Because antimicrobial treatments for digital dermatitis in cows require a veterinarian's prescription, the nonantimicrobial cream could serve as a viable but less consistently effective alternative to antimicrobials and could be applied by veterinarians, hoof trimmers, and others.
The article presents the results of treatment of cows with sole ulcer with the use of orthopedic shoeing. It is known that the foot diseases in the cows are quite common. In particular, the damage to the digit horn occurs almost on all dairy farms with a level of distribution from 5 to 23 % of cows. The research was conducted on high-yield milked cows with a productivity of 6-8 thousand liters per lactation.Cows with ulcerous soles, which were diagnosed during 6 months period, were randomly assigned into two groups, control and experimental. To all animals with sole alcers there were applied functional orthopedic treatment of all digits. The destroyed horn and necrotic tissues in the area of ulcers were removed and defect zone was treated with antiseptics. Subsequently, the animals of the control group imposed bandages with Hoofgel, every three days, 4-6 times until complete wound epithelization. For the cows of the experimental group additionally there was used a wooden block for the adjacent healthy digit. The Technobase 8000 set was used for wooden block application. The essence of treatment of cows with lameness and ulcers is associated with the use of a wooden block on the unharmed hoof. Steps to apply correctly the hedge block include the following. First, proper functional trimming and therapeutic treatment for both claws. Second, mechanical antiseptic processing to ensure normal adhesion of the wooden block and comfort for the animal. Removal of dirt and dumpness of the claw that is going to be blockaged. The tried step is selecting the appropriate size of the block. The correct size of the block depends on the size of the hoof. Blocks should cover the hoof sufficiently from the hook to the pulp. A wider blade should be evenly spaced that would provide greater stability. In most cases, there is a greater potential for damage when a used block is too short or too long. The block of the appropriate size should go beyond the surface of the digit pulp. In most cases, the length of the block is from 13.3 to 16.2 cm. The block, which is too long, can lead to a primary damage to a healthy hoof because of the excessive load on it. The thickness of the block is determined by the rate of wear created by the amount of cows movement, and the time necessary for the infection development. Cows with severe lesions may require additional thickness of the block for a long period of application and protection from subsequent exposure. For more severe damage, the most durable type of block is required. A less durable unit will not provide sufficient weight transfer from the affected digit for the required period of time to ensure complete healing of the sole. The forth step is preparation of glue for blocking. For this purpose, in a measuring cup, which comes with a set, add 80 g (70-75 g) of powdered substance and add 40 ml of solution, which is also measured with a glass that is included in the set. They are mixed to form a homogeneous paste/ One should made it quickly prevent polymerisation phenomena. Subsequently, the cooked mass is applied to the wooden block with the help of a stick, since the mass has a high temperature. Fifth step consist of positioning the unit at the right angle. The wooden block is pressed moderately to the sole so that there is a layer of glue between the sole and the block, about 0.5 cm thick. The block is placed at an angle of 90 degrees or less to the uncovered wall. In this case it is guaranteed that the weight will decrease on the affected hoof and is not transferred to the outer wall of the affected hoof. Blocks tend to shift over time to incorrect positioning, as shown above. To counteract this situation, it is recommended to use blocks at the specified angle. The next requirement for positioning is to verify that the block is supported with the angle to hoof wall from 50 to 52 degrees. In cases where the above requirements can not be met, the unit is rebalanced or changed. Attach a block at the level of the hook or slightly retract back with the hoof knife. The waiting time to give the adhesive mass to harden – from 1 to 3 minutes before putting the limb on the floor. A re-examination of cows is carried out in about 4 weeks. So, in cases where we correctly use wooden blocks there have been created the best conditions for proper healing. After these steps, it is necessary to ensure proper wear of the blocks. The should not stay on the foot for too short or too long time. The time of the block demolition is affected by the type of litter and floor surface. To ensure sufficient healing of the ulcers, the blocks should remain for at least 4-6 weeks. If the unit remains for a shorter period of time, treatment is unlikely to be complete, and the return of the load on the affected hoof will delay recovery and increases the recurrence of an ulcer. Comparative effectiveness of treatment of cows while using the wooden blocks. After the opening of the pathological focus, the removal of non-viable tissues and excessive granulation, the local treatment of the surface of the defeat of the Chemy Spray and Hoofgel's lubrication was performed. The defect, formed as a result of ulcerous damage to the tissues of the sole, was closed by the keratinous epidermis more quickly in the experimental group of animals than the control group. Comparing the effectiveness of treatment of sole ulcers in the experimental and control animals, we found the advantage of orthopedic treatment: its use decreases (p <0,01) the number of treatments – from 6,4 ± 0,125 to 5,7 ± 0,09 times in the experimental group. Also, the reduction (p <0.01) of the period of recovery was noted: in the experimental group it was 18-24 days (20,7 ± 0,33), and in the control group – 19-28 days (24,06 ± 0,39) . Key words: highly productive cows, sole ulcers, orthopedic shoes.
