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1. Insights into the role and regulation of TCTP in skeletal muscle

Author

Goodman, CA, Coenen, AM, Frey, JW, You, J-S, Barker, RG, Frankish, BP, Murphy, RM, Hornberger, TA, Goodman, CA, Coenen, AM, Frey, JW, You, J-S, Barker, RG, Frankish, BP, Murphy, RM, and Hornberger, TA

Abstract

The translationally controlled tumor protein (TCTP) is upregulated in a range of cancer cell types, in part, by the activation of the mechanistic target of rapamycin (mTOR). Recently, TCTP has also been proposed to act as an indirect activator of mTOR. While it is known that mTOR plays a major role in the regulation of skeletal muscle mass, very little is known about the role and regulation of TCTP in this post-mitotic tissue. This study shows that muscle TCTP and mTOR signaling are upregulated in a range of mouse models (mdx mouse, mechanical load-induced hypertrophy, and denervation- and immobilization-induced atrophy). Furthermore, the increase in TCTP observed in the hypertrophic and atrophic conditions occurred, in part, via a rapamycin-sensitive mTOR-dependent mechanism. However, the overexpression of TCTP was not sufficient to activate mTOR signaling (or increase protein synthesis) and is thus unlikely to take part in a recently proposed positive feedback loop with mTOR. Nonetheless, TCTP overexpression was sufficient to induce muscle fiber hypertrophy. Finally, TCTP overexpression inhibited the promoter activity of the muscle-specific ubiquitin proteasome E3-ligase, MuRF1, suggesting that TCTP may play a role in inhibiting protein degradation. These findings provide novel data on the role and regulation of TCTP in skeletal muscle in vivo.

Published
2017

2. In dystrophic mdx hindlimb muscles where fibrosis is limited, versican haploinsufficiency transiently improves contractile function without reducing inflammation.

Author

Debruin D, McRae NL, Addinsall AB, McCulloch DR, Barker RG, Debrincat D, Hayes A, Murphy RM, and Stupka N

Subjects
Animals, Female, Male, Mice, Fibrosis, Haploinsufficiency, Mice, Inbred C57BL, Mice, Inbred mdx, Muscle Contraction, Hindlimb, Inflammation metabolism, Inflammation genetics, Inflammation pathology, Muscle, Skeletal metabolism, Muscle, Skeletal pathology, Muscle, Skeletal drug effects, Muscle, Skeletal physiopathology, Muscular Dystrophy, Duchenne genetics, Muscular Dystrophy, Duchenne physiopathology, Muscular Dystrophy, Duchenne metabolism, Muscular Dystrophy, Duchenne pathology, Versicans genetics, Versicans metabolism
Abstract

Versican is increased with inflammation and fibrosis, and is upregulated in Duchenne muscular dystrophy. In fibrotic diaphragm muscles from dystrophic mdx mice, genetic reduction of versican attenuated macrophage infiltration and improved contractile function. Versican is also implicated in myogenesis. Here, we investigated whether versican modulated mdx hindlimb muscle pathology, where inflammation and regeneration are increased but fibrosis is minimal. Immunohistochemistry and qRT-PCR were used to assess how fiber type and glucocorticoids (α-methylprednisolone) modify versican expression. To genetically reduce versican, female mdx and male versican haploinsufficient (hdf) mice were bred resulting in male mdx -hdf and mdx (control) pups. Versican expression, contractile function, and pathology were evaluated in hindlimb muscles. Versican immunoreactivity was greater in slow versus fast hindlimb muscles. Versican mRNA transcripts were reduced by α-methylprednisolone in soleus, but not in fast extensor digitorum longus, muscles. In juvenile (6-wk-old) mdx -hdf mice, versican expression was most robustly decreased in soleus muscles leading to improved force output and a modest reduction in fatiguability. These functional benefits were not accompanied by decreased inflammation. Muscle architecture, regeneration markers, and fiber type also did not differ between mdx -hdf mice and mdx littermates. Improvements in soleus contractile function were not retained in adult (20-wk-old) mdx -hdf mice. In conclusion, soleus muscles from juvenile mdx mice were most responsive to pharmacological or genetic approaches targeting versican; however, the benefits of versican reduction were limited due to low fibrosis. Preclinical matrix research in dystrophy should account for muscle phenotype (including age) and the interdependence between inflammation and fibrosis. NEW & NOTEWORTHY The proteoglycan versican is upregulated in muscular dystrophy. In fibrotic diaphragm muscles from mdx mice, versican reduction attenuated macrophage infiltration and improved performance. Here, in hindlimb muscles from 6- and 20-wk-old mdx mice, where pathology is mild, versican reduction did not decrease inflammation and contractile function improvements were limited to juvenile mice. In dystrophic mdx muscles, the association between versican and inflammation is mediated by fibrosis, demonstrating interdependence between the immune system and extracellular matrix.

