Exal Cisneros
University of Texas at San Antonio
4 Papers
2 Citations
Exal Cisneros is an academic researcher from University of Texas at San Antonio. The author has contributed to research in topics: Internal medicine & Medicine. The author has co-authored 1 publications.
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Papers
Innovative computer vision approach to 3D bladder model reconstruction from flexible cystoscopy
Nestor Orlando Falcon,Sorush Ranjbar,Exal Cisneros,Bao Vu,Austin Schoppe,Pedro Sanchez,Yufang Jin,Jing Yong Ye,Yusheng Feng,Dharam Kaushik,R. Lyle Hood,R. Lyle Hood +11 more
- 01 Jan 2019
TL;DR: A novel non-invasive computer vision pipeline that can extract 3D structural information from 2D images obtained during routine flexible cystoscopy is presented, providing clinicians with better organ-sparing methods to treat transitional cell carcinoma.
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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.
CARD28: Prolonged Graft Preservation of Biostasis Induced Porcine Hearts using the VP.S ENCORE® Machine Perfusion Device
Kristina Andrijauskaite,Rafael Veraza,R. Lopez,Exal Cisneros,Isabella Cano,Zachary Maxwell,I.J. Jessop,M.D. Watt,Shanda L. Lightbown,Megan M. Sperry,Michael Super,Donald Ingber,Leonid Bunegin +12 more
TL;DR: In this article , the VP.S ENCORE® cardiac preservation device was used to preserve porcine hearts conditioned with a biostasis-inducing compound (WC1) during prolonged 6-8 hour perfusion.
Novel portable hypothermic machine perfusion preservation device enhances cardiac viability of donated human hearts
Kristina Andrijauskaite,Rafael Veraza,Riley P. Lopez,Zachary Maxwell,Isabella Cano,Exal Cisneros,I.J. Jessop,Maria Basurto,George Lamberson,M.D. Watt,Joseph Nespral,Masahiro Ono,Leonid Bunegin +12 more
TL;DR: The results demonstrate that the VP.S ENCORE® device enhances cardiac viability and exhibits comparable cardiac function to a healthy heart, and suggest that the VP.S ENCORE® could introduce a new paradigm in the field of organ preservation, especially for marginal hearts.