ライフサイエンスコーパス: mastication

1 dynamic loading conditions mimicking natural mastication.

2 n the temporomandibular joint and muscles of mastication.

3 siological barrier damage that occurs during mastication.

4 g) to create a large, continuous surface for mastication.

5 can be compared among early mammal groups is mastication.

6 r improvement for more efficient hearing and mastication.

7 a higher Nswal as juice was released during mastication.

8 d remained undisturbed in intact cells after mastication.

9 altered somatosensory inputs and patterns of mastication.

10 y functional central networks engaged during mastication.

11 haviors such as respiration, locomotion, and mastication.

12 ibit a burst in proliferation in response to mastication.

13 gnificant effect on soft palate elevation in mastication.

14 al cone cracks on the occlusal surface under mastication.

15 n that salivary flow rates are influenced by mastication.

16 t to the "blunt" contacts encountered during mastication.

17 obility necessary to withstand the forces of mastication.

18 elease of compounds from bread matrix during mastication.

19 landin, mucin, protein, and viscosity during mastication.

20 temporomandibular joint (TMJ) and muscles of mastication.

21 rnal head and neck) targeting the muscles of mastication.

22 g the lifelong functionality of the tooth in mastication.

23 r fragmentation in fast solvent flows and in mastication.

24 ctive compounds detected in the mouth during mastication.

25 s is reached to meet the mechanical needs of mastication.

26 o understand how teeth have been used during mastication.

27 of the GF bread was easily fragmented during mastication and a longer period in the mouth was require

28 ereafter, from preparation to the mastery of mastication and deglutition of solid foods.

29 ain on the neck of the condyle during normal mastication and during simulated function in different c

30 complaint of gingival enlargement affecting mastication and esthetics.

31 nana cell structures, which survived in vivo mastication and in vitro gastrointestinal digestion, wer

32 lis muscles are the key skeletal muscles for mastication and loss of their function negatively affect

33 f the temporomandibular joint and muscles of mastication and recorded their judgments concerning the

34 ifficulties in fundamental functions such as mastication and vocalization.

35 asurements of strain were made during normal mastication and with the pigs under general anesthesia d

36 ity where it is involved in taste sensation, mastication, and articulation.

37 hemidesmosomes, a soft diet requires minimal mastication, and consequently, lower distortional strain

38 se commensal microbiome, ongoing damage from mastication, and dietary and airborne antigens.

39 vital functions such as hearing, breathing, mastication, and health.

40 as grinded using a device that simulates the mastication, and immediately analysed by headspace solid

41 , but the consummatory behaviors of licking, mastication, and swallowing are organized in the brainst

42 mpounds were released from bread matrices in mastication, and the identified compounds differed large

43 ry and Palaeolithic processing techniques on mastication are unknown.

44 l mouth system under oral conditions (tongue mastication, artificial saliva, pH and salt).

45 1 core mesoderm is needed to form muscles of mastication, but its role in patterning the mandible is

46 Rt/PCRt is essential for forebrain-initiated mastication, but that the Gi is not a necessary link in

47 panied by teeth clenching and bruxism, while mastication (chewing) can promote coping with stress.

48 thesized that altered mechanical stress from mastication contributes to periodontal destruction obser

49 is critical for jaw movements and allows for mastication, digestion of food, and speech.

50 creased loads--such as those associated with mastication, eruption, and orthodontic tooth movement-do

51 OS contained mastication-extractable quercetin (4.6 mg/g).

52 arrier to physical and chemical insults from mastication, food, and microorganisms.

53 functions, ranging from skeletal support to mastication, from sensors and defensive tools to optical

54 onal relationship between bone structure and mastication has been shown in some regions of the rabbit

55 Brain mechanisms underlying mastication have been studied in non-human mammals but l

56 the biomechanics of the whole cranium during mastication have yet to be fully explored.

57 ansformations affecting olfaction as well as mastication, head movement, and ventilation, and suggest

58 Mastication in reflux esophagitis significantly increase

59 first arch and maintained in the muscles of mastication in the adult.

60 ei that contribute to orofacial function and mastication, including the facial, hypoglossal, motor tr

61 etermined in expectorated saliva after bread mastication indicated pinellic acid had the greatest con

62 ne the necessity of different RF regions for mastication induced by a descending appetitive signal.

63 Mastication initiates digestion, disintegrating food str

64 Mastication is one of the most important orofacial funct

65 complex macromolecules remain intact during mastication, leaving coarse macromolecules that have bee

66 Following mastication, most of the almond cells remained intact wi

67 ted, but swallowing function, phonation, and mastication need to be restored for an ideal result.

68 In holding/chewing mode, mastication occurred as rhythmic (~5 Hz) masseter activi

69 performance was evaluated through continuous mastication of a special device called a biocapsule.

70 ng the contextualised sensory control of the mastication of each mouthful.

71 However, we suggest that the mastication of either small objects or large volumes of

72 owever, the impact of physiological stimulus mastication on salivary protective factors output remain

73 f this study were to quantify the effects of mastication on the bioaccessibility of intracellular lip

74 asts are exposed to mechanical stress during mastication, orthodontic tooth movement, and wound heali

75 al goal-directed behaviors in REM, including mastication, paw grasp, and forelimb/hindlimb extension,

76 damage, which occurs physiologically due to mastication, promotes induction of Th17 cells and tones

77 For modern humans, it is likely that mastication represents a small part of the daily energy

78 Mastication simulator released >50% release of FRIL with

79 elivery measured in the mouth and in a model mastication simulator.

80 ith higher mandibular strain magnitudes than mastication, these results suggest that ingestive behavi

81 ated fluid shear elicited by fixed-frequency mastication was applied on thickened fluid sample oral p

82 The role of mastication was explored because of evidence that the av

83 m which aroma compounds were released during mastication was not significantly affected by methylcell

84 Using SOLIDWORKS software, mastication was simulated under (1) incisal, (2) ipsilat

85 t rhythmic motions of the soft palate during mastication were linked temporally to jaw motion.

86 mediate response to abrupt high loads during mastication while also facilitating slow remodeling of t

87 ny change in the energetic cost of mammalian mastication will affect the net energy gain from foods.

88 the TMJ was found to be load-bearing during mastication, with compressive strain oriented approximat

89 ude of soft palate elevation associated with mastication would be reduced during inspiration.