ライフサイエンスコーパス: medical service

1 (43.9%) received treatment by the emergency medical service.

2 etermine resourcing of and reimbursement for medical services.

3 al in hospital after activation of emergency medical services.

4 ossible systematic differential valuation of medical services.

5 ructions while quickly dispatching emergency medical services.

6 hcare have renewed the focus on the value of medical services.

7 with lower total claims payments for common medical services.

8 efibrillated before the arrival of emergency medical services.

9 s, particularly for patients using emergency medical services.

10 in malaria-endemic areas that lack effective medical services.

11 al health/substance use disorder and general medical services.

12 will increase demand for surgical and other medical services.

13 symptoms, prompting action to call emergency medical services.

14 ay a key role in patient access to emergency medical services.

15 l shock treated by out-of-hospital emergency medical services.

16 er factors that affect access and quality of medical services.

17 asized personal assistance, medications, and medical services.

18 s, race, era of military service, and use of medical services.

19 and substance use services than for general medical services.

20 pression treatment might reduce use of other medical services.

21 have important implications for delivery of medical services.

22 phy is in keeping with the general growth in medical services.

23 tment gaps that may lead to increased use of medical services.

24 uman services, and complementary-alternative medical services.

25 ion by persons outside traditional emergency medical services.

26 llness may need assistance with coordinating medical services.

27 rge county with a single system of emergency medical services.

28 defibrillator had been used by nonemergency medical services.

29 insurance (JUHI) are required for dental and medical services.

30 nagement of patients with STEMI by emergency medical services.

31 general public and the response of emergency medical services.

32 2003) were limited to the sectors of general medical services (2.59 times as high in 2001 to 2003 as

33 Patients require medical services 24 hours a day.

34 P<0.0001) or collected in the DUMC inpatient medical service (26/332 versus 7/283; P<0.01).

35 cility, including 640 arriving via emergency medical services, 267 self/family driven, and 83 already

36 ere longer than for patients using emergency medical services (76 versus 51 minutes; P<0.001), but si

37 Only 81 patients (19%) called emergency medical services (911) to report symptoms before SCA; th

38 PPCI facility </=120 minutes from emergency medical services activation.

39 it resulted in fewer overdoses or emergency medical service activations.

40 tion; notification and response of emergency medical services; acute stroke treatment; subacute strok

41 ive registry that was linked to an emergency medical services administrative database.

42 Emergency medical service administrators must critically evaluate

43 In our randomised trial of 46 emergency medical service agencies (serving 2.3 million people) in

44 lder, female, and treated by rural emergency medical services agencies and experienced longer transpo

45 Nine hospitals served by 21 emergency medical services agencies in southwestern Pennsylvania f

46 trial at 20 trauma centers and 39 emergency medical services agencies in the US and Canada from May

47 trial involving 114 North American emergency medical services agencies within the Resuscitation Outco

48 ronary intervention and at least 1 emergency medical service agency.

49 ence in which each institution and emergency medical services agency will define an optimal approach

50 quality of medical care and increased use of medical services among patients.

51 was coordinated by the prehospital emergency medical service and encompassed the public emergency sys

52 ducted at the Philadelphia VA Medical Center medical service and Oncology Unit of the Hospital of the

53 are infected will not have any contact with medical services and are highly unlikely to have a sampl

54 ent education, improvements in the Emergency Medical Services and emergency department components of

55 onsideration within the manuals of emergency medical services and emergency department managers to a

56 Mutuelles on achieving universal coverage of medical services and financial risk protection in its fi

57 s at risk for hospital readmissions focus on medical services and have found chronic conditions as co

58 calls were audited and linked with emergency medical services and hospital outcome data.

59 on prisoner suicide, older prisoners, prison medical services and inmate mental health are highlighte

60 defibrillation, basic and advanced emergency medical services and integrated post-cardiac arrest care

61 rease associated costs to the US economy for medical services and lost productivity, and contribute t

62 From emergency medical services and other Parisian agencies, data on al

63 ther the control response (calling emergency medical services and performing cardiopulmonary resuscit

64 use of an AED, followed by calling emergency medical services and performing CPR.

65 dual goals of protecting patients' access to medical services and protecting the moral integrity of c

66 ure between the evaluations of the Emergency Medical Services and the emergency department among both

67 Helicopter emergency medical services and their possible effect on outcomes f

68 ies, and improvements in access to emergency medical services and timely orthopaedic care are critica

69 atients were assessed by organized emergency medical services, and had field-based physiologic criter

70 n public health insurance schemes, emergency medical services, and health information technology.

