Hypotension begins at 110 mm Hg: redefining "hypotension" with data.
about
A systematic review of the relationship between blood loss and clinical signsNon-operative management versus operative management in high-grade blunt hepatic injuryNon-operative management versus operative management in high-grade blunt hepatic injurySeasonal variation in meteorological parameters and office, ambulatory and home blood pressure: predicting factors and clinical implications.Combat casualties undergoing lifesaving interventions have decreased heart rate complexity at multiple time scales.The Shock Index revisited - a fast guide to transfusion requirement? A retrospective analysis on 21,853 patients derived from the TraumaRegister DGUPredicting red blood cell transfusion in hospitalized patients: role of hemoglobin level, comorbidities, and illness severity.Cognitive performance in hypotensive persons with spinal cord injuryCorrelation of shock index and modified shock index with the outcome of adult trauma patients: a prospective study of 9860 patients.Whole-body CT in haemodynamically unstable severely injured patients--a retrospective, multicentre studyInitial systolic blood pressure and ongoing internal bleeding following torso trauma.Factors prognosticating the outcome of decompressive craniectomy in severe traumatic brain injury: A Malaysian experienceThe impact of blood pressure on kidney function in the elderly: a cross-sectional study.Understanding traumatic shock: out-of-hospital hypotension with and without other physiologic compromise.Systolic blood pressure and short-term mortality in the emergency department and prehospital setting: a hospital-based cohort study.Prevalence and risk factors for intraoperative hypotension during craniotomy for traumatic brain injury.Systolic blood pressure criteria in the National Trauma Triage Protocol for geriatric trauma: 110 is the new 90.Increasing incidence of hypotension in the emergency department; a 12 year population-based cohort studyA retrospective analysis of geriatric trauma patients: venous lactate is a better predictor of mortality than traditional vital signs.Prehospital volume resuscitation--Did evidence defeat the crystalloid dogma? An analysis of the TraumaRegister DGU® 2002-2012.Shock in the emergency department; a 12 year population based cohort studyAcute resuscitation of the unstable adult trauma patient: bedside diagnosis and therapy.Peroxisome proliferator-activated receptors: "key" regulators of neuroinflammation after traumatic brain injury.Prehospital dynamic tissue oxygen saturation response predicts in-hospital lifesaving interventions in trauma patientsA critical assessment of the out-of-hospital trauma triage guidelines for physiologic abnormalityOn-admission blood pressure and pulse rate in trauma patients and their correlation with mortality: Cushing's phenomenon revisited.Clinical and cellular effects of hypothermia, acidosis and coagulopathy in major injury.Monitoring systems and quantitative measurement of biomolecules for the management of trauma.Hypotension of ⩽110 mmHg is Associated with Increased Mortality in South African Patients After Trauma.Correlation of Blood Gas Parameters with Central Venous Pressure in Patients with Septic Shock; a Pilot Study.Mortality and Prehospital Blood Pressure in Patients With Major Traumatic Brain Injury: Implications for the Hypotension Threshold.Prevalence and Predictors of Prehospital Pain Assessment and Analgesic Use in Military Trauma Patients, 2010-2013.Triage vital signs do not correlate with serum lactate or base deficit, and are less predictive of operative intervention in penetrating trauma patients: a prospective cohort study.Polytrauma at the Emergency Department; can we relate arterial blood gas analysis to a shock classification?Prehospital lactate improves accuracy of prehospital criteria for designating trauma activation level.Predictive Models and Algorithms for the Need of Transfusion Including Massive Transfusion in Severely Injured PatientsPrehospital mass-casualty triage training-written versus moulage scenarios: how much do EMS providers retain?Use of physiologic reasoning to diagnose and manage shock StatesAssessment of hypovolaemic shock at scene: is the PHTLS classification of hypovolaemic shock really valid?[The TraumaRegister DGU® as the basis of medical quality management. Ten years experience of a national trauma centre exemplified by emergency room treatment].
