| scholarly article | Q13442814 |
| review article | Q7318358 |
| P50 | author | Graham J Kemp | Q41953974 |
| Kevin Brindle | Q59818345 | ||
| P2860 | cites work | Decreased insulin-stimulated ATP synthesis and phosphate transport in muscle of insulin-resistant offspring of type 2 diabetic parents | Q24812499 |
| Anaerobic energy production and O2 deficit-debt relationship during exhaustive exercise in humans | Q28335312 | ||
| Assessment of mitochondrial energy coupling in vivo by 13C/31P NMR | Q28344306 | ||
| Effect of triiodothyronine on mitochondrial energy coupling in human skeletal muscle | Q28349793 | ||
| Reduced in vivo skeletal muscle oxygen consumption in patients with chronic heart failure--a study using Near Infrared Spectrophotometry (NIRS) | Q81502572 | ||
| Interpretation of ³¹P NMR saturation transfer experiments: what you can't see might confuse you. Focus on "Standard magnetic resonance-based measurements of the Pi→ATP rate do not index the rate of oxidative phosphorylation in cardiac and skeletal m | Q83853619 | ||
| Comparison of measuring energy metabolism by different (31) P-magnetic resonance spectroscopy techniques in resting, ischemic, and exercising muscle | Q84766604 | ||
| Impaired mitochondrial activity in the insulin-resistant offspring of patients with type 2 diabetes | Q29614548 | ||
| Mitochondrial dysfunction in the elderly: possible role in insulin resistance | Q29618783 | ||
| Restoration of muscle mitochondrial function and metabolic flexibility in type 2 diabetes by exercise training is paralleled by increased myocellular fat storage and improved insulin sensitivity | Q30476616 | ||
| In vivo effects of uncoupling protein-3 gene disruption on mitochondrial energy metabolism | Q30642680 | ||
| Impaired in vivo mitochondrial function but similar intramyocellular lipid content in patients with type 2 diabetes mellitus and BMI-matched control subjects. | Q31075599 | ||
| Muscle mitochondrial ATP synthesis and glucose transport/phosphorylation in type 2 diabetes | Q33283340 | ||
| Reduced basal ATP synthetic flux of skeletal muscle in patients with previous acromegaly | Q33394238 | ||
| The role of mitochondria in the pathophysiology of skeletal muscle insulin resistance | Q33779662 | ||
| Adenosine and nitric oxide in exercise-induced human skeletal muscle vasodilatation | Q33888518 | ||
| Burn injury causes mitochondrial dysfunction in skeletal muscle | Q33936721 | ||
| Skeletal muscle phosphodiester content relates to body mass and glycemic control | Q33968101 | ||
| G-1,6-P2, glycolysis, and energy metabolism during circulatory occlusion in human skeletal muscle | Q34049837 | ||
| Regulation analysis of energy metabolism | Q34064222 | ||
| Intracellular energetics and critical Po2in resting ischemic human skeletal muscle in vivo | Q34305776 | ||
| Impaired mitochondrial substrate oxidation in muscle of insulin-resistant offspring of type 2 diabetic patients | Q34370850 | ||
| Body and liver fat mass rather than muscle mitochondrial function determine glucose metabolism in women with a history of gestational diabetes mellitus | Q34507228 | ||
| Skeletal muscle mitochondrial capacity and insulin resistance in type 2 diabetes | Q34758533 | ||
| Mitochondrial dysfunction in patients with primary congenital insulin resistance | Q35015797 | ||
| Measuring the acute effect of insulin infusion on ATP turnover rate in human skeletal muscle using phosphorus-31 magnetic resonance saturation transfer spectroscopy. | Q35062009 | ||
| Standard magnetic resonance-based measurements of the Pi→ATP rate do not index the rate of oxidative phosphorylation in cardiac and skeletal muscles | Q35086757 | ||
| The quantitatively minor role of carbohydrate in oxidative metabolism by skeletal muscle in intact man in the basal state; measurements of oxygen and glucose uptake and carbon dioxide and lactate production in the forearm | Q35559703 | ||
