Renal anemia is one of the most common complications of chronic kidney disease (CKD) in cats, which significantly reduces their life quality. Most often, the mechanism of renal anemia development is associated with insufficiency of endogenous erythropoietin (EPO), or with a reduction in the life of red blood cells caused by uremic intoxication. Since anemia increases the severity of renal hypertension and other CKD symptoms, the search for effective drugs that can stimulate erythropoiesis in CKD and do not have nephrotoxic properties is particularly relevant. The aim of the work was to study the effectiveness of Gamavit in the treatment regimen for cats with CKD compared with the standard treatment protocol. Active ingredients of Gamavit are sodium nucleinate and denaturated placenta extract. The study included 20 cats of different breeds aged from 5 to 16 years with CKD stage III-IV according to the IRIS classification, accompanied by anemia and a decrease in hematocrit in the range from 25 to 16%. Patients were randomly divided into 2 equal groups - control (n=10) and experimental (n=10) using the block randomization method. In the control group a standard nephroprotective therapy regimen was used. In the experimental group Gamavit was added to the standard regimen. Gamavit was administered at a dose of 0.5 ml/kg 1 time per day, at the same time, during 14 consecutive days (7 days i/v and 7 days s/c). The conditions for feeding and keeping animals of the experimental and control groups were identical. For feeding, we used a standardized serial diet ― Purina CatChow Adult with chicken/turkey/salmon. Access to drinking water ― ad libitum. The initial number of red blood cells, as well as the hematocrit index and hemoglobin level in the experimental and control groups were at the lower limit of the norm or below the reference values. During the study, in the experimental group of the patients, these indicators returned to normal after 2 weeks, while in the control group there were no significant changes. The statistically significant difference between the experimental and control groups remained until the end of the observation (p=0.001). Levels of creatinine and urea in the blood serum of the patients of both groups consistently high throughout the study, but in the experimental group a significant decrease in these indicators was found. The initial level of EPO in both groups was significantly lower than in healthy cats. During the experiment, it was not possible to reach the lower limit of the normal value, which allows us to conclude that the stimulation of erythropoiesis indicators in the experimental group, observed under the influence of Gamavit, is not associated with the stimulation of endogenous EPO production. Thus, the study revealed that Gamavit stimulates erythropoiesis in cats with CKD stage III-IV, significantly increasing the number of red blood cells, and the levels of hematocrit and hemoglobin. This effect, combined with a decrease in uremic intoxication values (creatinine and urea levels), lead to an improvement in the general condition of patients and regression in a number of important clinical manifestations. Since no nephrotoxic effects and undesirable interactions with drugs of standard nephroprotective therapy were detected in the process of this study, Gamavit can be recommended for widespread use in cats as one of the pathogenetic, symptomatic, and therapeutic and prophylactic drugs in the complex therapy of CKD at the preclinical and clinical stages of the disease.
