A comparison of oxidative lactate metabolism in traumatically injured brain and control brain

Jalloh, Ibrahim; Helmy, Adel; Howe, Duncan; Shannon, Richard J.; Grice, Peter; Mason, Andrew; Gallagher, Clare N.; Murphy, Michael; Pickard, John; Menon, David; Carpenter, Thomas Adrian; Hutchinson, Peter John; Carpenter, Keri

doi:10.1089/neu.2017.5459

SAFETYLIT WEEKLY UPDATE

We compile citations and summaries of about 400 new articles every week.

RSS Feed

HELP: Tutorials | FAQ

CONTACT US: Contact info

Search Results

Journal Article

A comparison of oxidative lactate metabolism in traumatically injured brain and control brain
Citation	Jalloh I, Helmy A, Howe D, Shannon RJ, Grice P, Mason A, Gallagher CN, Murphy M, Pickard J, Menon D, Carpenter TA, Hutchinson PJ, Carpenter K. J. Neurotrauma 2018; 35(17): 2025-2035.
Affiliation	University of Cambridge, Division of Neurosurgery , Dept of Clinical Neurosciences , Box 167 , Cambridge Biomedical Campus , Cambridge, United Kingdom of Great Britain and Northern Ireland , CB2 0QQ ; klc1000@wbic.cam.ac.uk.
Copyright	(Copyright © 2018, Mary Ann Liebert Publishers)
DOI	10.1089/neu.2017.5459
PMID	29690859
Abstract	Metabolic abnormalities occur after traumatic brain injury (TBI). Glucose is conventionally regarded as the major energy substrate, although lactate can also be an energy source. We compared 3-13C lactate metabolism in TBI with "normal" control brain and muscle, measuring 13C-glutamine enrichment to assess tricarboxylic acid (TCA) cycle metabolism. Microdialysis catheters in 9 severe TBI patients' brains, 5 non-TBI brain surgical patients, and 5 resting muscle (non-TBI) patients were perfused (24h in brain, 8h in muscle) with 8 mmol/L sodium 3‑13C lactate. Microdialysate analysis employed ISCUS and NMR. In TBI, with 3-13C lactate perfusion, microdialysate glucose concentration increased non-significantly (mean +11.9%, p=0.463), with significant increases (p=0.028) for lactate (+174%), pyruvate (+35.8%), and lactate/pyruvate ratio (+101.8%). Microdialysate 13C-glutamine fractional enrichments (median, IQR) were: for C4 5.1(0-11.1)% in TBI and 5.7(4.6-6.8)% in control brain, for C3 0(0-5.0)% in TBI and 0(0-0) % in control brain, and for C2 2.9(0-5.7)% in TBI and 1.8(0-3.4)% in control brain. 13C-enrichments were not statistically different between TBI and control brain, showing both metabolise 3-13C lactate via TCA cycle, in contrast to muscle. Several TBI patients exhibited 13C-glutamine enrichment above the non-TBI control range, suggesting lactate oxidative metabolism as a TBI "emergency option". Language: en
Keywords	ADULT BRAIN INJURY; METABOLISM; MICRODIALYSIS; MITOCHONDRIA