ライフサイエンスコーパス: emergency medical service

1 t-of-hospital cardiac arrests treated by the emergency medical service.

2 hom 14,083 (43.9%) received treatment by the emergency medical service.

3 of stroke symptoms, prompting action to call emergency medical services.

4 tnesses play a key role in patient access to emergency medical services.

5 tic medical shock treated by out-of-hospital emergency medical services.

6 D application by persons outside traditional emergency medical services.

7 vices, and those with OHCAs witnessed by the emergency medical services.

8 One large county with a single system of emergency medical services.

9 ing and management of patients with STEMI by emergency medical services.

10 among the general public and the response of emergency medical services.

11 fore arrival in hospital after activation of emergency medical services.

12 8) being defibrillated before the arrival of emergency medical services.

13 g CPR instructions while quickly dispatching emergency medical services.

14 st 10 years, particularly for patients using emergency medical services.

15 ients presenting to PCI-capable hospitals by emergency medical service, 195 minutes (IQR, 127-349) fo

16 vention facility, including 640 arriving via emergency medical services, 267 self/family driven, and

17 atients) were longer than for patients using emergency medical services (76 versus 51 minutes; P<0.00

18 Only 81 patients (19%) called emergency medical services (911) to report symptoms befo

19 nutes or a PPCI facility </=120 minutes from emergency medical services activation.

20 ency department visits for firearm injuries, emergency medical service activations for firearm-relate

21 -saving if it resulted in fewer overdoses or emergency medical service activations.

22 nity education; notification and response of emergency medical services; acute stroke treatment; suba

23 a prospective registry that was linked to an emergency medical services administrative database.

24 Emergency medical service administrators must critically

25 In our randomised trial of 46 emergency medical service agencies (serving 2.3 million

26 management and were treated by participating emergency medical service agencies were enrolled from No

27 Emergency medical service agencies, categorized as worki

28 ly to be older, female, and treated by rural emergency medical services agencies and experienced long

29 Emergency medical services agencies collected continuous

30 er randomized trial performed at multicenter emergency medical services agencies from the Resuscitati

31 Nine hospitals served by 21 emergency medical services agencies in southwestern Penn

32 d clinical trial at 20 trauma centers and 39 emergency medical services agencies in the US and Canada

33 Among emergency medical services agencies with complete data o

34 clinical trial involving 114 North American emergency medical services agencies within the Resuscita

35 taneous coronary intervention and at least 1 emergency medical service agency.

36 tation science in which each institution and emergency medical services agency will define an optimal

37 It was coordinated by the prehospital emergency medical service and encompassed the public eme

38 ial, 46 health care professionals, including emergency medical service and hospital staff representin

39 lving patient education, improvements in the Emergency Medical Services and emergency department comp

40 casional consideration within the manuals of emergency medical services and emergency department mana

41 ac arrest calls were audited and linked with emergency medical services and hospital outcome data.

42 ns, rapid defibrillation, basic and advanced emergency medical services and integrated post-cardiac a

43 From emergency medical services and other Parisian agencies,

44 t home: either the control response (calling emergency medical services and performing cardiopulmonar

45 ]) or the use of an AED, followed by calling emergency medical services and performing CPR.

46 lood pressure between the evaluations of the Emergency Medical Services and the emergency department

47 Helicopter emergency medical services and their possible effect on

48 fety policies, and improvements in access to emergency medical services and timely orthopaedic care a

49 pital rapid sequence induction by helicopter emergency medical services and were transported to a hos

50 Eligible patients were assessed by organized emergency medical services, and had field-based physiolo

51 lopments in public health insurance schemes, emergency medical services, and health information techn

52 are are successfully coordinating community, emergency medical services, and hospital efforts to impr

53 nt medical offices, correctional facilities, emergency medical services, and so forth, with the highe

54 and tertiary hospitals, a lack of integrated emergency medical services, and the medical community's

55 o OHCAs, those with OHCAs not treated by the emergency medical services, and those with OHCAs witness

56 nts, we observed that allocated resources of emergency medical service are associated with outcome, s

57 iac arrest is the home, a situation in which emergency medical services are challenged to provide tim

58 ucidation of which aspects of the helicopter emergency medical services are responsible for any salut

59 he association between time from 911 call to emergency medical service arrival (response time) and su

60 Time from emergency medical services arrival to ECG was longer for

61 intravenous groups differed in sex, time-to-emergency medical services arrival, and some cardiopulmo

62 ator (AED) locations registered with Toronto Emergency Medical Services as of September 2009 were plo

63 ronto area with the use of a registry of all emergency medical services-attended cardiac arrests, wit

64 side of a timepoint at which the helicopter emergency medical services availability ceased, reached

65 ut-of-hospital cardiac arrest transported by emergency medical service between 2015 and 2022 were inc

66 e pulseless but received no resuscitation by emergency medical services between December 2005 and Mar

67 vention program that decreases 911 calls for emergency medical services, but its wider system effects

68 Of the 1027 emergency medical services calls during the study period

69 out-of-hours Medical Helpline 1813 (MH1813), Emergency Medical Services Capital Region, Denmark, and

70 ified with cardiac arrest location data from emergency medical service cardiac arrest registries.

