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 devices keep improving with the ever improving technology. Currently several models are in application in various sectors around the world. Among the main models are whole body plethymograph, fully electronic, tilt compensated, pneumotachometer, windmill-type, incentive, and peak flow type model. The most accurate model of all the models is whole body plethymograph, which gives high accuracy in values recorded. The high accuracy is partly because patients are enclosed in rooms during the exercise.
The pneumotachometer employs a fine mesh which is used to measure the flow rate of gasses. As the gases flow over the fine mesh, their pressure is detected making it possible to measure their rate of flow. The patient under assessment has the freedom to breath in fresh air during the process. This is an advantage that other models do not have.
Previous models have been improved to come up with the fully electronic version, which does not use moving parts or fine meshes. In fully improved models, techniques like ultrasonic transudcers and pressure difference are used to gauge rate of air flow. Accuracy is greatly improved because no friction due to resistance is experienced since no moving parts are present. Disposable air flow channels in the products improve hygiene.
Incentive models are the most commonly used models in most settings. They are meant to improve the breathing of a patient over a long time of usage. They are normally placed on a bench or a table next to a bed. The patient should inhale and exhale through the mouthpiece for a given number of times every hour as per the instructions of the doctor. The calibrations on the device indicate any improvements the patient is making over time.
Windmill-type version is used to measure forced vital capacity without using water. It is lighter and more portable in comparison to water-tank model. The measurements in this device are broad running from 1000 to 7000 ml. The presence of rotating discs in the apparatus requires it to be held in a horizontal position when recording measurements. Tilt-compensated type has 3D sensing mechanics that allow patients to lean backwards or forwards while in use.
The success of the testing is determined by cooperation given to the doctor by the patient. Normally values acquired from one test contain errors and are therefore not used as final results. Three repetitions must be done obtain final figures. Little children cannot understand directions cannot be tested because they cannot give correct figures.
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 devices keep improving with the ever improving technology. Currently several models are in application in various sectors around the world. Among the main models are whole body plethymograph, fully electronic, tilt compensated, pneumotachometer, windmill-type, incentive, and peak flow type model. The most accurate model of all the models is whole body plethymograph, which gives high accuracy in values recorded. The high accuracy is partly because patients are enclosed in rooms during the exercise.
The pneumotachometer employs a fine mesh which is used to measure the flow rate of gasses. As the gases flow over the fine mesh, their pressure is detected making it possible to measure their rate of flow. The patient under assessment has the freedom to breath in fresh air during the process. This is an advantage that other models do not have.
Previous models have been improved to come up with the fully electronic version, which does not use moving parts or fine meshes. In fully improved models, techniques like ultrasonic transudcers and pressure difference are used to gauge rate of air flow. Accuracy is greatly improved because no friction due to resistance is experienced since no moving parts are present. Disposable air flow channels in the products improve hygiene.
Incentive models are the most commonly used models in most settings. They are meant to improve the breathing of a patient over a long time of usage. They are normally placed on a bench or a table next to a bed. The patient should inhale and exhale through the mouthpiece for a given number of times every hour as per the instructions of the doctor. The calibrations on the device indicate any improvements the patient is making over time.
Windmill-type version is used to measure forced vital capacity without using water. It is lighter and more portable in comparison to water-tank model. The measurements in this device are broad running from 1000 to 7000 ml. The presence of rotating discs in the apparatus requires it to be held in a horizontal position when recording measurements. Tilt-compensated type has 3D sensing mechanics that allow patients to lean backwards or forwards while in use.
The success of the testing is determined by cooperation given to the doctor by the patient. Normally values acquired from one test contain errors and are therefore not used as final results. Three repetitions must be done obtain final figures. Little children cannot understand directions cannot be tested because they cannot give correct figures.
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