ライフサイエンスコーパス: risk of fall

1 may explain this region's role in increased risk of falls.

2 their knee muscle strength and reduce their risk of falls.

3 ated with poor quality of life and increased risk of falls.

4 t is strongly associated with disability and risk of falls.

5 State Examination decline without effect on risk of falls.

6 ucocorticoid treatment, and patients at high risk of falls.

7 rment in patients with PD, but do not affect risk of falls.

8 ggest that a cancer diagnosis confers a high risk of falls.

9 primary vision component that increases the risk of falls.

10 ceptible to visual impairments and increased risk of falls.

11 ture in these subjects, due to the increased risk of falls.

12 idepressants is associated with an increased risk of falls.

13 ublic health concern because of an increased risk of falls.

14 elling adults 65 years or older at increased risk of falls.

15 als aged 40 years or older and increases the risk of falls.

16 tematically train individuals and reduce the risk of falling.

17 of cardiovascular care when patients are at risk of falling.

18 aring patients with versus without increased risk of falling.

19 atrial fibrillation who are at an increased risk of falling.

20 trial fibrillation judged to be at increased risk of falling.

21 tients (4.3%) were judged to be at increased risk of falling.

22 postural sway can identify those at greatest risk of falling.

23 'thinking before they leap' and are at high risk of falling.

24 minished functional ability and an increased risk of falling.

25 -offs inherent in managing older patients at risk of falling.

26 r elderly multifocal wearers who have a high risk of falling.

27 benefit from mobility training to reduce the risk of falling.

28 ults with cardiovascular disease are at high risk of falling.

29 dination, increase confidence and reduce the risk of falling.

30 95% CI: 0.30, 0.71) had significantly lower risks of falling.

31 ed motor and cognitive deficits increase the risk of falls, a major cause of morbidity and mortality.

32 Few data are available on the short-term risk of falls after antihypertensive medication initiati

33 lements may identify individuals at greatest risk of falling, allowing interventions to target those

34 amin D supplementation appears to reduce the risk of falls among ambulatory or institutionalized olde

35 The cross-sectional odds and longitudinal risk of falls among patients with HL compared with those

36 Due to the increasing risks of falls among older adults, an early diagnosis to

37 ntrol stability significantly increasing the risk of fall and reducing the overall autonomy.

38 to improve muscle performance and reduce the risk of falling and >/=75 nmol/L to reduce the risk of f

39 oms of CIPN are an indicator of an increased risk of falling and an increased use of health care reso

40 ualified for the study because they had high risk of falls and a potential safety problem that could

41 with lower-limb amputations would reduce the risk of falls and alleviate phantom limb pain.

42 ents where inadequate illumination increases risk of falls and associated morbidities.

43 when evaluating the association between the risk of falls and fractures and use of cholinesterase in

44 ily accessible intervention that reduces the risk of falls and fractures commonly occurring in aged c

45 t periods were also associated with a higher risk of falls and fractures compared with the non-treatm

46 95% confidence intervals for evaluating the risk of falls and fractures for different treatment peri

47 d with the non-treatment period, the highest risk of falls and fractures was during the pretreatment

48 tamin D (25[OH]D) in blood have an increased risk of falls and fractures, but randomised trials of vi

49 y of knee pain was associated with a greater risk of falls and hip fracture.

50 logMAR worse) were associated with a greater risk of falls and multiple falls, respectively.

51 work, and drive safely, as well as increased risk of falls and other unintentional injuries.

52 (ie, bone-related outcomes for all ages and risk of falls and performance measures in older adults).

53 , 2) identifies new outcomes with respect to risk of falls and performance measures in the elderly an

54 of Parkinson's disease because of increased risk of falls and poorer quality of life.

55 Previous studies suggesting an increased risk of falls and related injuries (FRI) associated with

56 e importance of visual field deficits in the risk of falls and supports other findings on decrements

57 LLRs slow with age, accentuating the risk of falls and undermining dexterity, particularly in

58 ncreased mortality and clinically meaningful risks of falls and cognitive decline.

59 n only walk for short distances, have a high risk of falling, and are unable to ascend stairs with a

60 rience loss of quality of life and increased risk of falling, and they have few well-supported option

61 r aging society, affecting physical ability, risk of falls, and need for health care.

62 e loss, improved muscle performance, reduced risk of falls, and reduced fracture incidence.

63 s for prevention and close monitoring of the risk of falls are still necessary until patients regain

64 Educational programs about the risks of falling asleep while driving are needed for phy

65 We also find that there is an increased risk of falling at the first fence and at the jump known

66 To identify people at risk of falling, balance analysis requires an accurate b

67 Adults aged 60-90 years with a high risk of falls based on a history of two or more falls in

68 rnative to warfarin in patients at increased risk of falling, because it is associated with an even g

69 tudy compares dynamic postural stability and risk of falls before and after computerized vestibular t

70 These hospitals are at high risk of falling behind with respect to quality improveme

71 This is not explained by the increased risk of falls, but is more likely to be due to the sever

72 ract surgery is associated with an increased risk of falls, but whether routine preoperative testing

73 s with lower limb loss could lead to reduced risk of falling by improving recovery from trips.

74 Higher household income may mitigate the risk of falls by providing financial resources for mobil

75 refore, a protective effect of coffee on the risk of falling can be hypothesized.

76 ture risk was associated with 1) an elevated risk of falls caused by the acute central nervous system

77 nificantly more disability and 1.8 times the risk of falls compared with CIPN- ( P < .0001).

