ライフサイエンスコーパス: rehabilitation

1 re left with permanent disability even after rehabilitation.

2 s of CIPN to identify targets for functional rehabilitation.

3 A end of use closure plans and orphaned BRDA rehabilitation.

4 lasticity, but limits VPL's effectiveness in rehabilitation.

5 applied to promote patient engagement during rehabilitation.

6 eural plasticity and is used to help neglect rehabilitation.

7 torial and dependent on postoperative visual rehabilitation.

8 seful as a predictor for learning and neural rehabilitation.

9 ombining molecular manipulation and targeted rehabilitation.

10 alent or a lower dose of UCC upper extremity rehabilitation.

11 nd 12 females, who required fixed prosthetic rehabilitation.

12 e this plasticity is critical for functional rehabilitation.

13 AC) facilities including skilled nursing and rehabilitation.

14 poor recovery requiring more intensive early rehabilitation.

15 unctions suggest the potential for near-full rehabilitation.

16 sibilities in motor systems neuroscience and rehabilitation.

17 s affordable maintenance drugs and pulmonary rehabilitation.

18 e prostheses after an additional 4 months of rehabilitation.

19 functional plasticity associated with motor rehabilitation.

20 arning, prevention of cognitive decline, and rehabilitation.

21 Trunk cortical reorganization follows such rehabilitation.

22 circuits after injury to achieve functional rehabilitation.

23 on and cardiac patients eligible for cardiac rehabilitation.

24 xillae to allow for implant-borne prosthetic rehabilitation.

25 tegy to enhance motor performance for stroke rehabilitation.

26 ion, discharge planning, and 4-month in-home rehabilitation.

27 n injury; and 4) effects of timely cognitive rehabilitation.

28 to action goal, with strong implications for rehabilitation.

29 unable to engage with conventional pulmonary rehabilitation.

30 ctive interventions; and improved methods of rehabilitation.

31 n the United States are referred for cardiac rehabilitation.

32 ations for the use of stimulation in neglect rehabilitation.

33 y may provide a suitable strategy to augment rehabilitation.

34 iagnosis 4 weeks after transfer to postacute rehabilitation.

35 o P stoichiometry of native species used for rehabilitation.

36 ing an additional 1-in-10 patients to access rehabilitation.

37 -based therapy to accelerate locomotor-based rehabilitation.

38 long-term parenteral therapy and intestinal rehabilitation.

39 patient-specific surgical interventions and rehabilitation.

40 ents were included; 40.1% were discharged to rehabilitation.

41 donor corneas provides rapid and good visual rehabilitation.

42 ads to prolonged weakness and less efficient rehabilitation.

43 ficacy or mechanisms of speech comprehension rehabilitation.

44 ystemic inflammation who are unresponsive to rehabilitation.

45 n (HCI) for swallowing training in dysphagia rehabilitation.

46 al synaptic underpinnings of effective motor rehabilitation.

47 poor, mandating attention to prevention and rehabilitation.

48 nd 45%, substantial hyperinflation, and post-rehabilitation 6-min walk test (6MWT) greater than 140 m

49 in the percentage of uninsured patients and rehabilitation access across the board, mitigating or ev

50 surance changes associate with variations in rehabilitation access/use among otherwise similar patien

51 c treatment with exercise, multidisciplinary rehabilitation, acupuncture, mindfulness-based stress re

52 We determined whether rehabilitation after cortical injury also drives dynamic

53 functional recovery can be achieved through rehabilitation after incomplete spinal cord injury.

54 ention can potentially be exploited to boost rehabilitation after neural damage by targeting the unaf

55 in tinnitus perception or to expedite motor rehabilitation after suffering an ischemic stroke.

56 ased rehabilitation or to receive home-based rehabilitation alone, and 87 patients enrolled in the ob

57 Furthermore, because pulmonary rehabilitation also emphasizes behavior change through c

58 such, they offer the prospect of immunologic rehabilitation and a platform from which to ultimately r

59 s randomized to usual care (n = 50) received rehabilitation and bronchodilators with or without inhal

60 alone (guideline based, including pulmonary rehabilitation and bronchodilators; n = 157) vs usual ca

61 y and the European Respiratory Society (ERS) Rehabilitation and Chronic Care Group established a Task

62 ndings open up new perspectives for auditory rehabilitation and cortical therapies in patients.

