Francesco Gavelli, Luigi Mario Castello, Xavier Monnet, Danila Azzolina, Ilaria Nerici, Simona Priora, Valentina Giai Via, Matteo Bertoli, Claudia Foieni, Michela Beltrame, Mattia Bellan, Pier Paolo Sainaghi, Nello De Vita, Filippo Patrucco, Jean-Louis Teboul, Gian Carlo Avanzi
{"title":"通过降低血液浓度可靠地检测急诊科呼吸困难患者的静水肺水肿--一种机器学习方法。","authors":"Francesco Gavelli, Luigi Mario Castello, Xavier Monnet, Danila Azzolina, Ilaria Nerici, Simona Priora, Valentina Giai Via, Matteo Bertoli, Claudia Foieni, Michela Beltrame, Mattia Bellan, Pier Paolo Sainaghi, Nello De Vita, Filippo Patrucco, Jean-Louis Teboul, Gian Carlo Avanzi","doi":"10.1186/s12245-024-00698-y","DOIUrl":null,"url":null,"abstract":"<p><strong>Background: </strong>Haemoglobin variation (ΔHb) induced by fluid transfer through the intestitium has been proposed as a useful tool for detecting hydrostatic pulmonary oedema (HPO). However, its use in the emergency department (ED) setting still needs to be determined.</p><p><strong>Methods: </strong>In this observational retrospective monocentric study, ED patients admitted for acute dyspnoea were enrolled. Hb values were recorded both at ED presentation (T<sub>0</sub>) and after 4 to 8 h (T<sub>1</sub>). ΔHb between T<sub>1</sub> and T<sub>0</sub> (ΔHb<sub>T1-T0</sub>) was calculated as absolute and relative value. Two investigators, unaware of Hb values, defined the cause of dyspnoea as HPO and non-HPO. ΔHb<sub>T1-T0</sub> ability to detect HPO was evaluated. A machine learning approach was used to develop a predictive tool for HPO, by considering the ability of ΔHb as covariate, together with baseline patient characteristics.</p><p><strong>Results: </strong>Seven-hundred-and-six dyspnoeic patients (203 HPO and 503 non-HPO) were enrolled over 19 months. Hb levels were significantly different between HPO and non-HPO patients both at T<sub>0</sub> and T<sub>1</sub> (p < 0.001). ΔHb<sub>T1-T0</sub> were more pronounced in HPO than non-HPO patients, both as relative (-8.2 [-11.2 to -5.6] vs. 0.6 [-2.1 to 3.3] %) and absolute (-1.0 [-1.4 to -0.8] vs. 0.1 [-0.3 to 0.4] g/dL) values (p < 0.001). A relative ΔHb<sub>T1-T0</sub> of -5% detected HPO with an area under the receiver operating characteristic curve (AUROC) of 0.901 [0.896-0.906]. Among the considered models, Gradient Boosting Machine showed excellent predictive ability in identifying HPO patients and was used to create a web-based application. ΔHb<sub>T1-T0</sub> was confirmed as the most important covariate for HPO prediction.</p><p><strong>Conclusions: </strong>ΔHb<sub>T1-T0</sub> in patients admitted for acute dyspnoea reliably identifies HPO in the ED setting. 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引用次数: 0
摘要
背景:由肠道液体转移引起的血红蛋白变化(ΔHb)被认为是检测静水肺水肿(HPO)的有用工具。然而,它在急诊科(ED)环境中的应用仍有待确定:在这项观察性回顾性单中心研究中,登记了因急性呼吸困难而入院的急诊科患者。T1和T0之间的ΔHb(ΔHbT1-T0)被计算为绝对值和相对值。两名调查人员在不了解 Hb 值的情况下,将呼吸困难的原因定义为 HPO 和非 HPO。评估了 ΔHbT1-T0 检测 HPO 的能力。考虑到ΔHb作为协变量的能力以及患者的基线特征,采用机器学习方法开发了HPO的预测工具:在 19 个月的时间里,共招募了 76 名呼吸困难患者(203 名 HPO 和 503 名非 HPO)。HPO 和非 HPO 患者的血红蛋白水平在 T0 和 T1 时均有明显差异(P T1-T0 HPO 患者的血红蛋白水平比非 HPO 患者更明显,两者均为相对值(-8.2 [-11.2 to -5.6] vs. 0.6 [-2.1 to 3.3] %)。1 to 3.3] %)和绝对值(-1.0 [-1.4 to -0.8] vs. 0.1 [-0.3 to 0.4] g/dL)(P T1-T0 为 -5% 时检测到 HPO,接收者操作特征曲线下面积 (AUROC) 为 0.901 [0.896-0.906])。在所考虑的模型中,梯度提升机(Gradient Boosting Machine)在识别 HPO 患者方面显示出卓越的预测能力,并被用于创建基于网络的应用程序。结论:在急诊室环境中,因急性呼吸困难入院患者的ΔHbT1-T0能可靠地识别HPO。机器学习预测工具可能是一种用于确认 HPO 的实用临床工具。
Decrease of haemoconcentration reliably detects hydrostatic pulmonary oedema in dyspnoeic patients in the emergency department - a machine learning approach.
Background: Haemoglobin variation (ΔHb) induced by fluid transfer through the intestitium has been proposed as a useful tool for detecting hydrostatic pulmonary oedema (HPO). However, its use in the emergency department (ED) setting still needs to be determined.
Methods: In this observational retrospective monocentric study, ED patients admitted for acute dyspnoea were enrolled. Hb values were recorded both at ED presentation (T0) and after 4 to 8 h (T1). ΔHb between T1 and T0 (ΔHbT1-T0) was calculated as absolute and relative value. Two investigators, unaware of Hb values, defined the cause of dyspnoea as HPO and non-HPO. ΔHbT1-T0 ability to detect HPO was evaluated. A machine learning approach was used to develop a predictive tool for HPO, by considering the ability of ΔHb as covariate, together with baseline patient characteristics.
Results: Seven-hundred-and-six dyspnoeic patients (203 HPO and 503 non-HPO) were enrolled over 19 months. Hb levels were significantly different between HPO and non-HPO patients both at T0 and T1 (p < 0.001). ΔHbT1-T0 were more pronounced in HPO than non-HPO patients, both as relative (-8.2 [-11.2 to -5.6] vs. 0.6 [-2.1 to 3.3] %) and absolute (-1.0 [-1.4 to -0.8] vs. 0.1 [-0.3 to 0.4] g/dL) values (p < 0.001). A relative ΔHbT1-T0 of -5% detected HPO with an area under the receiver operating characteristic curve (AUROC) of 0.901 [0.896-0.906]. Among the considered models, Gradient Boosting Machine showed excellent predictive ability in identifying HPO patients and was used to create a web-based application. ΔHbT1-T0 was confirmed as the most important covariate for HPO prediction.
Conclusions: ΔHbT1-T0 in patients admitted for acute dyspnoea reliably identifies HPO in the ED setting. The machine learning predictive tool may represent a performing and clinically handy tool for confirming HPO.
期刊介绍:
The aim of the journal is to bring to light the various clinical advancements and research developments attained over the world and thus help the specialty forge ahead. It is directed towards physicians and medical personnel undergoing training or working within the field of Emergency Medicine. Medical students who are interested in pursuing a career in Emergency Medicine will also benefit from the journal. This is particularly useful for trainees in countries where the specialty is still in its infancy. Disciplines covered will include interesting clinical cases, the latest evidence-based practice and research developments in Emergency medicine including emergency pediatrics.
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