SU1614808A1 - Needleless injector - Google Patents

Abstract

The invention relates to medical technology and can be used for the injection of drugs. The aim of the invention is to improve the dosing accuracy of the injected drug, for which the needleless injector contains a light guide 3 and a drive mechanism made in the form of a source 1 of pulsed optical radiation. The light guide 3 is connected to the cavity 9 of the injection chamber of the housing 8 and the source 1 of pulsed optical radiation. 1 il.

Description

The invention relates to medical equipment, namely to devices for the injection of drugs, and can be used for intracavitary injection.

The aim of the invention is to improve the accuracy of dosing of the administered drug.

The drawing shows a needleless injector, General view.

The needleless injector comprises a pulsed optical radiation source 1 (laser), an optical system 2 for introducing radiation into the optical fiber 3. In the outer protective sheath 4 of the optical fiber 3, a channel 5 is provided for supplying the drug stored in the container 6. The pump 7 is used to supply the drug from capacity 6 through channel 5. Instead of capacity 6, a syringe or any other device that creates a pressure sufficient to supply the drug can be used. Such pressure can be created by simply raising the container 6 to a sufficient height. A housing 8 is fixed at the second end of the light guide 3. Together with the light guide, it forms the injection part of the device. The end of the fiber is brought into the cavity 9 of the injection chamber filled with an absorbing optical radiation liquid. The channel 5 for supplying the drug through the check valve 10 is connected to the cavity 11 of the injection chamber, which is filled with the drug, in one of the walls of which the nozzle 12 is installed. The cavities 9 and 11 are separated by a movable partition 13 made, for example, from rubber or in the form of bellows.

The injector operates as follows.

Through the channel 5 in the outer protective sheath of the optical fiber 3, the drug from the container 6 by the pump 7, creating a pressure slightly higher than the excess pressure required to open the check valve 10, enters the cavity 11. After it is completely filled and the pressure inside it increases, the check valve closes.

A pulsed optical radiation source 1 generates a pulse of optical radiation, which passes through a light guide 3 into a cavity 9 filled with a liquid absorbing this optical radiation. When radiation is absorbed in a liquid, it boils, the formation of an expanding vapor-gas cavity. Pressure increases in the cavity, a shock wave propagates from the surface of the vapor-gas cavity. Under the action of the shock wave, hydraulic flow, hydraulic pressure, the movable partition 13 is displaced, causing a sharp increase in pressure in the cavity 11. In this case, injection through the nozzle 12 is carried out.

The pressure in the cavities 9 and 11 drops. The movable partition 13 is returned to its original position. The cavity 11 through the check valve 10 is filled with a new portion of the drug. The next pulse of optical radiation leads to a repetition of the cycle of work. The operating mode of the device is easily changed by changing the parameters of the pulses of optical radiation (amplitude, duration, shape) and their repetition rate.

A simplified version of the device is possible, which can be intended for single use. In this case, there is no channel 5 in the sheath 4 of the light guide 3. The check valve 10 is also absent.

Thus, the accuracy and reproducibility of the dose of the drug being administered is ensured in the injector.

Claims (1)

Claim A needleless injector containing a container for a medicinal product, a housing with a nozzle, an injection chamber, a check valve and a movable partition, as well as a drive mechanism, the injection chamber divided by a movable partition into two cavities, one of which is filled with working fluid and the other is connected through a check valve with a container for a medicinal product, characterized in that, in order to improve the accuracy of dosing of the administered medicinal product, it is additionally equipped with a light guide, and the driving mechanism m made in the form of a source of pulsed optical radiation, while the fiber is connected to the cavity of the injection chamber filled with working fluid and to the source of pulsed optical radiation; chenii.