ライフサイエンスコーパス: pectoralis

1 lating most muscles including the protractor pectoralis, a putative cucullaris homologue.

2 on in M. supracoracoideus was weaker than M. pectoralis adduction in Nothronychus and Allosaurus, so

3 ateral sliding in one patient, and bilateral pectoralis and an omental flap in one patient who requir

4 exposure on lipid metabolism markers in the pectoralis and livers of yellow-rumped warblers (Setopha

5 rease the moment arm of cranial parts of the pectoralis, and that pectoralis muscle fascicles are sig

6 g implanted with nonthoracotomy leads in the pectoralis area.

7 lly larger wing inertia need to activate the pectoralis earlier to tune their downstroke.

8 n (100 Hz, 900 pulses) transiently depressed pectoralis evoked potential amplitude by <20% but produc

9 (900 pulses at 1 or 10 Hz) at C(5) decreased pectoralis evoked potential amplitudes by approximately

10 C(5) every 2 min evoked potentials in intact pectoralis (expiratory, inward rotation of shoulder) and

11 Here, by integrating in vivo measurements of pectoralis force and length change with quasi-steady aer

12 However, M. supracoracoideus and M. pectoralis had already developed antagonistic moment arm

13 ralis major muscle and turnover of the right pectoralis in three patients, bilateral sliding in one p

14 ses (Labroides bicolor, L. dimidiatus and L. pectoralis) in the global centre of marine biodiversity,

15 This coupling of an SPD-mediated increase in pectoralis leverage with force-specialized muscle archit

16 of slow MyHC2 expression in innervated fast pectoralis major (PM) fibers, we investigated the functi

17 res of the red strip region of adult chicken pectoralis major (PM) muscle, some of which are known to

18 tivity at the primary movers of the humerus (pectoralis major (PM), anterior (AD) and posterior delto

19 measures of the shear elastic modulus of the pectoralis major (PM).

20 acting at the shoulder and elbow; clavicular pectoralis major (Pmajor) and posterior deltoid (Pdeltoi

21 of restriction of heteronymous responses to pectoralis major and deltoid occurred.

22 as recorded from biceps and triceps brachii, pectoralis major and deltoid.

23 nomaly associated with absent or hypoplastic pectoralis major muscle and a wide spectrum of ipsilater

24 llows accurate evaluation of injuries of the pectoralis major muscle and enables identification of pa

25 This involved a slide of the left pectoralis major muscle and turnover of the right pector

26 t sarcomeric MyHC, have been isolated from a pectoralis major muscle cDNA library using gene-specific

27 dissected from the cranial part of the right pectoralis major muscle from three randomly sampled broi

28 hted NMR signals at 20MHz on fresh meat from pectoralis major muscle of 100days old female turkey.

29 easuring the distance from the nipple to the pectoralis major muscle on the mediolateral oblique view

30 Conclusion Pectoralis major muscle thickness at routine cardiac MRI

31 inium enhancement, and cardiomyopathy cause, pectoralis major muscle thickness was predictive of MACE

32 men underwent MR imaging after injury of the pectoralis major muscle.

33 to the respective processes were examined in pectoralis major muscles of modern fast-growing and unse

34 he thin filament lengths of isolated chicken pectoralis major myofibrils with an accuracy and precisi

35 Prognostic significance of pectoralis major thickness measurements for MACE was ass

36 Measurements of maximum pectoralis major thickness were performed by two experie

37 Myoblasts isolated from prospective fast (pectoralis major) or slow (medial adductor) fetal chick

38 redict quality attributes of chicken breast (Pectoralis major).

39 ad 100 units of diluted BT injected into the pectoralis major, serratus anterior, and rectus abdomini

40 T), intermuscular adipose tissue (IMAT), and pectoralis muscle (PM) index from chest CT with mortalit

41 xcept for one case of transient edema in the pectoralis muscle 2 days after therapy.

