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Clinical Trial Summary

The goal of this clinical trial is to study respiratory muscle training in patients with Spinal Muscular Atrophy (SMA). The main questions it aims to answer are: - Is a home-based individualized training program for the inspiratory and expiratory muscles feasible (good adherence and good acceptability)? - Can a home-based individualized training program for the inspiratory and expiratory muscles increase the strength of these muscles? Participants will be asked to perform 10 training sessions per week, spread out over 5-7 days. Each training session consists of 30 breathing cycles through the inspiratory muscle trainer and 30 breathing cycles trough the expiratory muscle trainer. In the first four months of the study researchers will compare two groups to see if a higher trainings load is more effective. One group will start at a trainings load of 10% of their maximal inspiratory and expiratory muscle strength. The other group will start at a trainings load of 30% of their maximal inspiratory and expiratory muscle strength. This group also need to adjust the trainings load based on their perceived exertion. After four months all participants will train on a trainings load of 30% of their maximal inspiratory and expiratory muscle strength and adjust the trainings load based on their perceived exertion. The participants will come to the hospital for lung function tests every four months for 12 months.


Clinical Trial Description

The aim of this study is to assess the feasibility and efficacy of respiratory muscle training in patients with SMA and respiratory muscle weakness. The hypothesis is that an individualized incremental home-based respiratory muscle training program will be feasible and will improve inspiratory muscle strength, expiratory muscle strength, lung function and patient reported breathing difficulties in patients with SMA. Study setting: This study is conducted at the outpatient department of the Netherlands SMA center and the Child Development and Exercise Center at the University Medical Center Utrecht (UMCU), The Netherlands. All members of the study team, consisting of physicians, physiotherapists, lung function technicians, clinical exercise physiologists and nurses, have broad experience with SMA due to the national cohort study that is carried out in this center since 2010. Study design: The RESISTANT study is an investigator-initiated, mono-center study consisting of two parts: Part 1 (0-4 months): a single blinded randomized sham-controlled trial (RCT). In the first part of the study, the feasibility and efficacy of respiratory muscle training (RMT) in patients with SMA will be determined. Before the first visit, participants will be recruited for enrollment by a research nurse. Patients who express interest in participating receive a patient information letter and an appointment with the physiotherapist. At the first visit (M0), the physiotherapist further determines whether patients are eligible for participation. After signing the informed consent form, participants are weighed and their length is determined, followed by lung function tests. If the maximum inspiratory mouth pressure (PImax) >80 centimeter of Water Column (cmH2O), participants are excluded for the study. If PImax ≤ 80 cmH2O, participants will be stratified prior to randomization based on PImax (group 1: PImax <60 cmH2O, group 2: PImax ≥60 cmH2O, 60 cmH2O was the median PImax in the group of patients used for the natural history study). Participants will be randomly allocated to the intervention or sham-control group. A variable block randomization method with allocation concealment in a centralized system will be used for randomization. The lung function analyst is blinded for treatment allocation. A data analyst will design and sign the data analysis plan in advance. The data will be analyzed according to the analysis plan by a physiotherapist who is not blinded for treatment allocation. The physiotherapists who will perform the two-weekly telephone calls are not blinded for treatment allocation. Patients will know that there are two treatment groups, and they are informed that it is not yet known which treatment is most effective. All participants (and parents) will be instructed by a trained physiotherapist on the use of both devices at the first visit (baseline or M0). Participants are instructed to aim for 10 training sessions per week, divided over 5 to 7 days. A minimum of 6 hours in between training sessions is recommended. Per training session, the participant breathes 30 times through the POWERbreathe (inspiratory muscle training) and 30 times through the reverse Threshold® IMT (expiratory muscle training). If necessary, the participant may take a break, with a maximum of 60 seconds after 10 or 15 breaths. After each session they fill in a diary, which contains information about the load and the perceived exertion (Borg scale 0-10). In the active treatment group, the intensity of the training is set at M0 at 30% of PImax and maximum expiratory mouth pressure (PEmax) and will be increased or decreased based on level of perceived exertion. Participants are instructed to increase the intensity with 1-5 cmH2O if they score a perceived exertion of 0-4 and decrease the intensity if they score a perceived exertion of 7-10. If they score a perceived exertion of 5 or 6, the intensity will not me adjusted. The intensity of the training in the sham-controlled group will be set at M0 at 10% of PImax and PEmax and will remain the same during the first 4 months of training. - Inspiratory muscle trainer: For the inspiratory muscle training (IMT) the Conformité Européenne certified POWERbreathe KHP2 is used. Clinical research has shown high participant motivation and adherence to training with the POWERbreathe KHP2 thanks to the on-screen feedback. Furthermore, healthcare professionals can review participant progress by tracking up to 30 of the participants training sessions which the KHP2 is able to store. This data can be scrolled through to monitor progress. The