71 ccessfully coordinating community, emergency medical services, and hospital efforts to improve the pr

72 ilities, and transports, denial of access to medical services, and misuse of medical facilities and e

73 s, increased use of longterm psychiatric and medical services, and overall impaired functioning.

74 rs to improve patient outcomes, the value of medical services, and patient experiences will thrive an

75 ry hospitals, a lack of integrated emergency medical services, and the medical community's limited ex

76 served that allocated resources of emergency medical service are associated with outcome, suggesting

77 is the home, a situation in which emergency medical services are challenged to provide timely care.

78 of which aspects of the helicopter emergency medical services are responsible for any salutary effect

79 tion between time from 911 call to emergency medical service arrival (response time) and survival acc

80 Time from emergency medical services arrival to ECG was longer for women (1.

81 us groups differed in sex, time-to-emergency medical services arrival, and some cardiopulmonary resus

82 locations registered with Toronto Emergency Medical Services as of September 2009 were plotted geogr

83 Hawaii Medical Service Association (HMSA), the Blue Cross Blue

84 sharing is associated with increased use of medical services, at least for patients with congestive

85 with the use of a registry of all emergency medical services-attended cardiac arrests, with an autop

86 timepoint at which the helicopter emergency medical services availability ceased, reached opposite c

87 s but received no resuscitation by emergency medical services between December 2005 and March 2007.

88 TM) has become a popular method of accessing medical services between providers and patients and is v

89 cardiac arrest location data from emergency medical service cardiac arrest registries.

90 ng County (Washington) Division of Emergency Medical Services' Cardiac Arrest Database.

91 ings for the first five minutes of emergency medical service cardiopulmonary resuscitation.

92 r use for measuring the quality of emergency medical service care remains relatively unknown.

93 ) is important; causes of delay in emergency medical services care of ACS are poorly understood.

94 for and barriers to regionalizing emergency medical services care of patients with shock.

95 Emergency medical services contact is mostly initiated by stroke w

96 s and data sources results in differences in medical service costs, care and treatments, and limited

97 plan accounting records were used to assess medical service costs.

98 h the Guidelines() and a statewide emergency medical services data system from June 2008 to September

99 t out-of-pocket spending for drugs and other medical services decreased (relative change: statin user

100 nd emergency department bypass for emergency medical services direct presenters (48%-59%; P=0.002) an

101 edical contact-to-device times for emergency medical services direct presenters (84 versus 88 versus

102 ts (RACE) project, transported via emergency medical service directly to 21 North Carolina hospitals

103 rs, mental health and addiction clinics, and medical services (eg, home health).

104 trial with crossover included 114 emergency medical service (EMS) agencies.

105 ing the following: 1) citywide 911 emergency medical service (EMS) calls and ambulance responses; and

106 cember 31, 2009, in a metropolitan emergency medical service (EMS) system.

107 eedback for 484 hospitals and 1253 emergency medical services (EMS) agencies in 16 regions across the

108 bystander resuscitation; 2) a new emergency medical services (EMS) algorithm; and 3) aggressive post

109 ences in coordinating care between emergency medical services (EMS) and hospitals.

110 ts with STEMI were assessed by the emergency medical services (EMS) and referred for primary PCI: 822

111 ched citizen responders before the Emergency Medical Services (EMS) and the association with bystande

112 received resuscitative efforts by emergency medical services (EMS) and were enrolled in the Cardiac

113 as performed before the arrival of emergency medical services (EMS) and whether early CPR was correla

114 of prehospital SCA occurring after emergency medical services (EMS) arrival.

115 f pre-hospital severe sepsis among emergency medical services (EMS) encounters, relative to acute myo

116 Emergency medical services (EMS) hospital prenotification of an in

117 illators (AEDs) beyond traditional emergency medical services (EMS) into the community has not been f

118 Activation of emergency medical services (EMS) is critical for the early triage

119 eous 12-lead ECG transmission from emergency medical services (EMS) personnel in the field to the eme

120 Emergency medical services (EMS) personnel often are not permitted

121 years) were assessed by organized emergency medical services (EMS) personnel, did not have traumatic

122 arrests that were not witnessed by emergency medical services (EMS) personnel, the rate of bystander

123 Emergency medical services (EMS) providers who administer advanced

124 iew the incident reports logged by emergency medical services (EMS) technicians arriving with intenti

125 prehospital settings, standardized emergency medical services (EMS) treatment algorithms do not exist

126 e who did not until the arrival of emergency medical services (EMS).

