Abstract
Background
In this narrative review we aimed to explore outcomes of extracorporeal life support (extracorporeal membrane oxygenation (ECMO) and extracorporeal carbon dioxide removal (ECCO2R)) as rescue therapy in patients with status asthmaticus requiring mechanical ventilation.
Methods
Multiple databases were searched for studies fulfilling inclusion criteria. Articles reporting mortality and complications of ECMO and ECCO2R in mechanically ventilated patients with acute severe asthma (ASA) were included. Pooled estimates of mortality and complications were obtained by fitting Poisson’s normal modeling.
Results
Six retrospective studies fulfilled inclusion criteria thus yielding a pooled mortality rate of 17% (13–20%), pooled risk of bleeding of 22% (7–37%), mechanical complications in 26% (21–31%), infection in 8% (0–21%) and pneumothorax rate 4% (2–6%).
Conclusion
Our review identified a variation between institutions in the initiation of ECMO and ECCO2R in patients with status asthmaticus and discrepancy in the severity of illness at the time of cannulation. Despite that, mortality in these studies was relatively low with some studies reporting no mortality which could be attributed to selection bias. While ECMO and ECCO2R use in severe asthma patients is associated with complication risks, further studies exploring the use of ECMO and ECCO2R with mechanical ventilation are required to identify patients with favorable risk benefit ratio.
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Introduction
Status asthmaticus/acute severe asthma (ASA) is characterized by severe expiratory air flow limitation leading to hypercapnic and hypoxic respiratory failure and carries a mortality rate as high as 7% despite mechanical ventilation [1]. Extracorporeal membrane oxygenation (ECMO) and extracorporeal carbon dioxide removal (ECCO2R) can act as rescue therapies in the subset of patients in whom severe hyperinflation persists, potentially causing barotrauma and hemodynamic instability.
The underlying rationale for the use of these extracorporeal therapies is usually as a bridge to either lung recovery by optimizing lung mechanics and allowing ultra-lung protective ventilation without impairing gas exchange or as a bridge to lung transplant if recovery is unlikely. Common indications for these therapies are acute respiratory distress syndrome (ARDS) or interstitial lung disease (ILD) [2], however, evidence to support its role in ASA is limited to a few case studies and retrospective registries [3].
We reviewed the literature to generate pooled estimates of mortality and complications of ECMO and ECCO2R therapy in patients with ASA on mechanical ventilation (Figs. 1 and 2).
Methods
Design
We systematically searched for publications reporting the use of ECMO and/or ECCO2R in ASA. We searched electronic databases Pubmed and EMBASE for studies published before March 2023. PubMed was queried using MeSH (Status Asthmaticus) and ECMO. Embase was queried using the EmTree term {(“Asthma” OR its synonyms)} AND {(“Extracorporeal membrane oxygenation” OR its synonyms)}. Similarly, for ECCO2R studies MESH terms (Status Asthmaticus) and ECCO2R. Embase was searched using EmTree term {(“Asthma” OR its synonyms)} AND {(“ECCO2R” OR its synonyms)}. Search results were exported and combined. After duplicate articles were removed, titles and abstracts of the remaining were reviewed and selected for review if deemed relevant to the study. Full-text manuscripts of these articles were reviewed, and selection was based on inclusion and exclusion criteria.
Inclusion criteria were reports of adult patients with status asthmaticus managed with ECMO and/or ECCO2R, while exclusion criteria included review articles, pediatric studies, and articles that were published in a language other than English. Additionally, for ECMO studies inclusion was limited to case series or registry data. Two independent authors assessed eligibility criteria and abstract selection. A full-text review was done for studies that met inclusion criteria.
We performed a review of the literature to estimate pooled mortality and complications using Poisson’s normal modeling.
Results
Five ECMO studies and eight ECCO2R studies reporting a total of 494 patients were identified (Table 1). All the ECMO studies were retrospective reviews [1, 4,5,6,7] and the ECCO2R studies were mostly case reports, with only one being a case series [3, 8,9,10,11,12,13,14,15]. After exclusions, five ECMO studies and one ECCO2R study were included in total. Most studies included utilized VV circuits. One study used both VV and VA ECMO in status asthmaticus [5]. The six studies included showed pooled mortality estimates 13.7% (95% CI: 9.5–19.8%).
