ライフサイエンスコーパス: upper arm

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1 surrounding sensory surfaces (e.g., chin and upper arm).

2 body or responded to the stimulation of the upper arm afferents that enter the spinal cord rostral t

3 ute ischemia and 5-minute reperfusion in one upper arm after induction of anesthesia) or sham remote

4 stulas and 51 grafts that were placed in the upper arm after primary failure of an initial forearm fi

5 2)-PP-Dol prior to the addition of the final upper-arm alpha1,6-linked Man.

6 of the ulnar and radial wrist, forearm, and upper arm also lie within the homogeneously stained fiel

7 by an automated cuff-inflator placed on the upper arm and inflated to 200 mm Hg, with an intervening

8 The combined sensitivity for the upper arm and leg with a sponge was 89.1%.

9 e recorded electromyograms (EMGs) from 12-16 upper arm and shoulder muscles from both the unaffected

10 n all subjects, and cross-sectional areas of upper arm and thigh muscles were determined in some subj

11 with separate rayon swabs and the forehead, upper arm, and thigh with separate sponges.

12 ning stiffness of the neck, shoulders, hips, upper arms, and thighs.

13 , estimated dry weight, weight/height index, upper arm anthropometry, head circumference, and the pro

14 articipants (180 women and 422 men, 459 with upper-arm AVF and 143 with forearm AVF) from seven clini

15 r AVF intervention prior to week 2, 70% with upper-arm AVFs (302 of 433) and 77% with forearm AVFs (9

16 n 55% of forearm AVFs (68 of 124) and 83% of upper-arm AVFs (341 of 411) in surviving patients withou

17 ), 91% (419 of 459), and 87% (401 of 459) of upper-arm AVFs and in 40% (58 of 143), 73% (104 of 143),

18 RmuCT) to visualize the histology of humeri (upper arm bones) and infer their growth histories, we sh

19 muscle attachment processes on small humeri (upper arm bones) resembles that in "fish" members of the

20 fants whose mothers were undernourished (mid upper arm circumference <23.5 cm) or anaemic (haemoglobi

21 ls 1.4 cm, 0.5 to 2.3, p=0.002), smaller mid-upper arm circumference (adjusted difference vs communit

22 11,826), and 15.3% among women with low mid-upper arm circumference (MUAC <23 cm) at enrollment comp

23 e investigated body mass index (BMI), middle upper arm circumference (MUAC), and hemoglobin (Hgb) con

24 greater gains in body weight (P = 0.01) and upper arm circumference than placebo.

25 ve nodal disease, 95% of the patients had an upper arm circumference within 2 cm of the unaffected si

26 ined by weight-for-height z score and middle upper arm circumference, were 75-81 days and 101-116 day

27 tting oedema of nutritional origin, or a mid-upper-arm circumference of less than 110 mm in children

28 -age, length-for-age, weight-for-length, mid-upper-arm circumference, and head circumference were cal

29 y contraction was performed with progressive upper arm cuff inflation (0, 80, 100 and 120 mmHg) to el

30 s assessed by reactive hyperemia index after upper arm cuff occlusion.

31 uring lymphoscintigraphic evaluation of left upper arm edema.

32 s for weight, height, arm circumference, and upper arm fat and muscle areas.

33 Low z scores for upper arm fat area indicate deficits in fat (energy) sto

34 clusion, as compared with grafts, subsequent upper arm fistulas are associated with a higher primary

35 blood pressure cuff to 200 mm Hg around the upper arm, followed by 5-minute intervals of reperfusion

36 ue dye (5 mL) is injected in the ipsilateral upper arm for localization of nonbreast lymphatics.

37 We identified hip, vertebral, and upper arm fractures using ICD-9-CM codes.

38 d ear in men compared with women, and on the upper arm in women compared with men.

39 nic hgbA-inactivated mutant (FX504) on their upper arms in a double-blinded, escalating dose-response

40 ody parts proximal to the deafferented hand (upper arm), in the absence of excitability changes in ot

41 e of the proximodistal segments of the limb (upper arm, lower arm and hand).

42 adjust for the associations of stature with upper arm measures.

43 using the Jebsen-Taylor hand-function test, upper arm motor coordination with the finger-nose test,

44 energy) stores, and low FFM coupled with low upper arm muscle area indicate muscle wasting and low pr

45 ness and wasting of the facial, shoulder and upper arm muscles, frequently accompanied by hearing los

46 11) and site-matched seronegative controls (upper arm, n = 10; upper leg, n = 10).

47 eficiency virus-associated xerosis patients (upper arm, n = 12; upper leg, n = 11) and site-matched s

48 Flow-mediated dilation (FMD) after upper arm occlusion was defined as the percent change in

49 Skin biopsy samples were obtained from the upper arm of 11 patients with diffuse SSc (clinically un

50 population gave a rough map position on the upper arm of chromosome 5, and deep sequencing of DNA fr

51 ted with delivery of electrical shock to the upper arm on 50% of trials.

52 Brachial circumference (BC), also known as upper arm or mid arm circumference, can be used as an in

53 Upper arm or proximal forearm transplantation is a recon

54 at deposition (ie, waist and hips instead of upper arm or thigh) proved to be the most reliable.

55 ons of a standard blood-pressure cuff on the upper arm) or sham conditioning (control group).

56 t change in melanin level on their protected upper arms (P < .001 for skin type 1, P = .008 for skin

57 ely correlated with cross-sectional areas of upper arm (r = 0.85) and thigh (r = 0.88) muscles, and t

58 ckness (hands: r = 0.58, forearms: r = 0.63, upper arms: r = 0.40; P < or = 0.001 for all).

59 that within-representation plasticity of the upper arm representation occurs when repetitive transcra

60 representations on the motor output from the upper arm representation.

61 y radial wrist, radial forearm, and anterior upper arm representations; and on dorsal side by the dor

62 by ulnar wrist, ulnar forearm, and posterior upper arm representations; on the lateral side by radial

63 Neurons with proximal RFs (upper arm/shoulder) and pyramidal tract-projecting neuro

64 ly by inflating a blood pressure cuff on the upper arm to 200 mm Hg for 3x5 minutes, with 5 minutes r

65 rmining whether training paradigms involving upper arm training in concert with lower extremity train

66 ssure in a congesting cuff placed around the upper arm was deflated from 40 to 0 mm Hg.

67 actility, a sphygmomanometer cuff around the upper arm was inflated to 60 mmHg (Pcuff) before 99mTc-H

68 Seven healthy adults were challenged on the upper arm with the isogenic isolates in a double-blinded

69 Human subjects were challenged on the upper arm with the isogenic isolates in a double-blinded

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