ライフサイエンスコーパス: tympanic membrane

1 , incus and ectotympanic (which supports the tympanic membrane).

2 y (66.1% for the ear canal and 64.4% for the tympanic membrane).

3 occus pneumoniae (1 x 10(6) CFU) through the tympanic membrane.

4 the acoustic impedance they produced at the tympanic membrane.

5 arch-derived membrane bone that anchors the tympanic membrane.

6 acteria due to a defect or retraction of the tympanic membrane.

7 imposing different sound velocities for each tympanic membrane.

8 ithelium of the external auditory canals and tympanic membranes.

9 ars, the size of the input areas of both the tympanic membrane and the columella footplate of the mid

10 ear-canal air volume interposed between the tympanic membrane and the tip of the measuring tube.

11 Retracted tympanic membrane and tympanic sclerosis were more commo

12 ncreased the risk of perforation with intact tympanic membranes and acute otitis externa (AOE).

13 Perforation of tympanic membranes and middle ear hemorrhage were observ

14 of early reptiles point to the presence of a tympanic membrane as the ancestral condition of the crow

15 es examined diagnosis; otoscopic findings of tympanic membrane bulging (positive likelihood ratio, 51

16 proportions of children with healing of the tympanic membranes by 16 weeks were 15% (10-21) in the d

17 s at the tympanal level (one branch for each tympanic membrane), creating two additional narrow inter

18 inty in the model outputs (umbo, stapes, and tympanic-membrane displacements).

19 This mechanism also protects the thin tympanic membranes from injury during swallowing of live

20 The tympanic membrane in mammals is a trilaminar structure f

21 ammals, sound is received externally via two tympanic membranes in each ear and internally via a narr

22 ization of middle ear structures through the tympanic membrane, including the ossicular chain, promon

23 itis media unlikely whereas a distinctly red tympanic membrane increases the likelihood significantly

24 Cerebral cortex, tympanic membrane, inferior vena cava, rectal temperatur

25 ard growth of the squamous epithelium of the tympanic membrane into the middle ear, can also occur.

26 A distinctly red tympanic membrane is also helpful (adjusted LR, 8.4; 95%

27 CSOM occurs when perforation of the tympanic membrane is associated with severe or persisten

28 Identifying an effusion through the tympanic membrane is critical to diagnostic success but

29 bias, a cloudy, bulging, or clearly immobile tympanic membrane is most helpful for detecting AOM.

30 r ear (e.g., short external ear canal, small tympanic membrane, large oval window).

31 as well as a Brighton grading of II or III (tympanic membrane obscure but without systemic illness).

32 speaker in free space were delivered to the tympanic membranes of barbiturized cats via sealed and c

33 ly immobile (adjusted LR, 31; 95% CI, 26-37) tympanic membrane on pneumatic otoscopy are the most use

34 were resolution of otorrhoea and healing of tympanic membranes on otoscopy by 8, 12, and 16 weeks af

35 or persistent disease, surgery to repair the tympanic membrane or remove cholesteatoma might offer lo

36 ates disease in the external auditory canal, tympanic membrane, or middle ear; CT with thin bone algo

37 Tympanic membrane perforation (TMP) was identified as 2

38 ung injury was identified in one patient and tympanic membrane perforation in seven patients, as the

39 Tympanic membrane perforation/otorrhea rates gradually i

40 Although tympanic membrane perforation/otorrhea rates steadily in

41 method for noninvasive ICP monitoring using tympanic membrane pulsation (TMp).

42 Tympanic membrane rupture (TMR) effectively deafens a ra

43 to treat self-limited conditions with intact tympanic membranes should consider TMP risk.

44 vide a basis for understanding the different tympanic membrane structures across species.

45 t it is detached from the mandible and has a tympanic membrane supported by a ring-like ectotympanic.

46 ncertain regions spatially spread out on the tympanic membrane surface.

47 e response to pyrogen, decreasing integrated tympanic membrane temperatures from 7.5+/-2.2 degrees C

48 s that are less reliable such as axillary or tympanic membrane temperatures, noninvasive temporal art

49 scopy (72% for the ear canal and 86% for the tympanic membrane), throat and oral examination (72%), a

50 surface of the middle ear is composed of the tympanic membrane (TM) and the middle ear mucosa (MEM).

51 The tympanic membrane (TM) is critical for hearing and requi

52 Tympanic membrane (TM) perforation, in particular chroni

53 oid the systemic treatment side-effects, the tympanic membrane (TM) represents an impenetrable barrie

54 Lateralized changes in tympanic membrane (TM) temperature were assessed in chim

55 on of MEE as well as biofilm adherent to the tympanic membrane (TM) was longitudinally assessed as OM

56 he placement of a small drainage tube in the tympanic membrane (TM), is the most common surgical proc

57 ly, or locally after opening the impermeable tympanic membrane (TM).

58 the probe tube is sufficiently close to the tympanic membrane to capture the highest frequency of in

59 r canal to the eardrum, causing its flexible tympanic membrane to vibrate.

60 At frequencies above 3 kHz, the tympanic membrane vibrates chaotically.

61 Tympanic membranes were normal, and hearing loss was con

62 The tympanic membranes were translucent and mobile at pneuma

63 associated acoustic-impedance changes at the tympanic membrane with an acoustic bridge.

64 similarities, including the formation of the tympanic membrane within the second pharyngeal arch, whi