63 the 6-minute walk test between the inpatient rehabilitation and either of the 2 home program groups (

64 platform to support adaptable, personalized rehabilitation and enhanced service evaluation to facili

65 sease and heart failure, to specific cardiac rehabilitation and ET programs.

66 domized either to receive inpatient hospital rehabilitation and home-based rehabilitation or to recei

67 dial infarction (ie, new users), and cardiac rehabilitation and outpatient cardiologist visits after

68 th professionals in their self-management of rehabilitation and recovery, particularly during the ini

69 atients and their families to foster optimal rehabilitation and reintegration into the workplace and

70 ing CX3CR1-dependent signaling could improve rehabilitation and spinal learning.SIGNIFICANCE STATEMEN

71 Association for Cardiovascular Prevention & Rehabilitation and the American Heart Association develo

72 s, and their potential for use in low-vision rehabilitation and vision enhancement.

73 per day was commenced after 1 week as penile rehabilitation and was continued for 3 months.

74 augment activity-dependent plasticity (e.g., rehabilitation) and restoration of function.

75 ised intervention, pre-emptive measures, and rehabilitation), and improvement in air quality.

76 ety and its connections to prison stability, rehabilitation, and community reintegration.

77 his population is centered on relative rest, rehabilitation, and identification of predisposing risk

78 or cortex during motor control studies, gait rehabilitation, and locomotor neuroprosthetic developmen

79 irected behaviors for motor control studies, rehabilitation, and neuroprosthetics.

80 n and may inform education, prognostication, rehabilitation, and study design.

81 e statin at discharge, attendance at cardiac rehabilitation, and the GRACE (Global Registry of Acute

82 tive, Linda Clare proposes using a cognitive rehabilitation approach for people living with dementia.

83 Finally, recommendations for cardiac rehabilitation are addressed.

84 earning, such as motor adaptation, in stroke rehabilitation are often transient, thus mandating appro

85 he American Thoracic Society (ATS) Pulmonary Rehabilitation Assembly and the European Respiratory Soc

86 reveal the magnitude of changes in access to rehabilitation associated with changes in insurance cove

87 e vs 64.3 (SD, 15.1) and 0.85 (SD, 0.20) for rehabilitation at 3 months.

88 o assess for changes in insurance status and rehabilitation at age 64 versus 65 years among adults ag

89 rval: 6.5-12.6) percentage-point increase in rehabilitation at age 64 versus 65 years, enabling an ad

90 ught weight support as adults by using robot rehabilitation at trunk.

91 safe minimum numbers of acute, forensic and rehabilitation beds needed to reduce these risks.

92 DMEK not only provides fast visual rehabilitation but maintains its clinical outcome within

93 psychological therapies, social support, and rehabilitation, but a pressing need for more effective t

94 disciplinary care included not only hospital rehabilitation, but also geriatric consultation, dischar

95 The efficacy of rehabilitation can be increased by 'plasticity-stimulati

96 rect current stimulation (tDCS) during motor rehabilitation can improve the recovery of movements in

97 ery, or valve surgery be referred to cardiac rehabilitation, cardiac rehabilitation is underused.

98 y to receive good-quality acute hospital and rehabilitation care than people with higher socioeconomi

99 group, was recruited from municipal alcohol rehabilitation centers and the Danish national public he

100 otoxin domoic acid are treated in veterinary rehabilitation centers each year.

101 PAC facilities including skilled nursing and rehabilitation centers to help them recover from postope

102 re recruited from 19 inpatient or outpatient rehabilitation centres in Germany.

103 n also increase pain making participation in rehabilitation challenging for the person with pain.

104 stroke or brain trauma from 34 neurology or rehabilitation clinics in Europe and the USA.