Feline enteric coronavirus (FECV) infects enterocytes and causes inflammation of the intestinal mucosa in young cats, resulting in diarrhea. In adult cats the infection is usually asymptomatic, but the constant circulation of FECV in the feline population increases the likelihood of mutation, as a result of which about 5-10% of infected cats develop a virulent strain of the virus that causes usually lethal feline infectious peritonitis – FIP. The purpose of this study was to study the effectiveness of Phosprenyl (PP), an immunomodulator with antiviral activity (active substance - polyprenyl phosphate), in the treatment of chronic coronavirus infection of cats, partially complicated by toxoplasmosis. A total of 117 cats were under observation, 10 of which also had toxoplasmosis. The diagnosis was confirmed by the determination of antibodies by the methods of IHA and ELISA, as well as by ultrasound examination of the abdominal organs. Prescribed treatment: Phosprenyl per os, 1 ml , twice a day, course 2-4 months; Gamavit daily, s/c, course 10 days, with a repeated course after 3 weeks; 3-4 times. As symptomatic therapy, drugs were used primarily to improve the condition of the stool, with toxoplasmosis - Fansidar. At the end of treatment symptoms of gastrointestinal tract damage disappeared in all the patients. If before the start of therapy, the majority of patients demonstrated changes characteristic of anemia (a significant decrease in the number of red blood cells and hemoglobin levels), then after 2-4 months, the indices of erythropoiesis completely normalized. In patients with coronavirus infection complicated by toxoplasmosis, anemia was detected by CBC test, as well as an increase in the number of neutrophils. In the biochemical profile of these patients: increased activity of the enzymes aspartate aminotransferase (AST) and alanine aminotransferase (ALT) was found as well as hyperbilirubinemia, which indicates greater liver damage and a decrease in its detoxification function during the course of the disease caused simultaneously by coronavirus and toxoplasmas. At the end of therapy, these indices also returned to normal. Thus, the use of Phosprenyl for 2-4 months reduces the duration of the disease of coronavirus infection in cats (including cases complicated by toxoplasmosis), prevents its exacerbation and possible fatal outcome. Long-term use of PP in cats with a chronic form of coronavirus infection is recommended.
The innate immune system in mammals is closely related to the hemostatic system. In recent years, there has been an accumulation of knowledge proving that these two systems not only interact closely, but are also linked by common molecular and cellular regulatory mechanisms. The study of these mechanisms is important to develop new approaches to the correction of hemostatic disorders, infectious diseases and other pathological conditions in productive animals. Analyzed in this review are results of the use of some modern medications for the correction of hemostatic disorders and increasing nonspecific resistance in calves. The main attention is devoted to gamavit (GM) and phosprenyl (PP), which are widely used in veterinary medicine and animal husbandry. Many studies have shown a positive effect of GM and PP on the innate immune system indices in newborn calves, both in normal state and in various pathological conditions, including infectious diseases, anemia, etc. There was an increase in the phagocytic activity of neutrophils and phagocytic number, an increase in bactericidal and lysozyme activity of blood serum, a decrease in the incidence of non-specific bronchopneumonia in calves, and an increase in live weight gain during the milk growing period. Under the influence of GM and AF, in calves with iron-deficient anemia and/or dyspepsia increase of antioxidant protection was observed as well as normalization of hemostasis, reducing the risk of thrombotic complications to a minimum. The correction of anemia and normalization of the blood formula were also noted. The most effective in correcting hemostasis was GM, which was shown to normalize many impaired platelet functions. Given the fact that platelets serve as an important link in innate immunity, it can be assumed that, at least partially, the immune-stimulating effect of GM may be mediated through these cells.
A pharmacokinetic study of the absorption into the bloodstream, bioavailability and excretion of Gamavit from the body after intramuscular administration to laboratory mini-pigs was conducted. Quantitative determination was carried out by HPLC using a fluorimetric detector, for which Gamavit was labeled with Cy5 dye, which was then used for mini-pigs inoculation. The developed methods for determining Gamavit in the blood and feces were validated according to the following validation parameters: selectivity, calibration curve, accuracy, precision, limit of quantitative determination, sample transfer, and sample stability. The confirmed analytical range of the method for Gamavit detection in blood plasma and feces was 1.00…50.0 mcg/ml. Maximum concentration of Gamavit in the blood of mini-pigs after a single intramuscular injection was 30.97 mcg/ml and was reached on average 15 minutes after administration. 24 hours following administration, Gamavit was still detected in the blood in insignificant amounts. The average half-life of Gamavit in the blood is 8.64±3.50 hours. After administration at a dose of 0.1 ml/kg, the clearance of the drug is 1.27 l/kg * h, the excretion rate at an effective concentration of 30 mg/l is 38 mg/kg*h, and the maintenance dose when using the drug 1 time a day is 0.9…1.0 ml. The detection of the label in the feces of the studied animals indicates that one of the ways Gamavit removal is excretion with the help of bile acids, as well as partial excretion with feces.
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.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.