71 rom the King County (Washington) Division of Emergency Medical Services' Cardiac Arrest Database.

72 tor recordings for the first five minutes of emergency medical service cardiopulmonary resuscitation.

73 ries, their use for measuring the quality of emergency medical service care remains relatively unknow

74 romes (ACS) is important; causes of delay in emergency medical services care of ACS are poorly unders

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

76 andomized clinical trial was conducted at 14 emergency medical services centers in Switzerland from S

77 Emergency medical services contact is mostly initiated b

78 ))-Get With the Guidelines() and a statewide emergency medical services data system from June 2008 to

79 ained information on these patients from the emergency-medical-services department or the hospitals t

80 <0.001), and emergency department bypass for emergency medical services direct presenters (48%-59%; P

81 an first medical contact-to-device times for emergency medical services direct presenters (84 versus

82 Departments (RACE) project, transported via emergency medical service directly to 21 North Carolina

83 gland Trauma Network, including 3 helicopter emergency medical services (East Anglian Air Ambulance,

84 Given the central importance of emergency medical service (EMS) agencies in prehospital

85 f-hospital cardiac arrest (OHCA) is lower at emergency medical service (EMS) agencies serving Black/H

86 ehensive training and mentorship program for emergency medical service (EMS) agencies to improve OHCA

87 t variation in OHCA survival at the level of emergency medical service (EMS) agencies-which may have

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

89 The time from emergency medical service (EMS) arrival to administratio

90 est victims who receive bystander CPR before emergency medical service (EMS) arrival.

91 em activation relies on manual activation by emergency medical service (EMS) call takers, which may l

92 by examining the following: 1) citywide 911 emergency medical service (EMS) calls and ambulance resp

93 All patients with OHCA assessed by emergency medical service (EMS) staff were consecutively

94 01, and December 31, 2009, in a metropolitan emergency medical service (EMS) system.

95 ormation System data were used to assess 911 emergency medical services (EMS) activations during 2018

96 onal study used a national-level database of emergency medical services (EMS) activations in the US,

97 regular feedback for 484 hospitals and 1253 emergency medical services (EMS) agencies in 16 regions

98 study examined patient care reports from 51 emergency medical services (EMS) agencies in California,

99 centers and their affiliated ground and air emergency medical services (EMS) agencies in the Linking

100 rucial issue with implications for patients, emergency medical services (EMS) agencies, hospitals, an

101 tion between demographic, socioeconomic, and emergency medical services (EMS) agency factors and ambu

102 VF or pVT treated by a single North American emergency medical services (EMS) agency from July 1, 201

103 ssions for bystander resuscitation; 2) a new emergency medical services (EMS) algorithm; and 3) aggre

104 by differences in coordinating care between emergency medical services (EMS) and hospitals.

105 ive patients with STEMI were assessed by the emergency medical services (EMS) and referred for primar

106 app-dispatched citizen responders before the Emergency Medical Services (EMS) and the association wit

107 years who received resuscitative efforts by emergency medical services (EMS) and were enrolled in th

108 ther CPR was performed before the arrival of emergency medical services (EMS) and whether early CPR w

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

110 mpirical evidence suggests that people value emergency medical services (EMS) but that they may not u

111 early defibrillation and timely treatment by emergency medical services (EMS) can double the chance o

112 t less is known about it in children seeking emergency medical services (EMS) care.

113 Emergency medical services (EMS) clinicians commonly car

114 astructure and migrant health needs on local emergency medical services (EMS) clinicians.

