Effect of lactate therapy upon cognitive deficits after traumatic brain injury in the rat

Holloway, Rebecca; Zhou, Zheng; Harvey, H. B.; Levasseur, Joseph E.; Rice, Ann C.; Sun, Dong; Hamm, Robert J.; Bullock, M. Ross

doi:10.1007/s00701-007-1241-y

Cited by 88 publications

(68 citation statements)

References 50 publications

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“…Rats with traumatic brain injury had improved performance on a maze test after intravenous lactate therapy. This correlated with improved maintenance of ATP levels in the injured area of the brain occurring after lactate, but not after saline treatment [17,18]. Also, in a small clinical study, patients with traumatic brain injury who had higher lactate uptake by the brain relative to arterial lactate had improved neurologic function 6 mo later [19].…”

Section: Fig 4 Scattergram Of Admission Lactate Values Of Survivorsmentioning

confidence: 85%

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A Different View of Lactate in Trauma Patients: Protecting the Injured Brain

Cureton

Kwan

Dozier

et al. 2010

Journal of Surgical Research

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Section: Fig 4 Scattergram Of Admission Lactate Values Of Survivorsmentioning

confidence: 85%

“…It is unknown what level of exogenous lactate neurons would need to have available for optimal function. Interestingly, in head injury animal studies where lactate was administered, there was a survival advantage with concentrations of 5-100 mmol/L [10,17,18].…”

Section: Fig 4 Scattergram Of Admission Lactate Values Of Survivorsmentioning

confidence: 97%

A Different View of Lactate in Trauma Patients: Protecting the Injured Brain

Cureton

Kwan

Dozier

et al. 2010

Journal of Surgical Research

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“…The normal human brain already shows striking differences in lactate/pyruvate ratio from plasma, which suggest that lactate is a physiologic fuel for neurons (12). Accordingly, it has been speculated that lactate might be a useful therapy following TBI (13,14). However, a conundrum arises as a result of the common observation that excessive lactate accumulation following TBI correlates with poor prognosis (15)(16)(17).…”

mentioning

confidence: 88%

Lactate Storm Marks Cerebral Metabolism following Brain Trauma

Lama

Auer

Tyson

et al. 2014

Journal of Biological Chemistry

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Background: In brain metabolism, neurons are fueled by lactate passed to them by glia in a metabolic coupling. Results: Following brain trauma, lactate uptake into neurons from glia was impaired, producing a metabolic lactate storm. Conclusion: Brain trauma results in neuronal-glial metabolic uncoupling, releasing free lactate. Significance: Inhibition of lactate production or its removal may be an important therapeutic strategy for brain trauma.

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“…This limitation applies not only to the current study demonstrating an SP treatmentinduced reduction in cortical neuronal injury after experimental TBI but to the most, if not all, of the prior studies of SP treatment efficacy after other acquired neurological injuries in which circulating fuel concentrations have not been assessed. Since serum pyruvate levels will also increase after lactate infusion (LaManna et al, 1993), this limitation applies as well to those studies reporting neurological benefits in TBI models after lactate administration where pyruvate, and frequently glucose, levels have not been assessed (Chen et al, 2000a;Rice et al, 2002;Levasseur et al, 2006;Holloway et al, 2007). Future work on supplemental monocarboxylate administration after brain injury will no doubt benefit by including measures of the administered substrate on serum and extracellular levels and=or the metabolic rates of pyruvate, lactate, and glucose as well as by directly comparing effects of separate administration of each of these substrates in the injury model of interest.…”

Section: Monocarboxylate Use and Effects After Brain Injurymentioning

confidence: 99%

“…For example, it is reported that intravenous lactate accumulates in extracellular fluid and attenuates TBI-induced reductions in extracellular glucose (Chen et al, 2000a(Chen et al, , 2000b, reduces TBIinduced cognitive deficits (Rice et al, 2002), attenuates reductions in cortical adenosine triphosphate (ATP) levels (Holloway et al, 2007), and improves oxygen consumption after TBI (Levasseur et al, 2006). Exogenous lactate administered via cerebral microdialysis was also reported to reduce glutamate-induced neuronal damage (Ros et al, 2001), and inhibition of monocarboxylate transporters (MCT) to block lactate uptake was reported to increase neuronal damage after cerebral ischemia (Schurr et al, 2001).…”

mentioning

confidence: 99%

Metabolic and Histologic Effects of Sodium Pyruvate Treatment in the Rat after Cortical Contusion Injury

Fukushima

Lee

Moro

et al. 2009

Journal of Neurotrauma

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This study determined the effects of intraperitoneal sodium pyruvate (SP) treatment on the levels of circulating fuels and on cerebral microdialysis levels of glucose (MD glc ), lactate (MD lac ), and pyruvate (MD pyr ), and the effects of SP treatment on neuropathology after left cortical contusion injury (CCI) in rats. SP injection (1000 mg=kg) 5 min after sham injury (Sham-SP) or CCI (CCI-SP) significantly increased arterial pyruvate ( p < 0.005) and lactate ( p < 0.001) compared to that of saline-treated rats with CCI (CCI-Sal). Serum glucose also increased significantly in CCI-SP compared to that in CCI-Sal rats ( p < 0.05), but not in Sham-SP rats. MD pyr was not altered after CCI-Sal, whereas MD lac levels within the cerebral cortex significantly increased bilaterally ( p < 0.05) and those for MD glc decreased bilaterally ( p < 0.05). MD pyr levels increased significantly in both Sham-SP and CCI-SP rats ( p < 0.05 vs. CCI-Sal) and were higher in left=injured cortex of the CCI-SP group ( p < 0.05 vs. sham-SP). In CCI-SP rats the contralateral MD lac decreased below CCI-Sal levels ( p < 0.05) and the ipsilateral MD glc levels exceeded those of CCI-Sal rats ( p < 0.05). Rats with a single low (500 mg=kg) or high dose (1000 mg=kg) SP treatment had fewer damaged cortical cells 6 h post-CCI than did saline-treated rats ( p < 0.05), but three hourly injections of SP (1000 mg=kg) were needed to significantly reduce contusion volume 2 weeks after CCI. Thus, a single intraperitoneal SP treatment increases circulating levels of three potential brain fuels, attenuates a CCI-induced reduction in extracellular glucose while increasing extracellular levels of pyruvate, but not lactate, and can attenuate cortical cell damage occurring within 6 h of injury. Enduring (2 week) neuronal protection was achieved only with multiple SP treatments within the first 2 h post-CCI, perhaps reflecting the need for additional fuel throughout the acute period of increased metabolic demands induced by CCI.

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Effect of lactate therapy upon cognitive deficits after traumatic brain injury in the rat

Abstract: This study indicates that the intravenous infusion of 100 mM L-lactate provided the optimal concentration of the substrate to ameliorate cognitive impairment, probably via the regeneration of ATP following TBI in rats.

Cited by 88 publications

References 50 publications

A Different View of Lactate in Trauma Patients: Protecting the Injured Brain

A Different View of Lactate in Trauma Patients: Protecting the Injured Brain

Lactate Storm Marks Cerebral Metabolism following Brain Trauma

Metabolic and Histologic Effects of Sodium Pyruvate Treatment in the Rat after Cortical Contusion Injury

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