ライフサイエンスコーパス: external ear

1 ich can be measured with a microphone in the external ear.

2 and duplication of the caudal region of the external ear.

3 the inferior-lateral brain surface near the external ear.

4 om the way sounds interact with the head and external ears.

5 Morphological abnormalities of the external ear and hearing impairment (conductive or senso

6 Because the timing of anomalies such as external ear and limb malformations are well established

7 varying expressivity and severity, including external ear anomalies, abnormal branchial arch derivati

8 c the normal anatomy of the patient-specific external ear as well as recapitulate the complex biomech

9 The external ear can be the site of development of squamous

10 n matched middle ear effusion (MEE) samples, external ear canal (EEC) lavages, and nasopharynx (NPH)

11 external, middle and inner ear (e.g., short external ear canal, small tympanic membrane, large oval

12 spectral measures of speech recorded in the external ear canal.

13 e facial bones, cleft palate, and middle and external ear defects.

14 itoneally to newborn pups resulted in normal external ear development.

15 aplasia of the scalp; minor anomalies of the external ears, digits, and nails; and malformations of t

16 al electrical nerve field stimulation to the external ear, gastric electrical stimulation, dietary in

17 ic cues that change in value as the head and external ears grow.

18 External ear hole closure in LG/J mice represents a mode

19 Hmx1 underlies malformations of the eye and external ear in multiple species.

20 Suspected cases had signs and symptoms of external ear infection, including drainage of pus or blo

21 fter 7 days, innervation was examined in the external ear, jejunal mesenteric arterioles, superficial

22 rder that manifests as a malformation of the external ear leading to psychosocial problems in affecte

23 We measured the movements of the external ear, or pinna, using the magnetic search coil t

24 sses mild hypoplasia to complete loss of the external ear, or pinna.

25 Immunofluorescence microscopy of the external ear pinna revealed increased CGRP-immunoreactiv

26 estructive process selectively targeting the external ear pinnae in the first 6 days of life.

27 Spiny mice (Acomys spp.) can regenerate external ear pinnae tissue, whereas lab mice (Mus muscul

28 External ear size varies dramatically across animals, in

29 A) mice, which express sOVA predominantly in external ear skin, with OT-I mice whose CD8 T cells expr

30 nd complete absence of the inner, middle and external ear structures.

31 The NSA group's acupuncture points were the external ear, the cheek and face area, and 4 nonspecific

32 rical nerve field stimulation (PENFS) in the external ear to modulate central pain pathways.

33 rious times, the mice were killed, and their external ears were processed for routine histology and i

34 el of 0 dB (decibels) at the entrance to the external ear, which elicits eardrum vibrations in the pi

35 rtilage constitutes a major component of the external ear, which functions to guide sound to the midd