115 emiology of pre-hospital severe sepsis among emergency medical services (EMS) encounters, relative to

116 en in resource-limited neighborhoods rely on emergency medical services (EMS) for accessing care, inc

117 Emergency medical services (EMS) hospital prenotificatio

118 nal defibrillators (AEDs) beyond traditional emergency medical services (EMS) into the community has

119 Activation of emergency medical services (EMS) is critical for the ear

120 nal changes in advanced airway management by emergency medical services (EMS) is crucial for understa

121 outperformed unaided infection assessment by emergency medical services (EMS) personnel (AUPRC, 0.17

122 s simultaneous 12-lead ECG transmission from emergency medical services (EMS) personnel in the field

123 Emergency medical services (EMS) personnel often are not

124 aged 0-108 years) were assessed by organized emergency medical services (EMS) personnel, did not have

125 d cardiac arrests that were not witnessed by emergency medical services (EMS) personnel, the rate of

126 In contrast, data from emergency medical services (EMS) provide a source of inf

127 e interactions between patients with LEP and emergency medical services (EMS) providers (ie, firefigh

128 Emergency medical services (EMS) providers who administe

129 3%), with full coverage of the corresponding emergency medical services (EMS) regions participating i

130 Inequities in rapid access to emergency medical services (EMS) represent a critical ga

131 Emergency medical services (EMS) serving a population of

132 We review the incident reports logged by emergency medical services (EMS) technicians arriving wi

133 sed to investigate the outcomes of interest: emergency medical services (EMS) transport (versus priva

134 ive stroke centers in Chicago, Illinois, via emergency medical services (EMS) transport from December

135 common in prehospital settings, standardized emergency medical services (EMS) treatment algorithms do

136 Emergency department (ED) and emergency medical services (EMS) volumes decreased durin

137 Adults with OHCA treated by emergency medical services (EMS) were included in the an

138 , temporal throughput, regional diversion of emergency medical services (EMS), and stroke care metric

139 , pre-hospital AAM are performed for OHCA by emergency medical services (EMS), however the relationsh

140 CIPANTS: This cross-sectional study analyzed emergency medical services (EMS)-reported medical emerge

141 with those who did not until the arrival of emergency medical services (EMS).

142 t of patients with chest pain transported by emergency medical services (EMS).

143 th out-of-hospital cardiac arrest treated by emergency medical services (EMS).

144 is limited despite the growth of prehospital emergency medical services (EMS).

145 activator (t-PA) than standard management by emergency medical services (EMS).

146 ality among injured patients served by 9-1-1 emergency medical services (EMS).

147 dia was 25% when the arrest was witnessed by emergency-medical-services (EMS) personnel, 35% when it

148 6.1 years for firefighters and 6.4 years for emergency-medical-services (EMS) workers.

149 of stroke patients arrived at hospitals via emergency medical services (EMSs), yet since then, there

150 Emergency medical services encounters among patients age

151 All emergency medical services encounters with community acq

152 nt medical offices, correctional facilities, emergency medical services, etc., with the highest propo

153 yond time goals for patients transported via emergency medical services (first medical contact to lab

154 Paramedics providing emergency medical services followed a protocol that incl

155 Delay in calling emergency medical services following stroke limits acces

156 A review of the history of emergency medical services for children and the framewor

157 c education, implementation of protocols for emergency medical services for streamlining clinical inv

158 es benefits accrued by the use of helicopter emergency medical services for trauma transport.

159 of subjects undergoing scene HEMS or ground emergency medical services (GEMS) in the National Trauma

160 The Dutch Emergency medical service guidelines to stop futile OHCA

161 Emergency medical services had a wide range of effects o

162 Appropriate use of helicopter emergency medical service (HEMS) is important in ensurin

163 ho would potentially benefit from helicopter emergency medical services (HEMS).

164 eased consideration of fibrinolytic therapy, emergency medical services hospital bypass protocols, an

165 Etiology of OHCA was determined using emergency medical service, hospital, and medical examine

166 Compared with waiting for traditional emergency medical services, immediate use of automated e

167 tential mass casualties and the provision of emergency medical services; implementation of strategies

168 nded assessment of the outcome, performed by emergency medical services in 7 European countries from

169 te large-vessel occlusion stroke attended by emergency medical services in areas where the closest lo

170 total of 1310 patients were recruited by 15 emergency medical services in Australia, New Zealand, an

171 valuating all patients with STEMI managed by emergency medical services in the greater Paris area (11

172 Compared with the pretriage period, use of emergency medical services increased from 30.2% to 38.1%

173 cember 2023 were retrieved from the National Emergency Medical Services Information System (NEMSIS) d

174 Data are from the National Emergency Medical Services Information System (NEMSIS),

175 National Emergency Medical Services Information System data were

176 es (EMS) activations in the US, the National Emergency Medical Services Information System.

177 Compared with emergency medical services-initiated CPR and resuscitati

178 udies are needed to evaluate the efficacy of Emergency Medical Services interventions to reduce this

179 on of its effectiveness compared with ground emergency medical services is warranted.

