ライフサイエンスコーパス: cerebral metabolism

1 ocampal volume, brain amyloid deposition and cerebral metabolism.

2 er than voluntary exercise through increased cerebral metabolism.

3 quantify cerebral autoregulation as well as cerebral metabolism.

4 onic acid (AMPA) receptors to the control of cerebral metabolism.

5 d MRS) are able to assess both perfusion and cerebral metabolism.

6 of 'isolated' mitochondrial failure on local cerebral metabolism.

7 nclear how mitochondrial dysfunction affects cerebral metabolism.

8 that may reflect compensatory alterations in cerebral metabolism.

9 hat glucocorticoids have a central action on cerebral metabolism.

10 18F]-2-fluoro-2-deoxy-D-glucose to determine cerebral metabolism.

11 bour, suggesting persisting effects on fetal cerebral metabolism.

12 Among the various techniques used to study cerebral metabolism, (13)C magnetic resonance spectrosco

13 etween re-establishment of apparently normal cerebral metabolism after HI, and the start of secondary

14 the relationship between local increases in cerebral metabolism and appropriately matched increases

15 posed approach using PET to examine regional cerebral metabolism and look for characteristic patterns

16 evious work had shown a relationship between cerebral metabolism and NMDA receptor activity.

17 conducted with fluorodeoxyglucose to measure cerebral metabolism and Pittsburgh compound B for fibril

18 Adaptive alterations in cerebral metabolism are the rationale for the Metabolic

19 ion of the effects of general anesthetics on cerebral metabolism as revealed by imaging for therapeut

20 n signaling is critical for neuroplasticity, cerebral metabolism as well as for systemic energy metab

21 erial PCO2 /pH on heat-induced alteration in cerebral metabolism, as well as on the cerebral oxidativ

22 One possibility is that lifetime cerebral metabolism associated with regionally specific

23 The return to baseline of CBF and cerebral metabolism at normocapnia seen in our study wit

24 stages of Alzheimer's disease despite normal cerebral metabolism at rest.

25 dent effects of hyperglycemia and ketosis on cerebral metabolism, blood flow, and water distribution.

26 uronal firing patterns, neuromodulators, and cerebral metabolism change across sleep-waking states, a

27 Additionally, the increase in cerebral metabolism did not significantly impact the net

28 Abnormal patterns of cerebral metabolism during non-REM sleep in depressed pa

29 slow waves to reduced neuronal activity and cerebral metabolism during partial seizures, but found i

30 Abnormalities in cerebral metabolism during stimulation appeared in the f

31 repsilon4 was also associated with decreased cerebral metabolism, especially in right middle frontal

32 rameters (systemic blood pressure, anaerobic cerebral metabolism, excessive brain tissue oxygenation,

33 c magnetic resonance imaging and on regional cerebral metabolism for glucose by positron emission tom

34 In order to measure the extent of cerebral metabolism in animals with different exercise r

35 The variations in cerebral metabolism in chronic PVS patients indicate tha

36 ermine the effect of normobaric hyperoxia on cerebral metabolism in patients with severe traumatic br

37 effects of chronic haloperidol treatment on cerebral metabolism in schizophrenic patients, 2) the re

38 yglucose (FDG) were used to measure regional cerebral metabolism in seven schizophrenic patients judg

39 s, spontaneous synaptic activity, and active cerebral metabolism in the absence of global electrocort

40 ctual ability were inversely correlated with cerebral metabolism in the prefrontal, pre-motor, and le

41 on-PDD), compared with controls, had reduced cerebral metabolism in the primary occipital cortex (BA

42 went positron emission tomography to measure cerebral metabolism in this cross-sectional study.

43 saline-treated animals, the lesion increased cerebral metabolism in typical basal ganglia regions, su

44 ises to be a useful method for investigating cerebral metabolism in vivo.

45 tter study also found significantly improved cerebral metabolism (in 3 of 6 cortical and 3 of 7 subco

46 T images of AD demonstrate focally decreased cerebral metabolism involving especially the posterior c

47 Previous imaging studies have shown that cerebral metabolism is gradually reduced at the beginnin

48 These data demonstrate that cerebral metabolism is significantly compromised during

49 for the widely held stipulation that overall cerebral metabolism levels remain constant regardless of

50 the beneficial effects of FPSA treatment on cerebral metabolism more precisely and rapidly than ICP

51 Elevations in cerebral metabolism necessitate appropriate coordinated

52 gulation of CBF (i.e., arterial blood gases, cerebral metabolism, neural mechanisms, and specific vas

53 nsgenic mice, the results suggest that local cerebral metabolism of beta-amyloid precursor protein ma

54 Regional cerebral metabolism of each patient was analyzed by dete

55 The effects of the cerebral metabolism of the high levels of ammonia that c

56 In addition, baseline cerebral metabolism (PCr/NTP) may identify vulnerable in

57 Studies of cerebral metabolism, perfusion sequences, and diffusion

58 ential for in vivo non-invasive detection of cerebral metabolism post-TBI, providing a new tool to mo

59 ower blood flow velocity, indicating reduced cerebral metabolism, predicted depressive symptoms and d

60 approximately 60-70% maximal oxygen uptake, cerebral metabolism remains elevated but perfusion in th

61 This study further determined the changes in cerebral metabolism resulting from the two methods of ex

62 General anesthetics suppress cerebral metabolism significantly.

63 Reductions in cerebral metabolism sufficient to impair cognition in no

64 and demonstrated marked decreases in overall cerebral metabolism to 30-40% of normal.

65 (PiB) positron emission tomography (PET) and cerebral metabolism using [(18)F]fluoro-2-deoxy-d-glucos

66 Cerebral metabolism was affected bilaterally in a subset

67 hourly by a parenchymal Clark electrode, and cerebral metabolism was assessed by the lactate/pyruvate

68 Non-oxidative cerebral metabolism was calculated from the ratio of oxy

69 Furthermore, cerebral metabolism was depressed significantly in a tim

70 Cerebral metabolism was determined in 35 brain structure

71 he same divers, the impact of hypercapnia on cerebral metabolism was determined using varying levels

72 omplaint was progressive dysfluency, resting cerebral metabolism was measured using [18F]fluorodeoxyg

73 rval, 0.06-0.16), and the initial pattern of cerebral metabolism was significantly associated with th

74 Local rates of cerebral metabolism were determined after an intravenous

75 Furthermore, decreases in cerebral metabolism were more intense and widespread.

76 Global rates of cerebral metabolism were significantly lower in animals

77 es were used to evaluate the associations of cerebral metabolism with CVRFs and atherosclerotic plaqu