| Mild mitochondrial uncoupling impacts cellular aging in human muscles in vivo | Q35578499 | ||
| Intramuscular triacylglycerol and insulin resistance: guilty as charged or wrongly accused? | Q35596985 | ||
| Effects of raising muscle glycogen synthesis rate on skeletal muscle ATP turnover rate in type 2 diabetes. | Q35601244 | ||
| Ectopic lipid accumulation and reduced glucose tolerance in elderly adults are accompanied by altered skeletal muscle mitochondrial activity | Q35654229 | ||
| Hyperglycemia normalizes insulin-stimulated skeletal muscle glucose oxidation and storage in noninsulin-dependent diabetes mellitus | Q35817890 | ||
| Mitochondrial dysfunction measured in vivo | Q35966058 | ||
| Mitochondrial oxidative phosphorylation is impaired in patients with congenital lipodystrophy | Q36049068 | ||
| Nine days of intensive exercise training improves mitochondrial function but not insulin action in adult offspring of mothers with type 2 diabetes. | Q36158144 | ||
| The efficiency and plasticity of mitochondrial energy transduction. | Q36295251 | ||
| Quantitative interpretation of bioenergetic data from 31P and 1H magnetic resonance spectroscopic studies of skeletal muscle: an analytical review. | Q36747810 | ||
| Increased daily walking improves lipid oxidation without changes in mitochondrial function in type 2 diabetes. | Q36807542 | ||
| Increased substrate oxidation and mitochondrial uncoupling in skeletal muscle of endurance-trained individuals | Q36943834 | ||
| Paradoxical effects of increased expression of PGC-1alpha on muscle mitochondrial function and insulin-stimulated muscle glucose metabolism | Q37006469 | ||
| Impaired mitochondrial function and insulin resistance of skeletal muscle in mitochondrial diabetes. | Q37139489 | ||
| Short-term exercise training does not stimulate skeletal muscle ATP synthesis in relatives of humans with type 2 diabetes | Q37193670 | ||
| Skeletal muscle "mitochondrial deficiency" does not mediate insulin resistance | Q37341270 | ||
| The role of mitochondria in health and disease | Q37606811 | ||
| The role of mitochondria in insulin resistance and type 2 diabetes mellitus | Q37930956 | ||
| Resistance to thyroid hormone is associated with raised energy expenditure, muscle mitochondrial uncoupling, and hyperphagia | Q39812091 | ||
| 31P saturation transfer spectroscopy predicts differential intracellular macromolecular association of ATP and ADP in skeletal muscle | Q41129598 | ||
| Elevated muscle glycogen and anaerobic energy production during exhaustive exercise in man | Q41967741 | ||
| Early or advanced stage type 2 diabetes is not accompanied by in vivo skeletal muscle mitochondrial dysfunction | Q42165355 | ||
| Insulin-stimulated mitochondrial adenosine triphosphate synthesis is blunted in skeletal muscles of high-fat-fed rats | Q42443561 | ||
| Comparison of in vivo postexercise phosphocreatine recovery and resting ATP synthesis flux for the assessment of skeletal muscle mitochondrial function. | Q42953342 | ||
| Acute elevation of plasma lipids does not affect ATP synthesis in human skeletal muscle | Q43074217 | ||
| Abnormal cardiac and skeletal muscle energy metabolism in patients with type 2 diabetes | Q44480693 | ||
| Mitochondrial coupling in vivo in mouse skeletal muscle | Q44605064 | ||
| The interpretation of abnormal 31P magnetic resonance saturation transfer measurements of Pi/ATP exchange in insulin-resistant skeletal muscle | Q46714413 | ||
| Reduced rate of adenosine triphosphate synthesis by in vivo 31P nuclear magnetic resonance spectroscopy and downregulation of PGC-1beta in distal skeletal muscle following burn. | Q46801630 | ||
| Increased lipid availability impairs insulin-stimulated ATP synthesis in human skeletal muscle | Q46870183 | ||
| Skeletal muscle fatty acid metabolism in association with insulin resistance, obesity, and weight loss | Q47251032 | ||
| Tricarboxylic acid cycle intermediate pool size and estimated cycle flux in human muscle during exercise. | Q47284072 | ||
