LT4906B - Improved poultry foodstuffs, process for producing thereof and supplement for poultry feeding - Google Patents

Abstract

For poultry food products and a principle of the birds' supplemental nutrition. The invention belongs to aviculture and can be used for chicken product improvement on a bird supplemental nutrition basis. The purpose of this invention is to obtain poultry food products enriched in iodine, with the help of an iodine food additive and herewith to improve the health of the birds. The purpose mentioned above can be achieved by feeding the birds, for example chickens, with usual feed and giving the birds iodine water to drink, which has a concentration of iodine 7.5-30 μg/l, water 12.5 μg/l. The food products made from such birds, i.e. meat products, eggs are enriched in iodine: meat products 24-34 μg/100 g, Egg yolks 85-102 μg/100 g of which about 80 percent remains even after thermal processing, besides like iodine....<IMAGE>

Description

The invention relates to poultry farming and can be used to improve poultry 5 foods through the use of poultry nutritional supplements.

The present invention is designed to prevent human disease caused by iodine deficiency in the human body and increased after the accident at the Chernobyl nuclear power plant. People, especially pregnant women and children, should receive sufficient iodine to prevent these diseases. Iodine salt, sea cabbage and other iodine-containing foods are used for this purpose. However, iodine in these foods is unstable and disappears over time. The situation would improve with the use of food-enriched iodine poultry products - meat products, eggs.

Birds also need iodine, 75% of which is in hormones. The concentration of iodine in the thyroid gland is 30 times higher than in the blood. Birds receive the necessary amount of iodine during their diet. Iodine is involved in the synthesis of thyroid hormones (thyroxine T4 and triiodothyronine T3), which regulate the growth processes of birds, activate metabolism and stimulate the body's functional systems.

Lack of iodine in birds results in hypofunction of the thyroid gland, poorer growth and development, reduced productivity and impaired reproductive function.

When iodine is fed to birds with feed, for example, broiler chickens normally grow at 0.10-30 pg iodine / kg feed, but hypertrophic intake of the thyroid requires 0.35 mg iodine / kg feed.

There have been known attempts to obtain iodine-enriched products by adding iodine to bird feeds.

In this field, G. Richter's 1995 tests with iodine concentrations in feed of 0.4 to 40 pg / kg are known. In studies, the amount of iodine in eggs was as high as 400 pg. (Richter S. Einflup der Jodversorgung der Legehemen auf der Jodgehalt im Einl: Mengen- und Spurenelemente, 15. Arbeistagung Jena (M. Anke et al., Hrsg. 1995.-S. 457-464). But above all, such high levels of iodine are neither economical nor organic. Second, iodine in feed is difficult to control and unstable. Third, such high levels of iodine block the thyroid gland and harm bird health.

Currently, the most common poultry foods are obtained by feeding birds with standard feed containing 0.1% potassium iodide (OKOneea T.M.

ΚορΜ / ίθΗΜβ cent> CK0X03fliicTBeHH0ii πτμιαη, 1996, c. 168). However, in this case, too, iodine is difficult to control and unstable. The amount of iodine in these poultry products usually only reaches a background level of about 7pg / 100g when a person needs to get about 150gg of iodine daily.

The object of the invention is to obtain poultry food products enriched with iodine by nutritional supplementation with iodine water while improving the health of the birds.

This objective is achieved by feeding birds such as chickens or chickens with conventional means such as chickens. standard feed and when given plain drinking water, e.g. HN 24.1998, to which iodine water produced by UAB Jodvita according to patent LT 4752 was added to give iodine concentration of 7.5-30 gg / l. Birds are given this water to drink as they wish, usually about 1.8 times the amount of broken feed.

Foods, Vol. y. meat products, eggs derived from such a bird are enriched with iodine: meat products up to 28-34 gg / 100 g and egg yolks up to

85-102 gg / 100 g. At least 80% of this iodine content remains in the products after heat treatment.

The aforementioned iodine supplement provided with drinking water improves the health of the birds, for example, blood counts and preservation. This is because iodine, when ingested by the bird, activates thyroid hormones that stimulate the body's functions: regulate growth processes, activate metabolism, accelerate energy release and stimulate functional systems. In addition, the following hormones affect the metabolism anabolically:

1. Increases cell membrane permeability to amino acids and stimulates protein synthesis;

2. Intensifies lipolysis, oxidation of fatty acids, increases the amount of energy, therefore, the concentration of triglycerols, lipoproteins and cholesterol in the blood decreases and heat production is increased;

3. Activates glucose oxidation, glucose absorption in the small intestine; accelerates oxidative processes and basic metabolism, resulting in increased oxygen requirements, increased blood flow, and increased heat release.

