340 (39.8%) were DBD and 514 (60.2%) were DCD donors, whereas 2174 DBD donors were recovered with SCS and another 197 DCD donors with NRP techniques. The OCS-DBD group experienced a greater number of organ offer refusals before final acceptance (13 versus 6; Wilcoxon rank sum, P<0.001) and a longer transport distance (667 miles versus 232 miles; Wilcoxon rank sum, P<0.001) compared with SCS-DBD. Survival at 12 months was similar between the 2 groups (89.9% for OCS-DBD versus 90.6% for SCS-DBD; marginal Cox model, P=0.54). Among the OCS-DCD and SCS-DBD groups, survival at 12 months was also similar (91.0% versus 92.5%, respectively; marginal Cox model, P=0.32). The OCS-DCD and NRP-DCD groups demonstrated similar survival (91.0% versus 91.7%, respectively; log rank, P=0.63), although the transport distance was longer in OCS-DCD compared with DCD with NRP followed by SCS (400 miles versus 223 miles; Wilcoxon rank sum, P<0.001). By 2023, 90% of all OCS donor management and recovery was performed with dedicated organ recovery teams. CONCLUSIONS: We demonstrate that real-world implementation of the OCS for DBD donors (using predominantly a dedicated recovery team) is associated with expanded donor criteria, longer transport distance, and excellent posttransplantation outcomes. In OCS-DCD donors, outcomes parallel those of donors recovered with NRP-DCD and compare favorably with DBD donor organs.

KW - heart transplantation

KW - organ preservation

KW - perfusion

KW - survival

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UR - http://www.scopus.com/inward/citedby.url?scp=105000398080&partnerID=8YFLogxK

U2 - 10.1161/circulationaha.124.071743

DO - 10.1161/circulationaha.124.071743

M3 - Article

C2 - 40052272

AN - SCOPUS:105000398080

SN - 0009-7322

VL - 151

SP - 896

EP - 909

JO - Circulation

JF - Circulation

IS - 13

ER -

Clinical Outcomes With Normothermic Pulsatile Organ Perfusion in Heart Transplantation: A Report From the OCS Heart Perfusion Registry

Abstract

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