105 otal knee arthroplasty, the use of inpatient rehabilitation compared with a monitored home-based prog

106 Importance: Cardiac rehabilitation (CR) improves survival after acute myocar

107 Cardiac rehabilitation (CR) is the standard of care for patients

108 ting meta-analyses of exercise-based cardiac rehabilitation (CR).

109 ere are associated changes in post-discharge rehabilitation; determine whether changes are driven by

110 ment, and to consider possible insurance and rehabilitation differences between DCP-eligible vs -inel

111 r more than 24 hours to receive protocolized rehabilitation directed toward early mobilization, be ma

112 Mean time of conventional rehabilitation during the trial was similar between grou

113 These positive rehabilitation effects are maintained after 2 decades du

114 Therefore, motor rehabilitation efficacy depends on synaptic changes that

115 etailed understanding of the neural bases of rehabilitation efficacy is needed to inform therapeutic

116 Rehabilitation efforts and correlation with validated ou

117 s in sexual quality of life using the Cancer Rehabilitation Evaluation System sexuality subscales, ch

118 he neural underpinnings of tDCS coupled with rehabilitation exercises, may be mediated by interaction

119 d the Stroop Test after 8 weeks of cognitive rehabilitation (F = 6.616, [P = .018] and F = 5.325 [P =

120 greater proportion of patients discharged to rehabilitation facilities (THA, 21.6% more; TKA, 26.6% m

121 required help, 5.1% were in nursing home or rehabilitation facilities, and 5.3% were in acute care h

122 We identified human resources, rehabilitation facilities, psychotropic medication, and

123 ) and were more likely to be discharged to a rehabilitation facility (3.6% vs. 2.5%, P <0.001), adjus

124 01) and greater likelihood of discharge to a rehabilitation facility (P < 0.001).

125 100%) were more likely to be discharged to a rehabilitation facility after LT (22% vs 3%) and be reho

126 lacement in a skilled nursing home/long-term/rehabilitation facility on hospital discharge.

127 e.g., hospitalizations, skilled nursing, and rehabilitation facility stays) were collected via a retr

128 dity index, and need for home health care or rehabilitation facility upon discharge.

129 g or private-duty home nursing) and PAC (eg, rehabilitation facility) were identified from Centers fo

130 re setting (56% vs 34%; p = 0.008) than to a rehabilitation facility/home.

131 Thus, rehabilitation focused on an affected limb robustly driv

132 To determine whether 10 days of inpatient rehabilitation followed by a monitored home-based progra

133 zed to receive 10 days of hospital inpatient rehabilitation followed by an 8-week clinician-monitored

134 for vitamin D deficiency, hypertension, and rehabilitation for burns.

135 y of the ergonomic electronics in HCI-driven rehabilitation for patients with swallowing disorders.

136 These findings do not support inpatient rehabilitation for this group of patients.

137 ectiveness in addressing the impairments and rehabilitation goals of diverse patient populations.

138 005), but not critical print size for the LV rehabilitation group (-0.06 logMAR; 95% CI, -0.12 to 0.0

139 However, the LV rehabilitation group improved more in all visual functio

140 In stratified analyses, the LV rehabilitation group with BCDVAbetter-eye worse than 20/

141 Pulmonary rehabilitation has arguably the greatest positive effect

142 e limitations, trunk-based quadrupedal robot rehabilitation helped the rats to visit mechanical state

143 e most common type of PAC (63%), followed by rehabilitation hospitals (30%) and other facilities (7%)

144 icated pediatric, veterans, psychiatric, and rehabilitation hospitals.

145 ining paradigm for improving the efficacy of rehabilitation in a top-down approach.

146 prosthesis type 1 is an effective device for rehabilitation in advanced ocular surface disease, resul

147 ons allowed implant placement and prosthetic rehabilitation in all cases.

148 Longitudinal follow-up after weight rehabilitation in AN suggests these abnormalities are no

149 is a safe and effective procedure for visual rehabilitation in children with keratoconus and poor CDV

150 ibed in IBS-C, prucalopride and pelvic floor rehabilitation in FC.

151 entially relevant role for rTMS in cognitive rehabilitation in MS.

