COVID-19 Clinical Trial
Official title:
Trans Thoracic Manipulation of Ventilation/Perfusion: the V/Q System
The purpose of this pilot study is to measure the impact of non-invasive pneumatic manipulation of transthoracic pressure on oxygenation in patients with Acute Respiratory Distress Syndrome (ARDS) due to Coronavirus Disease 2019 (COVID 19) who are on mechanical ventilator support. This will be achieved by a pneumatic Vest placed around the chest wall of consenting patients who meet inclusion criteria. The Vest is essentially a non-invasive segmental device placed upon the anterior and posterior right and left aspects of the chest wall. The researchers have the ability to inflate and deflate the chambers of the Vest to achieve preset pressures as determined by the protocol and observe the patient's physiological response. Participants will have up to four hours of intervention with the study intervention, followed by 1 hour of post-intervention observation.
Since the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) surfaced at the end of 2019, transmission has been rapid and particularly lethal. Death is most commonly due to ARDS which has been quoted as occurring in up to 42% of patients. The rapid lethality of the COVID-19 has emphasized the limitations of currently available therapies in the Intensive Care Unit. Traditional mechanical ventilator support, the use of inhaled and systemic pulmonary vasodilatory drugs, invasive monitoring, proning and extracorporeal membrane oxygenation (ECMO) to name a few, are all voracious consumers of resources and have culminated in at least $27 billion expenditure per annum in the US alone pre-virus. This fiscal burden has been far exceeded in the current pandemic. With patient numbers growing exponentially hospital resources are being rapidly surpassed with ICU's overflowing which is exacerbated by a national shortage of mechanical ventilators. New techniques are demanded to both treat patients and identify responders if medical resources are to be optimized. Traditionally, patients present to the ICU and are intubated once a threshold of respiratory distress and failure is reached. Various maneuvers are initiated to optimize oxygen uptake by the lungs to prevent the onset of organ failure and death. At present, there are no effective bridging technologies providing intervention between intubation to these costly more complex techniques which are almost solely the purview of more technologically adept tertiary academic centers. Clinical practice is often empiric and driven by trial and error in this emerging disease, largely because there are presently no clinical tests to provide clinicians with any clear indication as to which and whether patients will respond to these more costly difficult procedures. This is in part due to the underlying pathophysiology of ARDS where there is a further "uncoupling" between bloodflow,(and hence uptake of oxygen), and healthy lung units which allow transfer and absorption of oxygen because of the damage to the alveoli. This phenomenon shifts physiologic Ventilation/Perfusion mismatch (V/Q mismatch) into a pathologic state. Since this phenomenon is worsened by diseased tissue, it is diffuse but, not uniform and response to therapy is difficult to determine based on current modalities. Thus, many therapies are therefore instituted purely by trial and error. Determination of appropriate candidates for advanced therapeutic techniques is critically important as they are not without risk and resource consumption. Patients who are profoundly hypoxic and fail traditional supine position support are "flipped" onto their abdomen to assume the prone position, a technique known as proning. This requires a team of at least 6 nurses, respiratory therapists and physicians who attempt to ensure that there are no adverse events. Such complications contribute to the morbidity and potential mortality of the maneuver and include accidental extubation (displacement of the endotracheal tube out of the trachea), disconnection from the ventilator, transient worsening hypoxia, hemodynamic instability, dislodgement of central and peripheral venous catheters to name a few. This is further compounded by the need for greater sedation which is itself associated with hemodynamic instability, aspiration, altered conscious state and an increase in acuity of monitoring making it much more labor intensive and expensive. The researchers propose the development of a ventilation/ perfusion system, (V/Q System), a pneumatically driven device which can improve oxygenation by adjusting trans-thoracic pressure gradients. This is a new field of lung physiology which is only just being explored. However, the concept of noninvasive manipulation of lung mechanics and ventilation/perfusion mismatch is profoundly impactful as it potentially introduces a comparatively safe technique to address an otherwise fatal failure of lung function. The V/Q System represents an effort to optimize lung function without the risk of patient proning. If successful, improved oxygenation associated with the device has multiple clinical and economic ramifications. Initially, the device may obviate the need to more costly, time consuming and potentially morbid procedures. Future research may include investigating if the device may be utilized to identify both "responders" and "non-responders" to advanced therapeutic techniques and can help eliminate the "trial and error" approach in managing complex ARDS patients. The study procedures will take up to 5 hours to complete for each participant enrolled. During this time, the participant will be sedated per standard ICU protocol. Each study participant will have up to 4 hours of intervention with the study V/Q System, followed by 1 hour of post-intervention observation. ;
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