RU2027450C1 - Apparatus for perforating skin for sampling patient's blood - Google Patents

Abstract

FIELD: medical engineering; apparatuses for contactless puncturing of patient's finger. SUBSTANCE: apparatus incorporates working impulse laser irradiating beams in medium infrared range, continuous lasers irradiating beams in visible spectral range and focusing optical systems allowing pin-pointing impulse radiation on desired portion of biotissue. Focusing objective of impulse laser may be made in the form of cylindrical lens which permits focusing beams in line. EFFECT: exclusion of infection of patient by viral infectious diseases. 4 cl, 2 dwg

Description

 The present invention relates to medicine, and more specifically to a device for collecting blood from a patient for blood analysis.

 A device for perforating the skin when taking blood of a patient from a finger for analysis is known, which is a rectangular metal plate with a tip at the end, which pierce the skin when taking blood. A disadvantage of the known device is that when it is used, there is a possibility of infection of the patient with viral hepatitis or AIDS, since the known device can be used repeatedly with repeated sterilization. Infection may occur due to incomplete sterilization of this device. No analogues found.

 The aim of the present invention is to provide a device that would not have the above drawback, namely, would exclude the possibility of infection of the patient with a viral infectious disease when taking blood. This goal is achieved in a device containing a pulsed laser with an optical focusing system, emitting in the middle infrared range, a continuous light source with an optical focusing system, emitting in the visible spectral range, a photodetector with an optical focusing system and a point aperture, in which the focus points of the radiation of the above a pulsed laser and a continuous light source, as well as the image of the point diaphragm of the photodetector, its focusing optical system oh.

 In FIG. 1 marked: 1 - pulsed laser, 2 - dichroic mirror, 3 - focusing lens, 4 - mirror, 5 - focusing lens, 6 - point aperture, 7 - photodetector, 8, 9 - focusing optical systems, 10, 11 - continuous sources light, 12 - a movable platform, 13 - a rod, 14 - a guide, 15 - a finger of the patient, 16 - a return spring.

 The invention is illustrated by the following example.

 As continuous light sources, continuous He-Ne lasers with power supplies were used. The proposed device includes a pulsed AIG: Er laser 1, dichroic mirror 2, focusing lens 3, mirror 4, focusing lens 5, pinpoint aperture 6, photodetector 7, focusing optical systems 8 and 9, continuous He-Ne lasers 10 and 11, a moving platform 12, a power supply unit 18 (see Fig. 2) of a pulsed laser, a pulse shaper for ignition of a pulse 1 laser 1, power supplies 18 continuous He-Ne lasers. Pos. 15 - finger of the patient from whom blood is taken. The movable platform 12 has a rod 13, a guide 14 and a return spring 16. The dichroic mirror 2 transmits the radiation of a pulsed AIG: Er laser 1 and reflects the continuous emission of He-Ne lasers 10, 11. The mirror 4 reflects the continuous radiation of the lasers 10, 11.

 The focusing lens 3 of the pulsed laser can be made in the form of a cylindrical lens, which allows focusing the radiation in a line.

 Power supplies 17, 18 of pulsed AIG: Er and continuous HE-Ne lasers 1, 10, 11 are switched on by a VK switch. In this case, He-Ne lasers 10, 11 are switched on and visible (λ = 0.63 μm) radiation appears at their output. Emissions from continuous He-Ne lasers 10, 11 are focused, respectively, by optical systems 8 and 9 on the surface of finger 15 to a single point. The image of the point of visible radiation of He-Ne lasers on the finger surface is projected by the focusing lens 5 into the hole of the point diaphragm 6. In this case, the radiation of He-Ne lasers 10, 11 reflected by the finger 15 and mirrors 2, is directed to the photodetector 7.

When the radiation of He-Ne lasers 10, 11 hits the photodetector 7, the photodetector generates an electrical signal that is output to the ignition pulse shaper 19. The ignition pulse shaper 19 generates electric ignition pulses passing through the power supply unit 17 to the AIH pump lamp Er 1 and igniting her. When the pump lamp is ignited, the electric energy discharged in the energy storage unit of the power supply unit 17 of the pulsed AIG: Er laser 1 is discharged. When a discharge of the AIG: Er laser 1 accumulator is generated, a pulse with a duration of 10 ^-4 -10 ^-3 with a wavelength of 2.94 μm is obtained . The pulse energy is regulated in the range from 0.2 to 3 J stored in the energy store. The radiation of pulsed AIG: Er laser 1 is focused by the lens 3 on the surface of the finger 15 to the same point as the radiation of He-Ne lasers 10, 11.

 Work with the proposed device is as follows.

 The nurse turns on the VK switch, places the patient’s finger, from which blood should be taken, with the fingernail down, onto platform 12. Site 12 in the initial state is above the position shown in Fig. 1. In the upper position, the area 12 of He-Ne laser radiation does not form a single point, but create two separate spots. The patient presses the finger from which blood is taken to the site 12 and moves it down. In this case, the emission spots of He-Ne lasers come closer together. At the moment of combining individual spots of He-Ne laser radiation into one spot, a single-time operation of the pulsed AIG: Er laser occurs automatically, the radiation pulse of which pierces a blind hole in the patient’s finger, from which blood begins to flow. Leaking blood is taken and used for analysis.

Claims (4)

 DEVICE FOR PERFORATION OF SKIN DURING THE BLOOD OF A PATIENT FOR ANALYSIS, including a device for opening the skin, characterized in that, in order to eliminate the risk of infection of the patient with viral infectious diseases, the device for opening the skin is a medium-emitting pulsed laser with a focusing system wherein the device is equipped with a first continuous light source emitting in the visible range of the spectrum with a focusing system for aiming the radiation cheniya pulsed laser and photodetector with the optical system and the pinhole diaphragm, wherein the laser source is a continuous light and the photodetector are mounted so that the laser focal point, the light spot of the light source and the image point aligned aperture.  2. The device according to claim 1, characterized in that it is equipped with a second source of continuous light with a focusing system for combining the focused spot with the spot of the first light source.  3. The device according to claim 1, characterized in that the continuous light source is a laser.  4. The device according to claim 1, characterized in that, in order to increase the opening of the opening, the focusing optical system of the pulsed laser has a cylindrical component for focusing the radiation in a line.

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