Complications related to mechanical factors such as oxygenator malfunction, circuit clots, and cannula problems were noted in 21.4% (95% CI: 1.6–28.8%) of patients. Bleeding occurred in 15.5% (95% CI: 5.5–43.5%) and infections were seen in 2.6% (95% CI: 0.2–30%) of patients, the majority of which were cannulation site or ventilator-associated infections. Pneumothorax occurring during ECLS was noted in 6.4% (95% CI: 2.8–14.6%) of patients.
Discussion
This review offers an analysis of the utilization of ECMO and ECCO2R in the management of patients with status asthmaticus who require mechanical ventilation. The findings of this review provide insights into the associated mortality rates and the factors that may influence patient outcomes. Several critical points emerge that warrant discussion (Tables 2 and 3).
Firstly, the review underscores the considerable variability in mortality rates among status asthmaticus patients treated with ECMO or ECCO2R. The pooled mortality rate of 13.7% is a notable finding, but it is important to recognize that the included studies demonstrated a wide range of mortality rates from 0 to 26%. This substantial variation highlights the need for a more nuanced understanding of the factors contributing to patient outcomes within this population. A significant limitation observed in the studies analyzed is the scarcity of comprehensive data on pre-ECMO lung mechanics. Parameters such as airway pressures, intrinsic positive end-expiratory pressure, tidal volumes, and driving pressures, which are central to the pathophysiology of asthma and its management, were not consistently reported. The absence of these crucial data complicates the interpretation of outcomes of ECMO and limits selection of patients who would benefit from escalation to ECMO vis-à-vis mechanical ventilation.
Despite the lack of detailed data on lung mechanics, a multivariate analysis by Yeo et al. [1] identifies PEEP as the pre-ECMO variable associated with post-ECMO mortality. This emphasizes the potential importance of PEEP levels as a predictive factor in risk assessment and treatment planning for patients with status asthmaticus. With regard to complications while on ECMO, the relative risk of mortality increased threefold with cannulation site bleeding (OR, 2.94, 95% CI, 1.35–6.41, p = 0.007), sixfold with pulmonary bleeding (OR, 5.79, 95% CI, 1.92–17.44, p = 0.002) and fourfold with central nervous system bleeding (OR, 3.93, 95% CI, 1.19–12.99, p = 0.025) [1]. Bleeding occurred in 28% of patients in the ELSO registry (95% CI 23–34%) and varied across other studies from 0 to 37%. ELSO data also showed higher mortality with multiorgan damage, which may result from hemodynamic consequences of severe hyperinflation, ECMO-related bleeding, or concurrent sepsis. Fourteen of 127 patients started on VV ECMO but switched to VA ECMO, while 5 patients required VA ECMO as the initial therapeutic modality. Compared to ECMO, an ECCO2R study by Bromberger et al. [3] reported 15% bleeding and 100% survival. This may be due to the small cannula and blood flow requirements for ECCO2R and, therefore, may be a safer alternative and thus should be further investigated. Surprisingly, severe respiratory acidosis and elevated peak airway pressures, which are often indicative of the severity of asthma, were not found to be associated with post-ECMO mortality in the ELSO database [1]. This discrepancy suggests that additional factors beyond these baseline physiological parameters may be influencing mortality in status asthmaticus patients undergoing ECMO or ECCO2R.
It is essential to acknowledge the limitations of this review, which include significant heterogeneity among the included studies and potential selection biases. The absence of standardized criteria for ECMO initiation and the lack of randomized comparisons with mechanically ventilated patients present challenges in drawing definitive therapeutic decisions.
In conclusion, this review suggests that ECMO and ECCO2R may reduce mortality in mechanically ventilated status asthmaticus patients compared to historically reported mortality rates with mechanical ventilation alone. However, these findings should be interpreted cautiously in light of the limitations inherent in the included studies. To address these limitations and provide more robust evidence, future research should focus on standardized criteria for ECMO initiation, direct comparisons with mechanically ventilated patients, and the development of well-designed prospective studies and registries that can correlate pre-ECMO lung mechanics with post-ECMO outcomes. Such efforts will be instrumental in identifying the status asthmaticus patient population that can benefit most from these potentially life-saving, albeit invasive, modalities.
