Clinical Trial Details
— Status: Not yet recruiting
Administrative data
| NCT number |
NCT06244160 |
| Other study ID # |
8713 |
| Secondary ID |
|
| Status |
Not yet recruiting |
| Phase |
N/A
|
| First received |
|
| Last updated |
|
| Start date |
March 2024 |
| Est. completion date |
June 2025 |
Study information
| Verified date |
December 2023 |
| Source |
Cardiff and Vale University Health Board |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
The goal of this feasibility study is to learn about the ability to use a different form of
oxygen therapy (known as high flow oxygen therapy) in patients who have a spinal cord injury
in the upper back or neck.
The main questions it aims to answer are:
1. Is it possible to recruit patients to the study
2. It is possible to follow the protocol in its current format
3. What is the impact on those receiving the intervention.
Participants will be randomised to receive either standard care or high flow oxygen therapy
for 10 days following inclusion.
Description:
In the UK, the annual incidence of acute spinal cord injury (SCI) is 19 new cases per million
population, contributing to an estimated 50,000 people who are currently living with SCI1.
Trauma is the most common cause of SCI, predominantly from falls and road traffic accidents.
Damage to the spinal cord occurs both at the time of injury (primary) and in its aftermath
(secondary). Effectively treating and preventing secondary cord injury, and managing
complications associated with SCI, can make a significant improvement to patient outcomes.
Respiratory dysfunction is one of the most common medical complications, as well as the
leading cause of reduced Quality of Life (QoL) and mortality, with literature indicating that
67% of individuals with a spinal cord injury present with respiratory complications in the
acute stage.
The most common respiratory complications are: 1) atelectasis; 2) pneumonia; and 3)
respiratory failure. A retrospective review of the patients with acute traumatic spinal cord
injuries at C5-T5 level showed a higher prevalence of respiratory complications during the
initial hospitalisation just after the injury and suggests the presence of previous
respiratory disease, complete motor impairment
(AISA A-B) and coexistent thoracic trauma are a predictor of respiratory complications.
Individuals with cervical and higher thoracic spinal cord injuries are more likely to develop
respiratory complications, primarily due to diaphragm impairment.
Due to the above, patients have increased rates of infection, poor sputum clearance and
inadequate humidification. These complications lead to prolonged admissions, admission to
intensive care and considerable healthcare related costs. As such it is essential to develop
new management protocols to reduce the occurrence of pulmonary complications
AIRVOTM (a form of non-invasive high flow oxygen therapy, HFOT), which delivers high flow
heated and humidified oxygen and air via nasal cannula at a prescribed fraction of inspired
oxygen and a maximum flow of 60 L/min, is an attractive alternative to conventional oxygen
therapy. Previous studies have shown that HFOT therapy generates a flow-dependent positive
airway pressure and improves oxygenation by increasing end-expiratory lung volume, thus
suggesting a possible alveolar recruitment associated with high-flow therapy. Although widely
used in other clinical areas across the NHS, HFOT delivered via the AIRVOTM system has yet to
be evaluated in the spinal cord injury population.
Furthermore, HFNC oxygen therapy has been shown to improved swallowing function in a patient
with dysphagia associated with respiratory-muscle paralysis following a SCI, further reducing
the risk of aspiration and subsequent infection. It has been hypothesised that the use of
HFNC prolongs the patient's apnoea tolerance time during swallowing and hence improves the
timing of swallowing.
This study aims to explore the feasibility of using HFOT (delivered via AIRVOTM) therapy and
compare to current treatment (conventional oxygen and humidification administration) for
patients who have a spinal cord injury. The secondary outcomes will explore any provisional
impacts on length of stay, requirement of admission to intensive care, antibiotic use, and
physiotherapy requirements including use of cough augmentation e.g., Mechanical Insufflation
- Exsufflation.
The results of this proof-of-concept study will be used to further develop local protocols
and develop a multi-site research protocol for grant application.
