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Matches in DBpedia 2016-04 for { <http://doi.org/10.1152/physiol.00067.2013> ?p ?o }

• physiol.00067.2013 author "Heinonen I, Kalliokoski KK, Hannukainen JC, Duncker DJ, Nuutila P, Knuuti J".
• physiol.00067.2013 date "Nov 2014".
• physiol.00067.2013 date "November 2014".
• physiol.00067.2013 doi "10.1152/physiol.00067.2013".
• physiol.00067.2013 isCitedBy Brain-derived_neurotrophic_factor.
• physiol.00067.2013 isCitedBy Management_of_depression.
• physiol.00067.2013 isCitedBy Neurobiological_effects_of_physical_exercise.
• physiol.00067.2013 issue "6".
• physiol.00067.2013 journal "Physiology".
• physiol.00067.2013 pages "421–36".
• physiol.00067.2013 pages "421–436".
• physiol.00067.2013 pmid "25362636".
• physiol.00067.2013 quote "Studies in humans and animals have shown that brain blood flow remains largely unchanged in response to acute exercise[,] ... does not increase with increasing exercise intensity[, and] ... increased metabolic demands of active brain parts are mostly met by redistributing oxygen supply, although changes in oxygen extraction may also contribute. During exercise, blood flow is directed to the areas controlling locomotor, vestibular, cardiorespiratory, and visual functions , facilitated by direct communication of neurons and vascular cells . ... with increasing exercise intensity, brain glucose uptake decreases as the uptake and utilization of lactate is enhanced . Regional differences in brain glucose uptake are also evident, which is furthermore influenced by the level of physical fitness. Thus the decrease in glucose uptake in the dorsal part of the anterior cingulate cortex during exercise is significantly more pronounced in subjects with higher exercise capacity ...".
• physiol.00067.2013 quote "The Effects of Acute Exercise".
• physiol.00067.2013 quote "The Effects of Long-Term Exercise Training".
• physiol.00067.2013 quote "[A] physically active lifestyle has been shown to lead to higher cognitive performance and delayed or prevented neurological conditions in humans . ... The production of brain-derived neurotrophic factor , a key protein regulating maintenance and growth of neurons, is known to be stimulated by acute exercise , which may contribute to learning and memory. BDNF is released from brain already at rest but increases two- to threefold during exercise, which contributes 70–80% of circulating BDNF .".
• physiol.00067.2013 title "Organ-Specific Physiological Responses to Acute Physical Exercise and Long-Term Training in Humans".
• physiol.00067.2013 title "Organ-specific physiological responses to acute physical exercise and long-term training in humans".
• physiol.00067.2013 vauthors "Heinonen I, Kalliokoski KK, Hannukainen JC, Duncker DJ, Nuutila P, Knuuti J".
• physiol.00067.2013 volume "29".