152 also lead to paradigms capable of enhancing rehabilitation in patients recovering from damage, such

153 Physical rehabilitation in the intensive care unit (ICU) may impr

154 tial manner with an additional six levels of rehabilitation in the neuro-ICU at UF Health Shands Hosp

155 abilitation were effective, but the added LV rehabilitation increased the effect only for patients wi

156 abilitation were effective, but the added LV rehabilitation increased the effect only for patients wi

157 and 30.2 (SD, 13.2) and 0.54 (SD, 0.24) for rehabilitation, increasing to 64.3 (SD, 13.5) and 0.85 (

158 Cholinergic ablation markedly attenuated rehabilitation-induced recovery in both neuronal structu

159 injury for outcome prediction or target for rehabilitation intervention.

160 te and compare the efficacy of two cognitive rehabilitation interventions (Memory and Attention Adapt

161 Inadequate reporting of cardiac rehabilitation interventions is a substantial problem, w

162 s to wean children off PN through intestinal rehabilitation (IR).

163 SUMMARY BACKGROUND DATA: Rehabilitation is an important component of high-quality

164 referred to cardiac rehabilitation, cardiac rehabilitation is underused.

165 t that combined treatment with metacognitive rehabilitation (MAAT) and pharmacotherapy (MPH) can impr

166 s a 2-year beneficial effect of a program of rehabilitation maintenance on the BODE index and 6MWD wh

167 Comprehensive care, with enhanced rehabilitation, management of malnutrition and depressiv

168 ed to bio-inspired robotics, prosthetics and rehabilitation medicine, while also providing insight in

169 radiology, surgery, preventive medicine, and rehabilitation medicine.

170 One trained rehabilitation nurse administered the group-based interv

171 A rehabilitation nursing programme included gait, balance,

172 This study demonstrated that the rehabilitation nursing programme was effective in improv

173 his study evaluates implant-borne prosthetic rehabilitation of 10 totally edentulous atrophic maxilla

174 Rehabilitation of BRDAs is therefore often costly and re

175 major challenge in clinical practice in the rehabilitation of dental implant patients.

176 ducation (CE), has obvious potential for the rehabilitation of functional capacity that has been lost

177 e treatment options, therapy assessment, and rehabilitation of KOA.

178 This study suggests that rehabilitation of NCP soils to reduce salinity and incre

179 Locomotor recovery in robot rehabilitation of NTX rats thus likely included context

180 Exercise is an integral part of the rehabilitation of patients suffering a variety of chroni

181 This is also a valuable finding for rehabilitation of patients with limited mobility as it s

182 elopment of better teleoperation systems and rehabilitation of patients with sensory impairments.

183 s the most investigated intervention for the rehabilitation of patients.

184 sensing, and could have implications for the rehabilitation of the upper extremity.

185 in the prevention and treatment of, and the rehabilitation of those with, neurodevelopment disorders

186 tical models of visual awareness and for the rehabilitation of visual deficits.

187 The inclusion for rehabilitation of visually impaired children is partly b

188 tient hospital rehabilitation and home-based rehabilitation or to receive home-based rehabilitation a

189 e was type of PAC facility (skilled nursing, rehabilitation, or other facility).

190 acologic treatments (NPTs), such as surgery, rehabilitation, or psychotherapy.

191 cant differences in device retention, visual rehabilitation, or rates of complications at 24 or 60 mo

192 11 wards (vascular, continuing care, stroke rehabilitation, orthopaedic, acute medicine, care of the

193 ment Schedule and the Brain Injury Community Rehabilitation Outcome Scale).

194 reduced quality of life, depression and poor rehabilitation outcome.

195 lts into clinical practice and improve motor rehabilitation outcomes in patients with stroke.

196 ll game) as add-on therapies to conventional rehabilitation over a 2 week period.

197 a crucial indicator for assessing ecological rehabilitation performance.

198 and prognosis of amusia after stroke and for rehabilitation planning.

199 suggests that the type of task used in motor rehabilitation post-stroke might be less relevant, as lo

200 Pulmonary rehabilitation (PR) improves exercise capacity, but ther

201 ry disease (COPD), the benefits of pulmonary rehabilitation (PR) tend to wane over time.

