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Hooper N, Armstrong TJ: Hemorrhagic Shock. In: StatPearls [Internet]. Treasure Island (FL), StatPearls Publishing, 2021.HooperNArmstrongTJHemorrhagic Shock. In: StatPearls [Internet]. Treasure Island (FL),StatPearls Publishing2021Search in Google Scholar
Committee on Trauma: Advanced Trauma Life Support Manual. American College of Surgeons, Chicago 1997: 103–112.Committeeon TraumaAdvanced Trauma Life Support ManualAmerican College of SurgeonsChicago1997103–112Search in Google Scholar
Mullins RJ: Management of shock. In: Mattox KL, Feliciano DV, Moore EE: Trauma. 4th ed. New York, McGraw‐Hill 2000: 195–232.MullinsRJManagement of shock. In: Mattox KL, Feliciano DV, Moore EE: Trauma. 4th edNew YorkMcGraw‐Hill2000195–232Search in Google Scholar
Bruijns SR, Guly HR, Bouamra O, Lecky F, Lee WA: The value of traditional vital signs, shock index, and age-based markers in predicting trauma mortality. J Trauma Acute Care Surg 2013; 74: 1432–1437.BruijnsSRGulyHRBouamraOLeckyFLeeWAThe value of traditional vital signs, shock index, and age-based markers in predicting trauma mortalityJ Trauma Acute Care Surg2013741432143710.1097/TA.0b013e31829246c723694869Search in Google Scholar
Türedi S, Şahin A, Akça M, Demir S, Köse GDR, Çekiç AB et al.: Ischemia-modified albumin and the IMA/albumin ratio in the diagnosis and staging of hemorrhagic shock: a randomized controlled experimental study. Ulus Travma Acil Cerrahi Derg 2020; 26: 153–62.TürediSŞahinAAkçaMDemirSKöseGDRÇekiçABet alIschemia-modified albumin and the IMA/albumin ratio in the diagnosis and staging of hemorrhagic shock: a randomized controlled experimental studyUlus Travma Acil Cerrahi Derg2020261536210.14744/tjtes.2019.3275432185760Search in Google Scholar
Marik PE: Techniques for assessment of intravascular volume in critically ill patients. J Intensive Care Med 2009; 24: 329–337.MarikPETechniques for assessment of intravascular volume in critically ill patientsJ Intensive Care Med20092432933710.1177/088506660934064019648183Search in Google Scholar
Middleton PM, Davies SR: Noninvasive hemodynamic monitoring in the emergency department. Curr Opin Crit Care 2011; 17: 342–350.MiddletonPMDaviesSRNoninvasive hemodynamic monitoring in the emergency departmentCurr Opin Crit Care20111734235010.1097/MCC.0b013e328348bf9b21734489Search in Google Scholar
Lyon M, Blaivas M, Brannam L: Sonographic measurement of the inferior vena cava as a marker of blood loss. Am J Emerg Med 2005; 23: 45–50.LyonMBlaivasMBrannamLSonographic measurement of the inferior vena cava as a marker of blood lossAm J Emerg Med200523455010.1016/j.ajem.2004.01.00415672337Search in Google Scholar
Yanagawa Y, Sakamoto T, Okada Y: Hypovolemic shock evaluated by sonographic measurement of the inferior vena cava during resuscitation in trauma patients. J Trauma 2007; 63: 1245–1248.YanagawaYSakamotoTOkadaYHypovolemic shock evaluated by sonographic measurement of the inferior vena cava during resuscitation in trauma patientsJ Trauma2007631245124810.1097/TA.0b013e318068d72b18212645Search in Google Scholar
Sefidbakht S, Assadsangabi R, Abbasi HR, Nabavizadeh A: Sonographic measurement of the inferior vena cava as a predictor of shock in trauma patients. Emerg Radiol 2007; 14: 181–185.SefidbakhtSAssadsangabiRAbbasiHRNabavizadehASonographic measurement of the inferior vena cava as a predictor of shock in trauma patientsEmerg Radiol20071418118510.1007/s10140-007-0602-417541661Search in Google Scholar
Orso D, Paoli I, Piani T, Cilenti FL, Cristiani L, Guglielmo N: Accuracy of ultrasonographic measurements of inferior vena cava to determine fluid responsiveness: a systematic review and meta-analysis. J Intensive Care Med 2020; 35: 354–363.OrsoDPaoliIPianiTCilentiFLCristianiLGuglielmoNAccuracy of ultrasonographic measurements of inferior vena cava to determine fluid responsiveness: a systematic review and meta-analysisJ Intensive Care Med20203535436310.1177/088506661775230829343170Search in Google Scholar
