ライフサイエンスコーパス: tympanic

1 1.27), oral 0.34 degrees C (-0.86 to 1.54), tympanic 0.62 degrees C (-0.40 to 1.64) and mode not sta

2 Clinical examination revealed a distended tympanic abdomen with generalized tenderness but no evid

3 Trans-tympanic administration of the A1AR agonist R-phenylisop

4 na, mediolateral abbreviation of the lateral tympanic, and a shortened, trapezoidal basioccipital ele

5 ed that it showed evidence of this stylohyal-tympanic articulation, from which they concluded that O.

6 d a reduction in the epithelial cells on the tympanic aspect.

7 that supports the throat and larynx) and the tympanic bone, which forms the floor of the middle ear.

8 helium is terminally differentiated, whereas tympanic border cells (TBCs) beneath the sensory epithel

9 se of temperature measurement with the oral, tympanic (both core and oral equivalence modes were used

10 on of the limbic cortex against the adjacent tympanic bulla and subsequent neuronal cytoskeletal coll

11 olesteatoma according to its location in the tympanic cavity (T); extension into the mastoid (M); and

12 omica cranial nerve VII was accessed via the tympanic cavity and injected with dextran coupled to Tex

13 unctional properties of the ossicles and the tympanic cavity and make comparisons with recent and ext

14 d Neandertals, leading to differences in the tympanic cavity and, consequently, the shape and spatial

15 icles (malleus, incus, stapes) housed in the tympanic cavity of the temporal bone play an important r

16 ); tympanic oral, x = 36.80 (SD = 0.93); and tympanic core, x = 37.12 (SD = 1.0).

17 ee methods (oral-PA core, -0.15 [SD = 0.36]; tympanic core-PA core, -0.11 [SD = 0.57], tympanic oral-

18 Therefore, trans-tympanic delivery of A1AR agonists could effectively tre

19 acoustic perception in arthropods that lack tympanic ears (e.g., spiders) [2].

20 Trans-tympanic electrocochleography (ECochG) showed prolonged

21 within the catchment area and presented with tympanic (>/=38.0 degrees C) or axillary temperature (>/

22 chlear adenosine A1 receptor (A1AR) by trans-tympanic injections of the agonist R-phenylisopropyladen

23 Tympanic membrane (TM) perforation, in particular chroni

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

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

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

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

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

29 The tympanic membrane in mammals is a trilaminar structure f

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

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

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

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

34 Tympanic membrane perforation/otorrhea rates gradually i

35 Although tympanic membrane perforation/otorrhea rates steadily in

36 Tympanic membrane rupture (TMR) effectively deafens a ra

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

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

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

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

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

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

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

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

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

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

47 the acoustic impedance they produced at the tympanic membrane.

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

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

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

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

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

53 The tympanic membranes were translucent and mobile at pneuma

54 ithelium of the external auditory canals and tympanic membranes.

55 greatest variability is associated with the tympanic method.

56 Most anurans possess a tympanic middle ear (TME) that transmits sound waves to

57 33 (SD = 0.89); oral, x = 37.18 (SD = 0.92); tympanic oral, x = 36.80 (SD = 0.93); and tympanic core,

58 ]; tympanic core-PA core, -0.11 [SD = 0.57], tympanic oral-PA core, -0.52 [SD = 0.53]), indicating th

59 icating that non-specific stimulation of the tympanic plexus, an intervening neural structure with va

60 s and malleus) and two membranous bones, the tympanic ring and the gonium, which act as structural co

61 A developmental analysis of the tympanic ring bone, a bone that is always absent in Gsc-

62 However, analysis of the tympanic ring bones of 18.5 d.p.c. chimeras suggests tha

63 Experimental loss of the tympanic ring by retinoic acid treatment, or duplication

64 Gsc-null cells had the capacity to form the tympanic ring condensation in the presence of wild-type

65 The participation of Gsc-null cells in the tympanic ring condensation of chimeras may be an epigene

66 We suggest that the tympanic ring primordium induces formation and morphogen

67 xternal acoustic meatus and formation of the tympanic ring, a first arch-derived membrane bone that a

68 sc is required for development of the entire tympanic ring, the role of Bapx1 is restricted to the sp

69 middle ear-associated bones, the gonium and tympanic ring.

70 isplay hypoplasia of the anterior end of the tympanic ring.

71 specification of the gonium and the anterior tympanic ring.

72 nd hypoplasia of the mandible, otic cup, and tympanic ring.

73 between +0.25 and -1.4 MegaPascal (MPa) for tympanic rupture, +3 and -1 MPa for lung damage, and +20

74 and orbit apex for pressures known to cause tympanic rupture, lung damage, and 50% chance of mortali

75 derived condition associated with changes in tympanic shape and the extent of its contact with the pe

76 Tympanic temperature 10 degrees C (n = 3) was achieved a

77 In the four dogs within protocol, tympanic temperature 10 degrees C was achieved after flu

78 For 90 mins of cardiac arrest (n = 6), tympanic temperature 10 degrees C was achieved after flu

79 induction of profound cerebral hypothermia (tympanic temperature 10 degrees C) by aortic flush of co

80 For 60 mins of cardiac arrest (n = 14), tympanic temperature 20 degrees C (n = 6) was achieved a

81 a venovenous extracorporeal shunt cooling to tympanic temperature 27 degrees C; in group 3 (n = 6, 2

82 bypass, postcardiac arrest mild hypothermia (tympanic temperature 34 degrees C) to 12 hrs, controlled

83 ll dogs were maintained at mild hypothermia (tympanic temperature 34 degrees C) to 12 hrs.

84 group 2 but with mild hypothermia, that is, tympanic temperature 34 degrees C; and in group 4 (n = 5

85 ective of this study was to compare oral and tympanic temperature measurements (in both the oral and

86 ons of up to 90 mins, perhaps 120 mins, at a tympanic temperature of 10 degrees C and complete recove

87 Tympanic temperature of 15 degrees C (n = 5) was achieve

88 at 2 degrees C (at a rate of 1 L/min), until tympanic temperature reached 20 degrees C (for 60 mins o

89 nd in combination, on salivary melatonin and tympanic temperature were assessed in humans.

90 iac arrest of up to 90 min no-flow at brain (tympanic) temperature of 10 degrees C, with functionally

91 me to train experienced nurses in the use of tympanic thermometry than oral thermometry.