Clinical Trial Details
— Status: Completed
Administrative data
| NCT number |
NCT03377270 |
| Other study ID # |
F2352-R |
| Secondary ID |
|
| Status |
Completed |
| Phase |
N/A
|
| First received |
|
| Last updated |
|
| Start date |
October 1, 2018 |
| Est. completion date |
December 31, 2023 |
Study information
| Verified date |
January 2024 |
| Source |
VA Office of Research and Development |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
Veterans following treatment of head and neck cancer can be left with lasting swallowing
impairment that may require diet alterations, need for feeding tubes, and risk of pneumonia.
The investigators' previous trial tested a new swallowing treatment approach to target
respiratory-swallow coordination. The results revealed improvements in respiratory-swallow
coordination and swallowing function. The goal of this study is to determine the impact and
durability of respiratory-swallow training (RST) on clinical outcomes necessary for eating,
drinking, health, and quality-of-life in Veterans with swallowing impairment following
treatment for head and neck cancer. A total of 50 participants will be recruited and randomly
assigned to the RST or standard of care.
Description:
Head and neck cancer (HNC) is a significant health issue in Veterans. In fact, Veterans have
up to a two-fold increase in the incidence of HNC when compared to the general population.
Further, they often suffer profound functional deficits associated with surgical ablation and
toxicity from medical treatments used to cure or control local disease. Dysphagia (swallowing
impairment) is common after such treatments, and has life-altering consequences [on health,
quality-of-life, the ability to eat and drink normally, cost, and burden of care]. Despite
important advancements in medical and surgical treatments that prolong survival, many
Veterans with HNC, are faced with chronic, intractable dysphagia resulting in persistent
drastic alterations in diet, the need for feeding tubes, and increased risk for aspiration
pneumonia - a life threatening infection. The investigators must devote research and clinical
efforts to mitigate these devastating impairments because the investigators' current
rehabilitative intervention options are severely limited. As such, and in keeping with the
VHA's Blueprint for Excellence Transformative Actions, the need for the development of
effective swallowing interventions that show potential for rapid translation to clinical
practice is imperative.
Coordination of respiration and swallowing is an essential element of airway protection
during swallowing and facilitates many critical aspects of swallowing physiology. This key,
coordinative event is significantly disrupted in patients with dysphagia following medical
and surgical treatments for HNC. The investigators' previous trial in patients with severe
and resistant dysphagia after cancer treatment and traditional swallowing therapy showed that
targeting and recalibrating respiratory-swallow phase patterning directly through an
innovative respiratory-swallow training (RST) method significantly improved aspects of
swallowing physiology crucial for airway protection and clearance of ingested materials
through the pharynx. These exciting new results led us to consider an expanded study with
refined methods and a home practice (HP) component that will extend beyond physiologic
efficacy and include more rigorous assessments of the clinical impact of RST. As with the
investigators' preliminary trial, the investigators' prediction is that these innovative
intervention methods will not only improve swallowing physiology and quality-of-life, but
will also result in significant functional improvements in every day eating and drinking in
Veterans with chronic, severe dysphagia that has been otherwise refractory to traditional
swallowing intervention(s). The benefit of RST training is that it is a simple,
straightforward method for patients to easily learn, and, when combined with the HP program,
it is designed to facilitate patient compliance and maintenance of intervention effects. The
investigators are also using commercially available and simple to use recording and analysis
hardware and software that can easily be expanded to mobile technology for more widespread
application to the many thousands of patients with dysphagia consequent to HNC.
A total of 50 participants will be recruited with the goal of 40 participants enrolled.
Participants will be randomly assigned 1:1 to either RST (intervention arm) or no active
treatment (control arm), which is considered standard of care in this patient population. The
participants in the control arm will have no active treatment for 4 weeks and will then
participate in RST as a cross-over design. Data obtained will be used to evaluate clinical
efficacy and durability The primary efficacy endpoint is physiologic function metrics of the
oropharyngeal swallow, and the secondary endpoint will be respiratory-swallow phase
patterning. We will also elaborate on the impact of RST by detailing the physiological,
airway protective, and morphometric changes that occur. We will use reproducible, reliable,
and validated metrics that include the Modified Barium Swallow Impairment Profile,
Penetration-Aspiration Scale, and Computational Analysis of Swallowing Mechanics to
distinguish the mechanistic effects of RST. Further, adherence to a novel HP component using
self-guided practice will be introduced and tested for feasibility and contribution to the
degree and durability of the RST intervention effect.
The goal of this current study is to extend the investigator's preliminary trial that yielded
compelling physiologic changes with potential to improve the impact and durability of RST on
clinical outcomes essential for eating, drinking, health, and quality-of-life. The
investigators' overarching goal is to provide two parallel tracks of knowledge generation: 1)
provide immediate clinical translation of experimental findings to improve the lives of
Veterans, and 2) drive model generation on fundamental mechanisms of motor coordination.
Basic knowledge will drive clinical application and vice-a-versa. As such, this is an ideal
experimental and clinical context that will fuel knowledge generation in this highly
significant area of science and clinical practice.
