Louge Pierre, Coulange Mathieu, Beneton Frederic, Gempp Emmanuel, Le Pennetier Olivier, Algoud Maxime, Dubourg Lorene, Naibo Pierre, Marlinge Marion, Michelet Pierre, Vairo Donato, Kipson Nathalie, Kerbaul François, Jammes Yves, Jones Ian M, Steinberg Jean-Guillaume, Ruf Jean, Guieu Régis, Boussuges Alain, Fenouillet Emmanuel
aDepartment of Hyperbaric Medicine, Sainte-Anne Hospital, Toulon bDepartment of Hyperbaric Medicine, Sainte-Marguerite Hospital, Marseille cUMR MD2, Aix-Marseille University and Institute of Biological Research of the Army dLaboratory of Biochemistry, Timone University Hospital, Marseille eSchool of Biological Sciences, University of Reading, United Kingdom fInstitut des Sciences Biologiques, CNRS, France.
Medicine (Baltimore). 2016 Jun;95(26):e4060. doi: 10.1097/MD.0000000000004060.
Immersion pulmonary edema (IPE) is a misdiagnosed environmental illness caused by water immersion, cold, and exertion. IPE occurs typically during SCUBA diving, snorkeling, and swimming. IPE is sometimes associated with myocardial injury and/or loss of consciousness in water, which may be fatal. IPE is thought to involve hemodynamic and cardiovascular disturbances, but its pathophysiology remains largely unclear, which makes IPE prevention difficult. This observational study aimed to document IPE pathogenesis and improve diagnostic reliability, including distinguishing in some conditions IPE from decompression sickness (DCS), another diving-related disorder.Thirty-one patients (19 IPE, 12 DCS) treated at the Hyperbaric Medicine Department (Ste-Anne hospital, Toulon, France; July 2013-June 2014) were recruited into the study. Ten healthy divers were recruited as controls. We tested: (i) copeptin, a surrogate marker for antidiuretic hormone and a stress marker; (ii) ischemia-modified albumin, an ischemia/hypoxia marker; (iii) brain-natriuretic peptide (BNP), a marker of heart failure, and (iv) ultrasensitive-cardiac troponin-I (cTnI), a marker of myocardial ischemia.We found that copeptin and cardiac biomarkers were higher in IPE versus DCS and controls: (i) copeptin: 68% of IPE patients had a high level versus 25% of DCS patients (P < 0.05) (mean ± standard-deviation: IPE: 53 ± 61 pmol/L; DCS: 15 ± 17; controls: 6 ± 3; IPE versus DCS or controls: P < 0.05); (ii) ischemia-modified albumin: 68% of IPE patients had a high level versus 16% of DCS patients (P < 0.05) (IPE: 123 ± 25 arbitrary-units; DCS: 84 ± 25; controls: 94 ± 7; IPE versus DCS or controls: P < 0.05); (iii) BNP: 53% of IPE patients had a high level, DCS patients having normal values (P < 0.05) (IPE: 383 ± 394 ng/L; DCS: 37 ± 28; controls: 19 ± 15; IPE versus DCS or controls: P < 0.01); (iv) cTnI: 63% of IPE patients had a high level, DCS patients having normal values (P < 0.05) (IPE: 0.66 ± 1.50 μg/L; DCS: 0.0061 ± 0.0040; controls: 0.0090 ± 0.01; IPE versus DCS or controls: P < 0.01). The combined "BNP-cTnI" levels provided most discrimination: all IPE patients, but none of the DCS patients, had elevated levels of either/both of these markers.We propose that antidiuretic hormone acts together with a myocardial ischemic process to promote IPE. Thus, monitoring of antidiuretic hormone and cardiac biomarkers can help to make a quick and reliable diagnosis of IPE.
浸没性肺水肿(IPE)是一种因水浸、寒冷和劳累导致的被误诊的环境疾病。IPE通常发生在水肺潜水、浮潜和游泳过程中。IPE有时与心肌损伤和/或在水中失去意识有关,这可能是致命的。IPE被认为涉及血流动力学和心血管紊乱,但其病理生理学在很大程度上仍不清楚,这使得预防IPE变得困难。这项观察性研究旨在记录IPE的发病机制并提高诊断的可靠性,包括在某些情况下将IPE与减压病(DCS)区分开来,DCS是另一种与潜水相关的疾病。
在法国土伦圣安妮医院高压医学科接受治疗的31名患者(19例IPE,12例DCS)(2013年7月 - 2014年6月)被纳入该研究。招募了10名健康潜水员作为对照。我们检测了:(i) copeptin,一种抗利尿激素的替代标志物和应激标志物;(ii)缺血修饰白蛋白,一种缺血/缺氧标志物;(iii)脑钠肽(BNP),一种心力衰竭标志物;以及(iv)超敏心肌肌钙蛋白I(cTnI),一种心肌缺血标志物。
我们发现,与DCS和对照组相比,IPE患者的copeptin和心脏生物标志物水平更高:(i) copeptin:68%的IPE患者水平较高,而DCS患者为25%(P < 0.05)(平均值 ± 标准差:IPE:53 ± 61 pmol/L;DCS:15 ± 17;对照组:6 ± 3;IPE与DCS或对照组相比:P < 0.05);(ii)缺血修饰白蛋白:68%的IPE患者水平较高,而DCS患者为16%(P < 0.05)(IPE:123 ± 25任意单位;DCS:84 ± 25;对照组:94 ± 7;IPE与DCS或对照组相比:P < 0.05);(iii)BNP:53%的IPE患者水平较高,DCS患者值正常(P < 0.05)(IPE:383 ± 394 ng/L;DCS:37 ± 28;对照组:19 ± 15;IPE与DCS或对照组相比:P < 0.01);(iv)cTnI:63%的IPE患者水平较高,DCS患者值正常(P < 0.05)(IPE:0.66 ± 1.50 μg/L;DCS:0.0061 ± 0.0040;对照组:0.0090 ± 0.01;IPE与DCS或对照组相比:P < 0.01)。“BNP - cTnI”的联合水平提供了最大的鉴别能力:所有IPE患者,但没有DCS患者,这些标志物中的一个或两个水平升高。
我们提出抗利尿激素与心肌缺血过程共同作用促进IPE。因此,监测抗利尿激素和心脏生物标志物有助于快速、可靠地诊断IPE。
