CZ2002905A3 - Method for marking animal and products derived therefrom - Google Patents

Abstract

The invention relates to a method for marking an animal, in addition to products derived therefrom, whereby a transponder (10) is introduced into the body of the animal; an immune-reaction-producing substance (16) is applied to the animal; said immune-reaction-producing substance is not applied to the organism of the animal via injection nor the food chain nor in the natural environment of animal breeding. It is thus possible to obtain simultaneously a biological and physical marking over a given period of time.

Description

METHOD OF MARKING OF ANIMALS AND PRODUCTS ORIGINATING

Technical field

The invention relates to a method for tagging an animal and its products, a transponder and a kit.

BACKGROUND OF THE INVENTION

According to the state of the art, livestock such as cattle and pigs are usually provided with a marking, such as an eartag, a tattoo or a transponder, for identification and proof of origin.

Transponders - as known from US 5,697,384, are injected at various locations in the animal body under the skin or muscle tissue. Transponder recognition is based on the following principle: An electromagnetic field is transmitted from the selected selection unit to the surroundings via an antenna. When the transponder reaches the field, current is induced in the transponder. This current is used to transmit a signal through the antenna. The signal is captured and decoded. In order to operate such a passive transponder, no additional power supply is required, for example in the form of a battery.

In these traditional transponders, the interrogation distance, which is generally 30-50 cm, has proven to be disadvantageous, so that even if the transponder is moved slightly in the animal, reading errors can occur. In order to avoid displacement, it is known from DE 37 45 053 to coat a transponder with a roughened plastic layer.

A further disadvantage of said tagging is that after separating the animal from tagging, for example after slaughtering or breaking the animal, it is not possible to assign individual animal parts to each slaughtered animal.

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Bio-labeling of animals for slaughter is known from WO 98/18003 and WO 99/36775. The animal is enriched with at least one harmless immunogen for the animal and consumers. Evidence of induced specific antibodies allows genuine proof of the origin of the living animal and its products as meat and meat products. The disadvantage of this method is that the animal must be sampled for proof of origin.

The object of the invention is to overcome the disadvantages of the prior art. In particular, reliable, rapid and genuine certain marking of the animal should be possible. The marking should be identifiable as far as possible without having to take a sample from the animal. In addition, safer and more secure evidence should be made available to clearly identify the origin of the products derived from the animal after slaughter.

This object is solved by the features of claims 1, 14 and 18. Advantageous modifications of the invention result from features 2 to 13, 15 to 17 and 19 to 21.

SUMMARY OF THE INVENTION

The object of the present invention is to provide a method of branding an animal and products derived therefrom by introducing a transponder into the body of the animal and at least not administering to the animal as a vaccine or a food chain or animal habitat. This substance induces an immune response so that bio-and physical labeling is simultaneously achieved for a given period of time.

Substance-induced immune responses usually do not occur in animals because they do not come into contact with this substance that elicits an immune response. When selecting a substance, care should be taken to ensure that it does not enter the animal's organism, either as a vaccine, through the food chain or through the environment of normal animal husbandry. In addition, this substance should be harmless both to the animal and to the consumer.

The method of the invention has the advantage that at least for a given period of time, the bio-tagging is achieved by an immune response, indivisibly bound to the animal. Bio-labeling cannot be confused or falsified; cannot be removed by prescribed transponder removal at slaughter and cutting. Bio-labeling can be demonstrated both in parts of the animal and in products derived therefrom. Evidence is possible, for example, in blood, milk or other animal body secretions or dripping juice or squeezed meat juice. At the same time, the transponder provides the possibility to identify the animal reliably, quickly and without contact by means of physical methods. The assurance of correctness is achieved especially by double physical and biological - marking.

The immune reaction may take place after application of the substance at a later time. During this time, the tagged animal can be identified by means of a transponder. Within a given period of time, for example at least 6 months before slaughter, the animal is labeled biologically and physically. Of course, the time period may also be longer than 6 months. It preferably starts several days after application of the substance and lasts until the animal is slaughtered.

