RU2766668C1 - Method for diagnosing thyroid diseases in cats - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention refers to medicine, namely to veterinary endocrinology, and can be used for diagnosing thyroid diseases in cats. Thyroid hormone level is measured in blood serum of Siamese, Persian, Abyssian breeds, as well as outbred cats of different age groups using enzyme immunoassay. Thyroid hormones are measured: total thyroxine, free thyroxine, free triiodothyronine, thyrotropic hormone. Their numerical values are used to diagnose hypothyroidism and thyrotoxicosis with the help of table 1 - reference values taking into account the cat's breed or using table 2 - reference values taking into account the age of the cat. If the hormone level is lower than the above parameters, hypothyroidism is diagnosed. If the hormone level is higher than the above parameters, thyrotoxicosis is diagnosed.EFFECT: method provides the possibility of increasing the probability of making an accurate diagnosis in cats of special breeds and ages with thyroid pathologies by establishing new diagnostic criteria for the state of the thyroid gland based on the reference values of thyroid hormones in cats depending on the breed and age.1 cl, 2 tbl

Description

The invention relates to veterinary medicine, in particular to veterinary endocrinology of domestic animals, and is intended for diagnosing and evaluating the effectiveness of treatment of various thyroid diseases in cats of different breeds and ages.

The essence of the invention is to determine the concentration of thyroid hormones in cats of certain breeds and ages. Assessment of the concentration of hormones and the calculation of indicators is carried out by enzyme immunoassay (ELISA) method. The result of the study was the creation of reference indicators of thyroid-stimulating hormone, total thyroxine, free thyroxine, total triiodothyronine, free triiodothyronine, adrenocorticotropic hormone, cortisol in cats of certain breeds and ages. The established normative values allow with a high probability to make an accurate diagnosis of cats of special breeds and ages with thyroid pathologies.

Diseases of the endocrine system in small domestic animals have been studied very little, despite their frequent occurrence. The pathologies of the endocrine glands in cats include thyrotoxicosis and hypothyroidism.

Thyrotoxicosis is a disease caused by increased production and secretion of thyroid hormones, namely, an increase in the blood levels of thyroxine and triiodothyronine. In humans, although rare, this disease is a consequence of dysfunction of the hypothalamus and pituitary gland. Also theoretically, the active destruction of the thyroid gland, accompanied by the release of a large amount of thyroid hormones into the blood, can also be the cause of thyrotoxicosis. Thyrotoxicosis in cats is almost always associated with autonomic hyperfunction of the thyroid gland, that is, due to the primary pathological process in one or both lobes of the thyroid gland.

Hypothyroidism is a persistent decrease in thyroid hormones in the blood, leading to various metabolic disorders. There are primary, secondary and tertiary hypothyroidism. Primary hypothyroidism is characterized by various pathologies directly in the thyroid gland itself. These include: lymphocytic thyroiditis, idiopathic thyroid atrophy, thyroid tumors, thyroid follicular cell hyperplasia. Secondary develops in violation of the functioning of the pituitary gland, when there is a change in the production of thyroid-stimulating hormone. Namely, with defects in the development of the pituitary gland, pituitary cysts, hypoplasia of the pituitary gland, destruction of the pituitary gland, and various tumors. The tertiary form of hypothyroidism is directly related to the synthesis of thyroliberin and is detected when it is insufficiently secreted due to congenital and acquired defects in the development of the hypothalamus.

Thyrotoxicosis occurs in cats of all ages, but most often at the age of 13 years. Among cats older than 8 years, it is the most common endocrine pathology, and in animals younger than 4 years, it develops extremely rarely. Cats with thyrotoxicosis younger than 8 years old account for less than 5%. The frequency of the disease does not depend on either breed or gender, although Siamese cats may have a lower risk of thyrotoxicosis. In a study by Feldman E. (Feldman E., Nelson R. Endocrinology and reproduction of dogs and cats. - M .: Sofion. - 2008. - 1256 p.) an increased risk of this pathology was reported in domestic cats of Persian breeds kept on canned food and exposed to flea control agents, insecticides and herbicides. Pilov A.X. (Pilov A.Kh. Morphological and functional characteristics of the thyroid gland of domestic animals / A.Kh. Pilov; Kabardino-Balkarian State Agricultural Academy. - // Vestnik RAAS. - 2003. - No. 3. - P. 62-63.) showed that in cats of two genetically close breeds of Siamese and Himalayan, the disease develops less frequently than in animals of other breeds.

