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1 59 Dutch nursing home wards for long-term care.
2 cile incidence and risk factors in acute and long-term care.
3 Research and Ontario Ministry of Health and Long-Term Care.
4 es are important areas for future studies in long-term care.
5 mportant for cost-effectiveness analyses and long-term care.
6 differs from its effect on expenditures for long-term care.
7 l influenza infection of elderly patients in long-term care.
8 mortality, and greater need for specialized long-term care.
9 fferences in CDI incidence between acute and long-term care.
10 th care visits are used primarily to provide long-term care.
11 lar disease to modify both perioperative and long-term care.
12 reactive encounters, to proactive, planned, long-term care.
13 to provide appropriate patient screening and long-term care.
14 , concurrent palliative care, and home-based long-term care.
15 dementia, nursing home, assisted living and long-term care.
16 opic medication use in dementia residents in long-term care.
17 Ontario Ministry of Health and Long-Term Care.
19 discharge to facilities for intermediate- or long-term care (69 percent, 39 percent, and 10 percent ;
21 associated with readmission: admission from long-term care (adjusted odds ratio [AOR], 2.2 [95% CI,
26 ical practice, which can potentially enhance long-term care and treatment planning for psychiatric pa
27 aging performed on 35 patients from hospice, long-term care, and community health care facilities nea
29 missions and discharges, improved systems of long-term care, and new work and pension arrangements.
30 f sensitivity, specificity, costs of PET and long-term care, and varying approaches to the use of str
31 options to improve the robustness of health, long-term care, and welfare systems in Europe and to hel
32 ing of European populations presents health, long-term care, and welfare systems with new challenges.
33 ttributable infection) was 3 times higher in long-term care as compared to acute care (median, 52.3 v
34 C. difficile cases was a greater concern for long-term care as compared to importation of long-term c
35 cile cases (acute care: patients with recent long-term care attributable infection; long-term care: r
36 ly less attention to cost-saving mechanisms, long-term care benefits, and changes in Medicare and Med
37 65 years may result in greater spending for long-term care, but the increase in the number of elderl
39 utcome was defined as a positive result on a long-term care C difficile test without a positive resul
41 primary and potential revision surgeries and long-term care costs associated with the functionally de
44 experiences and on how these caregivers made long-term care decisions on behalf of their loved ones.
46 care hospitals (ACHs) and intermediate- and long-term care facilities (ILTCFs), the transmission dyn
47 total of 2,475 outbreaks (62.5%) occurred in long-term care facilities (LTCF), 389 (9.8%) in restaura
48 gher in acute care facilities (ACFs) than in long-term care facilities (LTCFs) (10/152 [6.6%] vs. 30/
50 nting effective antimicrobial stewardship in long-term care facilities (LTCFs) is associated with cha
53 Natives (RR 3.6; 95% CI, 3.4-3.9), those in long-term care facilities (RR 2.3; 95% CI, 2.2-2.3), and
55 admitted from home, fewer were discharged to long-term care facilities among the post-GTCS group (6.5
56 This study demonstrates the extent to which long-term care facilities are connected to the acute car
58 d account for patient sharing with and among long-term care facilities as well as those among acute c
60 how that over the course of a year, 66 of 72 long-term care facilities directly sent and 67 directly
62 ontinence status can reflect care quality in long-term care facilities if patient level factors are a
65 spitalizations that resulted in transfers to long-term care facilities increased, and in-hospital mor
66 dren, and adolescents cared for at pediatric long-term care facilities is increasing in complexity an
67 least 3 days in one of 131 acute care or 120 long-term care facilities managed by the United States V
68 ase in discharge of tracheostomy patients to long-term care facilities may have significant implicati
69 Patients with chronic medical care needs in long-term care facilities may play an important role in
70 n of patient transfers to, from, and between long-term care facilities on the network of acute care f
72 of pressure ulcer development at individual long-term care facilities varied from 1.9% to 6.3%, and
75 nts, aged 65-100 years (mean 84.2), in 33 UK long-term care facilities were enrolled between April 20
76 ncreased length of stay, discharge to short-/long-term care facilities, and development of cardio-ren
77 (iii) How do transmission in the community, long-term care facilities, and hospitals interact to det
78 for care will greatly affect nursing homes, long-term care facilities, and long-term acute-care hosp
82 length of stay, rate of discharge to short-/long-term care facilities, and worsening kidney function
83 fections diagnosed in residents of pediatric long-term care facilities, calculate infection rates, an
84 mber of outbreaks due to influenza A/H3N2 at long-term care facilities, including higher-than-expecte
85 tigated are costs of increased discharges to long-term care facilities, of CDI with onset in long-ter
86 g-term care facilities, of CDI with onset in long-term care facilities, of recurrent CDI, and of addi
88 linics, 6 in hemodialysis centers, and 15 in long-term care facilities, resulting in 448 persons acqu
90 , prisoners, military recruits, residents of long-term care facilities, those with prior MRSA exposur
91 entia and 95 professionals from more than 85 long-term care facilities, were selected, and classified
104 bacterium commonly found in health care and long-term-care facilities and is the most common cause o
106 re from a sample of residents of an academic long-term care facility (n = 186, 75% female, mean age 8
108 A total of 180 patients were placed in a long-term care facility during the 18-month follow-up pe
109 ) less likely on average to be admitted to a long-term care facility during the follow-up period.