127 nts with chest pain transported by emergency medical services (EMS).

128 hospital cardiac arrest treated by emergency medical services (EMS).

129 g injured patients served by 9-1-1 emergency medical services (EMS).

130 % when the arrest was witnessed by emergency-medical-services (EMS) personnel, 35% when it was witnes

131 for firefighters and 6.4 years for emergency-medical-services (EMS) workers.

132 patients arrived at hospitals via emergency medical services (EMSs), yet since then, there have been

133 All emergency medical services encounters with community acquired seps

134 ical illnesses, are frequent users of costly medical services, especially emergency department and ho

135 balanced by decreases in the use of general medical services, especially for patients with comorbid

136 offices, correctional facilities, emergency medical services, etc., with the highest proportion from

137 les for medical comorbidity and use of prior medical services, few examined variables associated with

138 Paramedics providing emergency medical services followed a protocol that included consu

139 Delay in calling emergency medical services following stroke limits access to early

140 nts for outpatient mental health and general medical services for 302 Medicare health plans from 2001

141 A review of the history of emergency medical services for children and the framework for offi

142 l insurance payments were higher for covered medical services for individuals with bipolar disorder t

143 n, implementation of protocols for emergency medical services for streamlining clinical investigation

144 The total cost of medical services for the 6 months before the study was o

145 s accrued by the use of helicopter emergency medical services for trauma transport.

146 We randomized 2493 patients (82% on Medical Services) from 25 study sites to the interventio

147 ts undergoing scene HEMS or ground emergency medical services (GEMS) in the National Trauma Databank

148 The Dutch Emergency medical service guidelines to stop futile OHCA in the pr

149 Geographic variations in use of medical services have been interpreted as indirect evide

150 otentially benefit from helicopter emergency medical services (HEMS).

151 ideration of fibrinolytic therapy, emergency medical services hospital bypass protocols, and improved

152 ulation study to date, set in the UK Defence Medical Services' Hospital Simulator and the conflict zo

153 vices, other mental health services, general medical services, human services, and complementary-alte

154 pared with waiting for traditional emergency medical services, immediate use of automated external de

155 sment of the outcome, performed by emergency medical services in 7 European countries from July 2010

156 om Hospital Authority, the major provider of medical services in Hong Kong, was conducted.

157 may face barriers in obtaining comprehensive medical services in proximity to their residences.

158 all patients with STEMI managed by emergency medical services in the greater Paris area (11.7 million

159 ritis (RA) do not receive optimal preventive medical services, including cancer screening tests.

160 with the pretriage period, use of emergency medical services increased from 30.2% to 38.1% (P < .001

161 tion period, the rate of fall-related use of medical services increased from 68.1 to 83.3 per 1000 pe

162 records for insurance claims data, detailing medical services incurred by military personnel and thei

163 Compared with emergency medical services-initiated CPR and resuscitation, patien

164 needed to evaluate the efficacy of Emergency Medical Services interventions to reduce this early clin

165 ission previously demonstrated that time for medical services is the dominant element in valuing phys

166 effectiveness compared with ground emergency medical services is warranted.

167 is challenge is the recognition by emergency medical service leaders that prehospital airway manageme

168 case-crossover design using 11 677 emergency medical service-logged OHCA events between 2004 and 2011

169 dary outcomes: individual serious illnesses, medical services, Medicaid payments, and medical school

170 emically authoritative, grassroots emergency medical services medical directors and trauma chiefs, pr

171 ensed antiasthma prescriptions and on use of medical services: mild controlled, mild uncontrolled, mo

172 s already hospitalized in the DUMC inpatient medical service, most of whom had indwelling intravascul

173 After one year of residency on the medical service of Duke Hospital, chaired by Eugene Stea

174 I Alert Team, which, together with emergency medical services, offers support for thrombolysis or imm

175 a patient's or surrogate's timely access to medical services or information or create excessive hard

176 s than the patients presenting via emergency medical services or who are self/family driven.

177 to secondary and tertiary care, use of other medical services, or sickness absence, but the consumpti

178 ac arrest data from Rochester, MN, emergency medical services over a 6-yr period was retrospectively

179 luation II score (p < .0001), admission by a medical service (p = .009), and use of pressure-controll

180 ter physician notification, especially among Medical Service patients.