The invention is implemented as follows.

Example I. Effect of iodized water on chicken-broiler organism Vilnius Barntynas AB and VPU Biodiversity and Technology Research Laboratory. Hybro-G cross-broiler chickens were selected for research.

The test consisted of 4 groups of 100 chickens per group. The first group was control and the other 3 were pilot (Table I).

Accordingly, according to the test scheme (Table I), chickens from all test groups were fed standard dry combined feeds and watered with drinking water (chemical analysis is shown in Table 2). According to the test scheme (Table 1), iodine water produced by Jodvita UAB according to patent LT 4752 was added to said drinking water in such a way that iodine concentrations in groups 2.3 and 4 were 7.5, 12.5 and 30 µg / l, respectively.

Broiler chickens were kept on deep litter.

In order to investigate the effect of different doses of iodized water on the chicken-broiler system, a thyroid histological analysis was performed in control slaughterings to assess thyroid histology and to evaluate the activity of the thyroid hormone: thyroxine (T4) and triiodothyronine (T3). Micropreparations for thyroid histological analysis were made by paraffin injection technique stained with hematoxylin-eosin.

The results of these studies showed that chickens in the test groups receiving 7.5 to 30 pg / l water iodine had a higher thyroid activity compared to the control group in which the chickens did not receive water iodine. This was especially evident in the third group, in which the chickens received 12.5 pg / l of iodine with water. The highest levels of FT3 (triiodothyronine) and FT4 (thyroxine) were found in group 3, where the concentration of iodized water was 12.5 pg / l.

During control post - mortem examination by avian anatomical analysis (T.

Polivanova, 1967) measurements of blood chemistry parameters of chickens blood: lipids, triglycerides, serum glucose.

The total lipid and triglyceride levels were higher in all test groups than in the control group. The highest levels of triglycerides were: chickens

- in Group 2, water iodine concentration was 7.5 pg / l and in cockroaches, Group 3 (12.5 pg / l). Chickens in broiler plasma had the highest lipid content in group 4 with the highest iodine concentration in water (30 gg / l).

Blood glucose levels were detected by the blood analyzer (7 KCAHI), which was higher in the 6-week-old chicken-broiler test group than in the non-iodine-water control group. The highest blood glucose levels in broilers were found in group 4 with the highest iodine concentration in water - 30 pg / l.

Control autopsy revealed the presence of iodine in the muscle and liver of birds.

The level of iodine in the chicken-broiler muscle of all experimental groups was determined by the AO AC 925.56 method and was higher than in the control group. The highest total iodine content of 6 weeks old chicken-broiler muscle was in group 3 with iodine concentration of 12.5 pg / l.

Compared to the control group, the total iodine content in the liver of broiler chickens was highest in group 3.

The results of zootechnical studies showed that the best 15% preservation of chicken-broilers was in group 3 with a water iodine concentration of 12.5 μς / ΐ ·

Summarizing the results of the researches, determining the effect of iodized water on the chicken-broiler organism, it can be stated that different iodine content (7.5 30pg / dm ³ ) in the drinking water of chickens increased the serum lipids, triglycerides and glucose level in chicken broiler muscles and liver.

CONCLUSIONS

1. The concentration of iodine in water at 12.5 pg / l is most influenced by the chicken-broiler organism: thyroid activity increases, thyroid hormone triiodothyronine, lipids and serum glucose.

2. The iodine content of 6 weeks old chickens in broilers is mainly increased by 12.5 pg / l of iodine in drinking water of chickens.

3. The best percentage of chicken-broiler conservation was when the iodine concentration in water was 12.5 pg / l.

EXAMPLE II Influence of iodized water on laying hens

The test was conducted in 2001. UAB Mazeikiu Rugelis and VPU Biodiversity and Technology Laboratory. Lohmann brovvn crosshair laying hens were selected for testing.

The test consisted of 4 groups of 100 hens in each group. The first group was control and the other 3 were pilot (Table 1).

Accordingly, according to the test scheme (Table 1), chickens from all treatment groups were fed standard dry combined feeds and watered with drinking water (chemical analysis is shown in Table 2). | said drinking water was added, according to the test stage (Table 1), to iodine water produced by Jodvita UAB in accordance with patent LT 4752, so that iodine concentration in groups 2.3 and 4 was 7.5, 12.5 and 30 µg / l, respectively.

