UA79341C2 - Appliance for freezing or melting biological objects - Google Patents

Abstract

The invention relates to cryo-biology, is intended for cryo-conservation of biological objects and can be used in bio-technology, medicine, cattle breeding, fish industry. Appliance for freezing or melting biological objects is arranged as forceps as two metal compressed in parallel plates that are cold and heat carriers, the plates are equipped with thermo-protective pads and covers. Dimension of slot for placement of biological object between metal plates is adjusted by means of restricting screws. Short time of contact of metal plates with biological object and thus rate of freezing and melting is provided by presence in design of construction spring as cramp, stopper and safety device. The appliance provides increase of volume of sample frozen and increase of rate of defrosting, this excludes possibility of re-crystallization of biological object.

Description

Description of the invention

The invention relates to cryobiology, namely to the development of a device in the form of forceps for cryopreservation of 2 biological objects and can be used in biotechnology, medicine, animal husbandry, and fisheries.

A well-known device for freezing and thawing of biological objects, which allows obtaining a freezing rate of В.-902С/s and a thawing rate of В.-802С/s (Вы/В3-0.9), consisting of a heat-insulating vessel with a refrigerant made of heat-conducting of material placed in a heat-insulated vessel, which is filled with a highly heat-conducting powder with a dispersion of 5-200 microns. The duration of freezing in this case is about 2 s xA. with. Mo1655426 Device for freezing biological objects MKV5 АО1М1/00, 3.3875501/14, application 04/18/85. Publ. 15.06.91, Bul. Mo221st.

However, this device has a significant drawback, namely powder sticking and contamination of the container and all materials that are in direct contact with it.

A device for freezing biological objects is also known, which allows to exclude the contamination of materials with a refrigerant or heat agent and to increase the speed of freezing up to V.3-3702С/s, and thawing - up to V.5-4172С/s (Вв/8В43-1.1) . It consists of two parallel jointed copper plates measuring 10x20x40 mm, adjacent to each other with a gap size of 250-300 microns and has the appearance of tongs. The parallelism of the plates is ensured Due to the hinged fastening, limiting elements are provided between the copper plates, which prevent mechanical damage to the plates and ensure the fixation of the size of the gap between them. Plastic covers and fluoroplastic gaskets are placed on the upper part of the copper plates, thanks to which the intensity of heat exchange between the copper plates of the forceps and the environment is reduced xPatent 357445А Ukraine, MKV5 АО1М1/00 Device for freezing-thawing of biological objects. - with 98041888, application no. 04/14/98. Publ. 04/16/2001, Bull. MoZi.

However, this device has significant drawbacks, namely, it requires the use of a container for biomaterial with a fixed volume of 29 (M-100 μl), does not allow cryopreservation of cell suspensions with larger volumes, does not provide precise regulation and increase the speed of thawing of biovolume objects

The task of the invention is to create a device for freezing or thawing biological objects, in which, thanks to a new design solution, it is possible to increase the volume of the frozen biological object and to regulate the speed of thawing, which allows you to avoid recrystallization in cells during thawing. ch.i

The task is solved in such a way that in a device for freezing or thawing biological objects, made in the form of tongs with two metal plates connected in parallel in working condition as a coolant or heat carrier with the formation of a gap between them for placing a container with a biological object, the size of which (o) is determined by the limiting elements placed between the metal plates, and the latter are equipped with heat-protective covers and gaskets, the invention provides that the limiting elements are made in the form of screws with the possibility of changing the size of the gap between the metal plates, and a spring in the form of staples with the possibility of fixing both of its ends in a position that ensures the docking of copper plates, and one of the ends of the spring is in contact with a mechanical fuse capable of disconnecting both ends of the staple after a short period of time. with

According to the invention, the metal plates of the claimed device can be made of any metal or alloy with a thermal conductivity not lower than the thermal conductivity of copper. :z» The technical essence and principle of action of the proposed device in the form of tongs is explained by the drawing in which fig. - diagram of a device for freezing or thawing biological objects, where 1 - metal plates, 2 - limiting screws, C - X-shaped base of forceps, 4 - forceps handles, 5 - spring in the form of a clamp, b - fuse, 7 - - 15 thermal protective covers, 8 - container with a biological object, 9 - thermal protective pads, 10 - hinged fastening, 11 - lock. (se) The claimed device for freezing or thawing biological objects consists of two metal plates 1 with limiting screws 2, an X-shaped base of forceps 3, a handle of forceps 4, a spring in the form of a clamp 5, a fuse 6. On the outer side of the metal plates 1 thermal protective covers 7 are placed. Thermal protective gaskets 9 are additionally placed in the area of the container with 50 bioobject 8 for additional thermal insulation between the thermal protective covers 7 and the surface of the metal plates 1. One of the metal plates 1 is rigidly connected to the X-shaped base of the forceps 3. To ensure the parallel arrangement of the metal plates 1 in the working state when they are compressed, a hinged attachment 10 of the second metal plate 1 to the X-shaped base of the tongs 3 is provided. Between the handles of the tongs 4, made of heat-insulating material, a spring in the form of a clamp 5 with the possibility of fixation is placed both of its ends when joining metal plates 1, for example, with the help of a fixator 11,

GF) made in the form of a movable hook or a plate with a protrusion or any other design that ensures 7 the separation of the ends of the spring in the form of a bracket 5 when the fuse 6 is moved. The design of the fuse 6 causes the contact of the metal plates 1 for a short time, providing almost instantaneous their separation. The claimed device provides for the use of any design of the fuse 6 that meets the 60 above conditions.

The claimed device can work in two modes: freezing or thawing. The use of fuse 6 is especially important when thawing biological objects, when the short-term thermal effect on the biological object is ensured, which excludes its overheating.