Published
2024
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3. Oxygen consumption rate of flatworms under the influence of wake- and sleep-promoting neurotransmitters.

Author

Omond SET, Barker RG, Sanislav O, Fisher PR, Annesley SJ, and Lesku JA

Abstract

Flatworms are among the best studied animal models for regeneration; however, they also represent an emerging opportunity to investigate other biological processes as well. For instance, flatworms are nocturnal and sleep during the day, a state that is regulated by sleep/wake history and the action of the sleep-promoting neurotransmitter gamma-aminobutyric acid (or GABA). Sleep is widespread across the animal kingdom, where it serves many nonexclusive functions. Notably, sleep saves energy by reducing metabolic rate and by not doing something more energetically taxing. Whether the conservation of energy is apparent in sleeping flatworms is unclear. We measured the oxygen consumption rate (OCR) of flatworms dosed with either (1) GABA (n = 29) which makes flatworms inactive or (2) dopamine (n = 20) which stimulates flatworms to move, or (3) day and night neurotransmitter-free controls (n = 28 and 27, respectively). While OCR did not differ between the day and night, flatworms treated with GABA used less oxygen than those treated with dopamine, and less than the day-time control. Thus, GABA affected flatworm physiology, ostensibly by enforcing energy-conserving sleep. Evidence that dopamine increased metabolism was less strong. This work broadens our understanding of flatworm physiology and expands the phylogenetic applicability of energy conservation as a function of sleep., (© 2024 The Author(s). Journal of Experimental Zoology Part A: Ecological and Integrative Physiology published by Wiley Periodicals LLC.)

Published
2024
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4. Wild white-capped noddies keep a cool head in a heated situation.

Author

Lesku JA, Barker RG, Elmes H, Robert KA, Tworkowski L, and Dutka TL

Subjects
Humans, Animals, Body Temperature, Temperature, Body Temperature Regulation physiology, Birds physiology, Cold Temperature, Charadriiformes
Abstract

Sunning, or sunbathing, is a behavior observed in diverse birds from at least 50 taxonomic families. While sunning, birds exhibit signs of heat stress, notably panting, indicating a risk of overheating. Given that even modest increases in brain temperature can impair brain function, sunning birds may have mechanisms that selectively cool the brain. Sunning birds could cool the brain using active physiological mechanisms (e.g., an ophthalmic rete or sleeping) or passive adaptations, such as light-colored plumage over the cranium. White-capped noddies are tropical seabirds that sunbathe in direct sunlight on cloudless days. Using infrared thermography on wild birds, we found that the white cap is 20 °C cooler than that of the black back while sunning. A deceased bird showed the same thermal profile, indicating that this difference arises from dichromatic coloration and not underlying physiology. Thus, the white cap may extend the duration of time noddies can sunbathe and keep the brain cool, near core body temperature, while allowing the rest of the body to heat up, perhaps to displace or kill parasites., Competing Interests: Declaration of competing interest The authors have no competing interests to declare., (Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published
2023
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5. Elevated MMP2 abundance and activity in mdx mice are alleviated by prenatal taurine supplementation.