110 anti-VEGF therapy and were not admitted to a long-term care facility during the look-back period were
111 rriage and CPIs recorded simultaneously in a long-term care facility for 4 months in 329 patients and
112 from an outside hospital and residence in a long-term care facility in the past year were associated
114 t, and location of death (inpatient hospice; long-term care facility or skilled nursing facility; acu
116 nicity, country of birth, calendar year, and long-term care facility residence were calculated using
117 g older persons, especially men, non-whites, long-term care facility residents, and foreign-born pers
118 with pneumonia development were residence in long-term care facility, healthcare-associated acquisiti
119 tal or arrival hypotension, admission from a long-term care facility, mode of arrival, weekend or nig
120 chanical ventilation and treated at a single long-term care facility, unassisted breathing through a
127 estigated a small outbreak of varicella in a long-term-care facility after a case of herpes zoster.
128 June-July 2006, a respiratory outbreak in a long-term-care facility was reported to the local health
129 renal failure, hemodialysis, residence in a long-term-care facility, long-term invasive devices, and
130 nity-onset disease, rather than hospital- or long-term-care facility-onset disease (76.9% vs. 19.4% v
131 s, treatment of associated acute events, and long-term care following disabling stroke were presented
132 d efficacious implementation of ARVs and for long-term care for people living with HIV and AIDS.
133 realistic and attainable goals in improving long-term care for teenage patients with this disease.
135 open globe injury, these patients can expect long-term care from comprehensive and subspecialty ophth
136 e estimated total expenditures for acute and long-term care from the age of 65 years until death and
138 s alpha coefficients for the CNAQ were 0.47 (long-term care group) and 0.72 (community-dwelling group
142 was more effective were more likely to be in long-term care, have more severe cognitive impairment, h
145 ntilation and renal replacement therapy in a long-term care hospital who had been treated in an exter
147 With the rapid increase in the number of long-term care hospitals in Korea, care quality has beco
148 ntinence improvement from admission in urban long-term care hospitals were 1.28 times higher than rur
151 persons with diabetes, and those who were in long-term care in the past year were more likely to have
155 to 63%, whereas the number of discharges to long-term care increased from 9% to 15%; the correspondi
158 o drink oral supplements, and were living in long-term care institutions or receiving home care servi
160 for heart failure (HF) in older residents in long-term care is poorly understood and has not differen
161 that effective antimicrobial stewardship in long-term care is supported by incorporating multidiscip
163 s of pain as well as its under-management in long-term care (LTC) settings, research is needed to exp
164 e in acute care was 5 times that observed in long-term care (median, 15.6 vs 3.2 per 10000 person-day
165 ic use was greater in acute care compared to long-term care (median, 739 vs 513 per 1000 person-days)
166 iented toward the myriad health problems and long-term care needs of older people and have not suffic
169 ne of the major remaining challenges for the long-term care of children who have had cataract surgery
170 factors that have been identified, acute and long-term care of individuals with this potentially life
174 etwork or the Ontario Ministry of Health and Long-Term Care or self-reporting as Ashkenazi Jewish was
175 dration Recognition In our Elders; living in long-term care) or NU-AGE (Dietary Strategies for Health
176 er components of direct medical costs (e.g., long-term care, outpatient care, and pharmaceuticals) as
177 essarily extrapolated to the medium-term and long-term care pathway of the critically ill patient.
178 teristics are both important determinants of long-term care placement for patients with dementia.
179 21% of ambulatory care visits; filled 35% of long-term care places; and used 30% of homecare services
181 This requires strong relationships with long-term care providers, a characteristic strength of g
182 riation in regional C difficile incidence in long-term care remained unexplained after importation fr
183 y department visits, ambulatory care visits, long-term care residence places, and homecare made or us
184 oss-sectional measurement study conducted on long-term care residents and community-dwelling adults.
185 trial found that protein supplementation of long-term care residents improved wound healing compared
188 ecent long-term care attributable infection; long-term care: residents with recent acute care attribu
190 ients were more likely to be discharged to a long-term care setting (56% vs 34%; p = 0.008) than to a
192 pressure ulcers in adults in U.S. acute and long-term care settings and that reported pressure ulcer
193 pt that guides the care philosophy change in long-term care settings from a traditional medical model
202 h care professionals, family caregivers, and long-term care staff lack adequate guidance to decide wh
205 nding of vaccine responsiveness for those in long-term care, suggesting that certain risk factors are
207 paper reports results from the 1999 National Long-Term Care Survey on disability trends from 1982 thr
212 pediatric hypertension that will improve the long-term care that pediatricians provide to their patie
213 ective of the Ontario Ministry of Health and Long Term Care, the third-party payer for insured health
214 rventions in inpatient populations including long-term care were prepared by a multidisciplinary expe
216 r from a chronic condition and often require long-term care, with frequent reassessment and adjustmen
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