ライフサイエンスコーパス: eyebrow

1 ial body movement (such as of the abdomen or eyebrows).

2 n the position of the superior margin of the eyebrow.

3 ents had lesions in the eyelids and 2 in the eyebrows.

4 ad with synophrys or striking full and broad eyebrows; a long, thin, and tubular nose; long, narrow u

5 l misalignment between a pair of oscillating eyebrows-an eyebrow wave.

6 Improved understanding of eyebrow anatomy and of the pathophysiology of the aging

7 st reported loci for hair greying, monobrow, eyebrow and beard thickness.

8 re disease, sex (females more impacted), and eyebrow and eyelash involvement were predictors of dimin

9 External displays had faster eyebrow and eyelid movement, while Improvised displays s

10 K17 in human hair extracts is restricted to eyebrow and facial hair samples.

11 homa type) at uninvolved sites including the eyebrow and forearm.

12 landmarks to examine the morphometry of the eyebrow and orbit with 35 pairs of distances per subject

13 treatment, he also developed poliosis of the eyebrows and cilia, along with depigmented skin macules

14 in 120 (96%), arms and legs in 52 (42%), and eyebrows and eyelashes in 47 each (38%).

15 ne, slow-growing scalp and body hair, sparse eyebrows and eyelashes, decreased sweating, hypodontia,

16 ise displays were mainly composed of raising eyebrows and eyelids movements.

17 patients) to 37.9% (61 of 161 patients) for eyebrows and from 24.1% (33 of 137 patients) to 40.9% (5

18 e was worse for synchronous movements of the eyebrows and mouth.

19 Adaptation to moving eyebrows and mouths with various relative timings reduce

20 ates over the subsequent 24 weeks for scalp, eyebrow, and eyelash hair loss.

21 ed clinically meaningful outcomes for scalp, eyebrow, and eyelash hair regrowth in patients with seve

22 es including telecanthus, epicanthus, arched eyebrows, and low-set ears.

23 ions included smiling, frowning, raising the eyebrows, and squeezing the eyes.

24 Eyebrows are the most important facial feature in facial

25 in 2 cases; periocular in 2 cases; and lip, eyebrow, cheek, and upper eyelid in 1 case each.

26 cies, including horizontal or slightly bowed eyebrows, deep-set eyes, full cheeks, a short nose, and

27 ecognizable facial gestalt (interrupted wavy eyebrows, dense eyelashes, wide nose, wide mouth, and a

28 e-item symptom-based PROMs (PRO measures for eyebrow, eyelash, nail appearance, and eye irritation, a

29 ncealing hair loss, facial hair involvement (eyebrows, eyelashes, and/or beard), nail involvement, im

30 position and morphological territory of the eyebrow from the orbit.

31 equations for estimating the position of the eyebrow from the shape of the orbit is useful informatio

32 We hypothesize that dogs with expressive eyebrows had a selection advantage and that "puppy dog e

33 In total, 675 eyebrow hair (EBH) and skin swab (SSW) samples were coll

34 Eyebrow hair and normal skin swab specimens were obtaine

35 n increased prevalence of MCPyV infection in eyebrow hair and normal skin swab specimens, respectivel

36 The diversity and load of betaPV types in eyebrow hair are associated with cSCC risk in OTRs, prov

37 betaPV infection was assessed in eyebrow hair by using polymerase chain reaction-based me

38 TRs with 5 or more different betaPV types in eyebrow hair had 1.7 times the risk of cSCC vs OTRs with

39 or lower and clinician-reported outcome for eyebrow hair loss and eyelash hair loss scores of 0 or 1

40 erity as well as the presence of eyelash and eyebrow hair loss are also impactful and should be consi

41 % of normal skin swab specimens and 58.9% of eyebrow hair specimens) among all polyomaviruses examine

42 and 24.1 cases per 1000 person-months among eyebrow hair specimens), and persistence (85.8% of norma

43 % of normal skin swab specimens and 30.6% of eyebrow hair specimens), incidence (81.7 cases per 1000

44 38 (beta-2) in both genital skin (32.2%) and eyebrow hairs (16.1%), HPV-12 (beta-1) in forearm skin (

45 n (81.6%), followed by forearm skin (64.4%), eyebrow hairs (60.9%), oral mucosa (35.6%), and anal muc

46 sured by serology and viral DNA detection in eyebrow hairs (EBH) and forearm skin swabs (SSW) among 1

47 the relationship between cuHPV infection in eyebrow hairs (EBHs) and skin swabs (SSWs) is critical f

48 he HPV Infection in Men (HIM) study provided eyebrow hairs, forearm skin swabs, genital skin swabs, o

49 he 3 keratinized tissue sites (genital skin, eyebrow hairs, forearm skin) than across the 2 mucosal s

50 ting of macrocephaly, prominent eyes, arched eyebrows, hypertelorism, a glabellar nevus flammeus, neo

51 ially (high anterior hair line, broad medial eyebrows, hypertelorism, downslanted palpebral fissures,

52 The highest point of the eyebrow in female was located more medially than the mal

53 , a muscle responsible for raising the inner eyebrow intensely, is uniformly present in dogs but not

54 ographs were analyzed using Westmore's ideal eyebrow measurements.

55 tection but only when the adapting mouth and eyebrows moved asynchronously.

56 dogs and wolves, show that dogs produce the eyebrow movement significantly more often and with highe

57 ed the timing of mouth movements relative to eyebrow movements, while measuring the detectability of

58 imal gland (n = 5), conjunctiva (n = 4), and eyebrows (n = 3).

59 ressively increasing swelling over the right eyebrow region.

60 like TBX15, is expressed prominently in the eyebrow regions.

61 e used linear regression analyses to predict eyebrow shape from the orbit for every possible combinat

62 eck, nose, jaw, parietal region, ear, teeth, eyebrow, shoulder (ipsilateral and bilateral), arm and t

63 th the surgical management and objectives of eyebrow surgery continue to evolve.

64 included brachycephaly, highly arched bushy eyebrows, synophrys, long eyelashes, low-set ears, micro

65 and facial hair (beard thickness, monobrow, eyebrow thickness).

66 rphic features such as hypertrichosis, thick eyebrows, thin upper lip vermilion, and upturned nose.

67 ncluding thickening and medial broadening of eyebrows, variations in the shape of the face, external

68 In addition, the middle part of the eyebrow was more predictable.

69 mouths with various relative timings reduced eyebrow wave detection but only when the adapting mouth

70 We found eyebrow wave detection performance was worse for synchro

71 releases them, allowing adaptation to impair eyebrow wave detection.

72 nt between a pair of oscillating eyebrows-an eyebrow wave.

73 nd moment-to-moment movements of eyelids and eyebrows were annotated with deep learning-based trackin

74 including a 6-mm crusted papule on the left eyebrow, which was resected and, on pathology examinatio