ライフサイエンスコーパス: body type

1 stantially among younger women with a linear body type.

2 ucture, ensuring compatibility across equine body types.

3 ent types of dorsal root ganglion (DRG) cell bodies (types 1, 2, 3, and 4), which were previously ide

4 ckground K-channels were abundant in carotid body type-1 cells from wild-type mice and comparable to

5 as insensitivity to insulin secreted by the body (type 2 diabetes).

6 tly, functional categories of trophic level, body type, and mobility were almost always present on al

7 onis" phenotype, characterized by this ideal body type, and this function could potentially be exploi

8 person due to differences in immune systems, body types, and other factors.

9 n cryosphere inland waters considering water body types, cryosphere zones, and seasonality.

10 culture conditions, and resulted in foreign body-type giant cell formation.

11 histiocytes and a variable number of foreign body-type giant cells associated with a focus of severe

12 nic bovine bone were present, but no foreign body-type giant cells were identified.

13 mate association with multinucleated foreign body-type giant cells.

14 Biopsy in all cases showed foreign body-type granulomas.

15 hemical profile similar to mammalian carotid body Type I (glomus) cells and pulmonary neuroepithelial

16 ontaneously hypertensive rats (SHRs) carotid body type I (glomus) cells exhibit hypersensitivity to c

17 e I cells led us to hypothesize that carotid body type I cells and the apposed nerve endings use diff

18 ngs of the oxygen sensitivity of the carotid body Type I cells are becoming better defined as researc

19 Hypoxic stimuli depolarize carotid body type I cells causing voltage-gated calcium influx.

20 patch clamp technique, isolated rat carotid body type I cells exhibited reversible activation of Cl-

21 2 sensitivity of freshly dissociated carotid body type I cells in vitro.

22 In conclusion, carotid body type I cells possess Cl- currents activated by cell

23 The results indicate that, in rat carotid body type I cells, both nicotinic and muscarinic acetylc

24 nsitive and other K+ currents in rat carotid body type I cells, with and without low [Ca2+]o plus hig

25 e (CN(-)) and oligomycin on isolated carotid body type I cells.

26 d-sensitive background K+ channel of carotid body type-I cells is likely to be an endogenous TASK-1-l

27 nsitive background K+ current in rat carotid body type-I cells were investigated and compared with th

28 olyp (rather than a medusa) is the ancestral body type in Cnidaria.

29 .285), suggesting that selection for a large body type in this breed concurrently selects for FHD.

30 on with a university mascot (i.e., color and body type) in a bespoke virtual reality simulation desig

31 Foreign body types included metal (n = 40), plastic (n = 15), gr

32 n concert with the self-selection of certain body types, makes it difficult to identify the individua

33 s suggest that different, EB-dependent + TIP body types may exist in cells, contributing to functiona

34 After adjustment for age, race, childhood body type, parental education, and family CVD history, t

35 Diffuse neocortical Lewy body-type pathology tended to occur more frequently in t

36 McKeith's limbic or diffuse neocortical Lewy body-type pathology.

37 ion was robust across walking conditions and body types; sensitivity ranged from 0.94 to 0.98, and sp

38 n OC burial are strongly influenced by water body type, size, and abundance; land use; and soil and v

39 Lewy body type was determined by using alpha-synuclein immuno

40 y-associated color condition, hypermasculine body-type was associated with less misogynistic behavior