Furthermore, it is advantageous in the process according to the invention that the transponder and the substance can be applied in one and the same working step. For example, it is possible to inject a substance existing in solution or suspension together with a transponder. A suitably oriented transponder may also be applied.

It is particularly advantageous in the method according to the invention that the double marking of the animal is significantly higher

Jist φ ··· · · · · φφφ ··· «· · · φφφ« · ··· · ······ certainty of accuracy. Thus, the animal in which the transponder has been lost or damaged can still be proven by bio-labeling. On the contrary, it is possible with the transponder to undoubtedly identify an animal that, for some reason, did not have an immune response at all or had an inadequate immune response against the substance.

The substance may be bound to a carrier and, together with excipients such as adjuvants, may be applied in solution, as a suspension or as an implant.

It is also envisaged to enrich the mixture of substances.

In one preferred embodiment of the method according to the invention, the transponder envelope is coated with a substance. The substance can be bound to the material by adsorbent chemicals, such as biopolymers. Advantageously, an adjuvant effect resulting in a stronger immune response can be achieved by adsorption. The substance may also be bound to the housing by an intermediate layer. Coupling may be accomplished using coupling agents such as biotin. The intermediate layer may consist, for example, of polystyrene or polycarbonate. The adjuvant effect can be achieved by binding. In addition, it can be caused by the slow release of the substance in the body of the animal. This causes a strong and sustained stimulation of the immune response.

In a further preferred embodiment of the method according to the invention, the substance is coated with and / or stored in a means of retarding its availability in the body of the animal. This protects the substance from the immune system attack for a given time. This offers the advantage that the implantation can be performed already in the perinatal period of time, for example in connection with other conventional measures taken. Antibody production is delayed and induced, for example, only after several weeks.

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Another possibility is to have multiple layers between which retarding means are provided. This makes it possible to release the substance repeatedly over a longer period of time, so that the long-term higher antibody production is achieved by multiple stimulation or immune response. Another advantage of the multilayer structure is that different substances can be used. By means of the sustained release of these substances throughout the life of the animal, it is also possible to carry out the bio-labeling according to which the age of the animal can be determined both on the living animal and on the individual products derived from the animal, such as meat and meat products. For example, polyglycolic acids, polydioxanone, polyglycolides, polyactides, homopolymers and / or copolymers of glycolides and D- / Llactides and / or other biodegradable components as described in US 3,887,699, US 3,991,766 US 4,045,418 and US 4,137,921 can be used as accessibility retardants . The content of the disclosure of said US patents is hereby incorporated.

In a further preferred embodiment of the method according to the invention, a digital specific code is transmitted from the transponder upon appropriate activation. This is particularly possible with a transponder that contains a digital connection. This allows error-free detection of the transponder signal at a lower transmission power. The code can be read from greater distances. The digital code may contain information about the bio-tagging of the animal. This further increases the reliability of the method. Transponder cannot be unnoticed, transplanted into the body of another animal.

The substance may comprise peptides and / or nucleic acids. It can elicit an immune response both directly and indirectly. Substances that directly elicit an immune response are, for example, proteins or peptides or fragments thereof, such as: "keyhole limpet hemocyanine," green fluorescent protein from Aequoria victoria, inactive snake toxins, viral proteins, hirudin, feromonotropin, renalexin and artificial proteins and peptides, whose amino acid sequence does not correspond to any substance known so far but which is harmless to the animal and consumer. Suitable peptides are, in particular, those having at least one non-physiological amino acid, one modified amino acid, one D-amino acid and / or a derivative of such an amino acid. Modified amino acids and derivatives may contain, for example, selenium, alkyl, phenyl, or other residues or carbohydrates.

