The Ultrasonic Mesh Nebulizer Omron Micro Air NE-U22 (or Omron Micro Air HE-U22) is a modern, compact and highly effective inhaler that is designed to treat respiratory diseases. In the process of developing the device, special attention was paid to reliability, convenience and ease of use.
An important advantage of the Omron MicroAir NE-U22 MES nebulizer is the ability to use the device from any angle - even when lying down, which is extremely convenient for children and sick people who can get help even during sleep. In addition, the OMRON Micro-Air NE-U22 MES nebulizer works almost silently and will not disturb the user's sleep.

Based on vibrating mesh-membrane technology (V.M.T.), the Omron Micro Air NE-U22 inhaler allows any water-based medication to be used. Also, unlike ultrasonic nebulizers, the device does not act on a liquid medicine, but on a fine-mesh mesh, causing it to vibrate. A medicine is supplied through the net, which is broken by vibration into tiny particles. Thus, any drug retains all its properties and can be used for the treatment and prevention of diseases of the respiratory system. The average particle size of the fine aerosol obtained in the device as a result of using MESH technology will penetrate into all parts of the respiratory system, including the lower respiratory tract. Thanks to its compact size and light weight, the Omron Micro Air NE-U22 nebulizer can be carried with you all the time. To use the device at home, it is recommended to purchase a special Omron network adapter for this type of nebulizer. The Omron Micro Air NE-U22 Ultrasonic Mesh Nebulizer is powered by two AA batteries, which are able to provide an uninterrupted and continuous procedure of inhalation therapy for four hours.

Distinctive features:

The smallest and lightest nebulizer
Silent work during inhalation Innovative technology of a vibrating mesh-membrane (Vibrating Mesh Technology - V.M.T.)
frequency of ultrasonic vibrations - 180 kHz
The closed type of chamber allows inhalation at any angle and in a horizontal position
Effectively works with a small volume of the drug (from 0.5 ml)
Minimum residual volume (0.1 ml)
A wide range of drugs used 4 hours of continuous inhalation from two finger batteries One-button operation: two inhalation modes can be selected Connection via a network adapter (optional)
Easy cleaning and disinfection
Case and bag for storage and transportation
3 year warranty
Vibrating Mesh Technology V.M.T. (Vibrating Mesh Technology)

The technology is based on the innovative principle of aerosol formation in the Omron Micro Air NE-U22 MES nebulizer, in which the liquid drug is sieved through a mesh membrane, forming a finely divided aerosol of high quality.
Unlike traditional Omron ultrasonic nebulizers, the axial vibrations of the built-in horn promote and then “push” the medicine through the microscopic holes of the metal membrane of a high-strength anti-corrosion and biocompatible alloy.

The main advantages of vibrating mesh technology in the Omron Micro Air NE-U22 nebulizer:
- silent operation
- inhalation at any angle
- hormones and antibiotics

Virtual Valve Technology V.V.T .: No
Vibrating Mesh Technology V.M.T .: Yes
Air Tube Length: -
The average particle size of the aerosol (MMAD - Mass Median Aerodynamic Diameter, aerodynamic diameter of the particles of medium weight): 4.2 microns
Aerosol% <5 μm: 60%
Medication tank capacity: max. 7 ml Corresponding volume for medicines: min. 1 ml - max. 7 ml
The residual volume of the drug: 0.1 ml
Productivity (aerosol yield): 0.25 ml / min (for weight loss)
Aerosol Dispense: 0.69 ml (2 ml, 1% NaF)
Aerosol feed rate: 0.087 ml / min (2 ml, 1% NaF)
Noise Level: Less than 20dB
Carry Handle: No
Battery operation: Yes (2 AA batteries)
Networking: Yes, sold separately
Operating mode: Long continuous time
Instrument dimensions (HxWxD): 104 x 38 x 51 mm
Instrument weight: 97 grams (without batteries)
Features: battery operation, pocket, silent, MES technology
Certification according to European standard EN 13544-1: Yes

Ultrasonic inhaler Omron U22 (NE-U22-E)