The device is used as follows. In the freezing mode, the metal plates are immersed in 65 liquid nitrogen, after which a container, made in the form of an envelope of polyethylene or aluminum foil, with a bioobject is placed between the opened metal plates, having previously adjusted the size of the gap between the metal plates with the help of limit screws, sufficient for the given container volume.

When the metal plates come into contact with each other, the biological object freezes quickly or very quickly due to the high thermal conductivity of the metal plates and their close contact with the entire surface of the envelope with the biological object. Under the conditions of such ultra-fast cooling, the possibility of the formation of ice crystals is excluded and vitrification of the medium is achieved, which ensures an increase in the preservation of the biological object.

In the thawing mode, metal plates are preheated in a water bath. Due to the presence of a fuse in the design of the device, which ensures ultra-short contact of the metal plates with the surface 70 of the container with the biological object, it is possible to heat the metal plates up to 80 9C, which is almost twice as high as the standard temperature for defrosting biological objects. At the same time, a significant increase in the speed of thawing of biological objects is achieved object and the possibility of recrystallization of the medium is excluded.

The invention is illustrated by examples.

Example 1. As an option, a device for freezing or thawing consists of two parallel 75-jointed copper plates measuring 10x40x80 for a Dewar X-35 vessel and 10x20x40 for a Dewar X-5 vessel.

In the device, before use, according to the volume of the sample, the position of the limiting screws is adjusted. In the freezing mode, immediately before freezing, the device is cooled in liquid nitrogen. A container with a volume of 0.8 ml, made of food-grade aluminum foil, is filled with water and placed in the device between the limiting screws. With the help of a tongs handle, the plates are docked up to the stop and held for 1-2 seconds, after which they are squeezed and the container is transferred to liquid nitrogen, which is in a Dewar vessel.

Example 2. As an option, the device for freezing or thawing consists of two parallel connected copper plates measuring 10x40x80 for a Dewar X-35 vessel and 10x20x40 for a Dewar X-5 vessel.

In the device before use, according to the volume, adjust the position of the limiting screws. In the defrosting mode, immediately before defrosting, the device is heated in a water bath to 80 °C for 7-10 minutes. with

A container with a volume of 0.8 ml, made of food-grade aluminum foil, containing the sample in the form of water, is placed in the device between two copper limiting plates. With the help of handles, the copper plates are compressed to the stop. To exclude the possibility of overheating of the container containing the biological object above the physiological temperature, a fuse is used. When the container is fully crimped during its defrosting, pressure is applied to the clamp retainer, which separates the ends of the clamp, thereby ensuring the compression of the copper plates. Then the container is removed from the device.

Example 3. The use of the proposed device in accordance with examples 1 and 2 was carried out on 3 water samples. A container with a volume of 0.8 ml, made of food-grade aluminum foil, is filled with water and placed in the declared device. In the freezing mode, copper plates are cooled by immersion in liquid nitrogen. The temperature from 0 to -1002С during freezing changes in 27 s, and the freezing speed at the same time is 3702С/s. In the thawing mode, the copper plates are heated in a water bath to 802C/s for 7-10 h-min. The speed of thawing is 833 2C/s. At the same time, the ratio of the rate of thawing to the rate of freezing is Vu./B3-2.3, which completely excludes the possibility of recrystallization of the sample.

In another version of the experiment, when using containers with a volume of 0.1 ml, when thawing, copper plates were heated to 402C. The speed of thawing is 4172С/s. The ratio of the speed of thawing to the speed of freezing is В //Ва3-1.1. When using such a mode of freezing and thawing, there is a threat of recrystallization of the sample. "» The results of the experiments are shown in Table 1. "The analysis of Table 1 shows that when copper plates are heated to 802С, the thawing time is reduced by 2 times, which allows to exclude the process of recrystallization in the environment containing the biological object, and thus to increase its preservation after deconservation - Thus, the claimed device for freezing or thawing biological objects is constructive

Ge) features of which allow the use of containers with bioobjects of different volumes, provide a high speed of both freezing and thawing of bioobjects, allow to achieve a ratio of the speed of thawing to the speed of freezing, in which the possibility of recrystallization is excluded and maximum preservation is ensured bioobject during thawing.

The advantages of the claimed device are its simplicity, manufacturability in manufacturing and use, and availability of use in clinical, laboratory and field conditions. The device can be used in biotechnology, medicine, animal husbandry, fishery. Prospective use of the claimed device in reproductive technologies of mammals, fish, in cryopreservation of tissue transplants. o ko Volume of the container The ratio of the speed of thawing to

M, ml is the speed of freezing and

Her s o B5, esis Y, s |Vv, gs/s ov 177leb | in bat) bad m? and b5

Claims (2)

The formula of the invention 1. A device for freezing or thawing biological objects, made in the form of tongs with two 2 metal plates connected in parallel in working condition, which are both cold and heat carriers, with the formation of a gap between them for placing a container with a biological object, size which is set by the limiting elements placed between the metal plates, and the latter are equipped with heat-protective covers and gaskets, which is characterized by the fact that the limiting elements are made in the form of screws installed with the possibility of changing the size of the gap between the metal plates, and a spring in the form of a 70 clamp is placed between the handles of the tongs with the possibility of fixing both its ends in a position to ensure the joining of the plates, and one of the ends of the clamp is in contact with a fuse capable of disconnecting the ends of the clamp after a short period of time. 2. The device according to claim 1, which is characterized by the fact that the metal plates are made of any metal or alloy with a thermal conductivity not lower than the thermal conductivity of copper. with from (8) "- " (ze) (o) and - - I.Y and? -i se) (95) sh» - ime) 60 b5