Justin J. Sleeter
4 Papers
Justin J. Sleeter is an academic researcher. The author has contributed to research in topics: Medicine & Internal medicine. The author has co-authored 1 publications.
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Papers
Performance of a novel temporary arterial shunt in a military-relevant controlled hemorrhage swine model.
Kyle Stigall,Justin J. Sleeter,Sarah B Thomas,David Schechtman,Perry E. Blough,Jason M. Rall,David S. Kauvar +6 more
TL;DR: In this paper, a novel US Air Force-developed trauma-specific vascular injury shunt (TS-VIS) incorporates an accessible side port for intervention or monitoring, which may improve patency under adverse hemodynamic conditions.
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Admission Forced Vital Capacity Adds a Predictive Physiologic Tool to Triage Patients Suffering Rib Fractures: A Prospective Observation Trial.
Luke R. Johnston,Jason J Nam,Alexander P. Nissen,Justin J. Sleeter,James K. Aden,Alex F. Mills,Valerie G. Sams +6 more
TL;DR: In this paper , the authors examined bedside percent predicted forced vital capacity (FVC) in predicting complications for patients suffering multiple rib fractures and found that increased % pFVC is associated with reduced pulmonary complications.
Identification of a pharmaceutical biostasis inducer that slows metabolism in multiple vertebrates that do not hibernate
Megan M. Sperry,Bérénice Charrez,Haleh Fotowat,Erica Gardner,Kanoelani T. Pilobello,Zohreh Izadifar,Tiffany Lin,Abigail Kuelker,Sahith Kaki,Michael Lewandowski,Shanda L. Lightbown,Ramses Martinez,Susan Marquez,Adama M. Sesay,K. Shcherbina,Takako Takeda,Kristina Andrijauskaite,Exal Cisneros,R. Lopez,Isabella Cano,Zachary Maxwell,Rafael Veraza,Leonid Bunegin,Thomas J. Percival,Jaclyn L Yracheta,Jorge Pena,Diandra Wood,Zachary Homas,Cody Hinshaw,Jen Cox-Hinshaw,O. Parry,Justin J. Sleeter,Erik K. Weitzel,M. Vazquez Levin,Michael Super,Richard Novák,Donald E. Ingber +36 more
TL;DR: In this paper , an injectable biostasis drug that could slow organ injury by inducing a state of suspended animation through reversible slowing of metabolic processes would have great value for organ preservation and treatment of badly injured patients at the point of care.
Proof of concept study for a closed ex vivo limb perfusion system for 24-hour subnormothermic preservation using acellular perfusate
Rafael Veraza,R. Lopez,O. Parry,Justin J. Sleeter,Isabella Cano,Udipta Bohara,Jaclyn Merlo,I.J. Jessop,Erik Weitzel,Leonid Bunegin +9 more
TL;DR: The ULiSSES closed, pressurized perfusion technology has translatable military applications with the potential to preserve porcine limbs for 24 hours with improved results compared with an open perfusion system.