The article presents the results of the study of the influence of nanoacquahelats of biogenic and biocidal metals Selenium and Zinc together with vitamin E, on the mineral metabolism indexes of hens of Loman Brown breed. It is known that the inflow of mineral elements such as Calcium and inorganic Phosphorus into the body and its proper usage is essential for the maintenance of egg productivity and egg quality. In this regard, it is promising to study the changes of the above-mentioned processes with the Selenium, Zinc and vitamin E nanoacqualates supplementation. It has been established that the feeding of Selenium and Zinc nanocarboxylic acids with vitamin E positively affects the exchange of Calcium and inorganic Phosphorus in the laying hens. In particular, the content of calcium in the serum of tested hens was significantly higher (17.3-26.7%), on the 60th and 90th days of the experiment, comparing with the control group. The level of inorganic phosphorus, on the 60th and 90th days of the experiment, also increased by 17.7% and 16.9%, respectively, in experimental group of layer hens compared to control one. It is known that macroelements Ca and inorganic Phosphorus are important components for the organism of animals and, especially, birds. These minerals have no nutritional value, are not used by the body as a source of energy, but their role as structural elements cannot be overestimated. Both Calcium and inorganic Phosphorus are part of almost all organs and tissues. The growth and development of the organism, as well as its productivity depends on the presence of these elements in the diet. In addition, Calcium and inorganic Phosphorus are actively involved in the regulation of a number of vital functions. In the birds, it is the synthesis of proteins and the intense formation of egg minerals. They are also necessary for the further formation of bone tissue of the embryo. Consequently, the presence of these minerals in the diet and in the body of layers hens, to a large extent determine their weight and quality of eggs. The obtained results show the use of nanoacquahelats of Selenium and Zinc together with vitamin E stimulate phosphorus-calcium metabolism and alkaline phosphatase activity due to their biophysical properties which are based on activation of many biochemical processes according to the effect of Borisevich-Kaplunenko-Kosinov. Key words: Calcium, Phosphorus, laying hens, Selenium, Zinc, vitamin E.
The results of the studies on the infl uence of Selenium and Germanium nanoacqualates complex on the content of immunoglobulins and circulating immune complexes in quail’s are presented in the article. It was found that the level of immunoglobulins is the main indicator of the state of humoral immunity. According to the results of the studies the content of immunoglobulins A, M, G in the quail’s serum was 0.80 ± 0.03 mg/ml, 0.30 ± 0.01 mg/ml, and 5.82 ± 0 , 06 mg/ml, accordingly. That are 31.1%, 20.0% and 6.0%, respectively, comparing with data of the control group. Inthe serum of fi ve days old quail’s Ig A content was 0.84 ± 0.02 mg/ml, Ig M 0.54 ± 0.03 mg/ml and Ig G 6.87 ± 0.04 mg/ml, that consisted 29.2%, 42.1% and 5.0%, respectively, comparing with the control group. The content of circulating immune complexes (CEC) in theblood serum of one- and fi ve-days old quails was 1.5 and 1.6 times, respectively lower than in the birds of the control group. The content of low molecular weight CECs in the serum of one- and fi ve-days old quail, decreased signifi cantly in both groups(in 2 and 1.1 times, respectively). This probably characterizes the overall effi cacy and balance of the immune system's responses in quails exposed to Selenium and Germanium nanoacqualates at used doses of 0.05 μg/kg and 5.0 μg/kg, respectively. We consider that as a positive eff ect on the immunity of quails in the early post-embryonic period. Therefore, the use of Selenium and Germanium nanoacqualates complex has a complementary eff ect and helps to increase the immunoreactivity of young animals by maintaining the activity of the immune system. Key words: Selenium nanoacquachelate, Germanium nanoacquachelate, quails, immunoglobulins, immunity.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
customersupport@researchsolutions.com
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.