ライフサイエンスコーパス: pinna

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1 dar-deficient mice have an abnormally shaped pinna.

2 oach of transplanting LNs into the mouse ear pinna.

3 nes to coordinately generate the determinate pinna.

4 ctrical stimulation of the basal part of the pinna.

5 y reduced neutrophil accumulation in the ear pinna.

6 ds and somatosensory neurons innervating the pinna.

7 imulation of its branches that innervate the pinna.

8 te from muscle receptors associated with the pinna.

9 ants from B10 (H2b) donors in the dorsal ear pinna.

10 ured by a reduction in virus load in the ear pinna.

11 bilateral preauricular skin tags and normal pinna.

12 , with little scarring, of wounds to the ear pinna and repair of cardiac muscle, without fibrosis, fo

13 typical mammalian features as pelage, mane, pinna, and a variety of skin structures: keratinous derm

14 cornea, the fine structures inside the mouse pinna, and sweat ducts and Meissner's corpuscle in the h

15 In ear pinna, contact sensitization, CpG, LPS, and papain all m

16 X-ray fluorescence imaging of pinna cross-sections revealed preferential localization

17 n sensitivity at 32 kHz appears to be due to pinna directionality.

18 binaural properties and frequency-dependent pinna filtering, providing a useful model to study how n

19 The role of spectral features imposed by the pinna for vertical sound localization was shown by the b

20 l 18H (a18H) mice are dark agouti with black pinna hairs.

21 nflammation localized to the skin of the ear pinna in 64% of the cases examined.

22 Electrical stimulation of the pinna induced significant increases in the number of Fos

23 as highly asymmetrical, being largest in the pinna ipsilateral to the stimuli.

24 -wide association study for non-pathological pinna morphology in over 5,000 Latin Americans.

25 Prominent pinna movements accompany eye movements when the animal

26 In visual trials the pinna movements are coordinated with eye movements, sugg

27 No behavioral contingencies were placed on pinna movements.

28 Only stimuli that activate pinna muscle receptors, such as stretch or vibration of

29 human fetal heart tissues s.c. into the ear pinna of a SCID mouse.

30 cell-free device in guinea pigs or into the pinna of mice.

31 3+ cells, but not CD133- cells, into the ear pinna of NOD/SCID mice resulted in the formation of card

32 esenting cells (APCs) were injected into the pinna of the mouse ear, and swelling was measured 24 hou

33 After individual mosquitoes fed on an ear pinna or the ventral abdomen of a mouse, fluorescence mi

34 or to support correction for the effects of pinna orientation on sound-localization cues.

35 role of the DCN in hearing is to coordinate pinna orientation to sounds or to support correction for

36 CFU in the ear pinna peaked at day 7 before dropping by day 14.

37 umor were implanted in the outer edge of one pinna per C3H/HeN mouse, and the growing tumors were rem

38 n of CHS on the external surface of the ear (pinna) potentiated the CHS response, and the magnitude o

39 blink, pupil constriction, vibrissae reflex, pinna reflex, Digiscan open field locomotion, rotarod mo

40 the same treatments, the adjacent LCs in ear pinna remained immotile over a 48-hr period of observati

41 In auditory trials the pinna response was composed of two movements: short- and

42 ofluorescence microscopy of the external ear pinna revealed increased CGRP-immunoreactive sensory inn

43 s), interaural level differences (ILDs), and pinna spectral cues, are all represented in the same loc

44 ealed preferential localization of As on the pinna surface in the proximity of veins, with the majori

45 d that As was localized largely on the lower pinna surface, with smaller amounts on the upper surface

46 neous challenge of the skin on the outer ear pinna using Morrow-Brown allergy test needles coated in

47 asured the movements of the external ear, or pinna, using the magnetic search coil technique in cats

48 or vibration of the muscles connected to the pinna, were effective in driving DCN units, whereas cuta

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