Cargando…
A Comparison of Oxidative Lactate Metabolism in Traumatically Injured Brain and Control Brain
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-(13)C lactate metabolism in TBI with “normal” control brain and muscle, measuring (13)C-glutamine enrichmen...
| Autores principales: | , , , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
Mary Ann Liebert, Inc.
2018
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6098406/ https://www.ncbi.nlm.nih.gov/pubmed/29690859 http://dx.doi.org/10.1089/neu.2017.5459 |
| _version_ | 1783348468617576448 |
|---|---|
| author | Jalloh, Ibrahim Helmy, Adel Howe, Duncan J. Shannon, Richard J. Grice, Peter Mason, Andrew Gallagher, Clare N. Murphy, Michael P. Pickard, John D. Menon, David K. Carpenter, T. Adrian Hutchinson, Peter J. Carpenter, Keri L.H. |
| author_facet | Jalloh, Ibrahim Helmy, Adel Howe, Duncan J. Shannon, Richard J. Grice, Peter Mason, Andrew Gallagher, Clare N. Murphy, Michael P. Pickard, John D. Menon, David K. Carpenter, T. Adrian Hutchinson, Peter J. Carpenter, Keri L.H. |
| author_sort | Jalloh, Ibrahim |
| collection | PubMed |
| description | 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-(13)C lactate metabolism in TBI with “normal” control brain and muscle, measuring (13)C-glutamine enrichment to assess tricarboxylic acid (TCA) cycle metabolism. Microdialysis catheters in brains of nine patients with severe TBI, five non-TBI brain surgical patients, and five resting muscle (non-TBI) patients were perfused (24 h in brain, 8 h in muscle) with 8 mmol/L sodium 3-(13)C lactate. Microdialysate analysis employed ISCUS and nuclear magnetic resonance. In TBI, with 3-(13)C lactate perfusion, microdialysate glucose concentration increased nonsignificantly (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 (13)C-glutamine fractional enrichments (median, interquartile range) 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. (13)C-enrichments were not statistically different between TBI and control brain, showing both metabolize 3-(13)C lactate via TCA cycle, in contrast to muscle. Several patients with TBI exhibited (13)C-glutamine enrichment above the non-TBI control range, suggesting lactate oxidative metabolism as a TBI “emergency option.” |
| format | Online Article Text |
| id | pubmed-6098406 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2018 |
| publisher | Mary Ann Liebert, Inc. |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-60984062018-09-01 A Comparison of Oxidative Lactate Metabolism in Traumatically Injured Brain and Control Brain Jalloh, Ibrahim Helmy, Adel Howe, Duncan J. Shannon, Richard J. Grice, Peter Mason, Andrew Gallagher, Clare N. Murphy, Michael P. Pickard, John D. Menon, David K. Carpenter, T. Adrian Hutchinson, Peter J. Carpenter, Keri L.H. J Neurotrauma Original Articles 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-(13)C lactate metabolism in TBI with “normal” control brain and muscle, measuring (13)C-glutamine enrichment to assess tricarboxylic acid (TCA) cycle metabolism. Microdialysis catheters in brains of nine patients with severe TBI, five non-TBI brain surgical patients, and five resting muscle (non-TBI) patients were perfused (24 h in brain, 8 h in muscle) with 8 mmol/L sodium 3-(13)C lactate. Microdialysate analysis employed ISCUS and nuclear magnetic resonance. In TBI, with 3-(13)C lactate perfusion, microdialysate glucose concentration increased nonsignificantly (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 (13)C-glutamine fractional enrichments (median, interquartile range) 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. (13)C-enrichments were not statistically different between TBI and control brain, showing both metabolize 3-(13)C lactate via TCA cycle, in contrast to muscle. Several patients with TBI exhibited (13)C-glutamine enrichment above the non-TBI control range, suggesting lactate oxidative metabolism as a TBI “emergency option.” Mary Ann Liebert, Inc. 2018-09-01 2018-09-01 /pmc/articles/PMC6098406/ /pubmed/29690859 http://dx.doi.org/10.1089/neu.2017.5459 Text en © Ibrahim Jalloh et al., 2018; Published by Mary Ann Liebert, Inc. This Open Access article is distributed under the terms of the Creative Commons License (http://creativecommons.org/licenses/by/4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly credited. |