181 ons, key differences exist between emergency medical services patients with traumatic and nontraumati

182 Among 20,835 emergency medical services patients, 7,817 patients (43%) were eli

183 joint dislocations) and fall-related use of medical services per 1000 person-years among persons who

184 n time was noticeably shorter when emergency medical service personnel requested prehospital activati

185 ency department physicians than by emergency medical service personnel, but door-to-balloon time was

186 with cardiac arrests witnessed by emergency medical services personnel (n = 2253), leaving a study p

187 In certain venues, out-of-hospital emergency medical services personnel are highly skilled at managin

188 Emergency medical services personnel from agencies implementing ne

189 d businesses; 2) retraining of all emergency medical services personnel in methods to enhance circula

190 rnal defibrillation) and timing of emergency medical services personnel on OHCA outcomes according to

191 For successful implementation, emergency medical services personnel should be involved in study d

192 nagement from the first contact by emergency medical services personnel through initial admission to

193 rest who were randomly assigned by emergency medical services personnel to an antiarrhythmic drug ver

194 ve criteria (OHCA not witnessed by emergency medical services personnel, nonshockable initial cardiac

195 f arrest that was not witnessed by emergency medical services personnel.

196 were transported to a hospital by emergency-medical-service personnel, 8.6% were admitted, and 0.3%

197 Helicopter Emergency Medical Service physicians followed the institutional al

198 e with additional data provided by emergency medical services, police departments and surrounding hos

199 from 30.2% to 38.1% (P < .001) and emergency medical services prenotification increased from 65.5% to

200 ed adjustment for mode of arrival, emergency medical services prenotification, and onset-to-arrival t

201 Current Emergency Medical Service protocols rely on provider-directed care

202 All costs for medical services provided at our institution were record

203 lects differences in the overall quantity of medical services provided rather than differences in ill

204 are payments to ophthalmologists, ophthalmic medical services provided, and the most common Medicare-

205 ons of pediatric trauma affect the emergency medical services provider, emergency physician, trauma s

206 resuscitation or defibrillation by emergency medical service providers and/or received bystander auto

207 High-performance CPR by emergency medical service providers includes minimizing interrupti

208 pment, training, and experience of Emergency Medical Services providers in the care of children, and

209 with OOH cardiac arrest treated by emergency medical services providers participating in the Resuscit

210 be chest compression rates used by emergency medical services providers to resuscitate patients with

211 suite, and prompt data feedback to emergency medical services providers were used less frequently.

212 research, resuscitation research, emergency medical services, public health, and development of guid

213 development of biomedical devices, emergency medical services quality assurance, and clinical practic

214 rdiac Arrest is a population-based emergency medical services registry of out-of-hospital nontraumati

215 ation-level health outcomes and use of other medical services remains unclear.

216 d written dispatch report, written emergency medical services report, hospital record, and telephone

217 Uncertainty exists regarding the scope of medical services required for new enrollees.

218 0.005) and to have presented after emergency medical services rerouting in July 2005 (96% versus 94%,

219 ay have important implications for emergency medical services resource allocation.

220 e of assessing the distribution of emergency medical services resources to make the trauma care syste

221 oid overdose event (OOE) data from emergency medical service responders and 311 service request data

222 rs of age) of OHCA were treated by emergency medical services responders, for an overall incidence of

223 thesized factors such as delays in emergency medical service response or differences in the likelihoo

224 ace in a community with a 2-tiered emergency medical services response and an established system of c

225 pisode location, epinephrine dose, emergency medical services response time, and duration of resuscit

226 egression accounting for age, sex, emergency medical services response time, clustering of county, tr

227 irst monitored cardiac rhythm, and emergency medical services response time, compared with daytime an

228 Optimizing the emergency medical services' response or increasing PPCI services r

229 ht on the specific problems in the emergency medical service setting.

230 However, whether emergency medical services should bypass nonpercutaneous cardiac i

231 roviding potentially inappropriate or futile medical services should not be considered sufficient jus

232 r readmission rates include discharge from a medical service, site of malignancy, and emergency prima

233 Taking the patient to CT on the emergency medical services stretcher, registering the patient as u

234 the patient directly to CT on the emergency medical services stretcher.

235 rhood (within 50-mile radius)-NALR rate; and Medical Service Study Area resection rates-MALR rate.

236 vices grew at a rate similar to that for all medical services subject to Medicare's sustainable growt

237 dology and findings of a statewide emergency medical service surveillance initiative, which is used t

238 , shockable rhythm as a measure of emergency medical services system efficacy and all emergency medic

239 nsensus on the need to account for emergency medical services system factors, increasing availability

240 Reliance on the Emergency Medical Services system is insufficient to assure optima

241 Our emergency medical services system made significant changes to the

242 l services system efficacy and all emergency medical services system-treated arrests as a measure of

243 ac arrest data from a large, urban emergency medical services system.