202 fore have a role in the context of pulmonary rehabilitation (PR).

203 itself (especially the medical follow-up and rehabilitation process) appeared to be important factors

204 We evaluated a cognitive rehabilitation program (Insight) and compared it with st

205 pairment, use of a structured, task-oriented rehabilitation program did not significantly improve mot

206 Hospitals having an outpatient cardiac rehabilitation program explained only 10% of PCI variati

207 es after use of a video game-based cognitive rehabilitation program, as thalamic damage and alteratio

208 oup performed the video game-based cognitive rehabilitation program, while those in the wait-list gro

209 associated with a video game-based cognitive rehabilitation program.

210 udy aims to assess the effect of a nurse-led rehabilitation programme (the ProBalance Programme) on b

211 y access, adherence, and efficacy of cardiac rehabilitation programs (CRP) are important given the po

212 This work suggests to promote (i) physical rehabilitation programs after transplantation to curb th

213 tients and health care staff from optimizing rehabilitation programs and evaluating the reconstructiv

214 D) patients engaged in exercise-based muscle rehabilitation programs are unresponsive.

215 D2 agonist therapy may be useful in boosting rehabilitation programs involving visual perceptual trai

216 Formal rehabilitation programs, including inpatient programs, a

217 evaluate the effect of ophthalmic treatment, rehabilitation programs, or assistive technology on read

218 Accordingly, we designed a rehabilitation protocol combining intensive, repeatable

219 four conditional recommendations related to rehabilitation protocols, ventilator liberation protocol

220 d (4) task-specific training or conventional rehabilitation protocols.

221 ion; determine whether changes are driven by rehabilitation provided at home, skilled nursing facilit

222 d nursing professionals to reduce burden and rehabilitation, public awareness, attitude and knowledge

223 examine hospital-level variation in cardiac rehabilitation referral after PCI, coronary artery bypas

224 Cardiac rehabilitation referral at discharge was less prevalent

225 gistic regression for the outcome of cardiac rehabilitation referral at discharge, clustered by hospi

226 Cardiac rehabilitation referral rates, and patient and instituti

227 Efforts to improve cardiac rehabilitation referral should focus on increasing refer

228 Cardiac rehabilitation referral was reported in 48% (34 047/71 5

229 The strongest predictor of cardiac rehabilitation referral was the hospital performing the

230 ng-term effects on brain plasticity to boost rehabilitation regimens for brain injury.

231 ical quality, and (5) postoperative care and rehabilitation-related factors.

232 laxative, and prucalopride and pelvic floor rehabilitation represented a "second line" approach.

233 d with the other age groups (P < 0.01), with rehabilitation services as their primary TCNs (80%).

234 average of 4.4 days, decreased the need for rehabilitation services at discharge, and resulted in su

235 Mental health inpatient rehabilitation services focus on people with complex psy

236 An increased provision of low vision rehabilitation services may be required to cope with the

237 ive care with respiratory, primary care, and rehabilitation services, with referral on the basis of t

238 e, in the context of outpatient brain injury rehabilitation services.

239 al care entailed only one or two in-hospital rehabilitation sessions.

240 ance for adult patients in hospital units or rehabilitation settings.

241 rom critical illness as well as on long-term rehabilitation should be investigated in future randomiz

242 Subsequent intensive rehabilitation significantly enhanced both dendritic arc

243 ears of data from Camp Leakey, an orang-utan rehabilitation site on Borneo, we determined the minimum

244 n-road driving evaluation by a masked driver rehabilitation specialist.

245 Retinal surgeons, device programmers, and rehabilitation specialists from Europe, Canada, Middle E

246 , psychological therapies, multidisciplinary rehabilitation, spinal manipulation, massage, and acupun

247 re at risk for poor HRQoL in the recovery or rehabilitation stage of post-MI.

248 ngth of stay, and total inpatient (acute and rehabilitation) stay as well as 6-month post-ICU dischar

249 Rehabilitation strategies are typically multidisciplinar

250 rucial for residual vision may direct future rehabilitation strategies for hemianopia patients.

