scholarly article | Q13442814 |
P50 | author | Michael E Tschakovsky | Q87729142 |
P2093 | author name string | Veronica J Poitras | |
Robert W Hudson | |||
P2860 | cites work | Peroxisome proliferator-activated receptor-gamma coactivator 1 alpha (PGC-1 alpha): transcriptional coactivator and metabolic regulator | Q24294798 |
Erythrocytes: oxygen sensors and modulators of vascular tone | Q24653317 | ||
Relationship between myocardial perfusion and dysfunction in diabetic cardiomyopathy: a study of quantitative contrast echocardiography and strain rate imaging | Q24676053 | ||
Oxygen transport and peripheral microcirculation in long-term diabetes | Q68175571 | ||
Splanchnic and muscle metabolism during exercise in NIDDM patients | Q71776010 | ||
Muscle fiber composition and capillary density in women and men with NIDDM | Q72133555 | ||
Effects of exercise training on oxygen uptake kinetic responses in women with type 2 diabetes | Q73095390 | ||
Lipid oxidation is reduced in obese human skeletal muscle | Q73127280 | ||
Heightened norepinephrine-mediated vasoconstriction in type 2 diabetes | Q73277050 | ||
Effects of systemic arterial blood pressure on the contractile force of a human hand muscle | Q73630962 | ||
Abnormal oxygen uptake kinetic responses in women with type II diabetes mellitus | Q74761277 | ||
Alveolar oxygen uptake and femoral artery blood flow dynamics in upright and supine leg exercise in humans | Q77520231 | ||
Oxygen deficit and repayment in exercise | Q78992809 | ||
Effects of Type II diabetes on muscle microvascular oxygen pressures | Q79172907 | ||
Effect of arterial oxygenation on quadriceps fatigability during isolated muscle exercise | Q79378102 | ||
Reduced expression of G(i) in erythrocytes of humans with type 2 diabetes is associated with impairment of both cAMP generation and ATP release | Q79386804 | ||
Physical activity in U.S. adults with diabetes and at risk for developing diabetes, 2003 | Q79678535 | ||
Impaired exercise-induced blood volume in type 2 diabetes with or without peripheral arterial disease measured by continuous-wave near-infrared spectroscopy | Q80012526 | ||
Diagnosis and classification of diabetes mellitus | Q80423340 | ||
Skeletal muscle deoxygenation after the onset of moderate exercise suggests slowed microvascular blood flow kinetics in type 2 diabetes | Q80736217 | ||
The impact of the Micro-Lightguide O2C for the quantification of tissue ischemia in diabetic foot ulcers | Q81053338 | ||
Control of microvascular oxygen pressures in rat muscles comprised of different fibre types | Q81239972 | ||
Effects of arterial oxygen content on peripheral locomotor muscle fatigue | Q82646756 | ||
Older type 2 diabetic males do not exhibit abnormal pulmonary oxygen uptake and muscle oxygen utilization dynamics during submaximal cycling exercise | Q82995925 | ||
Women with type 2 diabetes perceive harder effort during exercise than nondiabetic women | Q84947236 | ||
Coordinated reduction of genes of oxidative metabolism in humans with insulin resistance and diabetes: Potential role of PGC1 and NRF1 | Q24679555 | ||
BDNF mediates adaptive brain and body responses to energetic challenges | Q27693260 | ||
Hemoglobin and the paracrine and endocrine functions of nitric oxide | Q28190068 | ||
The prevalence of comorbid depression in adults with diabetes: a meta-analysis | Q28190708 | ||
Blood lactate measurements and analysis during exercise: a guide for clinicians | Q28263445 | ||
PGC-1alpha-responsive genes involved in oxidative phosphorylation are coordinately downregulated in human diabetes | Q29547229 | ||
Psychophysical bases of perceived exertion | Q29615667 | ||
Plasma nitrite flux predicts exercise performance in peripheral arterial disease after 3months of exercise training | Q30430704 | ||
Abnormal skeletal muscle capillary recruitment during exercise in patients with type 2 diabetes mellitus and microvascular complications | Q30435895 | ||
Plasma nitrite response and arterial reactivity differentiate vascular health and performance | Q30436021 | ||
Diastolic dysfunction in normotensive men with well-controlled type 2 diabetes: importance of maneuvers in echocardiographic screening for preclinical diabetic cardiomyopathy | Q30980109 | ||
Exogenous NO administration and alpha-adrenergic vasoconstriction in human limbs | Q33188181 | ||
Continuous, non-invasive measurement of the haemodynamic response to submaximal exercise in patients with diabetes mellitus: evidence of impaired cardiac reserve and peripheral vascular response. | Q33511919 | ||
Attenuated purinergic receptor function in patients with type 2 diabetes | Q33556510 | ||
Interaction of factors determining oxygen uptake at the onset of exercise. | Q33588866 | ||
