Lactate supplementation in severe traumatic brain injured adults by primed constant infusion of sodium L‐lactate

Wolahan, Stephanie M.; Mao, Howard C.; Real, Courtney; Vespa, Paul; Glenn, Thomas C.

doi:10.1002/jnr.24085

Cited by 15 publications

(23 citation statements)

References 33 publications

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“…Recognizing that lactate is produced under full aerobic conditions, as well as understanding the roles of lactate shuttling in biology, is providing new opportunities to treat the ill and injured. For example, exogenous L-lactate vascular infusion is being evaluated in the treatment of heart failure, 175 , 176 , 177 TBI, 19 , 113 , 178 , 179 pancreatitis, 104 , 110 hepatitis, 104 dengue fever, 21 and sepsis. 174 …”

Section: Discussionmentioning

confidence: 99%

The tortuous path of lactate shuttle discovery: From cinders and boards to the lab and ICU

Brooks

2020

Journal of Sport and Health Science

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Highlights In the 2019 American College of Sports Medicine Wolffe lecture George Brooks described history Lactate Shuttle development. Lactate is a fuel energy source, the main gluconeogenic precursor, and a signaling molecule with autocrine, paracrine, and endocrine functions. Endurance training develops the capacities to produce, remove and utilize lactate. Lactate is favored as a fuel by working red muscle, heart, liver, and brain. Clinical trials are under way to improve outcomes in traumatic brain injury patients using lactate supplementation. The importance of Lactate Shuttle in normal physiology is emphasized by the realization that dysfunctional lactate shuttling is involved in cancer, metabolic inflexibility, and inflammation.

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Section: Discussionmentioning

confidence: 99%

The tortuous path of lactate shuttle discovery: From cinders and boards to the lab and ICU

Brooks

2020

Journal of Sport and Health Science

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“…Conversely, as AQP9 and MCT2 appear to synergistically function to some degree, exogenous application of lactate may potentially enhance survival and function of RGCs. In fact, evidence is accumulating that such an application ameliorated metabolic deficiencies in traumatized brain [ 50 , 51 ]. Given the lack of effective treatments for traumatic optic neuropathy, the exogenous application of lactate might be a future target of study for the treatment of patients with traumatic optic neuropathy.…”

Section: Discussionmentioning

confidence: 99%

Aqp9 Gene Deletion Enhances Retinal Ganglion Cell (RGC) Death and Dysfunction Induced by Optic Nerve Crush: Evidence that Aquaporin 9 Acts as an Astrocyte-to-Neuron Lactate Shuttle in Concert with Monocarboxylate Transporters To Support RGC Function and Survival

et al. 2020

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Aquaporin 9 (AQP9) is an aquaglyceroporin that can transport lactate. Accumulating evidence suggests that astrocyte-to-neuron lactate shuttle (ANLS) plays a critical role in energy metabolism in neurons, including retinal ganglion cells (RGCs). To test the hypothesis that AQP9, in concert with monocarboxylate transporters (MCTs), participates in ANLS to maintain function and survival of RGCs, Aqp9-null mice and wild-type (WT) littermates were subjected to optic nerve crush (ONC) with or without intravitreal injection of an MCT2 inhibitor. RGC density was similar between the Aqp9-null mice and WT mice without ONC, while ONC resulted in significantly more RGC density reduction in the Aqp9-null mice than in the WT mice at day 7. Positive scotopic threshold response (pSTR) amplitude values were similar between the two groups without ONC, but were significantly more reduced in the Aqp9-null mice than in the WT mice 7days after ONC. MCT2 inhibitor injection accelerated RGC death and pSTR amplitude reduction only in the WT mice with ONC. Immunolabeling revealed that both RGCs and astrocytes expressed AQP9, that ONC predominantly reduced astrocytic AQP9 expression, and that MCTs 1, 2, and 4 were co-localized with AQP9 at the ganglion cell layer. These retinal MCTs were also co-immunoprecipitated with AQP9 in the WT mice. ONC decreased the co-immunoprecipitation of MCTs 1 and 4, but did not impact co-immunoprecipitation of MCT2. Retinal glucose transporter 1 expression was increased in Aqp9-null mice. Aqp9 gene deletion reduced and increased the intraretinal l-lactate and d-glucose concentrations, respectively. Results suggest that AQP9 acts as the ANLS to maintain function and survival of RGCs.