Author

Ren X, Xu H, Barker RG, Lamb GD, and Murphy RM

Subjects
Animals, Dietary Supplements, Disease Models, Animal, Female, Male, Matrix Metalloproteinase 9 metabolism, Mice, Inbred mdx, Muscle Fibers, Skeletal enzymology, Muscle Fibers, Skeletal pathology, Muscle Strength drug effects, Muscular Dystrophy, Duchenne enzymology, Muscular Dystrophy, Duchenne pathology, Muscular Dystrophy, Duchenne physiopathology, Necrosis, Pregnancy, Time Factors, Up-Regulation, Matrix Metalloproteinase 2 metabolism, Muscle Fibers, Skeletal drug effects, Muscular Dystrophy, Duchenne prevention & control, Prenatal Exposure Delayed Effects, Taurine administration & dosage
Abstract

Duchenne muscular dystrophy (DMD) is a severe, progressive muscle-wasting disorder that leads to early death. The mdx mouse is a naturally occurring mutant model for DMD. It lacks dystrophin and displays peak muscle cell necrosis at ~28 days (D28), but in contrast to DMD, mdx mice experience muscle regeneration by D70. We hypothesized that matrix metalloproteinase-2 (MMP2) and/or MMP9 play key roles in the degeneration/regeneration phases in mdx mice. MMP2 abundance in muscle homogenates, measured by calibrated Western blotting, and activity, measured by zymogram, were lower at D70 compared with D28 in both mdx and wild-type (WT) mice. Importantly, MMP2 abundance was higher in both D28 and D70 mdx mice than in age-matched WT mice. The higher MMP2 abundance was not due to infiltrating macrophages, because MMP2 content was still higher in isolated muscle fibers where most macrophages had been removed. Prenatal supplementation with the amino acid taurine, which improved muscle strength in D28 mdx mice, produced approximately twofold lower MMP2 activity, indicating that increased MMP2 abundance is not required when muscle damage is attenuated. There was no difference in MMP9 abundance between age-matched WT and mdx mice ( P > 0.05). WT mice displayed decreased MMP9 abundance as they aged. While MMP9 may have a role during age-related skeletal muscle growth, it does not appear essential for degeneration/regeneration cycles in the mdx mouse. Our findings indicate that MMP2 plays a more active role than MMP9 in the degenerative phases of muscle fibers in D28 mdx mice.

Published
2020
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6. Taurine and Methylprednisolone Administration at Close Proximity to the Onset of Muscle Degeneration Is Ineffective at Attenuating Force Loss in the Hind-Limb of 28 Days Mdx Mice.

Author

Barker RG, van der Poel C, Horvath D, and Murphy RM

Abstract

An increasing number of studies have shown supplementation with the amino acid taurine to have promise in ameliorating dystrophic symptoms in the mdx mouse model of Duchenne Muscular Dystrophy (DMD). Here we build on this limited body of work by investigating the efficacy of supplementing mdx mice with taurine postnatally at a time suggestive of when dystrophic symptoms would begin to manifest in humans, and when treatments would likely begin. Mdx mice were given either taurine ( mdx tau), the steroid alpha methylprednisolone (PDN), or tau + PDN ( mdx tau + PDN). Taurine (2.5% wt/vol) enriched drinking water was given from 14 days and PDN (1 mg/kg daily) from 18 days. Wild-type (WT, C57BL10/ScSn) mice were used as a control to mdx mice to represent healthy tissue. In the mdx mouse, peak damage occurs at 28 days, and in situ assessment of contractile characteristics showed that taurine, PDN, and the combined taurine + PDN treatment was ineffective at attenuating the force loss experienced by mdx mice. Given the benefits of taurine as well as methylprednisolone reported previously, when supplemented at close proximity to the onset of severity muscle degeneration these benefits are no longer apparent.

Published
2018
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7. Mitochondrial content is preserved throughout disease progression in the mdx mouse model of Duchenne muscular dystrophy, regardless of taurine supplementation.

Author

Barker RG, Wyckelsma VL, Xu H, and Murphy RM

Subjects
Animals, Citrate (si)-Synthase metabolism, Disease Models, Animal, Disease Progression, Electron Transport Complex I metabolism, Electron Transport Complex IV metabolism, GTP Phosphohydrolases metabolism, Male, Membrane Proteins metabolism, Mice, Inbred C57BL, Mice, Inbred mdx, Mitochondria, Muscle metabolism, Mitochondria, Muscle pathology, Mitochondrial Proteins metabolism, Muscle, Skeletal metabolism, Muscle, Skeletal pathology, Muscular Dystrophy, Duchenne genetics, Muscular Dystrophy, Duchenne metabolism, Muscular Dystrophy, Duchenne pathology, Time Factors, Dietary Supplements, Mitochondria, Muscle drug effects, Mitochondrial Dynamics drug effects, Muscle, Skeletal drug effects, Muscular Dystrophy, Duchenne drug therapy, Taurine pharmacology
Abstract

