RU182017U1 - Petri dish for growing wax moth larvae - Google Patents

Abstract

The utility model relates to biology, physiology and pet hygiene, namely to laboratory equipment for conducting biochemical and physiological studies.

The proposed Petri dish consists of two, made of a transparent material (glass, plastic, etc.), cylindrical, different in size containers and lids. On the inner side surface of the tank is made an annular protrusion at an angle towards its base. An annular protrusion is located at the end of the tank.

The proposed Petri dish can be successfully used in research in the field of biology, as well as in laboratory research in veterinary laboratories, as well as scientific and educational research in the laboratories of the departments: epizootology, parasitology, entomology, microbiology, animal health and veterinary sanitary examination . 2 ill.

Description

The utility model relates to biology, physiology and pet hygiene, namely to laboratory equipment for conducting biochemical and physiological studies.

Large wax moth (Galleria mellonella L.) is a ubiquitous parasite of the honey bee species (Apis mellifera L.), (Diseases and pests of honey bees: Reference book / O.F. Grobov, A.M. Smirnov, E.T. Popov - M .: Agropromizdat, 1987. - S. 235), it is bred as an object of biochemical and physiological studies, as well as to obtain biologically active raw materials and feed additives.

In laboratory conditions, wax moth is grown in Petri dishes (Pat. RF 2038086 “A method for producing a biologically active product from the larvae of a large wax moth.” Spiridonov NA, Rachkov AK, Mukhin SA, Kondrashova MN )

There are several designs of Petri dishes described in the scientific and educational literature: for example, a Petri dish of a typical shape made of glass, but of different sizes (Microbiological control of animal meat, poultry, eggs and their processed products: Reference book / S.A. Artemyeva, T.N. Artemyeva, A.I. Dmitriev, etc. - M .: Kolos, 2002. - P. 42), as well as a Petri dish (PM 169066, IPC S12M 1/00), consisting of two identical in shape, but different in shape the size of the container and the lid made of transparent plastic and a Petri dish (PM 173791, IPC S12M 1/00), consisting of two identical in shape, but ase the size of the container and the lid.

All of the above structures are characterized by a narrow specificity of their application, as well as their low adaptability to the biological characteristics of the large wax moth (Galleria mellonella L.), which complicates its cultivation in the laboratory.

As a prototype, a Petri dish of standard sizes was chosen, consisting of two identical in shape but different in size parts - halves made of glass, which leached out little during washing and sterilization, with a flat flat bottom (Workshop on Veterinary Microbiology and Immunology / T. S. Kostenko, E.I. Skarshevskaya, S.S. Gitelson. - M .: Agropromizdat, 1989. - P. 88).

Despite the many positive properties, this Petri dish design has a number of significant drawbacks that are illustrated in FIG. 1., where the larvae of the large wax moth when opening the lid 2 actively creep out of the container 1, along the inner surface of the container 4, with the subsequent transition to the outer surface of the container 5, which complicates the work, increases the time spent on the necessary measures and leads to injury, and the death of the larvae that fall when closing the lid 2 between it and the lower tank 1. Also, due to the design features, due to the high activity of the larvae and their rapid exit from the Petri dish, it is difficult to add new portions a nutrient medium, which complicates and greatly complicates the conduct of experiments.

The technical result of the application of the utility model is visual control and replenishment of the nutrient medium when the larvae cannot exit the Petri dish, which completely eliminates their injuries.

The technical result is achieved in that the Petri dish for growing wax moth larvae consists of two cylindrical, made of a transparent material, different in size of the container and the lid, an annular protrusion is made on the inner side surface of the container at an angle towards its base, located on end of the tank.

The essence of the utility model is illustrated in the drawing, where, in FIG. 1, a standard Petri dish (prototype) is shown, and in FIG. 2 proposed petri dishes.

The proposed Petri dish consists of two, made of a transparent material (glass, plastic, etc.), cylindrical, different in size, of the container 1 and the lid 2. On the inner side surface 4 of the container 1, an annular protrusion 3 is made at an angle towards its base. An annular protrusion 3 is located at the end of the tank 1.

The device operates as follows. A well-washed and sterilized Petri dish is populated with larvae of the same age, taken from the same bookmark of eggs of the uterine culture. In the tank 1, a nutrient medium is laid, and larvae are released. The biological feature of the larvae of the large wax moth is the rapid growth and high activity of the nutrient medium. When opening the lid 2, the larva rushes to the top along the inner surface 4, of the tank 1, then the larva moves downward along the inner surface of the annular protrusion 3, falls to the bottom of the tank 1, without being able to exit the tank, which allows the necessary measures as: supplementation of the nutrient medium, inspection of the larvae and if their personal or selective weighing is required, as well as selection.

Thus, the use of a utility model allows:

1. To increase the convenience in work, speed and safety of basic operations.

2. Eliminate the risk of lethal damage to the body of the larvae due to the ingress of their bodies between structural elements, which will improve the quality of research.

3. Laboratory studies are simplified and time for conventional manipulations (inspection, weighing, selection, laying and replenishment of the nutrient medium) is reduced.

The proposed Petri dish can be successfully applied in research in the field of biology, as well as in laboratory research in veterinary laboratories, as well as scientific and educational research in the laboratories of the departments of epizootology, etc.

Claims (1)

A Petri dish for growing wax moth larvae, consisting of two transparent cylindrical containers of different sizes and a lid, characterized in that an annular protrusion is made on the inner side surface of the container at an angle towards its base, located at the end of the container.

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