Martin Boussuges, Philippe Blanc, F. Bregeon, A. Boussuges
{"title":"Interest of thoracic ultrasound after cardiac surgery or interventional cardiology","authors":"Martin Boussuges, Philippe Blanc, F. Bregeon, A. Boussuges","doi":"10.4330/wjc.v16.i3.118","DOIUrl":null,"url":null,"abstract":"Thoracic ultrasound has attracted much interest in detecting pleural effusion or pulmonary consolidation after cardiac surgery. In 2016, Trovato reported, in the World Journal of Cardiology , the interest of using, in addition to echocardiography, thoracic ultrasound. In this editorial, we highlight the value of assessing diaphragm function after cardiac surgery and interventional cardiology procedures. Various factors are able to impair diaphragm function after such interventions. Diaphragm motion may be decreased by chest pain secondary to sternotomy, pleural effusion or impaired muscle function. Hemidiaphragmatic paralysis may be secondary to phrenic nerve damage complicating cardiac surgery or atrial fibrillation ablation. Diagnosis may be delayed. Indeed, respiratory troubles induced by diaphragm dysfunction are frequently attributed to pre-existing heart disease or pulmonary complications secondary to surgery. In addition, elevated hemidiaphragm secondary to diaphragm dysfunction is sometimes not observed on chest X-ray performed in supine position in the intensive care unit. Analysis of diaphragm function by ultrasound during the recovery period appears essential. Both hemidiaphragms can be studied by two complementary ultrasound methods. The mobility of each hemidiaphragms is measured by M-mode ultrasonography. In addition, recording the percentage of inspiratory thickening provides important information about the quality of muscle function. These two approaches make it possible to detect hemidiaphragm paralysis or dysfunction. Such a diagnosis is important because persistent diaphragm dysfunction after cardiac surgery has been shown to be associated with adverse respiratory outcome. Early respiratory physiotherapy is able to improve respiratory function through strengthening of the inspiratory muscles i.e. diaphragm and accessory inspiratory muscles.","PeriodicalId":23800,"journal":{"name":"World Journal of Cardiology","volume":" 46","pages":""},"PeriodicalIF":1.9000,"publicationDate":"2024-03-26","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"World Journal of Cardiology","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.4330/wjc.v16.i3.118","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q3","JCRName":"CARDIAC & CARDIOVASCULAR SYSTEMS","Score":null,"Total":0}
引用次数: 0
Abstract
Thoracic ultrasound has attracted much interest in detecting pleural effusion or pulmonary consolidation after cardiac surgery. In 2016, Trovato reported, in the World Journal of Cardiology , the interest of using, in addition to echocardiography, thoracic ultrasound. In this editorial, we highlight the value of assessing diaphragm function after cardiac surgery and interventional cardiology procedures. Various factors are able to impair diaphragm function after such interventions. Diaphragm motion may be decreased by chest pain secondary to sternotomy, pleural effusion or impaired muscle function. Hemidiaphragmatic paralysis may be secondary to phrenic nerve damage complicating cardiac surgery or atrial fibrillation ablation. Diagnosis may be delayed. Indeed, respiratory troubles induced by diaphragm dysfunction are frequently attributed to pre-existing heart disease or pulmonary complications secondary to surgery. In addition, elevated hemidiaphragm secondary to diaphragm dysfunction is sometimes not observed on chest X-ray performed in supine position in the intensive care unit. Analysis of diaphragm function by ultrasound during the recovery period appears essential. Both hemidiaphragms can be studied by two complementary ultrasound methods. The mobility of each hemidiaphragms is measured by M-mode ultrasonography. In addition, recording the percentage of inspiratory thickening provides important information about the quality of muscle function. These two approaches make it possible to detect hemidiaphragm paralysis or dysfunction. Such a diagnosis is important because persistent diaphragm dysfunction after cardiac surgery has been shown to be associated with adverse respiratory outcome. Early respiratory physiotherapy is able to improve respiratory function through strengthening of the inspiratory muscles i.e. diaphragm and accessory inspiratory muscles.
胸部超声在检测心脏手术后胸腔积液或肺部合并症方面引起了广泛关注。2016 年,Trovato 在《世界心脏病学杂志》(World Journal of Cardiology)上报告了除超声心动图外,使用胸部超声的意义。在这篇社论中,我们强调了在心脏手术和介入心脏病学手术后评估膈肌功能的价值。在此类介入手术后,有多种因素会损害横膈膜功能。胸骨切开术后继发的胸痛、胸腔积液或肌肉功能受损都可能导致膈肌运动减弱。膈肌半身不遂可能继发于心脏手术或心房颤动消融术并发的膈神经损伤。诊断可能会延迟。事实上,膈肌功能障碍引起的呼吸困难常常被归因于术前存在的心脏病或继发于手术的肺部并发症。此外,在重症监护室仰卧位进行胸部 X 光检查时,有时无法观察到因横膈膜功能障碍而导致的半横膈膜升高。在恢复期间通过超声波分析横膈膜功能似乎非常重要。可以通过两种互补的超声波方法对两个半膈进行研究。通过 M 型超声波可测量每个半膈的活动度。此外,记录吸气增厚的百分比可提供有关肌肉功能质量的重要信息。通过这两种方法可以检测出半膈肌麻痹或功能障碍。这种诊断非常重要,因为心脏手术后持续的膈肌功能障碍已被证明与不良的呼吸预后有关。早期呼吸理疗可通过增强吸气肌(即膈肌和辅助吸气肌)来改善呼吸功能。