Medical Atomization

Medical atomization is mainly used to treat various diseases of upper and lower respiratory system, such as cold, fever, cough, asthma, sore throat, pharyngitis, rhinitis, bronchitis and other diseases. Aerosol inhalation therapy is the use of atomizing devices to disperse drugs into tiny droplets or particles, so that they are suspended in the gas, and into the respiratory tract and lung, to achieve the purpose of humidifying the airway and treating respiratory inflammation.

 

MASK PROTECTIN

The fibers of aerogel are very fine, and the filtration efficiency is high.The diameter of the aerogel fiber is adjustable between 1-40 micmeters, which can absorb all kinds of particles, effectively isolate dust and bacteria, and is relatively breathable. Aerogel material has become an important choice for the production of mask filter elements.

 

The new medical mask integrates a micro-atomization device that synchronously atomizes inhaled medicines while wearing

Mechanism of action: Relieve dry throat, pain, or prevent respiratory infections (such as aerosol interferon).

Advantages: Patients with chronic respiratory diseases, such as asthma, can easily receive atomization therapy in their daily activities. No additional equipment required, easy to carry, suitable for mild or preventative use.

 

Treatment of laryngeal diseases (laryngitis, sore throat, etc.) atomized particles > 10μm

Mechanism of action: Atomized drugs act directly on the throat mucosa to reduce inflammation, edema and pain.

Advantages: Avoid systemic side effects of oral or injectable drugs, and work quickly (10-15 minutes).

 

Bronchial diseases (asthma, bronchitis, etc.) Atomized particles 5-10 μm

Mechanism of action: The drug reaches the bronchus to relieve spasms, dilute sputum, and control inflammation.

Advantages: Compared to oral, atomized drugs have a higher rate of deposition in the bronchus, especially suitable for children or patients with acute attacks.

 

Pulmonary diseases (pneumonia, COPD, pulmonary fibrosis, etc.) Atomized particles 1-5 μm

Mechanism of action: The drug needs to form tiny particles of 1-5μm to penetrate into the alveoli.

Advantages: Targeting lung lesions, reducing systemic drug dose, reducing liver and kidney burden.