251 icity and suggest the potential for refining rehabilitation strategies for stroke patients.

252 A main goal of rehabilitation strategies in humans with spinal cord inj

253 ch efforts to advance outcome assessment and rehabilitation strategies.

254 sential for any attempt to develop efficient rehabilitation strategies.

255 option of non-immersive virtual reality as a rehabilitation strategy despite the limited evidence abo

256 Exercise can be a beneficial rehabilitation strategy for people with multiple scleros

257 icating that MBCT may be an efficacious pain rehabilitation strategy for women treated for breast can

258 onnectors, ultraefficient dampers, 3D meshed rehabilitation structures and stretchable electronics wi

259 eptual skills or those in need of perceptual rehabilitation (such as individuals with poor vision).

260 longer-term effect of acute intervention and rehabilitation support, and improving patient centeredne

261 The robot rehabilitation system can be inactivated and the skills

262 chnology enables more intuitive, easy-to-use rehabilitation systems.

263 After weight rehabilitation, t50 in AN tended to become shorter (p =

264 Paediatric-specific rehabilitation techniques were applied to promote patien

265 Here we examine effects of robot rehabilitation that promotes recovery of hindlimb weight

266 Motor rehabilitation, the main treatment for physical disabili

267 argets for the rational development of novel rehabilitation therapies that enhance neural plasticity

268 cal underpinning for development of clinical rehabilitation therapies to treat disabilities and compl

269 inal cord function and to development of new rehabilitation therapies.

270 devices with no therapy or LV devices with a rehabilitation therapist providing instruction and homew

271 t stimulation (tDCS) has been used in stroke rehabilitation, though their combinatory effect is unkno

272 nal recovery after intensive care and a long rehabilitation time.

273 ry care, comprehensive care extended in-home rehabilitation to 12 months and added management of maln

274 eported for applications ranging from stroke rehabilitation to cognitive enhancement, little is known

275 for the application of music making in motor rehabilitation training.

276 l-directed mobilization comprised functional rehabilitation treatment conducted at the highest level

277 A new strategy that can be used in future rehabilitation trials is therefore needed, with the adop

278 d 21 patients with TBI admitted to inpatient rehabilitation units (mean [SD], 176.4 [44.5] days after

279 ntrolled trial in 40 mental health inpatient rehabilitation units across England.

280 s of randomisation from 14 in-patient stroke rehabilitation units from four countries (Canada [11], A

281 years) at mealtimes in hospital settings and rehabilitation units.

282 patients (>65years) in hospital settings and rehabilitation units.

283 r observed changes in insurance coverage and rehabilitation use among young adult trauma patients ass

284 Rehabilitation use increased by 5.4 percentage points (9

285 serve to predict the potential for auditory rehabilitation using cochlear implants in individual sub

286 ken across six surgical, six medical and one rehabilitation ward in a large teaching hospital in the

287 Functional outcome after rehabilitation was assessed using the functional indepen

288 reality as an add-on therapy to conventional rehabilitation was not superior to a recreational activi

289 Quadrupedal robot rehabilitation was tested using an implanted orthosis at

290 nistration is least likely to interfere with rehabilitation, was more effective than continuous suppl

291 Both basic LV alone and combined with LV rehabilitation were effective, but the added LV rehabili

292 ce: Both basic LV alone and combined with LV rehabilitation were effective, but the added LV rehabili

293 er discharge and who participated in cardiac rehabilitation were more likely to take high-intensity s

294 e in clinical decision making for poststroke rehabilitation, which remains largely reliant on behavio

295 To determine the value of adding LV rehabilitation with a therapist compared with LV service

296 jective: To determine the value of adding LV rehabilitation with a therapist compared with LV service

297 learning, our results suggest that combining rehabilitation with dopamine agonists could enhance both

298 This study shows that visual rehabilitation with relatively good functional outcomes

299 t agent prescriptions, and attending cardiac rehabilitation within 30 days following discharge.

300 neural mechanisms underlying effective motor rehabilitation would inform strategies for improving it.