Respiratory Insufficiency Clinical Trial
Official title:
Phase 4, Single Centre, Single Blinded,Prospective Randomised Cross Over Comparison on the Physiological Response of Post Extubation Intensive Care Patients to Non-invasive Ventilation Using Either Air O2 or Heliox21
This is a non-commercial study to explore the use of Heliox21 in a new patient cohort. The fundamental aim is to assess the therapeutic benefits of Heliox21 and practicalities of gas delivery in patients who require non-invasive ventilatory support following extubation on the Intensive Care Unit. Thus, the investigators aim to extend our knowledge of the potential role for Heliox21 in the post-extubation environment of the Intensive Care Unit. The purpose of this study is to answer a specific, clinically relevant question. That is whether Heliox21 helps to reduce the effort of breathing in the period following withdrawal of mechanically assisted ventilation in patients on the intensive care unit.
Failure to wean from mechanical ventilatory support occurs when the magnitude of respiratory
system loading exceeds its capacity to respond. Extubation success depends on the condition
being resolved or improved. Gas exchange capacity, respiratory muscle strength, laryngeal
function and cough strength, nutritional status and psychological state can all lead to
extubation failure. However, efforts to reduce the work of breathing might offer an
alternative strategy.
Studies recently carried out in both paediatric and adult populations disclose the serious
consequences of failed extubation, namely prolonged intensive care and hospital stays,
greater mortality rates and increased care costs.
Gas flow in an airway can be either laminar or turbulent. There needs to be a greater
pressure differential to drive a turbulent flow than a laminar one. Helium is an inert gas
with no systemic biological effects (at standard temperature and pressure).
The low density and viscosity of Helium means that its substitution for nitrogen in air
allows laminar flow to be maintained at much higher flow rates, and flow rates to be
maintained at much lower working pressures (5). As a result, the use of helium-oxygen
mixtures (Heliox21) has potential to reduce work of breathing, and also to limit dynamic gas
trapping through increased cavity emptying, and altered lung mechanics/ forced expiratory
pressures. As a result, Heliox21 has been used as a respiratory therapeutic bridge for over
30 years, with demonstrable advantage in the management of conditions including tracheal
obstruction and chronic obstructive pulmonary disease (COPD).
In theory, the use of Heliox21 should reduce work of breathing by improving the balance
between work demand and capacity during the process of weaning patients from mechanical
ventilation. In general studies of the use of Heliox21 after extubation have been limited.
Thus, we aim to extend our knowledge of the potential role for Heliox21 in the
post-extubation environment of the Intensive Care Unit. Whilst Heliox21 has generally been
administered through a simple face-mask (+/- rebreathing bag), the development of the
HAMILTON G5 AVEA ventilator now allows the accurate administration of Heliox21 (21%
helium/79% oxygen) with defined inspired fractional oxygen concentrations. This advent
offers the means to safely administer helium as an adjunct to non-invasive ventilatory
support.
Main inclusion criteria:
All patients with a predicted requirement for post extubation non-invasive ventilatory
support continuous positive airway pressure/bilevel positive airway pressure/noninvasive
ventilation(CPAP/BiPAP/NIV) will be eligible.
The primary outcome measure:
The difference between the frequency to tidal volume (f/VT) ratio* after four hours of
Heliox21 and the f/VT ratio after four hours of Air O2.
;
Allocation: Randomized, Endpoint Classification: Pharmacodynamics Study, Intervention Model: Crossover Assignment, Masking: Single Blind (Subject), Primary Purpose: Basic Science
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