Keith Van Meter
Louisiana State University
27 Papers
218 Citations
Keith Van Meter is an academic researcher from Louisiana State University. The author has contributed to research in topics: Traumatic brain injury & Poison control. The author has an hindex of 17, co-authored 27 publications. Previous affiliations of Keith Van Meter include LSU Health Sciences Center New Orleans & University Medical Center New Orleans.
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Papers
A phase I study of low-pressure hyperbaric oxygen therapy for blast-induced post-concussion syndrome and post-traumatic stress disorder.
Paul G. Harch,Susan R. Andrews,Edward F Fogarty,Daniel Amen,John C. Pezzullo,Juliette Lucarini,Claire Aubrey,Derek Taylor,P Staab,Keith Van Meter +9 more
TL;DR: Forty 1.5 ATA HBOT sessions in 1 month was safe in a military cohort with chronic blast-induced PCS and PTSD, with concomitant significant improvements in SPECT.
Decompression illness in divers: a review of the literature.
TL;DR: Divers can develop DCI on very short dives or in shallow water, even when adhering to protocols, and any neurologic symptoms after a dive are abnormal and should be attributed to DCI.
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Hyperbaric oxygen therapy improves spatial learning and memory in a rat model of chronic traumatic brain injury.
TL;DR: A 40-day series of 80 low-pressure HBOTs caused an increase in contused hippocampus vascular density and an associated improvement in cognitive function and reaffirm the clinical experience of HBOT-treated patients with chronic traumatic brain injury.
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Adjuvant hyperbaric oxygen therapy in the management of crush injury and traumatic ischemia: an evidence-based approach.
TL;DR: A systematic review of the literature concluded that adjunctive HBO is not likely to be harmful and could be beneficial if administered early and well designed clinical studies are warranted.
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Hyperbaric Oxygen Promotes Proximal Bone Regeneration and Organized Collagen Composition during Digit Regeneration.
Mimi C. Sammarco,Jennifer Simkin,Alexander J. Cammack,Danielle Fassler,Alexej Gossmann,Luis Marrero,Michelle Lacey,Keith Van Meter,Ken Muneoka +8 more
TL;DR: In this article, the influence of increased oxygen on digit regeneration in vivo daily treatments of hyperbaric oxygen were administered to mice during all phases of the entire regenerative process, and histological analysis showed that the continuous application of hypobaric oxygen during digit regeneration results in delayed blastema formation at a much more proximal location after amputation, and deposition of better organized collagen fibers during bone formation.