An enzymatic approach to lactate production in human skeletal muscle during exercise | Q33897316 | ||
Endothelial dysfunction in diabetes. | Q33959485 | ||
Cardiac dysfunction during exercise in uncomplicated type 2 diabetes. | Q33991343 | ||
Effects of Type II diabetes on exercising skeletal muscle blood flow in the rat | Q34305268 | ||
Cardiac sympathetic afferent activation provoked by myocardial ischemia and reperfusion. Mechanisms and reflexes | Q34311069 | ||
Endothelin-1 in paraventricular nucleus modulates cardiac sympathetic afferent reflex and sympathetic activity in rats | Q34345115 | ||
Limits to sustainable muscle performance: interaction between glycolysis and oxidative phosphorylation | Q34387948 | ||
Functional sympatholysis during exercise in patients with type 2 diabetes with intact response to acetylcholine | Q35043742 | ||
Limits to the measurement of habitual physical activity by questionnaires | Q35143423 | ||
Postmaximal contraction blood volume responses are blunted in obese and type 2 diabetic subjects in a muscle-specific manner | Q35159853 | ||
Barriers to physical activity in patients with diabetes | Q35519380 | ||
Peripheral microvascular response to muscle contraction is unaltered by early diabetes but decreases with age. | Q35562053 | ||
Patients with type 2 diabetes have normal mitochondrial function in skeletal muscle | Q35676919 | ||
Cellular mechanisms of skeletal muscle fatigue. | Q35751506 | ||
Tests of glycemia in diabetes | Q35818970 | ||
Impaired cerebral blood flow and oxygenation during exercise in type 2 diabetic patients | Q35877567 | ||
Physical activity/exercise and type 2 diabetes | Q35903410 | ||
Independent effect of type 2 diabetes beyond characteristic comorbidities and medications on immediate but not continued knee extensor exercise hyperemia | Q35921779 | ||
Lack of independent effect of type 2 diabetes beyond characteristic comorbidities and medications on small muscle mass exercising muscle blood flow and exercise tolerance | Q36036454 | ||
Abnormal left ventricular longitudinal functional reserve in patients with diabetes mellitus: implication for detecting subclinical myocardial dysfunction using exercise tissue Doppler echocardiography. | Q36172988 | ||
Brain-derived neurotrophic factor (BDNF) and type 2 diabetes. | Q48345277 | ||
Differential effects of age and type 2 diabetes on dynamic vs. peak response of pulmonary oxygen uptake during exercise | Q50439062 | ||
Hemodynamic responses during graded and constant-load plantar flexion exercise in middle-aged men and women with type 2 diabetes | Q50451228 | ||
Similar level of impairment in exercise performance and oxygen uptake kinetics in middle-aged men and women with type 2 diabetes. | Q50498283 | ||
Effect of type 2 diabetes on the dynamic response characteristics of leg vascular conductance during exercise. | Q50528010 | ||
Effects of Type II diabetes on capillary hemodynamics in skeletal muscle. | Q50728365 | ||
Effects of non-insulin-dependent diabetes on oxygen consumption during treadmill exercise. | Q51588171 | ||
Reduced exercise arteriovenous O2 difference in Type 2 diabetes | Q51687699 | ||
Extracellular adenosine initiates rapid arteriolar vasodilation induced by a single skeletal muscle contraction in hamster cremaster muscle. | Q51755331 | ||
Development of microvascular rarefaction in the spontaneously hypertensive rat. | Q51859998 | ||
Skeletal muscle lipid content and oxidative enzyme activity in relation to muscle fiber type in type 2 diabetes and obesity. | Q54013893 | ||
Red blood cell regulation of microvascular tone through adenosine triphosphate. | Q54056545 | ||
Carotid baroreflex control of leg vasculature in exercising and non-exercising skeletal muscle in humans. | Q54228741 | ||
Reduced Leg Blood Flow during Submaximal Exercise in Type 2 Diabetes | Q60616972 | ||
Muscle blood flow in diabetes mellitus. Evidence of abnormality after exercise | Q68032825 | ||
Type 2 diabetes mellitus and exercise impairment | Q36673620 | ||
Mitochondrial oxidative function and type 2 diabetes | Q36703611 | ||
Left ventricular function in diabetes mellitus. II: Relation between clinical features and left ventricular function | Q36778779 | ||
Diabetic cardiomyopathy revisited | Q36860318 | ||
Exercise hyperaemia: is anything obligatory but the hyperaemia? | Q36886654 | ||
Red not dead: signaling in and from erythrocytes | Q36981005 | ||
A comparison of direct versus self-report measures for assessing physical activity in adults: a systematic review | Q36987077 | ||
Mechanisms of rapid vasodilation after a brief contraction in human skeletal muscle | Q37054924 | ||
Potential mechanisms for reduced delivery of nitric oxide to peripheral tissues in diabetes mellitus | Q37780592 | ||
Vascular smooth muscle function in type 2 diabetes mellitus: a systematic review and meta-analysis | Q38122327 | ||
