Proofs of the benefits of practicing inspiratory and expiratory muscles are visibly presented in many investigations and clinical trials. Today we have a chance to introduce a breathing training device that can monitor the training process and training results. It is developed using innovative concepts and can greatly enhance the user’s enjoyment of breathing training in the form of data presentation. This trainer uses a high-precision airflow sensor to capture the user’s respiratory airflow speed and intensity and then calculates the maximum expiratory pressure and maximum inspiratory pressure. R&D and design from a scientific perspective have improved respiratory training and treatment. efficiency.
Please refer to and purchase: the Sonmol respiratory muscle trainer with an Electronic manometer
In many kinds of literature, we have also paid attention to some diseases that can threaten life, especially diseases with weakened respiratory muscles, which may threaten life. For example Amyotrophic Lateral Sclerosis (ALS), spinal cord injury patient, spinal cord injury may affect the connection between nerves and muscles, resulting in weakening of respiratory muscles.
Muscle Impairment in Neuromuscular Disease Using an Expiratory/Inspiratory Pressure Ratio
Myasthenia Gravis: This autoimmune disease causes dysfunction at the neuromuscular junction, affecting muscle control, including respiratory muscles.
People with Spinal Muscular Atrophy (SMA): This genetic disorder causes the degeneration of neurons in the spinal cord, ultimately affecting muscles, including respiratory muscles.
Neuromuscular diseases: Some other neuromuscular diseases, such as multiple sclerosis, may also cause weakening of respiratory muscles.
Literature reference: Muscle Impairment in Neuromuscular Disease Using an Expiratory/Inspiratory Pressure Ratio
Guilherme Fregonezi, Ingrid G Azevedo, Vanessa R Resqueti, Armèle D De Andrade, Lucien P Gualdi, Andrea Aliverti, Mário ET Dourado-Junior and Verônica F Parreira
Respiratory Care April 2015, 60 (4) 533-539; DOI: https://doi.org/10.4187/respcare.03367
https://rc.rcjournal.com/content/60/4/533
Effort related responses:
Breathing capability and effort
Entire body effort
Metabolic-related responses:
Respiratory muscle weariness
Breathing pattern
Lactate turnover
Oxygen uptake kinetics
