Effect of Resistive Load on the Inspiratory Work and Power of Breathing during Exertion
نویسندگان
چکیده
The resistive work of breathing against an external load during inspiration (WR(I)) was measured at the mouth, during sub-maximal exercise in healthy participants. This measure (which excludes the elastic work component) allows the relationship between resistive work and power, ventilation and exercise modality to be explored. A total of 45 adult participants with healthy lung function took part in a series of exercise protocols, in which the relationship between WR(I), power of breathing, PR(I) and minute ventilation, [Formula: see text] were assessed during rest, while treadmill walking or ergometer cycling, over a range of exercise intensities (up to 150 Watts) and ventilation rates (up to 48 L min(-1)) with applied constant resistive loads of 0.75 and 1.5 kPa.L.sec(-1). Resting WR(I) was 0.12 JL(-1) and PR(I) was 0.9 W. At each resistive load, independent of the breathing pattern or exercise mode, the WR(I) increased in a linear fashion at 20 mJ per litre of [Formula: see text], while PR(I) increased exponentially. With increasing resistive load the work and power at any given [Formula: see text] increased exponentially. Calculation of the power to work ratio during loaded breathing suggests that loads above 1.5 kPa.L.sec(-1) make the work of resistive breathing become inhibitive at even a moderate [Formula: see text] (>30 L sec(-1)). The relationship between work done and power generated while breathing against resistive loads is independent of the exercise mode (cycling or walking) and that ventilation is limited by the work required to breathe, rather than an inability to maintain or generate power.
منابع مشابه
Comparing the Effect of Resistive Inspiratory Muscle Training and Incentive Spirometry on Respiratory Pattern of COPD patients
Background: Resistive Inspiratory Muscle Training (RIMT) is a well-known technique for rehabilitation of patients with Chronic Obstructive Pulmonary Disease (COPD). Incentive spirometry is another technique with potential viability for this application, but there is limited evidence in support of its efficacy in the rehabilitation of COPD patients. Aim: The objective of this study was to compar...
متن کاملEffects of N2O narcosis on breathing and effort sensations during exercise and inspiratory resistive loading.
The influence of nitrous oxide (N2O) narcosis on the response to exercise and inspiratory resistive loading was studied in thirteen male US Navy divers. Each diver performed an incremental bicycle exercise test at 1 ATA to volitional exhaustion while breathing a 23% N2O gas mixture and a nonnarcotic gas of the same PO2, density and viscosity. The same gas mixtures were used during four subseque...
متن کاملEffects of oxygen breathing on inspiratory muscle fatigue during resistive load in cycling men.
The aim of the present study was to determine the development of the inspiratory muscle fatigue in healthy human during incremental cycling to exhaustion under mild and heavy resistive loaded breathing in air and oxygen. Minute ventilation, tidal volume, respiratory rate, inspiratory mouth pressure, and parasternal EMG activities were recorded during an incremental cycling test under mild (12 c...
متن کاملDetermination of a new model to study ultra-saturation phenomenon during the loaded power transformer energization and its effect on differential protection
One of transient phenomenon that causes the mal-operation of the power transformer differential protection during the energization of a loaded power transformer is the ultra-saturation phenomenon. In this paper, a new model for investigating the ultra-saturation phenomenon during the energization of a loaded power transformer is presented and its effect on the differential protection of the pow...
متن کاملDetermination of a new model to study ultra-saturation phenomenon during the loaded power transformer energization and its effect on differential protection
One of transient phenomenon that causes the mal-operation of the power transformer differential protection during the energization of a loaded power transformer is the ultra-saturation phenomenon. In this paper, a new model for investigating the ultra-saturation phenomenon during the energization of a loaded power transformer is presented and its effect on the differential protection of the pow...
متن کامل