78 significant difference was observed for the risk of falls, delirium, constipation, opioid abuse/depe

79 ailty with NCI was associated with a greater risk of falls, disability, or death in PLWH than NCI alo

80 Screening for risk of falling during the clinical examination begins w

81 time from initiation, and by dose), age, and risk of fall events.

82 tivariable adjustment, patients at increased risk of falling experienced more bone fractures caused b

83 The unadjusted risk of fall for colorectal cancer survivors with versus

84 the environment around people's homes on the risk of falls for older people in Wales.

85 Specifically, they had higher relative risk of fall/fracture (4.5% versus 3.4%; RR 1.3 [1.1 to

86 lower-extremity function, dental health, and risk of falls, fractures, and colorectal cancer.

87 t knee pain was associated with an increased risk of falls (hazard ratio [HR] 1.26, 95% confidence in

88 (wave 1, wave 2, or mean of both waves) with risk of falls, hospitalisations and all-cause mortality

89 and frailty; both associated with increased risk of falls, hospitalizations, and death.

90 ently and has been associated with increased risk of falls, hospitalizations, social isolation, and c

91 Impaired vision has been linked to risk of falls; however, the impact of deficits in specif

92 I(2)=36.2%; three studies), and a 28% lower risk of falls (HR 0.72 [0.65-0.81]; I(2)=47.5%; four stu

93 were more physically active and at increased risk of falls [HR for quintile 4: 1.11 (95% CI: 1.06, 1.

94 coffee consumption was associated with lower risk of falling in older adults in Spain and the United

95 betic retinopathy (DR) may contribute to the risk of falling in persons with diabetes, but evidence i

96 Decaffeinated coffee was not associated with risk of falling in the analyzed cohorts.

97 The average risk of falling in the first 4 months of follow-up was 6

98 d development may be important regarding the risk of falls in later life.

99 daily activities was associated with greater risk of falls in older adults.

100 ht improve cognitive function and reduce the risk of falls in patients with PD, although it could pla

101 on use has been associated with an increased risk of falls in some but not all studies.

102 uishes well between patients at high and low risk of falls in the next 1-10 years.

103 red with comparators, there was an increased risk of falls in those with cataract (adjusted hazard ra

104 The risk of falling increases dramatically with age, and vis

105 ledge that as we age and become frailer, the risk of falling increases.

106 njury and death for persons of all ages, but risk of falls increases markedly with age.

107 gy, and SVI into the model for assessing the risk of fall-induced hip fractures.

108 The risk of fall injury was lower among those who used wheel

109 Risk of falling injury is strongly associated with poor

110 cording to guidelines, and therefore run the risk of falling into a downward spiral of loss of physic

111 cits in specific components of vision on the risk of falls is not well known.

112 s suggests that some elderly who are at high risk of falling may benefit from wearing single-distance

113 Severe OAG was associated with increased risk of falls or fractures compared with patients with O

114 For each eye disease, we estimated the risk of falls or fractures using separate multivariable

115 th any VI at baseline did not have a greater risk of falls or multiple falls in the following year co

116 sted for its potential ability to reduce the risk of falls or physical dependency in older weak falle

117 visual field scores were associated with the risk of falling (OR = 1.08 for a 10-point loss of points

118 HIV care, had fallen out of care, or were at risk of falling out of care and navigation strategies to

119 45% had fallen out of care, and 29% were at risk of falling out of care.

120 for dizziness was associated with a reduced risk of falls over the subsequent 12 months, with the gr

121 ch as physical therapy (PT), to mitigate the risk of falls over time.

122 nd guideline-discordant care to mitigate the risk of falls over time.

123 analgesics may be associated with increased risk of falls, particularly among older adults.

124 RR, 0.92 [95% CI, 0.83-1.02]), or individual risk of fall-related fractures (RR, 0.86 [95% CI, 0.60-1

125 pioids alone is associated with an increased risk of fall-related injury among older adults with CNCP

126 m care institutionalization but with a lower risk of fall-related injury among older adults with deme

127 Concurrent users had similar risk of fall-related injury as opioid-only users in Coho

128 5% CI, 1.37-1.67; I2 = 64%) and longitudinal risk of falls (risk ratio, 1.17; 95% CI, 1.06-1.29; I2 =

129 those with self-reported OA had an increased risk of falls (RR 1.4, 95% CI 1.2-1.5).

130 eration AAs was associated with an increased risk of falls (RR, 1.87; 95% CI, 1.27-2.75; P = .001).

131 it strategy during tasks that present a high risk of falling, such as obstacle crossing.

132 The effect of urbanicity on risk of fall suggests that the built environment could b

133 Men had a lower risk of falling than women (adjusted hazard ratio [aHR]

134 , severely depressed elderly patients are at risk of 'falling through the cracks' in a complex health

135 isorders and complex needs, are at a greater risk of falling through the care gap during transition.

136 tients frequently experience pain and are at risk of falls, ulcerations, and amputations.

137 d in participants with diabetes to assess if risk of falling was associated with DR severity.

138 The risk of falling was significantly reduced in the interve

139 acles, elderly individuals may be at greater risk of falling when negotiating steps and stairs if the

140 Depression and neuroticism predicted higher risk of falling, whilst higher hand grip strength and ph

141 ical practice to help identify those at high risk of falls who might benefit from closer monitoring o

142 People at risk of falls with confirmed Parkinson's were recruited

143 ated or decaffeinated coffee consumption and risk of falls with fracture.