Hu K, Liu D, Herrmann S, Niemann M, Gaudron PD, Voelker W et al.: Clinical implication of mitral annular plane systolic excursion for patients with cardiovascular disease. Eur Heart J Cardiovasc Imaging 2013; 14: 205–212.HuKLiuDHerrmannSNiemannMGaudronPDVoelkerWet alClinical implication of mitral annular plane systolic excursion for patients with cardiovascular diseaseEur Heart J Cardiovasc Imaging20131420521210.1093/ehjci/jes24023161791Search in Google Scholar
Matos J, Kronzon I, Panagopoulos G, Perk G: Mitral annular plane systolic excursion as a surrogate for left ventricular ejection fraction. J Am Soc Echocardiogr 2012; 25: 969–974.MatosJKronzonIPanagopoulosGPerkGMitral annular plane systolic excursion as a surrogate for left ventricular ejection fractionJ Am Soc Echocardiogr20122596997410.1016/j.echo.2012.06.01122795199Search in Google Scholar
Barnes R, Clarke D, Farina Z, Sartoriusz B, Brysiewicz P, Laing G et al.: Vital sign based shock scores are poor at triaging South African trauma patients. Am J Surg 2018; 216: 235–239.BarnesRClarkeDFarinaZSartoriuszBBrysiewiczPLaingGet alVital sign based shock scores are poor at triaging South African trauma patientsAm J Surg201821623523910.1016/j.amjsurg.2017.07.025Search in Google Scholar
Gutierrez G, Reines HD, Wulf-Gutierrez ME: Clinical review: hemorrhagic shock. Crit Care 2004; 8: 373–381.GutierrezGReinesHDWulf-GutierrezMEClinical review: hemorrhagic shockCrit Care2004837338110.1186/cc2851Search in Google Scholar
Mackenzie CF, Hu P, Sen A, Dutton R, Seebode S, Floccare D et al.: Automatic pre-hospital vital signs waveform and trend data capture fills quality management, triage and outcome prediction gaps. AMIA Annu Symp Proc 2008; 2008: 318–322.MackenzieCFHuPSenADuttonRSeebodeSFloccareDet alAutomatic pre-hospital vital signs waveform and trend data capture fills quality management, triage and outcome prediction gapsAMIA Annu Symp Proc20082008318322Search in Google Scholar
Wo CC, Shoemaker WC, Appel PL, Bishop MH, Kram HB, Hardin E: Unreliability of blood pressure and heart rate to evaluate cardiac output in emergency resuscitation and critical illness. Crit Care Med 1993; 21: 218–223.WoCCShoemakerWCAppelPLBishopMHKramHBHardinEUnreliability of blood pressure and heart rate to evaluate cardiac output in emergency resuscitation and critical illnessCrit Care Med19932121822310.1097/00003246-199302000-00012Search in Google Scholar
Victorino GP, Battistella FD, Wisner DH: Does tachycardia correlate with hypotension after trauma?. J Am Coll Surg 2003; 196: 679–684.VictorinoGPBattistellaFDWisnerDHDoes tachycardia correlate with hypotension after trauma?J Am Coll Surg200319667968410.1016/S1072-7515(03)00128-5Search in Google Scholar
Rouhezamin MR, Shekarchi B, Taheri Akerdi A, Paydar S: Internal jugular vein waveform; a new insight to detect early stage of hemorrhagic shock. Bull Emerg Trauma 2019; 7: 263–268.RouhezaminMRShekarchiBTaheriAkerdi APaydarSInternal jugular vein waveform; a new insight to detect early stage of hemorrhagic shockBull Emerg Trauma2019726326810.29252/beat-070309668187331392226Search in Google Scholar
Grant E, Rendano F, Sevinc E, Gammelgaard J, Holm HH, Grønvall S: Normal inferior vena cava: caliber changes observed by dynamic ultrasound. AJR Am J Roentgenol 1980; 135: 335–338.GrantERendanoFSevincEGammelgaardJHolmHHGrønvallSNormal inferior vena cava: caliber changes observed by dynamic ultrasoundAJR Am J Roentgenol198013533533810.2214/ajr.135.2.3356773338Search in Google Scholar
Kusaba T, Yamaguchi K, Oda H, Harada T: Echography of inferior vena cava for estimating fluid removed from patients undergoing hemodialysis. Nippon Jinzo Gakkai Shi 1994; 36: 914–920.KusabaTYamaguchiKOdaHHaradaTEchography of inferior vena cava for estimating fluid removed from patients undergoing hemodialysisNippon Jinzo Gakkai Shi199436914920Search in Google Scholar
