What is a Spirometer?
A spirometer is a simple medical device used to measure lung function, specifically the amount (volume) and/or speed (flow) of air that can be inhaled and exhaled. Some key aspects about spirometers:
- Spirometers measure the volumes of air inhaled and exhaled either in liters or as a percentage of a persons expected or normal lung function based on factors like age, sex, height and ethnicity.
- Two common measurements are Forced Vital Capacity (FVC) which measures the total amount of air that can forcibly be blown out after full inhalation and Forced Expiratory Volume in 1 second (FEV1) which measures the amount of air that can be forcibly blown out in the first second of the FVC maneuver.
- Hand held portable spirometers are small and light for point-of-care use by physicians. Laboratory spirometers provide more precise measurements for clinical diagnosis.
- Spirometry is a noninvasive pulmonary function test used to evaluate multiple lung diseases like asthma, COPD, cystic fibrosis among others.
How does a Spirometer work?
A Spirometer consists of a mouthpiece attached to either an electronic or mechanical recording device that charts the airflow. During testing, the patient firmly seals their lips around the mouthpiece and breathes in as deeply as possible through the mouth. Then they blast out the air in one forced breath, emptying their lungs as fast and deeply as possible. The spirometer records the:
- Volume of air inhaled or exhaled over time which is displayed as a graph called volume-time or flow-volume loop.
- Peak flow rate which is the highest rate of exhalation achieved.
- Forced Vital Capacity (FVC), Forced Expiratory Volume in 1 second (FEV1) and their ratio (FEV1/FVC ratio).
Electronic spirometers use sensors to detect changes in pressure, temperature or other variables to calculate airflow rates. Mechanical spirometers have bellows, valves or other chambers to physically record airflow volumes. Results are printed or transferred to computers for analysis.
Uses of Spirometry
Spirometry has proven useful in detecting and monitoring numerous pulmonary dysfunctions:
Asthma Diagnosis and Management
One of the main uses is in asthma diagnosis and monitoring treatment effectiveness. Declines in FEV1 and the FEV1/FVC ratio point to airway obstruction characteristic of asthma. Spirometry helps adjust medications.
COPD Diagnosis and Severity Assessment
Spirometry can identify Chronic Obstructive Pulmonary Disease (COPD) by showing obstruction that is not fully reversible after an asthma medication is administered. It also grades COPD severity stages based on FEV1 measurements.
Cystic Fibrosis Monitoring
Individuals with cystic fibrosis undergo regular spirometry to track the progress of the disease which causes thick and sticky mucus to plug lung passages over time reducing airflow. Early detection helps plan interventions.
Lung Cancer Screening
Spirometry may be performed before low-dose CT scans for lung cancer screening to ensure patients can perform forced exhales to get clear images of the lungs. It rules out patients with severe lung function impairments unfit for scans.
Occupational Lung Disease Screening
Workers exposed to lung hazards like asbestos, coal or other dusts undergo periodic spirometry to catch reductions in airflow early which often precede chest X-ray or CT scan abnormalities. Early diagnosis allows job or exposure changes.
Spirometry Advantages and Limitations
Spirometry is non-invasive, easily performed in outpatient settings and yields objective quantitative results less subject to variation compared to clinical examinations alone. However, it also has some limitations:
- Results depend on patient effort and ability to perform forced maneuvers correctly. Errors occur if they blow too softly or over-breathe between blows.
- Obstructive abnormalities may be missed if a patient is unaware they have a lung condition and do not blow forcibly enough during testing.
- Restrictive conditions like pulmonary fibrosis often require additional lung volume tests on specialized body plethysmography equipment for comprehensive evaluation.
- Temporary reversible factors like bronchoconstriction from a cold may cause normally non-asthmatics to test positive on a given day requiring repeat testing when symptoms subside.
- Up to 10-15% of patients are unable to perform acceptable spirometry properly regardless of demonstration and coaching efforts, limiting its utility in some patients.
Overall, spirometry remains an important versatile first-line tool for pulmonary screening, diagnosis and management when results are interpreted together with a patient's symptoms and history by a qualified professional. Judicious use helps optimize its benefits while reducing limitations.
New Advances in Spirometry
Technology and measurement capabilities continue improving spirometry:
- Portable hand-held spirometers with wireless connectivity allow remote monitoring and sharing of results between patients and providers across all care settings.
- More user-friendly touchscreen interfaces with animations, video and audio instructions help maximize performance and minimize testing errors even by untrained patients.
- Forced oscillation techniques measure resistance and reactance across multiple frequencies to detect subtle abnormalities missed on conventional spirometry.
- New exhaled biomarkers from breath condensate or nitric oxide measurements add functional information about airway inflammation to routine spirometric evaluations.
- Synchronized high-resolution CT imaging during forced respiratory maneuvers allows correlating alterations in lung structure with dynamics of airflow obstruction seen on spirometry.
- Artificial intelligence techniques applied to large historical spirometry databases help define previously unseen patterns portending future disease risk or treatment responses.
As technology evolves further, spirometry will continue augmenting clinical decision making capabilities across various pulmonary disorders through more accessible, affordable and information-rich applications. Combined with other tests, it will help tackle respiratory health challenges more effectively.
Spirometry provides an easy yet powerful window into the function of lungs. As a basic yet versatile pulmonary function test, it remains indispensable for screening, diagnosing and monitoring treatment for multiple respiratory diseases in both clinical and occupational settings. Advancements are continually enhancing its performance to glean deeper insights into lung health with each passing year.
Spirometer Market report published by Value Market Research, which studies the future outlook of the market.
It includes the size, share, growth, trends, key players, segments and regional analysis in detail during the study year 2020-2027.The research report also covers the comprehensive profiles of the key players in the market and an in-depth view of the competitive landscape worldwide.
The major players in the spirometer market include Benson Medical Instruments, Chest M.I., Fukuda Sangyo, Hill-Rom Inc., Jones Medical Instrument Company, Medical International Research, Midmark Corporation, NDD Medizintechnik AG, Schiller AG, Vitalograph, Vyaire Medical, Welch Allyn Inc., etc.
This section consists of a holistic view of the competitive landscape that includes various strategic developments such as key mergers & acquisitions, future capacities, partnerships, financial overviews, collaborations, new product developments, new product launches, and other developments.Get more information on "Global Spirometer Market Research Report" by requesting FREE Sample Copy at https://www.valuemarketresearch.com/contact/spirometer-market/download-sampleMarket DynamicsThe market is mainly driven by the rising prevalence of respiratory disorders and enhancing healthcare infrastructure.
In addition to this, growing urbanization and changing lifestyles in the emerging regions, tobacco consumption amongst professionals has risen significantly, has resulted in a raised occurrence of lung disorders in these regions.
Further, increasing awareness for sophisticated diagnostic techniques among consumers is catalyzing the growth of the market.
