Neuromuscular Diseases Clinical Trial
Official title:
A Comparison of Three Methods for Improving Expiratory Cough Flow and Lung Volume in Children With Neuromuscular Diseases
| Verified date | September 2017 |
| Source | University of British Columbia |
| Contact | n/a |
| Is FDA regulated | No |
| Health authority | |
| Study type | Interventional |
Children with neuromuscular diseases (NMDs) and weak chest muscles suffer frequent chest
infections, hospital admissions and reduced life expectancy. Physiotherapy is widely used but
there is limited research data to support choice of therapy. The investigators will study the
clinical value of the three most commonly used chest physiotherapy devices in children with
NMD's by measuring lung function tests before and after each of the three treatments. This is
a pilot study. The best device will be selected for a long term study of early physiotherapy
intervention in children with NMDs.
The treatments that have been developed to break the cycle of decreasing lung volume and poor
secretion clearance, in children with NMDs, are all based on the same logical but unproved
theory of treatment:
1. The loss of lung volume is reversed by applying positive pressure to the lungs via a
face mask - literally reinflating the lungs with pressure. The three devices the
investigators will test all provide positive pressure assistance during the inspiratory
phase.
2. The temporarily increased lung volume then allows higher expiratory flow rates which
helps to clear secretions. The expiratory phase is assisted by manual chest compression
or, in one device, helped by application of negative pressure during exhalation.
All three devices that the investigators wish to compare follow this two-step approach. The
hypotheses behind our study are:
1. Treatments combining positive pressure inhalation with assisted coughing during
exhalation, will produce measurable improvements in lung volume and expiratory cough
flow rates when tested in children with NMDs.
2. One of the three devices tested will be superior to the others. This will provide
research-based justification for a long term study of the value of early intervention in
children with NMDs.
| Status | Completed |
| Enrollment | 40 |
| Est. completion date | February 2015 |
| Est. primary completion date | November 2014 |
| Accepts healthy volunteers | No |
| Gender | All |
| Age group | 5 Years and older |
| Eligibility |
Inclusion Criteria: - Child must have neuromuscular disease (of any diagnostic type) - Child and family must be enrolled in the NMD clinic at Children's hospital - Child must be old enough and cognitively able to perform lung function tests(usually about 5 to 6 years old) Exclusion Criteria: - Child or guardian refuses consent for the study - Child has a tracheostomy - Child is too young or cognitively unable to perform lung function tests - Child has a facial asymmetry that prevents a good seal with the mask |
| Country | Name | City | State |
|---|---|---|---|
| Canada | BC's Children's Hospital | Vancouver | British Columbia |
| Lead Sponsor | Collaborator |
|---|---|
| University of British Columbia |
Canada,
Chatwin M, Ross E, Hart N, Nickol AH, Polkey MI, Simonds AK. Cough augmentation with mechanical insufflation/exsufflation in patients with neuromuscular weakness. Eur Respir J. 2003 Mar;21(3):502-8. — View Citation
Finder JD, Birnkrant D, Carl J, Farber HJ, Gozal D, Iannaccone ST, Kovesi T, Kravitz RM, Panitch H, Schramm C, Schroth M, Sharma G, Sievers L, Silvestri JM, Sterni L; American Thoracic Society. Respiratory care of the patient with Duchenne muscular dystrophy: ATS consensus statement. Am J Respir Crit Care Med. 2004 Aug 15;170(4):456-65. Review. — View Citation
Homnick DN. Mechanical insufflation-exsufflation for airway mucus clearance. Respir Care. 2007 Oct;52(10):1296-305; discussion 1306-7. Review. Erratum in: Respir Care. 2011 Jun;56(6):888. — View Citation
Hull J, Aniapravan R, Chan E, Chatwin M, Forton J, Gallagher J, Gibson N, Gordon J, Hughes I, McCulloch R, Russell RR, Simonds A. British Thoracic Society guideline for respiratory management of children with neuromuscular weakness. Thorax. 2012 Jul;67 Suppl 1:i1-40. doi: 10.1136/thoraxjnl-2012-201964. — View Citation
Jenkins HM, Stocki A, Kriellaars D, Pasterkamp H. Breath stacking in children with neuromuscular disorders. Pediatr Pulmonol. 2014 Jun;49(6):544-53. doi: 10.1002/ppul.22865. Epub 2013 Aug 16. — View Citation
McCool FD, Rosen MJ. Nonpharmacologic airway clearance therapies: ACCP evidence-based clinical practice guidelines. Chest. 2006 Jan;129(1 Suppl):250S-259S. doi: 10.1378/chest.129.1_suppl.250S. Review. — View Citation
McIlwaine MP, Alarie N, Davidson GF, Lands LC, Ratjen F, Milner R, Owen B, Agnew JL. Long-term multicentre randomised controlled study of high frequency chest wall oscillation versus positive expiratory pressure mask in cystic fibrosis. Thorax. 2013 Aug;68(8):746-51. doi: 10.1136/thoraxjnl-2012-202915. Epub 2013 Feb 13. — View Citation
Miske LJ, Hickey EM, Kolb SM, Weiner DJ, Panitch HB. Use of the mechanical in-exsufflator in pediatric patients with neuromuscular disease and impaired cough. Chest. 2004 Apr;125(4):1406-12. — View Citation
Reardon CC, Christiansen D, Barnett ED, Cabral HJ. Intrapulmonary percussive ventilation vs incentive spirometry for children with neuromuscular disease. Arch Pediatr Adolesc Med. 2005 Jun;159(6):526-31. — View Citation
Suárez AA, Pessolano FA, Monteiro SG, Ferreyra G, Capria ME, Mesa L, Dubrovsky A, De Vito EL. Peak flow and peak cough flow in the evaluation of expiratory muscle weakness and bulbar impairment in patients with neuromuscular disease. Am J Phys Med Rehabil. 2002 Jul;81(7):506-11. — View Citation
Toussaint M, Boitano LJ, Gathot V, Steens M, Soudon P. Limits of effective cough-augmentation techniques in patients with neuromuscular disease. Respir Care. 2009 Mar;54(3):359-66. — View Citation
Toussaint M, De Win H, Steens M, Soudon P. Effect of intrapulmonary percussive ventilation on mucus clearance in duchenne muscular dystrophy patients: a preliminary report. Respir Care. 2003 Oct;48(10):940-7. — View Citation
* Note: There are 12 references in all — Click here to view all references
| Type | Measure | Description | Time frame | Safety issue |
|---|---|---|---|---|
| Primary | Lung Volume | Assessed by measuring vital capacity (FVC). This is a widely used test that measures effective lung volume. There are well established pediatric predictive values for FVC. | Therapy effect assessed for 2hrs post treatment | |
| Primary | Cough Expiratory Flows | Cough flows needed for adequate clearance of airway secretions. This study will measure peak expiatory flow (PEF) for which normal values are easily accessible. The two measures are comparable in clinical use (8). | Therapy effect assessed for 2hrs post treatment | |
| Primary | Muscle Strength | Assessed by measuring maximal inspiratory pressure (MIP) and maximal expiratory pressures (MEP). These are obtained by inhaling and exhaling maximally through a manometer. | Therapy effect assessed for 2hrs post treatment |
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