180 c countershock, heart arrest, resuscitation, emergency medical services; keywords: automatic external

181 meeting this challenge is the recognition by emergency medical service leaders that prehospital airwa

182 tratified case-crossover design using 11 677 emergency medical service-logged OHCA events between 200

183 cted, academically authoritative, grassroots emergency medical services medical directors and trauma

184 Niagara emergency medical services (NEMS) started MIH in 2018 to

185 ional STEMI Alert Team, which, together with emergency medical services, offers support for thromboly

186 d vignettes, the immediate EMC option ("Call emergency medical services or go to the emergency depart

187 ality rates than the patients presenting via emergency medical services or who are self/family driven

188 Cardiac arrest data from Rochester, MN, emergency medical services over a 6-yr period was retros

189 distributions, key differences exist between emergency medical services patients with traumatic and n

190 Among 20,835 emergency medical services patients, 7,817 patients (43%

191 -to-balloon time was noticeably shorter when emergency medical service personnel requested prehospita

192 e by emergency department physicians than by emergency medical service personnel, but door-to-balloon

193 and those with cardiac arrests witnessed by emergency medical services personnel (n = 2253), leaving

194 In certain venues, out-of-hospital emergency medical services personnel are highly skilled

195 Emergency medical services personnel from agencies imple

196 schools and businesses; 2) retraining of all emergency medical services personnel in methods to enhan

197 matic external defibrillation) and timing of emergency medical services personnel on OHCA outcomes ac

198 For successful implementation, emergency medical services personnel should be involved

199 ons for management from the first contact by emergency medical services personnel through initial adm

200 cardiac arrest who were randomly assigned by emergency medical services personnel to an antiarrhythmi

201 A subgroup of SCAs are witnessed by emergency medical services personnel, and because the re

202 3 objective criteria (OHCA not witnessed by emergency medical services personnel, nonshockable initi

203 ac cause of arrest that was not witnessed by emergency medical services personnel.

204 ble, 25.8% were transported to a hospital by emergency-medical-service personnel, 8.6% were admitted,

205 Helicopter Emergency Medical Service physicians followed the instit

206 atient care with additional data provided by emergency medical services, police departments and surro

207 erting the neurointerventional team based on emergency medical services prenotification (-21.9 [95% C

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

209 prespecified adjustment for mode of arrival, emergency medical services prenotification, and onset-to

210 cantly higher door-in-door-out time, whereas emergency medical services prenotification, intravenous

211 nd on transferring emergency departments and emergency medical services professionals to make importa

212 rrest were abstracted from data collected by emergency medical service programs in Seattle and King C

213 Current Emergency Medical Service protocols rely on provider-dir

214 complications of pediatric trauma affect the emergency medical services provider, emergency physician

215 pulmonary resuscitation or defibrillation by emergency medical service providers and/or received byst

216 High-performance CPR by emergency medical service providers includes minimizing

217 inal serosurvey of first responders (police, emergency medical service providers, fire fighters, and

218 n the equipment, training, and experience of Emergency Medical Services providers in the care of chil

219 20 years with OOH cardiac arrest treated by emergency medical services providers participating in th

220 to describe chest compression rates used by emergency medical services providers to resuscitate pati

221 n imaging suite, and prompt data feedback to emergency medical services providers were used less freq

222 f drowning research, resuscitation research, emergency medical services, public health, and developme

223 tion, the development of biomedical devices, emergency medical services quality assurance, and clinic

224 stances and outcomes of SCA from prehospital emergency medical services records and data on demograph

225 Epistry-Cardiac Arrest is a population-based emergency medical services registry of out-of-hospital n

226 e audio and written dispatch report, written emergency medical services report, hospital record, and

227 years, P<0.005) and to have presented after emergency medical services rerouting in July 2005 (96% v

228 ociation may have important implications for emergency medical services resource allocation.

229 importance of assessing the distribution of emergency medical services resources to make the trauma

230 renced opioid overdose event (OOE) data from emergency medical service responders and 311 service req

231 25-35 years of age) of OHCA were treated by emergency medical services responders, for an overall in

232 ously hypothesized factors such as delays in emergency medical service response or differences in the

233 dy took place in a community with a 2-tiered emergency medical services response and an established s

234 itation, episode location, epinephrine dose, emergency medical services response time, and duration o

235 logistic regression accounting for age, sex, emergency medical services response time, clustering of

236 itation, first monitored cardiac rhythm, and emergency medical services response time, compared with

237 Optimizing the emergency medical services' response or increasing PPCI

238 Emergency medical services responses geocoded to Census

239 s shed light on the specific problems in the emergency medical service setting.