Mitochondrial dysfunction is a pathological feature of Duchenne muscular dystrophy (DMD), a debilitating and fatal neuromuscular disorder characterized by progressive muscle wasting and weakness. Mitochondria are a source of cellular ATP involved in Ca 2+ regulation and apoptotic signaling. Ameliorating aberrant mitochondrial function has therapeutic potential for reducing DMD disease severity. The dystrophic mdx mouse exhibits peak muscle damage at 21-28 days, which stabilizes after 8 wk. The amino acid taurine is implicated in mitochondrial health and function, with endogenous concentrations low when measured during the cycle of peak muscle damage in mdx mice. Using whole soleus and extensor digitorum longus (EDL) muscle homogenates from 28- and 70-day mdx mice, we found that there was no change in native state mitochondrial complexes using blue native-PAGE. NADH:ubiquinone oxidotreductase subunit-A9 (NDUFA9) protein abundance was lower in soleus muscle of 28- and 70-day mdx mice and EDL muscle of 70-day mdx mice compared with same muscles in WT (C57/BL10ScSn) animals. There were age-dependent increases in both NDUFA9 protein abundance and citrate synthase activity in soleus muscles of mdx and wild-type mice. There was no change in abundances of mitochondrial dynamics proteins mitofusin 2 (Mfn2) and mitochondrial dynamics protein 49 (MiD49). Taurine administration essentially did not affect any measurements of mitochondria. Collectively, these findings suggest mitochondrial content and dynamics are not reduced in the mdx mouse regardless of disease severity. We also elucidate that taurine affords no significant benefit to mitochondrial content or dynamics in the mdx mouse at either 28 or 70 days.

Published
2018
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8. Elevated GLUT4 and glycogenin protein abundance correspond to increased glycogen content in the soleus muscle of mdx mice with no benefit associated with taurine supplementation.

Author

Barker RG, Frankish BP, Xu H, and Murphy RM

Subjects
Animals, Glucose Transporter Type 4 metabolism, Glucosyltransferases metabolism, Glycoproteins metabolism, Male, Mice, Mice, Inbred C57BL, Mice, Inbred mdx, Muscle Fibers, Skeletal drug effects, Glucose Transporter Type 4 genetics, Glucosyltransferases genetics, Glycogen metabolism, Glycoproteins genetics, Muscle Fibers, Skeletal metabolism, Muscular Dystrophy, Duchenne metabolism, Taurine pharmacology
Abstract

Duchenne muscular dystrophy (DMD) patients and the dystrophic mdx mouse have an elevated demand for ATP requiring processes, including Ca 2+ regulation and skeletal muscle regeneration. As a key substrate for cellular ATP production, altered glycogen metabolism may contribute significantly to dystrophic pathology and explain reports of mild glucose intolerance. We compare the soleus and extensor digitorum longus (EDL) muscles of the mdx mouse during active muscle necrosis (at 28 days) and at 70 days where pathology is stable. We further investigate the impact of taurine (tau) on dystrophic glycogen metabolism to identify if the benefit seen with tau in a previous study (Barker et al. ) was in part owed to altered glycogen handling. The soleus muscle of 28- and 70-day-old mdx mice had elevated glucose transporter type 4 (GLUT4), glycogenin protein abundances and glycogen content compared to WT (C57BL10/ScSn) controls. Mdx tau mice exhibited modestly reduced glycogen compared to their respective mdx group. The EDL muscle of 28 days mdx tau mice had a ~70% increase in glycogenin protein abundance compared to the mdx but 50% less glycogen content. A twofold greater phosphorylated glycogen synthase (p-GS) and glycogen phosphorylase (p-GP) protein abundance was observed in the 70-day-old mdx soleus muscle than in the 28-day-old mdx soleus muscle. Glycogen debranching enzyme (GDE) protein abundance was elevated in both 28- and 70-day-old mdx soleus muscles compared to WT controls. We identified an increase in proteins associated with glucose uptake and utilization specific to the predominantly slow-twitch soleus muscle of mdx mice regardless of age and that taurine affords no obvious benefit to glycogen metabolism in the mdx mouse., (© 2018 The Authors. Physiological Reports published by Wiley Periodicals, Inc. on behalf of The Physiological Society and the American Physiological Society.)

