Selank and semax as potential hepatoprotectors in medical treatment of tuberculosis

The article notes that administering selank and semax to patients with tuberculosis would significantly reduce the number and severity of hepatotoxic reaction

Treatment of hepatitis induced by anti-tuberculosis drugs (experimental research)

Tuberculosis is a widely spread infection. While treating patients for it, they are given simultaneously and for a long period 5-6 antibacterial drugs, which are, as a rule, bad for the liver. It quite often (up to 20%) causes drug-induced hepatitis. As experimental means of protecting the liver, the following peptides are suggested: chorionic gonadotropin, a recombinant drug of luteinizing hormone - luveris, and oligopeptide drugs: semax and selan

Modeling experimental glaucoma for screening studies of antiglaucomatous activity

Introduction: In vivo screening studies, in which the efficacy of dozens of drugs is tested to select several applicants for further study of their safety in humans, are the main stage in the study of the pharmacodynamics of promising antiglaucoma drugs. This imposes a number of specific requirements both on experimental models of glaucoma and on laboratory animals used in the experiment. Materials and Methods: 32 male rabbits of the Soviet Сhinchilla breed, 6 male albino rabbits weighing 3-3.5 kg, and 20 outbred white rats weighing 220-250 g were used in total in experiments to reproduce the glaucoma process. All manipulations on the rabbit eye were performed by an ophthalmologist under general anesthesia with telazol. Triamcinolone (vitreous injection) was used to simulate glaucoma in rabbits, lauromacrogol 400 or fine kaolin (anterior chamber injection) was used to simulate glaucoma in rabbits; adrenaline hydrochloride (intraperitoneal administration) was used to simulate glaucoma in rats. Results and Discussion: Double intravitreal administration of a suspension of triamcinolone at a dose of 4 mg was the most attractive model in terms of the technique of reproducing the pathology and the results obtained in modeling glaucoma in rabbits. However, this model did not produce a stable increase in intraocular pressure (IOP). Doubling the dose of triamcinolone and replacing chinchilla rabbits with albinos did not lead to a positive result. The introduction of the venous sclerosing drug lauromacrogol 400 into the anterior chamber of the eye proved to be ineffective either. The introduction of finely dispersed kaolin into the anterior chamber of the eye of rabbits led to a persistent increase in IOP. The intraperitoneal administration of epinephrine hydrochloride to rats according to the described method gave no stable results. The increase in IOP became stable only after a significant increase in the dose of adrenaline. Conclusion: The conducted studies of four models of glaucoma and their three modifications in animals made it possible to select two of them, which contributed to a stable and fairly long-term increase in IOP in rabbits (introduction of finely dispersed kaolin into the anterior chamber of the eye) and rats (adrenaline-induced model)

Ontogenetic Development of Neural and Muscular Rhythmic Activity and Its Regulation in Mammals during Perinatal Period

This review covers our recent advantages in studying the ontogenetic aspects of physiological mechanisms underlying regulation of rhythmic behavior. We have revealed that excitation patterns that emerged at early stages of phylogenetic development of life forms contribute greatly to the rhythmic activity of living vertebrates and invertebrates. These patterns govern spontaneous excitation, which is easily observed during the early stage of ontogenesis. The intensity and patterns of rhythmic activity are determined by nature and kinetics of certain metabolic reactions. During perinatal and sometimes postnatal periods (as in prematurely born animals), endogenic rhythmicity of developing physiological structures is strongly pronounced due to relatively stable living conditions. This rhythmic behavior is coordinated within an entire organism. Its integration in multiple systems is driven by amplitude and frequency modulation yielding rhythms of various frequency ranges. Indeed, it is the complex and conjoint functioning of physiological systems that maintains homeostasis in developing organisms. We present the results of our authentic research concerning the evolution and ontogeny of regulatory mechanisms of motor, cardiovascular, and respiratory systems. The aspects of intact and disrupted development are considered, involving the changes in dopaminergic, norepinephrinergic, and cholinergic system activation

Planar Graphical Models which are Easy

We describe a rich family of binary variables statistical mechanics models on a given planar graph which are equivalent to Gaussian Grassmann Graphical models (free fermions) defined on the same graph. Calculation of the partition function (weighted counting) for such a model is easy (of polynomial complexity) as reducible to evaluation of a Pfaffian of a matrix of size equal to twice the number of edges in the graph. In particular, this approach touches upon Holographic Algorithms of Valiant and utilizes the Gauge Transformations discussed in our previous works.Comment: 27 pages, 11 figures; misprints correcte

Obituary: Professor Alexander Kessenikh (1932-2021)

On September 15, 2021, professor Alexander V. Kessenikh died. He was known for his works on nuclear magnetic resonance (NMR) and history of science