42 neural network, which subsequently extracted pectoralis muscle and adipose (intermuscular adipose tis

43 vestigated for associations between baseline pectoralis muscle and adipose measurements and incident

44 that fast and reliable deep learning-derived pectoralis muscle and adipose measurements are obtainabl

45 beta = 7.0; 95% CI: 5.7, 8.2; P < .001), and pectoralis muscle area (beta = 2.7; 95% CI: 1.2, 4.1; P

46 ntified eight biomarkers associated with low pectoralis muscle area (PMA).

47 tive cohort, muscle mass was estimated using pectoralis muscle area indexed to body surface area (pec

48 2) in cross section (BV5), CT emphysema, and pectoralis muscle area were retrospectively extracted fr

49 e association between emphysema, venous BV5, pectoralis muscle area, and LV(EV) as well as the associ

50 Increased incidences of pectoralis muscle dystrophy are observed in commercial c

51 with an age of 21 and 31days, respectively, pectoralis muscle dystrophy was associated with a signif

52 of cranial parts of the pectoralis, and that pectoralis muscle fascicles are significantly shorter in

53 Pectoralis muscle index and pectoralis muscle mean Houns

54 tation, to assess the impact of preoperative pectoralis muscle index and pectoralis muscle mean Houns

55 Each unit increase in pectoralis muscle index was associated with a 27% reduct

56 for every 5 days post-LVAD, a 6% decrease in pectoralis muscle index was observed (95% CI, 2%-9%, P=0

57 is muscle area indexed to body surface area (pectoralis muscle index).

58 on LVAD, for every 1 cm(2)/m(2) decrease in pectoralis muscle index, there was a 4% decrease in 30-d

59 in and/or nipple invasion, chest wall and/or pectoralis muscle invasion, or contralateral disease.

60 Pectoralis muscle is part of the skeletal muscle, and th

61 mputed tomography data available, unilateral pectoralis muscle mass indexed to body surface area and

62 of preoperative pectoralis muscle index and pectoralis muscle mean Hounsfield unit on survival after

63 Pectoralis muscle index and pectoralis muscle mean Hounsfield unit outperformed othe

64 Each 5-U increase in pectoralis muscle mean Hounsfield unit was associated wi

65 ew mathematical model to disentangle how the pectoralis muscle overcomes wing inertia and generates a

66 Avian takeoff requires peak pectoralis muscle power to generate sufficient aerodynam

67 1)H) NMR spectroscopic examination of intact pectoralis muscle samples (n=77) were conducted to explo

68 oss of pulmonary venous vasculature, greater pectoralis muscle sarcopenia, and lower all-cause mortal

69 Pectoralis muscle size and attenuation were powerful pre

70 Purpose To evaluate pectoralis muscle thickness at routine cardiac MRI as a

71 Pectoralis muscle thickness measurements had excellent i

72 s, including a pronounced attachment for the pectoralis muscle, a pronounced tuberculum bicipitale ra

73 thoracic soft tissues beneath the left upper pectoralis muscle.

74 I, 1.2-3.2), but there was no association of pectoralis myocutaneous flap with cutaneous paddle inter

75 (RR, 1.8; 95% CI, 1.1-3.0) and predominately pectoralis myofascial flap with onlay technique (RR, 1.9

76 reased burst amplitude in spinal expiratory (pectoralis) nerves and nearly abolished spinal inspirato

77 ng extant bird data, our model shows how the pectoralis of birds with faster wingtip speed need to ge

78 c power dip, that allows transferring excess pectoralis power into tensioning the supracoracoideus te

79 ude of sensory afferent evoked potentials in pectoralis produced by stimulating ipsilateral dorsal ro

80 l ester profiling study was to compare meat (pectoralis profundus) of Black Angus cattle from two com

81 ced the fewest species and clients, while L. pectoralis serviced the most clients and spent the most

82 Accordingly, L. pectoralis showed no preference for clients based on cli

83 ict the FA profile of ground chicken breast (Pectoralis superficialis) considering the wavelengths be

84 fic inclusion of the Tx sequence resulted in pectoralis TnTs, which were significantly more acidic in

85 pectoralis) while 12 (8 female) participants performed a

86 tendon to assist the upstroke-improving the pectoralis work loop efficiency simultaneously.

87 How the pectoralis work loop is tuned to power flight is unclear