NCT05910996

Brief Summary

In December 2019, cases of a novel lung disease, later referred to as COVID-19, were first reported in China. The virus SARS-CoV-2 was identified as the causative agent. Due to the sharp increase in the number of cases worldwide, a pandemic outbreak was declared by WHO in March 2020. The infection presents with a broad clinical spectrum. Frequently, there is respiratory infection with fever (80%), dry cough (56%), fatigue (22%), and muscle pain (7%), but completely asymptomatic infection is also possible. Severe courses may be associated with pneumonia resulting in acute respiratory distress syndrome (ARDS) requiring intensive care. In the context of intensive care therapy, it is sometimes necessary to use extracorporeal organ replacement procedures due to increasing lung failure. In this context, extracorporeal membrane oxygenation (ECMO) was used during the pandemic. With this procedure it is possible to replace on the one hand the oxygenation and ventilation function of the lung and on the other hand additionally the pumping function of the heart, if configured appropriately. The switch from venovenous (vv) configuration, with which only lung function is replaced, to venoarterial (va) configuration (lung function and heart function are replaced) is made in cases of intensive care necessity, e.g., increasing decompensation of heart failure. Heart failure manifests itself, among other things, through insufficient pumping function of the heart muscle. This results in an undersupply of peripheral tissues with arterial blood, leading to increased anaerobic glycolysis. Lactate and B-type natriuretic peptide (BNP) are used as surrogate parameters of this undersupply. Increased oxygen depletion from oxygen available in arterial blood is detected by the surrogate parameter central venous oxygen saturation (ScvO2). In addition to ECMO, drug interventions are also used to improve cardiorespiratory performance at various doses. As described by Suwalski et al, there may be a relationship between this drug therapy and conversion from vv to va ECMO. Currently, few studies exist on conversion from vv-ECMO to va-ECMO. In this regard, Suwalski et al. describe a population that experienced any ECMO therapy for a maximum period of 16.5 ± 10.0 days, with the group with conversion receiving 17.8 ± 10.5 days of therapy and the group without conversion receiving 16.4 ± 9.4 days. The need for conversion to va-ECMO requires additional expertise that is not readily available despite acute intensive care transport readiness. It is likely that by predicting the need for conversion, early logistical planning for transfer to an appropriate center with experience and equipment can occur, or if transfer is not necessary, staffing and equipment preparation can occur earlier and more safely. As described by Falk et al, planned and prepared conversion can also be expected to have an impact on patient\* survival. The aim of this retrospective, exploratory data analysis is to predict conversion before placement of vv-ECMO within 30 days from ICU care from vv-ECMO to va-ECMO in COVID-19 patients.

Trial Health

87
On Track

Trial Health Score

Automated assessment based on enrollment pace, timeline, and geographic reach

Enrollment
99

participants targeted

Target at P50-P75 for all trials

Timeline
Completed

Started Sep 2023

Shorter than P25 for all trials

Geographic Reach
1 country

1 active site

Status
completed

Health score is calculated from publicly available data and should be used for screening purposes only.

Trial Relationships

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Study Timeline

Key milestones and dates

First Submitted

Initial submission to the registry

June 15, 2023

Completed
5 days until next milestone

First Posted

Study publicly available on registry

June 20, 2023

Completed
3 months until next milestone

Study Start

First participant enrolled

September 30, 2023

Completed
3 months until next milestone

Primary Completion

Last participant's last visit for primary outcome

December 31, 2023

Completed
Same day until next milestone

Study Completion

Last participant's last visit for all outcomes

December 31, 2023

Completed
Last Updated

March 6, 2024

Status Verified

March 1, 2024

Enrollment Period

3 months

First QC Date

June 15, 2023

Last Update Submit

March 4, 2024

Conditions

ARDS Due to Disease Caused by SARS Co-V-2

Outcome Measures

Primary Outcomes (1)

  • Confusion Matrix

    Confusion Matrix for Classification of Conversion from vv-ECMO to va-ECMO

    2019-12-01 to 2023-07-01

Secondary Outcomes (1)

  • Mortality

    2019-12-01 to 2023-07-01

Study Arms (2)

Conversion from vv-ECMO to va-ECMO Positive

Procedure: Conversion from vv-ECMO to va-ECMO

Conversion from vv-ECMO to va-ECMO Negative

Interventions

Conversion from vv-ECMO to va-ECMOPROCEDURE

Conversion from vv-ECMO to va-ECMO

Conversion from vv-ECMO to va-ECMO Positive

Eligibility Criteria

Age18 Years+
Sexall
Healthy VolunteersNo
Age GroupsAdult (18-64), Older Adult (65+)
Sampling MethodNon-Probability Sample
Study Population

As described in the inclusion criteria.

You may qualify if:

  • COVID-19 positive patients aged 18 years or older that were treated in intensive care at the study center between 2019-12-01 and 2023-04-15.

You may not qualify if:

  • Patients in which ECMO therapy was started outside of the study center.

Contact the study team to confirm eligibility.

Sponsors & Collaborators

Study Sites (1)

Kepler University Hospital

Linz, Upper Austria, 4020, Austria

Location

Study Design

Study Type
observational
Observational Model
COHORT
Time Perspective
RETROSPECTIVE
Sponsor Type
OTHER
Responsible Party
SPONSOR

Study Record Dates

First Submitted

June 15, 2023

First Posted

June 20, 2023

Study Start

September 30, 2023

Primary Completion

December 31, 2023

Study Completion

December 31, 2023

Last Updated

March 6, 2024

Record last verified: 2024-03

Data Sharing

IPD Sharing
Will not share

Locations

AU(1)