Bat-Erdene Namsrai
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Explore the profile of Bat-Erdene Namsrai including associated specialties, affiliations and a list of published articles.
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Recent Articles
1.
Ramesh S, Rao J, Namsrai B, Fisher B, Tobolt D, Megaly M, et al.
bioRxiv
. 2024 Dec;
PMID: 39713303
Background And Aims: High-throughput in vitro pharmacological toxicity testing is essential for drug discovery. Precision-cut liver slices (PCLS) provide a robust system for screening that is more representative of the...
2.
Gangwar L, Han Z, Scheithauer C, Namsrai B, Kantesaria S, Goldstein R, et al.
bioRxiv
. 2024 Nov;
PMID: 39605575
Organ banking by vitrification could revolutionize transplant medicine. However, vitrification and rewarming have never been demonstrated at the human organ scale. Using modeling and experimentation, we tested the ability to...
3.
Han Z, Gangwar L, Namsrai B, Rao J, Scheithauer C, Etheridge M, et al.
Cryobiology
. 2024 Oct;
117:104977.
PMID: 39368531
Critical cooling and warming rates (CCR and CWR) are two important calorimetric properties of cryoprotective agents (CPA) solutions, and achieving these rates is generally regarded as the critical criterion for...
4.
Ozgur O, Namsrai B, Pruett T, Bischof J, Toner M, Finger E, et al.
Front Transplant
. 2024 Jul;
2:1156845.
PMID: 38993842
Organ transplantation remains the only treatment option for patients with end-stage organ failure. The last decade has seen a flurry of activity in improving organ preservation technologies, which promise to...
5.
Kantesaria S, Tang X, Suddarth S, Pasek-Allen J, Namsrai B, Goswitz A, et al.
ACS Sens
. 2024 Jan;
9(1):262-271.
PMID: 38190731
Iron oxide nanoparticles (IONPs) have wide utility in applications from drug delivery to the rewarming of cryopreserved tissues. Due to the complex behavior of IONPs (e.g., uneven particle distribution and...
6.
Kraft C, Namsrai B, Tobolt D, Etheridge M, Finger E, Bischof J
Cryobiology
. 2023 Dec;
114:104842.
PMID: 38158172
In clinical practice, donor hearts are transported on ice prior to transplant and discarded if cold ischemia time exceeds ∼5 h. Methods to extend these preservation times are critically needed,...
7.
Han Z, Rao J, Ramesh S, Hergesell J, Namsrai B, Etheridge M, et al.
Ann Biomed Eng
. 2023 Jun;
51(10):2216-2228.
PMID: 37351756
Vitrification could enable long-term organ preservation, but only after loading high-concentration, potentially toxic cryoprotective agents (CPAs) by perfusion. In this paper, we combine a two-compartment Krogh cylinder model with a...
8.
Han Z, Rao J, Gangwar L, Namsrai B, Pasek-Allen J, Etheridge M, et al.
Nat Commun
. 2023 Jun;
14(1):3407.
PMID: 37296144
Banking cryopreserved organs could transform transplantation into a planned procedure that more equitably reaches patients regardless of geographical and time constraints. Previous organ cryopreservation attempts have failed primarily due to...
9.
Sharma A, Lee C, Namsrai B, Han Z, Tobolt D, Rao J, et al.
Ann Biomed Eng
. 2022 Nov;
51(3):578.
PMID: 36445557
No abstract available.
10.
Sharma A, Lee C, Namsrai B, Han Z, Tobolt D, Rao J, et al.
Ann Biomed Eng
. 2022 Oct;
51(3):566-577.
PMID: 36183025
Liver cryopreservation has the potential to enable indefinite organ banking. This study investigated vitrification-the ice-free cryopreservation of livers in a glass-like state-as a promising alternative to conventional cryopreservation, which uniformly...