Published
2018
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9. Progress in the Full-Text Publication Rate of Orthopaedic and Sport Physical Therapy Abstracts Presented at the American Physical Therapy Association's Combined Sections Meeting.

Author

Warden SJ, Fletcher JM, Barker RG, Guildenbecher EA, Gorkis CE, and Thompson WR

Abstract

Study Design Descriptive study. Background Professional meetings, such as the American Physical Therapy Association's (APTA's) Combined Sections Meeting (CSM), provide forums for sharing information. However, it was reported that only one-quarter of orthopaedic and sports physical therapy abstracts presented at the CSM between 2000 and 2004 went on to full-text publication. This low conversion rate raises a number of concerns regarding the full dissemination of work within the profession. Objectives The purpose of this study was to determine the full-text publication rate of work presented in abstract form at subsequent CSMs and investigate factors influencing the rate. Methods A systematic search was undertaken to locate full-text publications of orthopaedic and sports physical therapy abstracts presented at CSMs between 2005 and 2011. Eligible publications were published within 5 years following abstract presentation. The influences of year of abstract presentation, APTA section, presentation type, institution of origin, study design, and study significance were assessed. Results Over one-third (38.6%) of presented abstracts progressed to full-text publication. Odds of full-text publication increased if the abstract was presented as a platform presentation, originated from a doctorate-granting institution, reported findings of an experimental study, or reported a statistically significant finding. Conclusion The full-text publication rate for orthopaedic and sports physical therapy abstracts presented at recent CSMs has increased by over 50% compared to that reported for the preceding period. The rate is now in the range of that reported in comparable clinical disciplines, demonstrating important progress in the full dissemination of work within the profession. J Orthop Sports Phys Ther, Epub 7 Oct 2017. doi:10.2519/jospt.2018.7581.

Published
2017
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10. Benefits of Prenatal Taurine Supplementation in Preventing the Onset of Acute Damage in the Mdx Mouse.

Author

Barker RG, Horvath D, van der Poel C, and Murphy RM

Abstract

Introduction: Duchenne Muscular Dystrophy (DMD) is a debilitating muscle wasting disorder with no cure. Safer supplements and therapies are needed to improve the severity of symptoms, as severe side effects are associated with the only effective treatment, corticosteroids. The amino acid taurine has shown promise in ameliorating dystrophic symptoms in mdx mice, an animal model of DMD, however little work is in 21-28 (d)ay animals, the period of natural peak damage., Methods: This study compares the effect of prenatal taurine supplementation on tibialis anterior (TA) in situ contractile function, histopathological characteristics and the abundance of Ca 2+ -handling as well as pathologically relevant proteins in non-exercised mdx mice at 28 and 70 d., Results: Supplementation elevated TA taurine content by 25% (p<0.05), ameliorated in situ specific force by 60% (p<0.05) and improved histological characteristics in 28 d mdx mice; however no benefit was seen in 70 d mice, where background pathology was initially stable. Age specific effects in SERCA1, calsequestrin 1 (CSQ1), CSQ2, utrophin and myogenin protein abundances were seen between both 28 and 70 d mdx and mdx taurine-supplemented mice., Discussion: Considering these findings and that taurine is a relatively cost effective, readily accessible and side effect free dietary supplement, we propose further investigation into taurine supplementation during pregnancy in a protective capacity, reminiscent of folate in the prevention of spinal bifida.

Published
2017
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11. Insights into the role and regulation of TCTP in skeletal muscle.

Author

Goodman CA, Coenen AM, Frey JW, You JS, Barker RG, Frankish BP, Murphy RM, and Hornberger TA

Subjects
Animals, Atrophy metabolism, Atrophy pathology, Blotting, Western, Disease Models, Animal, Electroporation, Hypertrophy metabolism, Hypertrophy pathology, Immobilization, Immunohistochemistry, Mice, Mice, Inbred mdx, Muscle Denervation, Muscle, Skeletal pathology, Tumor Protein, Translationally-Controlled 1, Biomarkers, Tumor metabolism, Muscle, Skeletal metabolism
Abstract