electronic, variable, tapered flow valve ensures maximum training benefit. It is easy to use, easy to clean and training improvements can be easily monitored. - Expiratory muscle trainer: For the expiratory muscle training (EMT) the Threshold Inspiratory Muscle Trainer (IMT) (Philips Respironics) in reverse is used. Use of the Threshold Positive Expiratory Pressure (PEP) (Philips Respironics) is one method to perform EMT. However, the maximal expiratory resistance of the Threshold PEP is limited to 20 cmH20. To overcome this limitation in expiratory resistance, the Threshold IMT will be used in reverse. This device contains, at its end, a valve closed by the positive pressure of a spring, which can be graded from 9 to 41 cmH2O and allows resistance changes by 1 cmH2O increments. The reverse Threshold IMT has a one-way spring-loaded valve, that closes during expiration and requires that participants exhale hard enough, to open the valve and let the air go out. This device provides constant pressure for expiratory muscle training, regardless of how quickly or slowly the participant breathes, and the optimal loading pressure can be adjusted, based upon the individual characteristics of the participant. Part 2 (5-12 months): open label extension phase. In the second part of the study, the sham-control group will be provided with a supervised RMT at a therapeutic intensity of 30% of PImax and PEmax and the long-term effects of RMT on the occurrence of respiratory infections, health related quality of life and feasibility will be investigated in the active treatment and sham-controlled group. Participants will visit our outpatient department every 4 months for 12 months after inclusion for assessment of primary and secondary outcome measures. This study is currently ongoing; the first participant was included on 2-2-2021. Study completion is expected in the first quarter of 2023. Sample size: Based on a previous report on inspiratory muscle training in patients with neuromuscular diseases (n=27, 18 patients with Duchenne Muscular Dystrophy (DMD) and 9 patients with SMA) indicating a mean improvement in PImax of 28 cmH2O difference (SD ±26.27), a mean difference of 20 cmH2O (SD 25.0) is assumed between active and sham treated patients after 4 months. To detect this effect size with 80% power and two-sided alpha of 5%, 50 patients are needed (25 per group). Statistical analysis: Continuous variables will be expressed as means with standard deviations or medians with interquartile ranges (whichever is more appropriate), and discrete variables will be expressed as numbers with percentages. The main efficacy population will consist of all patients being randomized and analyzed according to their original treatment allocation, irrespective of actual received treatment or follow-up (intention-to-treat). The primary comparison will be the mean difference in PImax at month 4. An ANCOVA model will be used to analyze the differences between groups adjusting for baseline PImax. Missing data in the outcomes at month 4 will be imputed by the baseline-observation-carried-forward (BOCF) approach. This will be a conservative method because expected is that patients' PImax will improve after training. For the longitudinal data, a mixed model will be used for repeated measurements including a term for visit, treatment, their interaction, and baseline PImax to account for the correlation within subjects. Similar models will be used for the secondary endpoints. The incidence of adverse events will be summarized by treatment group and in all treatment groups combined in frequency tables, coded according to the introductory guide Medical Dictionary for Regulatory Activities (MedDRA) version 21.0. Data management: The following measures will be taken to assure the confidentiality and anonymity of the participants' data or documents collected in Castor: a) each participant will be identified in an electronic database by a unique six digit code; b) the list of participant names corresponding to the codes will be stored in a separate encrypted electronic database, safeguarded by the principal investigator; c) only study investigators will have access to the databases and examine individual data or documents; d) all logins will be recorded; e) adopt strict precautions to prevent access to the data or documents by non-authorized persons; f) the handling of data and documents will comply with the General data protection regulation (GDPR) and is further described in the Data Monitoring Plan. Ethics, dissemination, and safety monitoring: The investigator obtains written informed consent before study participation from participants and from parents if the participant is <16 years old. The trial is monitored by an external independent party (Julius Clinical). Because of the negligible risk classification minimal monitoring will be necessary. All participants are insured by the sponsor in case of harm due to study participation. The study will be conducted according to the principles of the Declaration of Helsinki, adapted 19-10-2013, and in accordance with the Medical Research Involving Human Subjects Act (WMO). The code of Conduct as agreed upon 2001 by the Dutch organization of Pediatrics will be used. The study is partly done by minors, which means that in any case of resistance the test and research protocol will be terminated. Resistance means that the patient's behavior obviously differs from or is more excessive compared to participant's normal behavior. The national rules of the Dutch Association of Pediatrics for protection of minor study participants, are followed during the entire study. The results of this study will be publicly disclosed in several publications in peer reviewed scientific journals related to the topic of this study and orally in conferences concerning this theme. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05632666
Study type Interventional
Source UMC Utrecht
Contact
Status Active, not recruiting
Phase N/A
Start date February 2, 2021
Completion date January 31, 2023

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