244 e adopted as metrics against which emergency medical services systems can measure their performance.

245 vulsive status epilepticus from 33 emergency medical services systems in California to determine if t

246 ected on patients' encounters with emergency medical services systems should include descriptions of

247 cardiac arrest patients in 2 urban emergency medical services systems were treated with automated ext

248 ed framework with which to compare emergency medical services systems.

249 veruse, which is defined as the provision of medical services that are more likely to cause harm than

250 and differences may exist among surgical and medical services that could impact the use of palliative

251 dical disorders who are attending specialist medical services that is feasible, acceptable, and poten

252 l societies to develop lists of the top five medical services that patients and physicians should que

253 ar whether or not the physician had provided medical services the previous night.

254 nters with the necessary supportive care and medical services to address the specific needs of this p

255 aborative efforts by hospitals and emergency medical services to provide timely reperfusion in the Un

256 resuscitation were transported by emergency medical services to the CCL.

257 We assessed the adherence of emergency medical services to this STEMI protocol, as well as subs

258 cipants' intentions to extend their military medical service (total model R (2) = .37), with the stro

259 t-elevation myocardial infarction, emergency medical service transport from the field directly to the

260 roup competition (n = 81, 21%) and emergency medical services transport and finances (n = 99, 26%).

261 6%) of 72 transported patients met emergency medical services transport criteria.

262 ts an argument that the helicopter emergency medical services transport is associated with significan

263 Total emergency medical services transport time increased by less than 3

264 ral and nonreferral hospitals, and emergency medical services transport times.

265 x, off-hours presentation, and non-emergency medical services transport to the first hospital.

266 2 patients (22%) showed PND during Emergency Medical Services transport, with a mean decrease in the

267 Emergency medical services transportation to the hospital is under

268 th intracerebral hemorrhage during Emergency Medical Services transportation to the hospital.

269 Emergency medical service transported 1401 (83.0%) patients to the

270 Emergency medical services-transported patients were most likely t

271 mber and utilization of Helicopter Emergency Medical Services transports has occurred in the manageme

272 We studied emergency medical services treated out-of-hospital cardiac arrest

273 ation was a retrospective study of emergency medical service-treated, nontraumatic, out-of-hospital c

274 DALY following adult nontraumatic emergency medical services-treated OHCA in the US were 4 354 192 (

275 lated using all adult nontraumatic emergency medical services-treated OHCA with complete data from th

276 the DALY after adult nontraumatic, emergency medical services-treated OHCA, and to compare OHCA DALY

277 We studied emergency medical services-treated out-of-hospital cardiac arrest

278 secutive adults with nontraumatic, emergency medical services-treated out-of-hospital cardiac arrest.

279 stander resuscitation to statutory emergency medical services treatment and transfer.

280 , a randomized controlled trial of emergency medical services treatment of people with symptoms sugge

281 ly related issue of the helicopter emergency medical services triage appropriateness.

282 d were given CPR by 15 prehospital emergency medical service units.

283 nd medical disease control might also reduce medical service use and enhance quality of life.

284 ted in significant improvements in emergency medical services use and prenotification and more than d

285 ospice at low rates, and data on their acute medical service utilization after hospice enrollment is

286 d HF who enrolled in hospice had lower acute medical service utilization after their enrollment.

287 bset of beneficiaries to compare their acute medical service utilization before and after enrollment.

288 g those with drug abuse problems, outpatient medical service utilization, disability, and sexually tr

289 association between the helicopter emergency medical services utilization and trauma outcome, and thr

290 studies addressing the helicopter emergency medical services utilization in terms of triage were cha

291 and hospital-level factors, management by a medical service was independently associated with longer

292 condom catheters for hospitalized adults on medical services was assessed in 299 scenarios, includin

293 re ascertained at the scene by the Emergency Medical Services was compared with the subsequent evalua

294 ients admitted via emergency department to a medical service were admitted under high ICU congestion

295 lay between pain onset and call to emergency medical services were the main predictors of SCA.

296 nd Olmsted Medical Center) that provide most medical services within Olmsted County, Minnesota.

297 s between 2006 and 2012, excluding emergency medical service-witnessed arrests.

298 after excluding pediatric arrests, emergency medical services-witnessed arrests, or arrests occurring

299 mate time of arrest [9-1-1 call or emergency medical services-witnessed] to return of spontaneous cir

300 e and depression can affect the use of other medical services, yet there is little information on how