The translationally controlled tumor protein (TCTP) is upregulated in a range of cancer cell types, in part, by the activation of the mechanistic target of rapamycin (mTOR). Recently, TCTP has also been proposed to act as an indirect activator of mTOR. While it is known that mTOR plays a major role in the regulation of skeletal muscle mass, very little is known about the role and regulation of TCTP in this post-mitotic tissue. This study shows that muscle TCTP and mTOR signaling are upregulated in a range of mouse models (mdx mouse, mechanical load-induced hypertrophy, and denervation- and immobilization-induced atrophy). Furthermore, the increase in TCTP observed in the hypertrophic and atrophic conditions occurred, in part, via a rapamycin-sensitive mTOR-dependent mechanism. However, the overexpression of TCTP was not sufficient to activate mTOR signaling (or increase protein synthesis) and is thus unlikely to take part in a recently proposed positive feedback loop with mTOR. Nonetheless, TCTP overexpression was sufficient to induce muscle fiber hypertrophy. Finally, TCTP overexpression inhibited the promoter activity of the muscle-specific ubiquitin proteasome E3-ligase, MuRF1, suggesting that TCTP may play a role in inhibiting protein degradation. These findings provide novel data on the role and regulation of TCTP in skeletal muscle in vivo.

Published
2017
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12. Cortical and trabecular bone benefits of mechanical loading are maintained long term in mice independent of ovariectomy.

Author

Warden SJ, Galley MR, Hurd AL, Richard JS, George LA, Guildenbecher EA, Barker RG, and Fuchs RK

Subjects
Animals, Female, Mice, Time Factors, Aging metabolism, Bone Density, Ovariectomy, Physical Conditioning, Animal, Tibia metabolism
Abstract

Skeletal loading enhances cortical and trabecular bone properties. How long these benefits last after loading cessation remains an unresolved, clinically relevant question. This study investigated long-term maintenance of loading-induced cortical and trabecular bone benefits in female C57BL/6 mice and the influence of a surgically induced menopause on the maintenance. Sixteen-week-old animals had their right tibia extrinsically loaded 3 days/week for 4 weeks using the mouse tibial axial compression loading model. Left tibias were not loaded and served as internal controls. Animals were subsequently detrained (restricted to cage activities) for 0, 4, 8, 26, or 52 weeks, with ovariectomy (OVX) or sham-OVX surgery being performed at 0 weeks detraining. Loading increased midshaft tibia cortical bone mass, size, and strength, and proximal tibia bone volume fraction. The cortical bone mass, area, and thickness benefits of loading were lost by 26 weeks of detraining because of heightened medullary expansion. However, loading-induced benefits on bone total area and strength were maintained at each detraining time point. Similarly, the benefits of loading on bone volume fraction persisted at all detraining time points. The long-term benefits of loading on both cortical and trabecular bone were not influenced by a surgically induced menopause because there were no interactions between loading and surgery. However, OVX had independent effects on cortical bone properties at early (4 and 8 weeks) detraining time points and trabecular bone properties at all detraining time points. These cumulative data indicate loading has long-term benefits on cortical bone size and strength (but not mass) and trabecular bone morphology, which are not influenced by a surgically induced menopause. This suggests skeletal loading associated with physical activity may provide long-term benefits by preparing the skeleton to offset both the cortical and trabecular bone changes associated with aging and menopause., (© 2014 American Society for Bone and Mineral Research.)

Published
2014
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13. Acid-base changes in arterial blood and cerebrospinal fluid during craniotomy and hyperventilation.

Author

Campkin TV, Barker RG, Pabari M, and Grove LH

Subjects
Bicarbonates blood, Bicarbonates cerebrospinal fluid, Blood Pressure, Body Temperature, Brain metabolism, Carbon Dioxide blood, Carbon Dioxide cerebrospinal fluid, Glucose metabolism, Humans, Hypothermia, Induced, Ischemic Attack, Transient metabolism, Lactates blood, Lactates cerebrospinal fluid, Male, Middle Aged, Oxygen blood, Oxygen cerebrospinal fluid, Partial Pressure, Pyruvates blood, Pyruvates cerebrospinal fluid, Blood, Cerebrospinal Fluid analysis, Craniotomy, Hydrogen-Ion Concentration, Hyperventilation
Published
1974
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