| spellingShingle | Original Articles Jalloh, Ibrahim Helmy, Adel Howe, Duncan J. Shannon, Richard J. Grice, Peter Mason, Andrew Gallagher, Clare N. Murphy, Michael P. Pickard, John D. Menon, David K. Carpenter, T. Adrian Hutchinson, Peter J. Carpenter, Keri L.H. A Comparison of Oxidative Lactate Metabolism in Traumatically Injured Brain and Control Brain |
| title | A Comparison of Oxidative Lactate Metabolism in Traumatically Injured Brain and Control Brain |
| title_full | A Comparison of Oxidative Lactate Metabolism in Traumatically Injured Brain and Control Brain |
| title_fullStr | A Comparison of Oxidative Lactate Metabolism in Traumatically Injured Brain and Control Brain |
| title_full_unstemmed | A Comparison of Oxidative Lactate Metabolism in Traumatically Injured Brain and Control Brain |
| title_short | A Comparison of Oxidative Lactate Metabolism in Traumatically Injured Brain and Control Brain |
| title_sort | comparison of oxidative lactate metabolism in traumatically injured brain and control brain |
| topic | Original Articles |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6098406/ https://www.ncbi.nlm.nih.gov/pubmed/29690859 http://dx.doi.org/10.1089/neu.2017.5459 |
| work_keys_str_mv | AT jallohibrahim acomparisonofoxidativelactatemetabolismintraumaticallyinjuredbrainandcontrolbrain AT helmyadel acomparisonofoxidativelactatemetabolismintraumaticallyinjuredbrainandcontrolbrain AT howeduncanj acomparisonofoxidativelactatemetabolismintraumaticallyinjuredbrainandcontrolbrain AT shannonrichardj acomparisonofoxidativelactatemetabolismintraumaticallyinjuredbrainandcontrolbrain AT gricepeter acomparisonofoxidativelactatemetabolismintraumaticallyinjuredbrainandcontrolbrain AT masonandrew acomparisonofoxidativelactatemetabolismintraumaticallyinjuredbrainandcontrolbrain AT gallagherclaren acomparisonofoxidativelactatemetabolismintraumaticallyinjuredbrainandcontrolbrain AT murphymichaelp acomparisonofoxidativelactatemetabolismintraumaticallyinjuredbrainandcontrolbrain AT pickardjohnd acomparisonofoxidativelactatemetabolismintraumaticallyinjuredbrainandcontrolbrain AT menondavidk acomparisonofoxidativelactatemetabolismintraumaticallyinjuredbrainandcontrolbrain AT carpentertadrian acomparisonofoxidativelactatemetabolismintraumaticallyinjuredbrainandcontrolbrain AT hutchinsonpeterj acomparisonofoxidativelactatemetabolismintraumaticallyinjuredbrainandcontrolbrain AT carpenterkerilh acomparisonofoxidativelactatemetabolismintraumaticallyinjuredbrainandcontrolbrain AT jallohibrahim comparisonofoxidativelactatemetabolismintraumaticallyinjuredbrainandcontrolbrain AT helmyadel comparisonofoxidativelactatemetabolismintraumaticallyinjuredbrainandcontrolbrain AT howeduncanj comparisonofoxidativelactatemetabolismintraumaticallyinjuredbrainandcontrolbrain AT shannonrichardj comparisonofoxidativelactatemetabolismintraumaticallyinjuredbrainandcontrolbrain AT gricepeter comparisonofoxidativelactatemetabolismintraumaticallyinjuredbrainandcontrolbrain AT masonandrew comparisonofoxidativelactatemetabolismintraumaticallyinjuredbrainandcontrolbrain AT gallagherclaren comparisonofoxidativelactatemetabolismintraumaticallyinjuredbrainandcontrolbrain AT murphymichaelp comparisonofoxidativelactatemetabolismintraumaticallyinjuredbrainandcontrolbrain AT pickardjohnd comparisonofoxidativelactatemetabolismintraumaticallyinjuredbrainandcontrolbrain AT menondavidk comparisonofoxidativelactatemetabolismintraumaticallyinjuredbrainandcontrolbrain AT carpentertadrian comparisonofoxidativelactatemetabolismintraumaticallyinjuredbrainandcontrolbrain AT hutchinsonpeterj comparisonofoxidativelactatemetabolismintraumaticallyinjuredbrainandcontrolbrain AT carpenterkerilh comparisonofoxidativelactatemetabolismintraumaticallyinjuredbrainandcontrolbrain |