ライフサイエンスコーパス: respiratory pattern

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1 the stability and provide plasticity to the respiratory pattern.

2 The dorsolateral (DL) pons modulates the respiratory pattern.

3 roxia or dihydrocodeine) would influence the respiratory pattern.

4 =0.05), which correlated with improvement in respiratory pattern.

5 ptors may be involved in the genesis of this respiratory pattern.

6 KO neonates showed severe apnea and altered respiratory pattern.

7 maintains upper airway patency and a normal respiratory pattern.

8 e ability of patients to determine their own respiratory pattern and to maintain forced exhalation du

9 ting capillary refill time, skin turgor, and respiratory pattern and using combinations of other sign

10 mosensitivity can reduce or abolish abnormal respiratory patterns and may be an option in the managem

11 the degree of entrainment of the spontaneous respiratory pattern by the ventilator.

12 Acetylcholine and nicotine can modulate respiratory patterns by acting on nicotinic acetylcholin

13 gesting that this region is critical for the respiratory pattern generation.

14 These cells were not part of the central respiratory pattern generator (CPG), because they were t

15 used by a synaptic feedback from the central respiratory pattern generator (CPG).

16 naffected by pharmacological blockade of the respiratory pattern generator and persists without carot

17 The carotid bodies stimulate the respiratory pattern generator directly and indirectly by

18 e, we studied the adaptive behaviours of the respiratory pattern generator in rat on repetitive vagal

19 The respiratory pattern generator modulates the sympathetic

20 phasically activated throughout breathing by respiratory pattern generator neurons.

21 laninergic subset, selectively innervate the respiratory pattern generator plus a portion of the dors

22 s (the central chemoreceptors) would drive a respiratory pattern generator that is not or minimally a

23 pH-regulated excitatory drive to the central respiratory pattern generator.

24 the lower brainstem regions that contain the respiratory pattern generator.

25 cs rarely coincide with abnormalities of the respiratory pattern generator.

26 NMDA receptor-dependent pontine input to the respiratory pattern generator.

27 glutamatergic and innervate principally the respiratory pattern generator; they regulate multiple as

28 ncrease in ventilation and the regularity of respiratory patterns in perinatal rat preparations.

29 ogressive, increasingly severe disruption of respiratory pattern, initially during sleep and then als

30 gor (LR, 2.5; 95% CI, 1.5-4.2), and abnormal respiratory pattern (LR, 2.0; 95% CI, 1.5-2.7).

31 nd in humans can explain gene expression and respiratory patterns observed in these eukaryotes.

32 ter no-I tests whether or not changes in the respiratory pattern occur in the subsequent cycles; and

33 Muscimol eliminated the on-off respiratory pattern of neurons in the rostral ventrolate

34 pendent excitatory input to RVLM neurons and respiratory patterning of their activities via inputs fr

35 atment with rhIGF1 in these animals improves respiratory patterns, reduces anxiety levels, and increa

36 s that vocal sequences are tightly linked to respiratory patterns that are modulated by ANS fluctuati

37 ven the importance of the KF in coordinating respiratory pattern, the mechanisms of mu opioid recepto

38 infants' bedding recorded body movements and respiratory patterns to measure sleep and wake states.

39 Complex changes in respiratory pattern underpin the ventilatory manifestati

40 To compare the respiratory pattern, variability, synchronization, and n

41 Respiratory pattern variables and capillary blood gases

42 The respiratory pattern was determined in three asphyxiated,

43 Respiratory pattern was measured by plethysmography and

44 ; and (2) that LTF causes complex changes in respiratory pattern which are responsible for the increa

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