The advantage of at least one non-physiological amino acid comprising peptides is that it can provide substances with which the animals to be labeled have not previously been contacted. Moreover, these amino acids offer the advantage that a large number of different peptides may be available by combining them. Individual labeling of individual animals is possible. In addition, it is an advantage that through said amino acids peptides that are stable in the body of an animal can be provided than peptides with naturally occurring amino acids. Particularly sustained immunostimulation and improved antibody titer can be achieved. Particularly modified, i.e. suitable or appropriately oriented vaccines for labeling purposes are also considered in this context to be suitable for labeling.

Reference should also be made in this connection to WO 98/18003 and WO 99/36775, the disclosure of which is hereby incorporated by reference.

Nucleic acids may be included in an expression vector. They may encode a particular immunogen. Such an immunogen may, for example, be one of the aforementioned proteins or peptides. By applying nucleic acids, an immune response can be invoked indirectly.

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Furthermore, the substance may also be a chemical agent or a chemical group, such as a dinitrophenyl group. Often, chemical agents or chemical moieties must combine into larger molecules to be immunogenic. For example, a dinitrophenyl group may be coupled to a protein, such as bovine albumin serum, and thereby become immunogenic.

Conveniently, a code is read from the transponder by means of a transmitter and detector. In this way, it is possible, for example, to individually supply livestock during operation with a feed machine with feed and certain additives, or to quickly describe the origin of the individual animals at passage. The method also allows the machine to capture the origin of already slaughtered animals that still contain a transponder, so that, for example, in the process of cutting, the processing can be automatically controlled depending on the origin.

The invention furthermore relates to a method for proving the origin of an animal labeled according to the invention, wherein the substance-specifically produced antibodies and / or T-cells and / or their receptors are detected from animal body fluid, milk or dripping juice from meat derived from the animal. The method of detecting antibodies has the advantage that it is easily and quickly feasible at any time.

In one preferred embodiment of the invention at least one of the following methods is used: Enzyme Linked Immunosorbent ASSAY (= elisa), Enzyme Immuno Assay (= EIA), Immunoblot (= Westernblot), immunodiffusion, immunofluorescence, Radio Immuno Assay (= RIA) , proof using test sticks and proof using test chip. Particularly simple is the proof using test sticks, which for example are immersed in the dripping meat juice of the slaughtered animal or milk. Thus, the origin of products derived from livestock can be examined and determined by anyone.

The invention further relates to a transponder whose housing is coated with a substance that induces an immune response in an animal that does not enter the animal organism either as a vaccine, in the food chain, or in the environment of conventional animal husbandry. The transponder preferably has a digital connection to transmit the digital code. Such transponders have low power consumption. They can be read from relatively large distances. The invention further relates to a kit with a transponder and at least one substance that elicits an immune response in an animal that is not administered to the animal organism either as a vaccine, in the food chain, or in a conventional animal husbandry environment. For advantageous modifications, reference is always made to the foregoing embodiments.

It is to be understood that the foregoing and further elucidated features are applicable not only in the always-mentioned combination but also in other combinations or in a separate position without departing from the scope of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS

Further advantages of the invention result from the specific exemplary embodiments and with reference to the drawings, in which Fig. 1 is a schematic sectional view of a first exemplary embodiment and Fig. 2 is a schematic sectional view of a second exemplary embodiment

DETAILED DESCRIPTION OF THE INVENTION

In the figures, it shows a general transponder device designated T transponder 10 with a housing 14 which is expediently made of a dielectric and biologically inert material.

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This may be glass, polyethylene, polystyrene or polycarbonate. The housing 14 is coated with a substance 16. The substance 16 is wrapped with a means 18, retarding respectively retarding the availability in the body of the animal. This may be a polyglycolic acid.

In the transponder device T, the substance 16 is bound to the housing 14 by an intermediate layer 15. The intermediate layer can be formed, for example, of polystyrene or polycarbonate.