240 However, whether emergency medical services should bypass nonpercutaneous

241 Emergency medical services should reconsider the role of

242 Taking the patient to CT on the emergency medical services stretcher, registering the pa

243 s to bring the patient directly to CT on the emergency medical services stretcher.

244 Pediatric Dose Optimization for Seizures in Emergency Medical Services study.

245 the methodology and findings of a statewide emergency medical service surveillance initiative, which

246 -witnessed, shockable rhythm as a measure of emergency medical services system efficacy and all emerg

247 flected consensus on the need to account for emergency medical services system factors, increasing av

248 Reliance on the Emergency Medical Services system is insufficient to ass

249 Our emergency medical services system made significant chang

250 ncy medical services system efficacy and all emergency medical services system-treated arrests as a m

251 w of cardiac arrest data from a large, urban emergency medical services system.

252 s should be adopted as metrics against which emergency medical services systems can measure their per

253 eating convulsive status epilepticus from 33 emergency medical services systems in California to dete

254 Data collected on patients' encounters with emergency medical services systems should include descri

255 -hospital cardiac arrest patients in 2 urban emergency medical services systems were treated with aut

256 a structured framework with which to compare emergency medical services systems.

257 ey should take, the importance of contacting emergency medical services, the need to report to an app

258 cs of collaborative efforts by hospitals and emergency medical services to provide timely reperfusion

259 opulmonary resuscitation were transported by emergency medical services to the CCL.

260 We assessed the adherence of emergency medical services to this STEMI protocol, as we

261 ST-segment-elevation myocardial infarction, emergency medical service transport from the field direc

262 rdiology group competition (n = 81, 21%) and emergency medical services transport and finances (n = 9

263 xty-two (86%) of 72 transported patients met emergency medical services transport criteria.

264 nce supports an argument that the helicopter emergency medical services transport is associated with

265 Total emergency medical services transport time increased by l

266 y at referral and nonreferral hospitals, and emergency medical services transport times.

267 female sex, off-hours presentation, and non-emergency medical services transport to the first hospit

268 orrhage, 22 patients (22%) showed PND during Emergency Medical Services transport, with a mean decrea

269 Emergency medical services transportation to the hospita

270 atients with intracerebral hemorrhage during Emergency Medical Services transportation to the hospita

271 Emergency medical service transported 1401 (83.0%) patie

272 Emergency medical services-transported patients were mos

273 bsolute number and utilization of Helicopter Emergency Medical Services transports has occurred in th

274 We studied emergency medical services treated out-of-hospital cardi

275 e investigation was a retrospective study of emergency medical service-treated, nontraumatic, out-of-

276 t study, there were 6790 adult patients with emergency medical services-treated OHCA from a US metrop

277 ated total DALY following adult nontraumatic emergency medical services-treated OHCA in the US were 4

278 S: This cohort study analyzed cases of adult emergency medical services-treated OHCA that occurred fr

279 were calculated using all adult nontraumatic emergency medical services-treated OHCA with complete da

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

281 d]) of consecutive adults with nontraumatic, emergency medical services-treated out-of-hospital cardi

282 We studied emergency medical services-treated out-of-hospital cardi

283 AND PARTICIPANTS: This cohort study compared emergency medical services-treated, nontraumatic out-of-

284 re from bystander resuscitation to statutory emergency medical services treatment and transfer.

285 ency Care), a randomized controlled trial of emergency medical services treatment of people with symp

286 community education to 9-1-1 activation and emergency medical services triage and from emergency dep

287 the closely related issue of the helicopter emergency medical services triage appropriateness.

288 arrest and were given CPR by 15 prehospital emergency medical service units.

289 cago resulted in significant improvements in emergency medical services use and prenotification and m

290 ime limit, greater probability of helicopter emergency medical service utilization, and lower hospita

291 essed the association between the helicopter emergency medical services utilization and trauma outcom

292 Recent studies addressing the helicopter emergency medical services utilization in terms of triag

293 Scale score ascertained at the scene by the Emergency Medical Services was compared with the subsequ

294 cardiac cause and resuscitation attempted by emergency medical services were included.

295 a short delay between pain onset and call to emergency medical services were the main predictors of S

296 diac causes between 2006 and 2012, excluding emergency medical service-witnessed arrests.

297 luded, of whom 11,228 (39.9%) experienced an emergency medical service-witnessed OHCA (NFT = 0), 695

298 t events; after excluding pediatric arrests, emergency medical services-witnessed arrests, or arrests

299 External validation was performed in 220 emergency medical services-witnessed SCAs from Ventura,

300 e (approximate time of arrest [9-1-1 call or emergency medical services-witnessed] to return of spont