Hypothyroidism is less common in cats. Primary hypothyroidism is extremely rare, secondary and tertiary forms are described in isolated cases, and only iatrogenic hypothyroidism is well known. The iatrogenic form of hypothyroidism is found after treatment for hyperthyroidism and is much more common than the acquired form. Hypothyroidism is observed in cats in adulthood, starting at 10 years of age.

Various methods for diagnosing thyroid disorders in cats are known in the prior art.

A known method for the diagnosis and monitoring of hyperthyroidism in felines, based on measuring the level of gene expression in a biological sample [RU 2593952 C2, C12Q 1/68 (2006.01), 10.08.2016]. This method is not intended to determine the hormonal activity of cats depending on the breed and age, but is based on the study of the expression of biomarkers in a biological sample.

Methods for diagnosing hyperthyroidism in companion animals are known, which include determining the level of a nucleic acid encoding the sodium-iodine symporter peptide in a biological sample of a cat with SEQ ID NO and comparing the level of nucleic acid with a reference level of said nucleic acid determined in control cats without hyperthyroidism. [RU 2612901 C2, C12Q 1/68 (2006.01), C07K 14/705 (2006.01), 13.03.2017]. The disadvantage of this method is the inaccessibility of equipment for its implementation, as well as its high cost.

The objective of the invention is to develop an easily accessible method for diagnosing diseases of the thyroid gland of cats, depending on the breed and age, based on reference indicators of thyroid hormones.

The technical task of the method for diagnosing thyroid diseases in cats based on reference indicators of thyroid hormones, claimed as an invention, is primarily to establish new diagnostic criteria for the state of the thyroid gland in accordance with a certain breed and age of animals.

The technical result of the developed method for diagnosing thyroid diseases in cats based on reference indicators of thyroid hormones is to increase the likelihood of making an accurate diagnosis in cats of special breeds and ages with thyroid pathologies.

The set technical task and the named technical result are achieved by the claimed as an invention method for diagnosing thyroid diseases in cats based on reference indicators of thyroid hormones, including the study of the concentration of total thyroxine, free thyroxine, total triiodothyronine, free triiodothyronine, adrenocorticotropic hormone, cortisol in blood serum using enzyme immunoassay. ELISA uses recombinant fragments of E. Coli galactosidase, which are inactive by themselves, but form an active enzyme when spontaneously combined. Thyroid and corticosteroid hormones are covalently bound to one of the fragments, so monoclonal antibodies to them prevent the formation of the enzyme. Serum hormones present in cats compete with fragment-bound hormones for binding to antibodies, taking them over and thereby promoting the formation of the active enzyme. Therefore, the amount of active enzyme formed is directly proportional to the concentration of hormones in the serum and is determined by the degree of hydrolysis of nitrophenyl-galactopyranoside. ELISA results are not affected by hemolysis and elevated serum lipids.

To illustrate the implementation of the method claimed as an invention for diagnosing thyroid diseases in cats based on reference indicators of thyroid hormones, a study was conducted in three stages:

Stage 1: determine the concentration of thyroid and corticosteroid hormones in cats of different breeds;

Stage 2: determine the concentration of thyroid and corticosteroid cats of different ages;

Stage 3: carry out statistical processing of the obtained values with the calculation of arithmetic averages, their average statistical errors, limits and reliability criteria.

At the first stage, 20 cats aged 3 years of such breeds as Persian, Abyssinian, Siamese and outbred were examined. Each group consisted of five cats of the same breed. At the second stage, 20 cats aged from 1 to 14 years of the following breeds were studied: Persian, Abyssinian, Siamese. In all groups, there was one cat of each breed and a mongrel. The groups differed in the age of the animals.

