RU172072U1 - DEVICE FOR REGISTRATION OF FREQUENCY OF HEART CONTRACTIONS OF EMBRYO OF BIRDS WITHOUT DESTRUCTION OF SCROLL - Google Patents

Abstract

The utility model relates to biology, and in particular, to methods for studying the contractile function of the heart of bird and reptile embryos, carried out under IN VIVO conditions. from the color of the shell. This goal is achieved by the fact that the device contains a housing and an inner chamber, the LEDs are located around the perimeter of the chamber and are made with the possibility of eggs on all sides, the control board contains an electronic circuit configured to automatically adjust the brightness of the LEDs on the basis of data on the level of illumination from a photosensitive sensor, which is configured to detect changes in the amount of light due to heartbeats. The proposed device allows you to expand the range of incubation periods on which it is possible to take measurements and use a single modification of the device for eggs of any intensity coloring shell.

Description

The utility model relates to biology, and in particular to methods of studying the contractile function of the heart of bird and reptile embryos, carried out under IN VIVO conditions.

A device is known - "Buddy Digital Monitor." A compact device with autonomous power supply, it has no settings; IR LEDs are used as a light source.

The disadvantages of this device are: a narrow range of terms of embryogenesis, which can record heart contractions and the need to use different models of this device for eggs with different intensities of shell color.

The purpose of this device is to extend the terms of embryogenesis, in which it is possible to register heart contractions and realize the ability to examine eggs on one device, regardless of the color of the shell.

This goal is achieved in that the device comprises a housing and an internal camera, the LEDs are located around the perimeter of the camera and are configured to illuminate the eggs from all sides, the control board contains an electronic circuit configured to automatically control the brightness of the LEDs based on data on the level of illumination from a photosensitive sensor that is configured to detect changes in the amount of light due to heartbeats.

In FIG. 1 shows a device for recording the heart rate of a bird embryo without breaking the shell.

The device consists of a housing 1, an inner chamber 2, a photosensitive sensor 3, lower LEDs 4, upper LEDs 5, control board 6, cover 7.

The principle of operation is as follows. Egg 8 is placed in the inner chamber 2, body 1 above the photosensitive sensor 3 and closed with a lid 7. When the device is turned on, egg 8 is evenly illuminated by LEDs 4 and 5 located around the perimeter of chamber 2.

In the early stages of embryogenesis, when the embryo in the egg 8 is small, the photosensitive sensor 3 detects changes in the amount of transmitted light from the upper LEDs 5 located on the opposite side from the egg 8, and the lower LEDs 4, to obtain reflected light, do not affect the operation device since directed opposite to the photosensitive sensor 3 side. In the later stages, when a large embryo occupies a significant part of egg 8, the light from the upper LEDs 5 located on the opposite side from the egg 8 cannot reach the photosensitive sensor 3 and the photosensitive sensor 3 receives reflected light from the lower LEDs 4 located next to the photosensitive sensor 3. The intensity of the luminescence of LEDs 4 and 5 is regulated by an electronic circuit on the control board 6, which receives data on the level of illumination from the same photosensitive sensor 3, which is the register ruet light quantity change due to heart contractions.

The proposed device allows you to expand the range of incubation periods at which it is possible to take measurements and use a single modification of the device for eggs of any intensity of shell color.

Claims (1)

A device for recording the heart rate of an embryo of birds without breaking the shell, including LEDs, a photosensitive sensor, a control board, characterized in that it contains a housing and an internal camera, the LEDs are located around the perimeter of the camera and are designed to illuminate the eggs from all sides, the control board contains electronic a circuit configured to automatically adjust the brightness of the LEDs based on data on the level of illumination from a photosensitive sensor and which is arranged to register light quantity change due to heart contractions.

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