References
Yeo HJ, Kim D, Jeon D et al (2017) Extracorporeal membrane oxygenation for life-threatening asthma refractory to mechanical ventilation: analysis of the Extracorporeal Life Support Organization registry. Crit Care 21(1):297. https://doi.org/10.1186/s13054-017-1886-8
Hoopes CW, Kukreja J, Golden J et al (2013) Extracorporeal membrane oxygenation as a bridge to pulmonary transplantation. J Thorac Cardiovasc Surg 145(3):862–7
Bromberger BJ, Agerstrand C, Abrams D et al (2020) Extracorporeal carbon dioxide removal in the treatment of status asthmaticus. Crit Care Med 48(12):E1226–E1231. https://doi.org/10.1097/CCM.0000000000004645
Di Lascio G, Prifti E, Messai E et al (2017) Extracorporeal membrane oxygenation support for life-threatening acute severe status asthmaticus. Perfusion (United Kingdom) 32:157–163. https://doi.org/10.1177/0267659116670481
Zakrajsek JK, Min SJ, Ho PM et al (2022) Extracorporeal membrane oxygenation for refractory asthma exacerbations with respiratory failure. Chest. https://doi.org/10.1016/j.chest.2022.09.029
Patel S, Shah NM, Malhotra AM et al (2020) Inflammatory and microbiological associations with near-fatal asthma requiring extracorporeal membrane oxygenation. ERJ Open Res 6(1):00267–02019. https://doi.org/10.1183/23120541.00267-2019
Mikkelsen ME, Woo YJ, Sager JS et al (2009) Outcomes using extracorporeal life support for adult respiratory failure due to status asthmaticus. ASAIO J 55(1):47–52. https://doi.org/10.1097/MAT.0b013e3181901ea5
Jiang C, Galaydick J, Fernandez H, Caronia J (2017) Adjunctive extracorporeal carbon dioxide removal in refractory status asthmaticus. BMJ Case Rep 2017:bcr2017220693. https://doi.org/10.1136/bcr-2017-220693
Mohammadian M, Mowafy A, Dikhtyar A (2022) Successful utilization of life-saving extra-corporeal CO2 removal in catastrophic status asthmaticus: a case report. J Commun Hosp Intern Med Perspect 12(3):61–65. https://doi.org/10.55729/2000-9666.1056
Schneider JR, Kulason KO, White T et al (2017) Management of tiny meningiomas: to resect or not resect. Cureus. https://doi.org/10.7759/cureus.1514
Pavot A, Mallat J, Vangrunderbeeck N et al (2017) Rescue therapeutic strategy combining ultra-protective mechanical ventilation with extracorporeal CO2 removal membrane in near-fatal asthma with severe pulmonary barotraumas. Medicine (United States) 96(41):e8248. https://doi.org/10.1097/MD.0000000000008248
Tiruvoipati R, Haji K, Gupta S et al (2016) Low-flow veno-venous extracorporeal carbon dioxide removal in the management of severe status asthmatics: a case report. Clin Respir J 10(5):653–656. https://doi.org/10.1111/crj.12252
De Rosa S, Golino G, Ronco C (2020) Extracorporeal carbon dioxide removal in heart-beating donor with acute severe asthma: a case report. Respir Med Case Rep 29:101010. https://doi.org/10.1016/j.rmcr.2020.101010
Esposito R, Esposito I, Imperatore F et al (2021) Decapneization as supportive therapy for the treatment of status asthmaticus: a case report. J Med Case Rep 15(1):200. https://doi.org/10.1186/s13256-021-02689-6
Brenner K, Abrams DC, Agerstrand CL, Brodie D (2014) Extracorporeal carbon dioxide removal for refractory status asthmaticus: experience in distinct exacerbation phenotypes. Perfusion (United Kingdom) 29(1):26–28. https://doi.org/10.1177/0267659113494964
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NE—Data collection, manuscript preparation. SB—Data collection, manuscript preparation, data interpretation, study design. DO—manuscript preparation,data interpretation , study design. MR—manuscript preparation, data interpretation, study design. MB—manuscript preparation, data interpretation , study design. AM—manuscript preparation, data interpretation, study design.
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Ekechukwu, N., Batra, S., Orsi, D. et al. Outcomes of Extracorporeal Life Support (ECLS) in Acute Severe Asthma: A Narrative Review. Lung 202, 91–96 (2024). https://doi.org/10.1007/s00408-023-00667-x
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DOI: https://doi.org/10.1007/s00408-023-00667-x