P2860
Q21133652-9E23705C-ACE6-4DC0-87BB-CAE288924FCBQ24187782-85D9B20C-6202-4C0D-AE4B-7A67100C185BQ24200735-C899C565-F5F3-401B-B9D3-44FECC8872CDQ33465971-5B1BF3AB-7797-4724-9C2D-31522540059CQ33601310-FA2F95F8-B680-4CE9-8351-5F937C4BA124Q33753904-AFAAC942-D860-4B1B-9BF0-64778A73DE48Q33914115-101C5626-AB32-4255-8406-88626331848DQ33972516-67CB0E70-7CAC-4792-AA28-81DEB2C7A99FQ34665678-D2EA17D6-D9DB-40FB-894B-3A5018AA329FQ34873470-4FE58E21-BD5D-4104-A2FA-755E280AF8DAQ34991252-3E22429D-7C38-4440-AC96-174FF7726F62Q35071307-CF2AE045-09F6-47AA-BE48-5E70A72FEF80Q35079794-58390B25-878A-4CC8-87E8-37507156059BQ35166362-E2EE57B7-433D-47B4-AEED-09D0250DDD50Q35545560-ACBA970A-84FD-4512-B45B-30FC5B803C91Q36024193-99825153-A35A-4FDB-B623-E68AF97FE0B6Q36204717-709A4AA7-A7C6-4519-B86E-939BF13D44EAQ36646092-204BE0B1-4AC9-4427-8307-07AE47CCD5AEQ36688547-C27D6D55-C751-482E-B144-C53649349BADQ36769313-E3B82A6A-E55B-48B9-ACEE-711FC8090CF2Q37057798-D964DE8A-8695-4B89-B89B-95C209683FE2Q37076545-704C1A00-33E0-4A27-B9AD-881005D41B00Q37125986-A5B0BFC0-891E-41CF-A713-C0129EA4A843Q37163168-FBF37938-8A5D-4AE7-B881-B2707C6ABD28Q37202819-36CC28E7-A112-4DA5-8255-357D5FEF53D4Q37719879-971FF204-EE7A-456D-A7FD-32694F8DFDEEQ37867579-024D5AFF-F088-4413-B6A6-EFB0DD53380FQ38089658-E2BEBECE-9045-469B-8554-3C2684BB4F5AQ38652837-B01233A8-950B-4A70-BB6C-435EE6EFFE0EQ38679835-B31C0DA4-10D1-402E-9219-3671F7BB4E3AQ39123713-FAD33F0A-64AD-427E-9C8F-04CE385CAD50Q39752868-4CB7AD65-B6EF-450D-8E7F-1B20574B03A3Q40049471-76F9F625-8D02-478D-B54B-1DC40A60F591Q40055405-4CEDB6DD-A4A9-47E1-A3A0-DAC7A2F6D5FBQ40959212-D0B8C218-6C87-4D71-AE01-03246AF47FEEQ41818425-BC34A193-6ED7-43C0-A9DC-9AF1187DF8D5Q41970600-2ED0C4A3-1BF7-4174-91B3-77ACC340853AQ42863082-CA595530-1F48-4F7A-9156-BCC61C8090B5Q44116455-B993A4F9-1A4C-44A4-8005-3BD607F4463AQ45341924-048AA7E1-8B21-403F-9C5A-2B812876CF33
P2860
Hypotension begins at 110 mm Hg: redefining "hypotension" with data.
description
2007 nî lūn-bûn
@nan
2007 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2007 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
name
Hypotension begins at 110 mm Hg: redefining "hypotension" with data.
@ast
Hypotension begins at 110 mm Hg: redefining "hypotension" with data.
@en
type
label
Hypotension begins at 110 mm Hg: redefining "hypotension" with data.
@ast
Hypotension begins at 110 mm Hg: redefining "hypotension" with data.
@en
prefLabel
Hypotension begins at 110 mm Hg: redefining "hypotension" with data.
@ast
Hypotension begins at 110 mm Hg: redefining "hypotension" with data.
@en
P2093
P1433
P1476
Hypotension begins at 110 mm Hg: redefining "hypotension" with data.
@en
P2093
Brian J Eastridge
Charles E Wade
Eileen M Bugler
John G McManus
Jose Salinas
Lorne Blackburn
Victor A Convertino
William H Cooke
P304
291-7; discussion 297-9
P356
10.1097/TA.0B013E31809ED924
P407
P577
2007-08-01T00:00:00Z