Types Of Spirometers And How They Work
Spirometry is a clinical process through which lung functions are measured, specifically speed and volume of air inhaled and exhaled. It is among pulmonary function tests done on patients with lung problems and it also goes by the phrase measuring of breath. The pieces of equipment used to do the process are called spirometers. Buyers have a wide range of devices to choose from because there are many models in the market today.
The work of this equipment is to determine abnormal ventilation patterns and how air moves in and out of the lungs. This device is normally able to detect two kinds of abnormal ventilation patterns. The first abnormal pattern is restrictive while the second one is obstructive. Different device models use different measurement methods to achieve their functions. Some of most common methods include use of water gauge, ultrasonic, and pressure transducers.
These gadgets continue getting better as technology improves. At the present time several makes are in utilization in different around the globe. Among the key models are windmill-type, incentive, whole body plethymograph, pneumotachometer, peak flow type, fully electronic, and tilt compensated model. Of all the models body plethymograph has the highest accuracy with high precision in values taken. The great precision is partially because patients get enclosed in small spaces during the process.
Pneumotachometers gauge rate or flow of air by use of fine meshes. Pressure of breathed air is sensed and measured as the air flows over the fine meshes. This allows for its rate of flow to be measured too. As the procedure continues, the patients can inhale fresh air. This does not exist in other models.
Fully electronic model is a complete improvement of other models because it does not have fine meshes or moving components. Rate of air flow is measured using methods such as pressure difference and ultrasonic transudcers. Lack of moving components improves the accuracy of these models because there is no friction or resistance. The hygiene is also improved since air flow channels used are disposable after use.
The most commonly used type is the incentive model. These models improve gaseous exchange in the lung of patient when used for a long time. In hospitals they are placed on benches or tables next to beds. Doctors instruct patients to breathe through them for a given number of times daily. Any improvements the patient makes in their breathing habits can be observed on the calibrations on the apparatus.
Windmill-type model is able to gauge forced vital capacity without involving water. When compared to water-tank types, it has lower weight and higher portability. Measurements taken are wide and lie between 7000ml and 1000ml. When recording measurements, this apparatus must be held in horizontal position due to the presence of revolving discs. Tilt-compensated types contain 3D sensing mechanics that permit forward or backward positions during use.
The cooperation the patient gives the doctor highly determines how successful the testing process can be. Normally values obtained from a single test are not used because they contain errors. The procedure is therefore repeated at least three times to obtain final values. Little kids who cannot understand instructions cannot also be tested because of the same reason.
The work of this equipment is to determine abnormal ventilation patterns and how air moves in and out of the lungs. This device is normally able to detect two kinds of abnormal ventilation patterns. The first abnormal pattern is restrictive while the second one is obstructive. Different device models use different measurement methods to achieve their functions. Some of most common methods include use of water gauge, ultrasonic, and pressure transducers.
These gadgets continue getting better as technology improves. At the present time several makes are in utilization in different around the globe. Among the key models are windmill-type, incentive, whole body plethymograph, pneumotachometer, peak flow type, fully electronic, and tilt compensated model. Of all the models body plethymograph has the highest accuracy with high precision in values taken. The great precision is partially because patients get enclosed in small spaces during the process.
Pneumotachometers gauge rate or flow of air by use of fine meshes. Pressure of breathed air is sensed and measured as the air flows over the fine meshes. This allows for its rate of flow to be measured too. As the procedure continues, the patients can inhale fresh air. This does not exist in other models.
Fully electronic model is a complete improvement of other models because it does not have fine meshes or moving components. Rate of air flow is measured using methods such as pressure difference and ultrasonic transudcers. Lack of moving components improves the accuracy of these models because there is no friction or resistance. The hygiene is also improved since air flow channels used are disposable after use.
The most commonly used type is the incentive model. These models improve gaseous exchange in the lung of patient when used for a long time. In hospitals they are placed on benches or tables next to beds. Doctors instruct patients to breathe through them for a given number of times daily. Any improvements the patient makes in their breathing habits can be observed on the calibrations on the apparatus.
Windmill-type model is able to gauge forced vital capacity without involving water. When compared to water-tank types, it has lower weight and higher portability. Measurements taken are wide and lie between 7000ml and 1000ml. When recording measurements, this apparatus must be held in horizontal position due to the presence of revolving discs. Tilt-compensated types contain 3D sensing mechanics that permit forward or backward positions during use.
The cooperation the patient gives the doctor highly determines how successful the testing process can be. Normally values obtained from a single test are not used because they contain errors. The procedure is therefore repeated at least three times to obtain final values. Little kids who cannot understand instructions cannot also be tested because of the same reason.