Diaphragmatic ultrasound: A clinical perspective on diaphragm function in the ICU

Diaphragmatic ultrasound in critical care

ผู้แต่ง

  • Nonpisit Tangkitkiatkul Division of Critical Care Medicine, Department of Medicine, Faculty of Medicine Ramathibodi Hospital, Mahidol University, Bangkok, Thailand, 10400
  • Taweevat Assavapokee Division of Geriatric Medicine, Department of Medicine, Faculty of Medicine Ramathibodi Hospital, Mahidol University, Bangkok, Thailand, 10400

DOI:

https://doi.org/10.54205/ccc.v33.273360

คำสำคัญ:

Diaphragmatic ultrasound, Ventilator-induced diaphragmatic dysfunction, Weaning, Diaphragmatic excursion, Diaphragm monitoring, Diaphragmatic protective ventilation

บทคัดย่อ

Mechanical ventilation (MV) is a critical component in managing respiratory failure in critically ill patients. While lifesaving, prolonged MV can induce ventilator-induced diaphragmatic dysfunction (VIDD), characterized by decreased diaphragmatic function, atrophy, and loss of contractility. These complications exacerbate weaning challenges, extend ICU stays, and escalate mortality rates. Diaphragmatic ultrasound (DUS) offers a non-invasive, real-time evaluation tool that has revolutionized the monitoring and management of diaphragm function. This review delves into the pathophysiology of VIDD, evaluates its clinical impacts, and the integral role of DUS in implementing protective ventilation strategies to optimize outcomes for both lung and diaphragm health.

Downloads

Download data is not yet available.

เอกสารอ้างอิง

Molina Peña ME, Sánchez CM, Rodríguez-Triviño CY. Physiopathological mechanisms of diaphragmatic dysfunction associated with mechanical ventilation. Rev Esp Anestesiol Reanim (Engl Ed). 2020;67(4):195-203.

Peñuelas O, Keough E, López-Rodríguez L, Carriedo D, Gonçalves G, Barreiro E, et al. Ventilator-induced diaphragm dysfunction: translational mechanisms lead to therapeutical alternatives in the critically ill. Intensive Care Med Exp. 2019;7(Suppl 1):48.

Dres M, Goligher EC, Heunks LMA, Brochard LJ. Critical illness-associated diaphragm weakness. Intensive Care Med. 2017;43(10):1441–1452.

Dres M, Dube BP, Mayaux J, Similowski T, Demoule A. Coexistence and impact of limb muscle and diaphragm weakness at time of liberation from mechanical ventilation. Am J Respir Crit Care Med. 2017;195(1):57–66.

Haaksma ME, Smit JM, Boussuges A, Demoule A, Dres M, Ferrari G, et al. EXpert consensus On diaphragm ultrasonography in the critically ill (EXODUS): a Delphi consensus statement on the measurement of diaphragm ultrasound-derived parameters in a critical care setting. Crit Care. 2022;26:99.

Tuinman PR, Jonkman AH, Dres M, Shi ZH, Goligher EC, Goffi A, et al. Respiratory muscle ultrasonography: methodology, basic and advanced principles, and clinical applications in ICU and ED patients—a narrative review. Intensive Care Med. 2020;46:594–605.

Goligher EC, Fan E, Herridge MS, Murray A, Vorona S, Brace D, et al. Evolution of diaphragm thickness during mechanical ventilation: impact of inspiratory effort. Am J Respir Crit Care Med. 2015;192:1080–1088.

Dube BP, Dres M, Mayaux J, Demiri S, Similowski T, Demoule A. Ultrasound evaluation of diaphragm function in mechanically ventilated patients: comparison to phrenic stimulation and prognostic implications. Thorax. 2017;72(9):811–818.

Poulard T, Bachasson D, Fossé Q, Niérat MC, Hogrel JY, Demoule A, et al. Poor correlation between diaphragm thickening fraction and transdiaphragmatic pressure. Anesthesiology. 2022;136(1):162–175.

Hermans G, Demoule A, Heunks L. How I perform diaphragmatic ultrasound in the intensive care unit. Intensive Care Med. 2024;50:2175–2178.

Truong D, Abo S, Whish-Wilson GA, D'Souza AN, Beach LJ, Mathur S, et al. Methodological and clinimetric evaluation of inspiratory respiratory muscle ultrasound in the critical care setting: a systematic review and meta-analysis. Crit Care Med. 2023;51(2):e24–e36.

Poddighe D, Van Hollebeke M, Choudhary YQ, Campos DR, Schaeffer MR, Verbakel JY, et al. Accuracy of respiratory muscle assessments to predict weaning outcomes. Crit Care. 2024;28(1):70.

Kheir M, Dong V, Roselli V, Mina B. The role of ultrasound in predicting non-invasive ventilation outcomes. Front Med (Lausanne). 2023;10:1233518.

Demoule A, Fossé Q, Mercat A, Bergum D, Virolle S, Bureau C, et al. Operator-independent continuous ultrasound monitoring of diaphragm excursion predicts successful weaning from mechanical ventilation: a prospective observational study. Crit Care. 2024;28(1):245.

Dres M, Demoule A. Monitoring diaphragm function in the ICU. Curr Opin Crit Care. 2020;26(1):18–25.

Bachasson D, Dres M, Niérat MC, Gennisson JL, Hogrel JY, Doorduin J, et al. Diaphragm shear modulus reflects transdiaphragmatic pressure during isovolumetric inspiratory efforts and ventilation against inspiratory loading. J Appl Physiol. 2019;126(3):699–707.

Shi ZH, de Vries H, de Grooth HJ, Jonkman AH, Zhang Y, Haaksma M, et al. Changes in respiratory muscle thickness during mechanical ventilation: focus on expiratory muscles. Anesthesiology. 2021;134:748–759.

Turton P, ALAidarous S, Welters I. A narrative review of diaphragm ultrasound to predict weaning from mechanical ventilation: where are we and where are we heading? Ultrasound J. 2019;11(1):2.

ดาวน์โหลด

เผยแพร่แล้ว

2025-04-01

รูปแบบการอ้างอิง

1.
Tangkitkiatkul N, Assavapokee T. Diaphragmatic ultrasound: A clinical perspective on diaphragm function in the ICU: Diaphragmatic ultrasound in critical care. Clin Crit Care [อินเทอร์เน็ต]. 1 เมษายน 2025 [อ้างถึง 6 ธันวาคม 2025];33(1):e250012. available at: https://he02.tci-thaijo.org/index.php/ccc/article/view/273360

ฉบับ

ปีที่ 33 (2025): January - December

ประเภทบทความ

บทความปริทัศน์

สัญญาอนุญาต

ลิขสิทธิ์ (c) 2025 สมาคมเวชบำบัดวิกฤตแห่งประเทศไทย

Creative Commons License

อนุญาตภายใต้เงื่อนไข Creative Commons Attribution-NonCommercial 4.0 International License.