| 13C/31P NMR assessment of mitochondrial energy coupling in skeletal muscle of awake fed and fasted rats. Relationship with uncoupling protein 3 expression. | Q48702750 | ||
| Impaired insulin stimulation of muscular ATP production in patients with type 1 diabetes. | Q51382819 | ||
| Cellular energetics analysis by a mathematical model of energy balance: estimation of parameters in human skeletal muscle. | Q52076460 | ||
| Stimulatory effect of insulin on creatine accumulation in human skeletal muscle. | Q55068166 | ||
| 31P MR spectroscopy and in vitro markers of oxidative capacity in type 2 diabetes patients | Q57580398 | ||
| The effect of long-term circulatory occlusion on pH and energy metabolism of the quadriceps muscle in man. | Q64887394 | ||
| Effects of insulin on skeletal muscle glucose storage, oxidation, and glycolysis in humans | Q67301241 | ||
| Effect of insulin on intracellular pH and phosphate metabolism in human skeletal muscle in vivo | Q68245908 | ||
| Combination of 31P-NMR magnetization transfer and radioisotope exchange methods for assessment of an enzyme reaction mechanism: rate-determining steps of the creatine kinase reaction | Q68616832 | ||
| 31P NMR magnetization-transfer measurements of ATP turnover during steady-state isometric muscle contraction in the rat hind limb in vivo | Q69692789 | ||
| 31P-NMR saturation transfer measurements of exchange between Pi and ATP in the reactions catalysed by glyceraldehyde-3-phosphate dehydrogenase and phosphoglycerate kinase in vitro | Q69780668 | ||
| Measurements of exchange in the reaction catalysed by creatine kinase using 14C and 15N isotope labels and the NMR technique of saturation transfer | Q70105219 | ||
| Determination of oxygen consumption in muscle during exercise using near infrared spectroscopy | Q70996110 | ||
| Interaction of carbohydrate and fat fuels in human skeletal muscle: impact of obesity and NIDDM | Q71097305 | ||
| Separate measures of ATP utilization and recovery in human skeletal muscle | Q72045051 | ||
| Quantitative analysis by 31P magnetic resonance spectroscopy of abnormal mitochondrial oxidation in skeletal muscle during recovery from exercise | Q72674607 | ||
| Differential regulation of intracellular glucose metabolism by glucose and insulin in human muscle | Q72701978 | ||
| Maximum rate of oxygen uptake by human skeletal muscle in relation to maximal activities of enzymes in the Krebs cycle | Q73435912 | ||
| Muscle oxygen kinetics at onset of intense dynamic exercise in humans | Q74217802 | ||
| In vivo quantitative near-infrared spectroscopy in skeletal muscle during incremental isometric handgrip exercise | Q74332306 | ||
| Diet-induced modulation of mitochondrial activity in rat muscle | Q80825389 | ||
| Selective PPARdelta agonist treatment increases skeletal muscle lipid metabolism without altering mitochondrial energy coupling: an in vivo magnetic resonance spectroscopy study | Q80860382 | ||
| P275 | copyright license | Creative Commons Attribution-NonCommercial-NoDerivatives | Q6937225 |
| P433 | issue | 8 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | type-1 diabetes | Q124407 |
| P1104 | number of pages | 8 | |
| P5008 | on focus list of Wikimedia project | ScienceSource | Q55439927 |
| P304 | page(s) | 1927-1934 | |
| P577 | publication date | 2012-08-01 | |
| P1433 | published in | Diabetes | Q895262 |
| P1476 | title | What do magnetic resonance-based measurements of Pi→ATP flux tell us about skeletal muscle metabolism? | |
| P478 | volume | 61 |
| Q47928501 | 31 P T2 s of phosphomonoesters, phosphodiesters, and inorganic phosphate in the human brain at 7T. |
| Q36698653 | 31P magnetization transfer measurements of Pi→ATP flux in exercising human muscle. |
| Q40974466 | A simple approach to evaluate the kinetic rate constant for ATP synthesis in resting human skeletal muscle at 7 T. |
