Pulsed magnetic fields are widely used in various fields of modern technology. In our previous works it was shown the strengthening of antibacterial properties of benzylpenicillin sodium salt after exposure to a pulsed magnetic field of high tension. The reason for this may be a change in the conformation of β-lactam antibiotics under external physical influence, which increases the affinity of benzylpenicillin molecules to the active center of penicillin-binding proteins. This article presents studies on the safety of benzylpenicillin sodium salt irradiated by a pulsed magnetic field. Benzylpenicillin sodium salt in powdered form was irradiated with a pulsed magnetic field with the intensity H = (0.09∙106-1.23∙106) A/m, frequency f = 30-70 kHz, and a different number of pulses (n = 1-3), using inductors – single-turn and multi-turn. The influence of pulsed magnetic field on chemiluminescence parameters of irradiated benzylpenicillin sodium salt was studied. The appearance of free radicals in irradiated preparations was evaluated in simple model systems simulating the most common free radical oxidation reactions in the body and in environments in which the formation of reactive oxygen species and lipid peroxidation reactions was initiated. Acute toxicity in intraperitoneal administration of antibiotic to mice before and after treatment with pulsed electromagnetic field with calculation and comparison of LD50 indices was also investigated. It was found that the treatment of the dry substance benzylpenicillin sodium salt by a pulsed magnetic field does not cause the formation of free radicals and is not accompanied by an increase in the toxicity of this antibiotic. The possibility of using new ways to increase the antibacterial activity of antibiotics without increasing their concentrations is considered.
Introduction. In patients with COVID-19, acute pulmonary lesion grows on inflammation and microvascular thrombosis. Thromboinflammation may develop outside alveolar endothelium and affect endothelium of the heart, kidneys, intestine and other vital organs leading to a multiple-organ insufficiency and possible lethal outcomes. Treatment and prevention of SARS-CoV-2 in the Russian Federation should comply with the Interim Methodological Guidelines of the Russian Ministry of Health that support the global mainstream of COVID-19 containment measures and are updated regularly with new evidence on drug effectiveness, including anticoagulants.Materials and methods. We review a clinical case of effective treatment of a COVID19 patient with prior coronary surgery from the perspective of the Interim Methodical Guidelines of different editions and international clinical experience in anticoagulant therapy.Results and discussion. A retrospective analysis of the patient’s treatment demonstrated the efficacy of thromboelastography in rapid assessment of blood hypercoagulation and parnaparin sodium as a drug of choice among low-molecular heparins in a combined setting with dual antiplatelet therapy. Etiotropic therapy rendered to this patient is currently considered less effective.Conclusion. Combination of anticoagulants with antiaggregants is shown effective under high risks of thrombosis and a background COVID-19 infection, if justified clinically. In cases of complicated diff erential diagnosis, selection of optimal management strategy, anticoagulant and/or antiplatelet therapy monitoring, a good practice is to rely on both the available domestic guidelines and latest meta-analyses combined with international clinical experience.
A series of biorelevant triethylammonium isatin hydrazones containing various substituents in the aromatic fragment have been synthesized. Their structure and composition were confirmed by NMR- and IR-spectroscopies, mass-spectrometry and elemental analysis. It was found that some representatives show activity against Staphylococcus aureus and Bacillus cereus higher or at the level of norfloxacin, including methicillin-resistant Staphylococcus aureus strains. The study also showed low hemo- and cytotoxicity (Chang Liver) and high antiaggregatory and anticoagulant activity of these compounds. The high potential of new ammonium isatin-3-acylhydrazones in the search for antimicrobial activity against phytopathogens of bacterial and fungal nature has been shown for the first time.
Current recommendations to develop new pharmacological agents influencing hemostasis system are limited to the studies carried out on healthy volunteers in vitro, healthy lab animals and animals with model thrombosis in vivo. However, specific and seasonal peculiarities of hemostasis system in laboratory animals may not always adequately represent processes that occur during an event of cardiovascular accident. In this context, the main objective of this work is to study hemostasis system in patients with thrombotic events and to use the received data as a model for assessing the effectiveness of pharmacological agents as exemplified by aspirin and pentoxifylline in ex vivo. Experimental work is carried out on the blood of healthy male donors and patients with acute thrombosis. The findings show that completed thrombosis in one of the regions of coronary blood stream is not always accompanied by systemic tension of the coagulation system. The method of polyregional thromboelastography was used to study hemostasis system and to find out that hyperaggregation of platelets is a responsible part in the development of system hyperactivity of hemostasis in cases where it is registered. Pulmonary embolism, mesenteric ischemia and acute coronary syndrome is most often accompanied by systemic hyperaggegatioin of platelets, which can be used to assess the therapeutic efficacy of medicaments under conditions ex vivo. Aspirin and pentoxifylline are taken as examples to prove the necessity of preclinical studies for potential correctors of hemostatic system aimed to assess therapeutic effectiveness under conditions ex vivo in patients with completed thrombosis.
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
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.