Yanagawa Y, Nishi K, Sakamoto T, Okada Y: Early diagnosis of hypovolemic shock by sonographic measurement of inferior vena cava in trauma patients. J Trauma 2005; 58: 825–829.YanagawaYNishiKSakamotoTOkadaYEarly diagnosis of hypovolemic shock by sonographic measurement of inferior vena cava in trauma patientsJ Trauma20055882582910.1097/01.TA.0000145085.42116.A715824662Search in Google Scholar
Akilli B, Bayir A, Kara F, Ak A, Cander B: Inferior vena cava diameter as a marker of early hemorrhagic shock: a comparative study. Ulus Travma Acil Cerrahi Derg 2010; 16: 113–118.AkilliBBayirAKaraFAkACanderBInferior vena cava diameter as a marker of early hemorrhagic shock: a comparative studyUlus Travma Acil Cerrahi Derg201016113118Search in Google Scholar
Johnson BD, Schlader ZJ, Schaake MW, O’Leary MC, Hostler D, Lin H et al.: Inferior vena cava diameter is an early marker of central hypovolemia during simulated blood loss. Prehosp Emerg Care 2021; 25: 341-346.JohnsonBDSchladerZJSchaakeMWO’LearyMCHostlerDLinHet alInferior vena cava diameter is an early marker of central hypovolemia during simulated blood lossPrehosp Emerg Care20212534134610.1080/10903127.2020.1778823867238032628063Search in Google Scholar
Feigenbaum H: Role of M-mode technique in today’s echocardiography. J Am Soc Echocardiogr 2010; 23: 240–337.FeigenbaumHRole of M-mode technique in today’s echocardiographyJ Am Soc Echocardiogr20102324033710.1016/j.echo.2010.01.01520206828Search in Google Scholar
Elnoamany MF, Abdelhameed AK: Mitral annular motion as a surrogate for left ventricular function: correlation with brain natriuretic peptide levels. Eur J Echocardiogr 2006; 7: 187–198.ElnoamanyMFAbdelhameedAKMitral annular motion as a surrogate for left ventricular function: correlation with brain natriuretic peptide levelsEur J Echocardiogr2006718719810.1016/j.euje.2005.05.00516046188Search in Google Scholar
Grue JF, Storve S, Dalen H, Mjølstad OC, Samstad SO, Eriksen-Volnes T et al.: Automatic quantification of left ventricular function by medical students using ultrasound. BMC Med Imaging 2020; 20: 29.GrueJFStorveSDalenHMjølstadOCSamstadSOEriksen-VolnesTet alAutomatic quantification of left ventricular function by medical students using ultrasoundBMC Med Imaging2020202910.1186/s12880-020-00430-1707716432178639Search in Google Scholar
Xiao HB, Kaleem S, McCarthy C, Rosen SD: Abnormal regional left ventricular mechanics in treated hypertensive patients with ‘normal left ventricular function’. Int J Cardiol 2006; 112: 316–321.XiaoHBKaleemSMcCarthyCRosenSDAbnormal regional left ventricular mechanics in treated hypertensive patients with ‘normal left ventricular function’Int J Cardiol200611231632110.1016/j.ijcard.2005.10.00116309760Search in Google Scholar
Mayr A, Pamminger M, Reindl M, Greulich S, Reinstadler SJ, Tiller C et al.: Mitral annular plane systolic excursion by cardiac MR is an easy tool for optimized prognosis assessment in ST-elevation myocardial infarction. Eur Radiol 2020; 30: 620–629.MayrAPammingerMReindlMGreulichSReinstadlerSJTillerCet alMitral annular plane systolic excursion by cardiac MR is an easy tool for optimized prognosis assessment in ST-elevation myocardial infarctionEur Radiol20203062062910.1007/s00330-019-06393-4689058831392477Search in Google Scholar
Zou T, Yin W, Li Y, Deng L, Zhou R, Wang X et al.: Hemodynamics in shock patients assessed by critical care ultrasound and its relationship to outcome: a prospective study. Biomed Res Int 2020; 2020: 5175393.ZouTYinWLiYDengLZhouRWangXet alHemodynamics in shock patients assessed by critical care ultrasound and its relationship to outcome: a prospective studyBiomed Res Int20202020517539310.1155/2020/5175393751204233015171Search in Google Scholar
