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A small portion of people with asthma may benefit from regular peak flow monitoring. When monitoring is recommended, it is usually done in addition to reviewing asthma symptoms and frequency of reliever medication use. [2] When peak flow is being monitored regularly, the results may be recorded on a peak flow chart.
A RSBI score of less than 65 [3] indicating a relatively low respiratory rate compared to tidal volume is generally considered as an indication of weaning readiness. A patient with a rapid shallow breathing index (RSBI) of less than 105 has an approximately 80% chance of being successfully extubated, whereas an RSBI of greater than 105 virtually guarantees weaning failure. [4]
Respiratory issues were also increasing in children because neonatal intensive care units were increasing the survival rates of infants. This was due to advances in mechanical ventilation. However, this resulted in children developing chronic lung diseases, but there was not a specific unit to treat these diseases. [5]
pulmonary fibrosis, Infant Respiratory Distress Syndrome, weak respiratory muscles, pneumothorax: volumes are decreased: often in a normal range (0.8–1.0) obstructive diseases: asthma, COPD, emphysema: volumes are essentially normal but flow rates are impeded: often low (asthma can reduce the ratio to 0.6, emphysema can reduce the ratio to 0. ...
In resource-limited settings where CPAP improves respiratory rate and survival in children with primary pulmonary disease, researchers have found that nurses can initiate and manage care with once- or twice-daily physician rounds. [7]
In respiratory physiology, the ventilation/perfusion ratio (V/Q ratio) is a ratio used to assess the efficiency and adequacy of the ventilation-perfusion coupling and thus the matching of two variables: V – ventilation – the air that reaches the alveoli; Q – perfusion – the blood that reaches the alveoli via the capillaries
An evaluation of respiratory rate for the differentiation of the severity of illness in babies under 6 months found it not to be very useful. Approximately half of the babies had a respiratory rate above 50 breaths per minute, thereby questioning the value of having a "cut-off" at 50 breaths per minute as the indicator of serious respiratory ...
The fraction of eNO is also flow-dependent (higher at lower flow rates and vice versa), so measurements are normally measured at 50 ml/s. Age or height could also considerably confound eNO values in children. [28] The magnitude of these effects lies in the order of 10%, so even single cut-off values might be useful. [17]