According to the method of the invention, the transponder device T is introduced into the animal to be labeled by, for example, injecting intramuscularly. After a few weeks, the existing retardant 18 is released, for example from polyglycolic acid. Subsequently, substance 16, which may be, for example, keyhole limpet hemocyanine, becomes accessible to the animal's immune system and causes an immune response in the animal, directly or indirectly. The substance 16 can be delivered slowly, i.e. throughout the life of the animal, so that there is a high antibody titer in the animal for a long time. The substance 16 may be bonded directly or by absorbent chemicals to the surface of the housing 14. The transponder 10 may comprise a digital circuit that generates a specific digital code and thus allows a greater interrogation distance than prior transponders. If this. the tagged body of the animal comprises a transponder 10, which can be registered by means of a corresponding transmission and detector device. After slaughter and demolition. an antibody raised against substance 16 in, for example, dripping juice from the meat of a slaughtered animal can be detected in the animal. This can be done, for example, by ELISA, wherein the substance 16 is immobilized on a microtiter plate. Antibodies bound thereto from meat juice can then be detected by binding of enzyme-labeled secondary antibodies directed against the antibodies of the animal and by an appropriate enzyme reaction.

Claims (16)

PATENT CLAIMS A method of tagging an animal as well as products derived therefrom, wherein a transponder (10) is introduced into the body of the animal, which is designed to transmit a digital specific code when appropriately activated, characterized in that it is at least not applied to the animal a substance (16) incorporated in the animal body in one and the same working step with a transponder (10), which induces an immune response, so that biological and physical labeling is simultaneously achieved in a given period of time and comprising specific code information transmitted by the transponder (10) by means of a bio-tagging. The method of claim 1, wherein the substance and the transponder (10) are injected. Method according to claim 1 or 2, wherein the transponder housing (14) is coated with a layer of substance (16). The method of claim 3, wherein the substance (16) is bound to the housing (14) by adsorbent chemicals. A method according to any one of the preceding claims, wherein the substance (16) is wrapped with and / or deposited by a means (18) slowing its availability in the body of the animal. The method according to any one of the preceding claims, wherein the substance comprises peptides, proteins or theirs ΦΦ φ φ φ φ φ * * * * * * • • • • • Fragments and / or nucleic acids. The method of claim 6, wherein the peptides comprise at least one non-physiological amino acid, a modified amino acid, a D-amino acid, and / or a derivative of such amino acids. The method of claim 6 or 7, wherein the nucleic acids are contained in an expression vector. A method for identifying the tagging of an animal tagged according to any one of the preceding claims, wherein the code is read from the transponder (10) by an external transmission and detector device. A method for identifying the marking of an animal to be labeled according to any one of the preceding claims 1 to 8, in particular according to claim 9, wherein the substance (16) of the specifically formed antibody and / or T-cell and / or its receptor is detected from animal body fluid, milk. or dripping juice from meat coming from an animal. The method of claim 10, wherein at least one of the following methods is used: Enzyme Linked Immunosorbent ASSAY (= ELISA), Enzyme Immuno Assay (= EIA), Iramunoblot (= Westernblot), immunodiffusion, immunofluorescence, Radio Immuno Assay (= RIA) , proof using test sticks and proof using test chip. A transponder for marking an animal, wherein the housing (14) of the transponder (10) is coated with a substance and wherein the transponder (10) comprises a digital code transmission circuit, wherein the substance is a substance. 44 ·· 44 44 · · · 4444 4 4 «43 4» « 4 4 4 ·· 444 4444 444 444 44 44 «4 4« 4444 (16) eliciting an immune response in an animal which is not administered to the animal organism either as a vaccine, in the food chain or in the animal husbandry environment and that contains code information transmitted from the transponder by bio-tagging . Transponder according to claim 12, wherein the substance (16) is bound by adsorbent chemicals to the housing (14). Transponder according to claim 12 or 13, wherein the substance (16) is wrapped with a means (18), retarding its availability in the body of the animal and / or deposited therein. The transponder of any one of claims 12 to 14, wherein the circuitry is a digital circuitry. A kit with a transponder (12) and at least one substance (16) eliciting an immune response in an animal that is not administered to the animal by either the vaccine, the food chain, or the habitat of an animal husbandry environment.