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“…Aside from exercise, lactataemia also occurs in other conditions such as brain trauma (Brooks & Martin, 2014; Wolahan et al . 2018), sepsis (Marik & Bellomo, 2016), dengue (Somasetia et al . 2014), cancer (Warburg, 1956; Semenza, 2008; San‐Millan & Brooks, 2017), hepatitis and pancreatitis (Hoque et al .…”

Section: Rationale and Outlinementioning

confidence: 99%

“…Beyond exercise: what do elevations in blood [La − ] mean? Aside from exercise, lactataemia also occurs in other conditions such as brain trauma (Brooks & Martin, 2014;Wolahan et al 2018), sepsis (Marik & Bellomo, 2016), dengue (Somasetia et al 2014), cancer (Warburg, 1956;Semenza, 2008;San-Millan & Brooks, 2017), hepatitis and pancreatitis (Hoque et al 2014). In this regard it is important to note that in only one condition, physical exercise, are there definitive data on the significance and meaning of La − accumulation in a stressful condition; specifically, blood [La − ] rises during exercise when blood R a is greater than R d (Stanley et al 1985;Mazzeo et al 1986;Brooks et al 1991;Bergman et al 1999b;Messonnier et al 2013).…”

Section: The Lactate Shuttle and The 'Anaerobic Threshold'mentioning

confidence: 99%

The anaerobic threshold: 50+ years of controversy

Poole

Rossiter

Brooks

et al. 2020

The Journal of Physiology

180

184

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The anaerobic threshold (AT) remains a widely recognized, and contentious, concept in exercise physiology and medicine. As conceived by Karlman Wasserman, the AT coalesced the increase of blood lactate concentration ([La−]), during a progressive exercise test, with an excess pulmonary carbon dioxide output (V̇normalCO2). Its principal tenets were: limiting oxygen (O2) delivery to exercising muscle→increased glycolysis, La− and H+ production→decreased muscle and blood pH→with increased H+ buffered by blood [HCO3−]→increased CO2 release from blood→increased V̇normalCO2 and pulmonary ventilation. This schema stimulated scientific scrutiny which challenged the fundamental premise that muscle anoxia was requisite for increased muscle and blood [La−]. It is now recognized that insufficient O2 is not the primary basis for lactataemia. Increased production and utilization of La− represent the response to increased glycolytic flux elicited by increasing work rate, and determine the oxygen uptake (V̇normalO2) at which La− accumulates in the arterial blood (the lactate threshold; LT). However, the threshold for a sustained non‐oxidative contribution to exercise energetics is the critical power, which occurs at a metabolic rate often far above the LT and separates heavy from very heavy/severe‐intensity exercise. Lactate is now appreciated as a crucial energy source, major gluconeogenic precursor and signalling molecule but there is no ipso facto evidence for muscle dysoxia or anoxia. Non‐invasive estimation of LT using the gas exchange threshold (non‐linear increase of V̇normalCO2 versus V̇normalO2) remains important in exercise training and in the clinic, but its conceptual basis should now be understood in light of lactate shuttle biology.

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Lactate supplementation in severe traumatic brain injured adults by primed constant infusion of sodium L‐lactate

Cited by 15 publications

References 33 publications

The tortuous path of lactate shuttle discovery: From cinders and boards to the lab and ICU

The tortuous path of lactate shuttle discovery: From cinders and boards to the lab and ICU

Aqp9 Gene Deletion Enhances Retinal Ganglion Cell (RGC) Death and Dysfunction Induced by Optic Nerve Crush: Evidence that Aquaporin 9 Acts as an Astrocyte-to-Neuron Lactate Shuttle in Concert with Monocarboxylate Transporters To Support RGC Function and Survival

The anaerobic threshold: 50+ years of controversy

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