Laying hens were kept in cages.

The effect of iodinated water on laying hens was investigated: thyroid hormone: thyroxine (T4) and triiodothyronine (T3); histology of thyroid gland; blood biochemical parameters (lipids, triglycerides, serum glucose levels); egg quality indicators (egg, protein, yolk and shell mass, egg shape, protein and yolk index, shell thickness, dry matter content in egg white and egg yolk); iodine and fat in chicken egg yolk, liver and muscle.

Studies were performed on hens at 20 weeks of age and replicated on hens at 24 and 26 weeks of age. Thyroid activity, thyroxine (T4) and triiodothyronine (Γ3) levels, blood biochemical parameters, and iodine and fat content in the egg yolk, liver and muscle of the hens were determined by the methods described in Example I.

The results of all these studies confirmed that the concentration of 12.5 µg / l iodine in water had the greatest influence on the body and production of laying hens. For example, in Group 3 of laying hens given drinking water with iodine concentration of 12.5 µg / l, the iodine content of the egg yolk was 148.5 µg / 100g at 20 weeks of age and 134.4 µg / 100g at 24 weeks. . In the egg yolk of hens that did not receive iodine with water, the total iodine content was only 38.0 µg / 100g. Total iodine levels in Group 3 24-week-old laying hens were 10.23 pg / 100g and in liver -11.43 µg / 100g. y. exceeded the control group results by about 40%.

Tests have also confirmed that about 80% of the iodine content remains in the dishes of these products after heat treatment (eg fried and virtual egg yolks 685 81.6pg / 100g, cooked poultry 22.4-27.2 gg / l OOg).

Based on these examples, it can be concluded that administering the aforementioned concentrations of iodized water to birds, as proposed by the invention, results in iodine-enriched chicken meat and egg products and improves the health of the hens and chickens.

Table Iodine Test Scheme

Group Concentration of iodine in water (gg / l) Purpose of the group Number of chickens or hens, pcs. 1 0 (control) Checklist 100 2 7.5 Trial 100 3 12.5 Trial 100 4 30th Trial 100

Table 2 Chemical analysis of drinking water

Here No. The analyte and its units Fixed 1 Color, mg / dm ³ Pt <5 2 Turbidity, mg / dm ³ <0.58 3 PH 7.48 4 Permanganate number, mgOz / dm ³ 1.5 5 Ammonia (NH 4 ⁺ NH _3), mg / dm ³ <0.1 6th Nitrite, (NO ₂ '), mg / dm ³ 0.25 7th Nitrate, (NO /), mg / dm ³ 1.1 8th Total hardness, mmol / dm ³ 2.5 9th Chloride (Cl *), mg / dm ³ 25th 10th Sulphate (SO? '), Mg / dm ³ 24th 11th Iron (Fe), mg / dm ³ <0.01 12th Copper (Cu), mg / dm ³ <0.1 13th Aluminum mg / dm ³ - 14th Lead (Pb), pg / dm ³ <10 15th Manganese (Mn), mg / dm ³ <0.05 16th Fluoride (F '), mg / dm ³ 0.24 17th Arsenic (As), pg / dm ³ <1 18th Chromium (Cr), pg / dm ³ <20 19th Phosphate (PO?), Mg / dm ³ 0.10 20th Hydrocarbonate (HCO /), mg / dm ³ 273 21st Calcium (Ca), mg / dm ³ 73 22nd Electrical conductivity, pS / cm 557 23rd Iodide, mg / dm ³ ί 0.41

Claims (6)

1. Poultry products as iodine-enriched foods, characterized in that poultry meat products contain iodine 28-34 gg / 100g and poultry eggs in the yolk contain iodine 85-102 g / 100g. Poultry food products according to claim 1, characterized in that after the heat treatment the meat products contain 22.4-27.2 pg / 100g of iodine and the poultry eggs contain 68-81.6 pg / 100g of iodine in the yolk. 3. A method of improving poultry food by feeding and watering the birds, other than watering the birds with iodized water. 4. The process according to claim 3, wherein the iodine in the water is 7.5-30 pg / l, preferably 12.5 pg / l. 5. Use of iodized water as a dietary supplement for birds to improve the health of the birds by drinking iodized water. Use according to claim 5, characterized in that the water contains iodine 7.5-30 µg / l, preferably 12.5 µg / l.