| Q36688235 | Amplification of the effects of magnetization exchange by (31) P band inversion for measuring adenosine triphosphate synthesis rates in human skeletal muscle |
| Q36913991 | Application of electron paramagnetic resonance spectroscopy to comparative examination of different groups of free radicals in thermal injuries treated with propolis and silver sulphadiazine |
| Q41684320 | Assessing Metabolism and Injury in Acute Human Traumatic Brain Injury with Magnetic Resonance Spectroscopy: Current and Future Applications. |
| Q47191918 | Assessing tissue metabolism by phosphorous-31 magnetic resonance spectroscopy and imaging: a methodology review. |
| Q27023363 | Chemistry and biochemistry of 13C hyperpolarized magnetic resonance using dynamic nuclear polarization |
| Q54303729 | Comparison of (31)P saturation and inversion magnetization transfer in human liver and skeletal muscle using a clinical MR system and surface coils. |
| Q35082737 | Defective mitochondrial function in vivo in skeletal muscle in adults with Down's syndrome: a 31P-MRS study |
| Q52589786 | Dominant and sensitive control of oxidative flux by the ATP-ADP carrier in human skeletal muscle mitochondria: Effect of lysine acetylation. |
| Q56967616 | Ectopic lipid storage in non-alcoholic fatty liver disease is not mediated by impaired mitochondrial oxidative capacity in skeletal muscle |
| Q34726718 | Effects of acute lipid overload on skeletal muscle insulin resistance, metabolic flexibility, and mitochondrial performance |
| Q38680822 | Evaluation of in vivo mitochondrial bioenergetics in skeletal muscle using NMR and optical methods |
| Q34339675 | Exchange kinetics by inversion transfer: integrated analysis of the phosphorus metabolite kinetic exchanges in resting human skeletal muscle at 7 T |
| Q36802129 | Feasibility and repeatability of localized (31) P-MRS four-angle saturation transfer (FAST) of the human gastrocnemius muscle using a surface coil at 7 T. |
| Q57649762 | Feasibility of mapping unidirectional Pi-to-ATP fluxes in muscles of the lower leg at 7.0 Tesla |
| Q33817177 | In-vivo31P-MRS of skeletal muscle and liver: A way for non-invasive assessment of their metabolism. |
| Q89918601 | Increased ATP synthesis might counteract hepatic lipid accumulation in acromegaly |
| Q36720566 | Methods for assessing mitochondrial function in diabetes |
| Q37158046 | Mitochondrial Coupling and Contractile Efficiency in Humans with High and Low V˙O2peaks. |
| Q37403358 | Mitochondrial respiratory capacity and content are normal in young insulin-resistant obese humans |
| Q39043552 | Mitochondrial uncoupling reduces exercise capacity despite several skeletal muscle metabolic adaptations |
| Q59797049 | Mitoproteomics: Tackling Mitochondrial Dysfunction in Human Disease |
| Q34253138 | Modular organization of cardiac energy metabolism: energy conversion, transfer and feedback regulation. |
| Q38186560 | Molecular imaging of brown adipose tissue in health and disease |
| Q57472095 | Shortening of apparent transverse relaxation time of inorganic phosphate as a breast cancer biomarker |
| Q37470969 | Skeletal muscle ATP kinetics are impaired in frail mice |
| Q36536158 | Skeletal muscle alkaline Pi pool is decreased in overweight-to-obese sedentary subjects and relates to mitochondrial capacity and phosphodiester content |
| Q38905640 | Skeletal muscle mitochondria as a target to prevent or treat type 2 diabetes mellitus |
| Q38543545 | Targeting skeletal muscle mitochondria to prevent type 2 diabetes in youth |
| Q36084960 | Test-retest analysis of multiple 31 P magnetization exchange pathways using asymmetric adiabatic inversion. |
| Q34639381 | The effect of neoadjuvant chemoradiotherapy on whole-body physical fitness and skeletal muscle mitochondrial oxidative phosphorylation in vivo in locally advanced rectal cancer patients--an observational pilot study |
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