Spinal Cord Injuries Clinical Trial
— RESCOMOfficial title:
Inspiratory Muscle Strength and Respiratory Complications After Spinal Cord Injury: a Multicenter, Prospective Cohort Study
NCT number | NCT02891096 |
Other study ID # | 2015-14 |
Secondary ID | |
Status | Completed |
Phase | |
First received | |
Last updated | |
Start date | October 1, 2016 |
Est. completion date | October 31, 2021 |
Verified date | November 2021 |
Source | Swiss Paraplegic Centre Nottwil |
Contact | n/a |
Is FDA regulated | No |
Health authority | |
Study type | Observational |
The investigators conducting this study to investigate the relation between the respiratory muscle strength and respiratory complications. To understand more about respiratory complications the influence of different factors (such as in- and expiratory muscle strength, lung function parameters, physical activity, smoking, medications,…) on respiratory complications (such as pneumonia) will be investigated.
Status | Completed |
Enrollment | 500 |
Est. completion date | October 31, 2021 |
Est. primary completion date | October 31, 2021 |
Accepts healthy volunteers | No |
Gender | All |
Age group | 18 Years and older |
Eligibility | Inclusion Criteria: - Initial rehabilitation after SCI - men and women - aqe over or equal 18 years - AIS A, B, C or D lesion - lesion level C1-T12 Exclusion Criteria: - Neurologic diseases (e.g. MS, ALS) - 24h mechanical ventilation dependency - mental disorders |
Country | Name | City | State |
---|---|---|---|
Switzerland | Swiss Paraplegic Centre Nottwil | Nottwil | Lucerne |
Lead Sponsor | Collaborator |
---|---|
Swiss Paraplegic Centre Nottwil | Austin Hospital, Melbourne Australia, Balgrist University Hospital, BG Unfallklinik, Clinique Romande de Readaptation, Erasmus Medical Center, Heliomare Rehabilitation, Wijk aan Zee, The Netherlands, Rehab Basel, Rehabilitation Center Haering, Austria, Rehabilitation Clinic Tobelbad, Austria |
Switzerland,
Aarabi B, Harrop JS, Tator CH, Alexander M, Dettori JR, Grossman RG, Fehlings MG, Mirvis SE, Shanmuganathan K, Zacherl KM, Burau KD, Frankowski RF, Toups E, Shaffrey CI, Guest JD, Harkema SJ, Habashi NM, Andrews P, Johnson MM, Rosner MK. Predictors of pulmonary complications in blunt traumatic spinal cord injury. J Neurosurg Spine. 2012 Sep;17(1 Suppl):38-45. doi: 10.3171/2012.4.AOSPINE1295. — View Citation
Berlowitz DJ, Tamplin J. Respiratory muscle training for cervical spinal cord injury. Cochrane Database Syst Rev. 2013 Jul 23;(7):CD008507. doi: 10.1002/14651858.CD008507.pub2. Review. — View Citation
Chamberlain JD, Meier S, Mader L, von Groote PM, Brinkhof MW. Mortality and longevity after a spinal cord injury: systematic review and meta-analysis. Neuroepidemiology. 2015;44(3):182-98. doi: 10.1159/000382079. Epub 2015 May 13. Review. — View Citation
Croce MA, Fabian TC, Waddle-Smith L, Maxwell RA. Identification of early predictors for post-traumatic pneumonia. Am Surg. 2001 Feb;67(2):105-10. — View Citation
Hajian-Tilaki K. Sample size estimation in diagnostic test studies of biomedical informatics. J Biomed Inform. 2014 Apr;48:193-204. doi: 10.1016/j.jbi.2014.02.013. Epub 2014 Feb 26. — View Citation
Kang SW, Bach JR. Maximum insufflation capacity: vital capacity and cough flows in neuromuscular disease. Am J Phys Med Rehabil. 2000 May-Jun;79(3):222-7. — View Citation
Lanig IS, Peterson WP. The respiratory system in spinal cord injury. Phys Med Rehabil Clin N Am. 2000 Feb;11(1):29-43, vii. Review. — View Citation
Liebscher T, Niedeggen A, Estel B, Seidl RO. Airway complications in traumatic lower cervical spinal cord injury: A retrospective study. J Spinal Cord Med. 2015 Sep;38(5):607-14. doi: 10.1179/2045772314Y.0000000254. Epub 2014 Aug 12. — View Citation
