Abstract
BackgroundSurges of COVID-19 infections have led to insufficient supply of mechanical ventilators (MV), resulting in rationing of MV care. In-parallel, co-mechanical ventilation (Co-MV) of multiple patients is a potential solution. However, due to lack of testing, there is currently no means to match ventilation requirements or patients, with no guidelines to date. In this research, we have developed a model-based method for patient matching for pressure control mode MV.MethodsThe model-based method uses a single-compartment lung model (SCM) to simulate the resultant tidal volume of patient pairs at a set ventilation setting. If both patients meet specified safe ventilation criteria under similar ventilation settings, the actual mechanical ventilator settings for Co-MV are determined via simulation using a double-compartment lung model (DCM). This method allows clinicians to analyse Co-MV in silico, before clinical implementation.ResultsThe proposed method demonstrates successful patient matching and MV setting in a model-based simulation as well as good discrimination to avoid mismatched patient pairs. The pairing process is based on model-based, patient-specific respiratory mechanics identified from measured data to provide useful information for guiding care. Specifically, the matching is performed via estimation of MV delivered tidal volume (mL/kg) based on patient-specific respiratory mechanics. This information can provide insights for the clinicians to evaluate the subsequent effects of Co-MV. In addition, it was also found that Co-MV patients with highly restrictive respiratory mechanics and obese patients must be performed with extra care.ConclusionThis approach allows clinicians to analyse patient matching in a virtual environment without patient risk. The approach is tested in simulation, but the results justify the necessary clinical validation in human trials.
Highlights
Surges of COVID-19 infections have led to insufficient supply of mechanical ventilators (MV), resulting in rationing of MV care
We present a model-based method to help guide clinical decisionmaking in matching patients for in-parallel co-mechanical ventilation (Co-MV), at least over short periods of time before patient state changes
Pairing patient selection The simulated tidal volume obtained from the single-compartment model (SCM) (refer to Methodology Eq (1)) is presented in resistance–elastance tidal volume contour plots (R–E plot) in Fig. 1a–c, showing the distribution of VT based on different respiratory mechanics using the MV settings shown in Table 3 of the methodology section
Summary
Surges of COVID-19 infections have led to insufficient supply of mechanical ventilators (MV), resulting in rationing of MV care. Due to lack of testing, there is currently no means to match ventilation requirements or patients, with no guidelines to date. Surges of COVID-19 infections have prompted extreme demand for mechanical ventilation (MV). Up to 30% of COVID-19 hospitalised patients are likely to require ventilator support [1], creating severe demand spikes. The volume of patients susceptible to COVID-19 is much greater than the number of ventilators available in most hospitals. Long lengths of MV treatment means hospitals may see shortfalls in ventilators, leading to rationing of care and significant clinical stress, including triaging patients to receive MV care preferentially to others [4]
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