Moore Tl scite author profile

Transport of beta-hydroxybutyrate (betaHB) into rat brain was estimated from the early rise in brain/serum 14C ratio after subcutaneous injection of [14C]betaHB. Permeability of the D isomer exceeded that of the L isomer. Permeability of either isomer rose throughout suckling (sevenfold) and declined after weaning to the low, newborn values. This age dependence differed markedly from those of cerebral blood flow and cerebral permeabilities of urea, glucose, valine, leucine, and DMO (5,5-dimethyloxazolidine-2,4-dione). Fat-feeding more than doubled cerebral betaHB permeability without significantly affecting cerebral blood flow or the permeabilities of urea, glucose, and DMO. Temperature dependence of betaHB permeability was similar to that of glucose transport. The age and diet dependence of betaHB were not accounted for in terms of body temperature, capillary surface, capillary porosity, or plasma proton concentration. A modulable betaHB carrier seemed indicated. Utilization of betaHB by the brain was signficantly governed by permeability, hence the increased permeability in ketotoc states should contribute to glucose sparing and eventually to protein sparing.

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Brain glucose metabolism in the newborn rat

Tl¹,

Lione²,

Regen³

et al. 1971

American Journal of Physiology-Legacy Content

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Failure of Multitarget Detection of Borrelia Burgdorferi—Associated DNA Sequences in Synovial Fluids of Patients with Juvenile Rheumatoid Arthritis: a Cautionary Note

Tl³

et al. 1992

Arthritis & Rheumatism

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Effect of thyroid hormone on cerebral glucose metabolism in the infant rat

Tl¹,

Lione²,

Regen³

1973

American Journal of Physiology-Legacy Content

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Moore Tl

Prosthetic Usage Following Major Lower Extremity Amputation

Beta-hydroxybutyrate transport in rat brain: developmental and dietary modulations

Brain glucose metabolism in the newborn rat

Failure of Multitarget Detection of Borrelia Burgdorferi—Associated DNA Sequences in Synovial Fluids of Patients with Juvenile Rheumatoid Arthritis: a Cautionary Note

Effect of thyroid hormone on cerebral glucose metabolism in the infant rat

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