Mueller G, Hopman MT, Perret C. Comparison of respiratory muscle training methods in individuals with motor and sensory complete tetraplegia: a randomized controlled trial. J Rehabil Med. 2013 Mar;45(3):248-53. doi: 10.2340/16501977-1097. — View Citation
Postma K, Bussmann JB, Haisma JA, van der Woude LH, Bergen MP, Stam HJ. Predicting respiratory infection one year after inpatient rehabilitation with pulmonary function measured at discharge in persons with spinal cord injury. J Rehabil Med. 2009 Sep;41(9):729-33. doi: 10.2340/16501977-0410. — View Citation
Schilero GJ, Radulovic M, Wecht JM, Spungen AM, Bauman WA, Lesser M. A center's experience: pulmonary function in spinal cord injury. Lung. 2014 Jun;192(3):339-46. doi: 10.1007/s00408-014-9575-8. Epub 2014 Apr 11. — View Citation
Tollefsen E, Fondenes O. Respiratory complications associated with spinal cord injury. Tidsskr Nor Laegeforen. 2012 May 15;132(9):1111-4. doi: 10.4045/tidsskr.10.0922. Review. English, Norwegian. — View Citation
Wang AY, Jaeger RJ, Yarkony GM, Turba RM. Cough in spinal cord injured patients: the relationship between motor level and peak expiratory flow. Spinal Cord. 1997 May;35(5):299-302. — View Citation
* Note: There are 13 references in all — Click here to view all references
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Other | Quality of life in general | Quality of life (Qol) will be evaluated using the Quality of Life Basic Data Set of the International Spinal Cord Injury Datasets. This measurement instrument accepts (Qol) as a multi-facetted concept and includes three questions as to capture general quality of life (overall well-being), rating of physical health, and satisfaction with psychological health. | in days post injury: T1:28±12; T2:84±14, T3:150±18; T4:15 days before discharge until discharge | |
Primary | Inspiratory muscle strength in relation to pneumonia | Inspiratory muscle strength will be measured using a hand-held respiratory pressure meter (Micro RPM, Micro Medical, Hoechberg, Germany) by an independent study nurse of each participating study site. All measurements will be performed with the patients sitting upright in their own wheelchair.
Patients have to breathe through a mouthpiece while wearing a nose clip. Each measurement will be repeated three times. The greatest value of each parameter will be used for analysis. |
in days post injury: T1:28±12; T2:84±14, T3:150±18; T4:15 days before discharge until discharge | |
Secondary | Lung function measurements | The various lung parameters thus include maximum expiratory pressure (MEP), vital capacity (FVC), forced expiratory volume in 1 second (FEV1), peak expiratory flow (PEF) and peak cough flow (PCF).
The measurement of the respiratory muscle strength and lung function will be conducted in sitting position in the own wheelchair or for pedestrians on a chair and lasts at most 15 minutes. The measurements will be conducted with a device for respiratory pressure measurement in which the patient has to inhale and exhale through a mouthpiece. Each measurement of the inspiration and expiration will be repeated 3 times per measurement time. The peak cough flow (PCF) will be measured by having the person cough as forcefully as possible through a peak flow meter. The greatest value of each lung function parameter will be used for analysis. |
in days post injury: T1:28±12; T2:84±14, T3:150±18; T4:15 days before discharge until discharge | |
Secondary | Mortality due to pneumonia | Mortality will be defined as pneumonia-related, if a prevailing event of pneumonia was clinically resolved as the initiating factor of the cascade of morbid events leading directly to death. Similarly, other causes of death will be recorded as part of all-cause mortality and as potentially competing risks of death. | in days post injury: T1:28±12; T2:84±14, T3:150±18; T4:15 days before discharge until discharge |
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