This study of the concentration of thyroid and corticosteroid hormones was carried out on cats of private owners in the Fauna Veterinary Clinic. All animals had similar feeding and maintenance. Cats were constantly at home, water and food were received in accordance with physiological needs. Before taking blood, the animals were carefully diagnosed in order to exclude sick cats. Hormones were studied in general and free form. The free form of hormones is the most important in diagnosis, since it characterizes the functional activity of the endocrine glands. The general form is associated with blood plasma proteins and does not have a particular effect on metabolic processes. Thyroxine and triiodothyronine are produced by thyroid cells. In addition, triiodothyronine is converted from thyroxine in peripheral cells under the influence of selenium-dependent monodeiodinase. Thyroxin in this case acts as a precursor of triiodothyronine. In the gland itself, triiodothyronine is synthesized as a breakdown product of the amino acid tyrosine. The reaction occurs in the thyroglobulin protein when iodine ions are attached to tyrosine residues with the participation of iodide peroxidase. Thyroxine is synthesized only in the thyroid gland, is the least active compared to triiodothyronine, but more significant in diagnosis due to its higher concentration in blood serum. Thyroid hormones are produced under the influence of the hypothalamic-pituitary axis. Thyroid-stimulating hormone, secreted by the pituitary gland, stimulates the thyroid gland to produce thyroxine and triiodothyronine. With the help of a negative feedback mechanism, with a sufficient concentration of hormones in the blood, the synthesis of thyroliberin and thyrotropin stops, thereby reducing the production of thyroxine and triiodothyronine by the thyroid gland. In pathologies of the thyroid gland, this connection is disrupted and thyroxine and triiodothyronine are produced independently of the control of the hypothalamic-pituitary axis. Therefore, in order to make an accurate diagnosis, it is important to know both the reference values of thyroxine and triiodothyronine and the normative values \u200b\u200bof thyroid-stimulating hormone.

Based on the results of the study, we found that the functional state of the thyroid gland in cats of such breeds as: Persian, Abyssinian, Siamese and outbred is characterized by the following limits of indicators:

total thyroxine 22.9-33.2 nmol/l;

free thyroxine 29.8-36.7 pmol/l;

total triiodothyronine 1.19-1.33 nmol/l;

free triiodothyronine 1.34-1.62 pg/ml;

thyroid-stimulating hormone 0.64-0.82 ng/ml.4

The concentration of thyroid hormones in blood serum in healthy cats of age groups: from 5 months to 14 years has the following limits:

total thyroxine 18.39-38.11 nmol/l; free thyroxine 16.7-46.62 pmol/l; total triiodothyronine 1.00-1.55 nmol/l; free triiodothyronine 1.08-1.93 pg/ml; thyroid-stimulating hormone 0.37-1.01 ng / ml.

Obtaining the value we subjected to mathematical processing with the calculation of the arithmetic means (M), their average statistical errors (w) and the reliability criterion (p); digital data were evaluated using Student's t-test. Differences were considered significant at p<0.05.

Table 1

Reference values of thyroid hormones in cats of different breeds

*-p<0.05, **-p<0.01 - the difference is statistically significant in comparison with the outbred group.

table 2

Reference values of thyroid hormones in cats of different

waste

* - p<0.05; ** - p<0.01 - the difference is statistically significant in comparison with the indicator of group No. 2.

The obtained indicators make it possible to assess the functional state of the thyroid gland in cats, depending on the breed and age. These values contribute to the diagnosis of hypothyroidism and thyrotoxicosis in the clinical practice of a veterinarian. With hypothyroidism, the level of hormones is below the above parameters, and with thyrotoxicosis, it goes beyond the upper limits.

Sources of information

1. Feldman E., Nelson R. Endocrinology and reproduction of dogs and cats. - M.: Sophion. - 2008. - 1256 p.

2. Pilov A.Kh. Morphological and functional characteristics of the thyroid gland of domestic animals / A.Kh. Pilov; Kabardino-Balkarian State Agricultural Academy. - // Bulletin of the Russian Academy of Agricultural Sciences. - 2003. - No. 3. - S. 62-63.

3. RU 2593952 C2, C12Q 1/68 (2006.01), 10.08.2016

4. RU 2612901 C2, C12Q 1/68 (2006.01), C07K 14/705 (2006.01), 13.03.2017

Claims (1)

A method for diagnosing thyroid diseases in cats, which consists in measuring the level of thyroid hormones in blood serum in cats of Siamese, Persian, Abyssinian breeds, as well as outbred cats of different age groups using enzyme immunoassay, while measuring indicators of thyroid hormones: total thyroxine, thyroxine free, total triiodothyronine, free triiodothyronine, thyroid-stimulating hormone, according to their numerical values using table 1 - reference values taking into account the breed of the cat or using table 2 - reference values \u200b\u200btaking into account the age of the cat, hypothyroidism and thyrotoxicosis are diagnosed and at hormone levels below the above parameters hypothyroidism is diagnosed, and when the level of hormones is higher than the above parameters, thyrotoxicosis is diagnosed.