Arterial function in cardio-metabolic diseases: from the microcirculation to the large conduits | Q38249072 | ||
Clinical depression versus distress among patients with type 2 diabetes: not just a question of semantics | Q38399002 | ||
The Type 2 Diabetic Heart: Its Role in Exercise Intolerance and the Challenge to Find Effective Exercise Interventions | Q38815425 | ||
Insidious incrementalism: The silent failure of the microcirculation with increasing peripheral vascular disease risk | Q38942823 | ||
Fatiguability and Fibre Composition of Human Skeletal Muscle | Q39794330 | ||
Factors affecting the rate and energetics of mitochondrial oxidative phosphorylation | Q40727993 | ||
Perceived exertion. Antecedents and applications | Q40890612 | ||
A delivery-independent blood flow effect on skeletal muscle fatigue | Q41474223 | ||
Nitrite directly vasodilates hypoxic vasculature via nitric oxide-dependent and -independent pathways | Q42589045 | ||
Exercise and type 2 diabetes: American College of Sports Medicine and the American Diabetes Association: joint position statement. Exercise and type 2 diabetes | Q42804939 | ||
Noninvasive estimation of microvascular O2 provision during exercise on-transients in healthy young males. | Q43473630 | ||
GLUT4 is reduced in slow muscle fibers of type 2 diabetic patients: is insulin resistance in type 2 diabetes a slow, type 1 fiber disease? | Q43618919 | ||
Participation of cAMP in a signal-transduction pathway relating erythrocyte deformation to ATP release | Q43730250 | ||
Effect of altered arterial O2 tensions on muscle metabolism in dog skeletal muscle during fatiguing work | Q43814911 | ||
Impaired stroke volume and aerobic capacity in female adolescents with type 1 and type 2 diabetes mellitus | Q43857108 | ||
Is sympathetic neural vasoconstriction blunted in the vascular bed of exercising human muscle? | Q44013303 | ||
Nitric oxide synthase inhibition reduces glucose uptake during exercise in individuals with type 2 diabetes more than in control subjects | Q44081019 | ||
Dynamics of microvascular oxygen pressure during rest-contraction transition in skeletal muscle of diabetic rats | Q44103904 | ||
Abnormal metabolic fate of nitric oxide in Type I diabetes mellitus | Q44219619 | ||
Type 2 diabetic individuals have impaired leg blood flow responses to exercise: role of endothelium-dependent vasodilation | Q44333635 | ||
Abnormal cardiac and skeletal muscle energy metabolism in patients with type 2 diabetes | Q44480693 | ||
Activation of ATP/UTP-selective receptors increases blood flow and blunts sympathetic vasoconstriction in human skeletal muscle | Q44585114 | ||
Heterotrimeric G protein Giis involved in a signal transduction pathway for ATP release from erythrocytes | Q44654252 | ||
Exercise capacity and body composition as predictors of mortality among men with diabetes | Q44705135 | ||
Vasorelaxation by red blood cells and impairment in diabetes: reduced nitric oxide and oxygen delivery by glycated hemoglobin | Q44764243 | ||
Cardiac output is not related to the slowed O2 uptake kinetics in type 2 diabetes. | Q44948565 | ||
Combined NO and PG inhibition augments alpha-adrenergic vasoconstriction in contracting human skeletal muscle | Q44991344 | ||
Impaired Tissue Oxygenation in Metabolic Syndrome Requires Increased Microvascular Perfusion Heterogeneity. | Q45052284 | ||
Deficiency of subsarcolemmal mitochondria in obesity and type 2 diabetes | Q45199109 | ||
Compliance with physical activity recommendations in US adults with diabetes | Q45243180 | ||
Determinants of exercise capacity in patients with type 2 diabetes | Q46570708 | ||
Normalization of diastolic dysfunction in type 2 diabetics after exercise training | Q46911725 | ||
A conceptual framework for predicting and addressing the consequences of disease-related microvascular dysfunction. | Q47982355 | ||
Involvement of enhanced cardiac sympathetic afferent reflex in sympathetic activation in early stage of diabetes | Q48162668 | ||
P433 | issue | 5 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | type 2 diabetes | Q3025883 |
P304 | page(s) | 1117-1139 | |
P577 | publication date | 2018-02-08 | |
P1433 | published in | Journal of Applied Physiology | Q1091719 |
P1476 | title | Exercise intolerance in Type 2 diabetes: is there a cardiovascular contribution? | |
P478 | volume | 124 |
Q90701757 | Effect of all-extremity high-intensity interval training vs. moderate-intensity continuous training on aerobic fitness in middle-aged and older adults with type 2 diabetes: A randomized controlled trial |
Q89963511 | Increased Cardiovascular Response to a 6-Minute Walk Test in People With Type 2 Diabetes |
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