Analysis of Antitumor Activity of the Liposomal Photosensitizer Lipophthalocyan.

We studied specific antitumor activity of a liposomal drug based on tetra-3-phenylthiophthalocyanine aluminum hydroxide (lipophthalocyan) intended for photodynamic therapy. The optimal dose and protocol for photodynamic therapy with lipophthalocyan were chosen in experiments on mice: single intravenous dose of 6 mg/kg with a 5-h interval between administration and laser exposure and irradiation energy density of 400 J/cm2. A wide spectrum antitumor activity of lipophthalocyan was demonstrated in vivo for various transplantable mouse tumors (Lewis lung epidermoid carcinoma, S37 sarcoma, and colon adenocarcinoma AKATOL). The results show the possibility of using lipophthalocyan for photodynamic therapy of tumors of surface localization (skin and mucosa tumors).

[The mechanism of the pulmoprotective action of carboxytherapy]. / Mekhanizm pul'moprotektornogo deistviia karboksiterapii.

The problem of finding new ways for pharmacological prophylaxis and treatment of respiratory tract diseases is very relevant in public health. To eliminate hypoxia, many European and American clinics use carboxytherapy as an additional or alternative treatment. Carbon dioxide administration eliminates the sequels of oxygen starvation, by producing artificial tissue hypercapnia, which causes an increase in oxygen delivery and carbon dioxide removal from the tissues and then from the body. The main mechanism of action of carboxytherapy is associated with enhanced tissue oxygenation and is due to the Verigo-Bohr effect: the effect of CO2 concentration and pH on the binding of hemoglobin to oxygen and release of the latter from hemoglobin. By affecting the chemoreceptors of the respiratory center, carboxytherapy contributes to increased pulmonary ventilation and reduces bronchial smooth muscle tone and bronchial mucous secretion, as well as inflammation; all this improves breathing. By exerting a direct and reflex effect on the respiratory center, carboxytherapy induces hurried and deeper breathing, which increases pulmonary ventilation, speeds up perfusion and gas exchange in the lung, eliminates dyspnea and bronchospasm; therefore, it is widely used for lung diseases (asthma, pneumosclerosis, and silicosis). Carboxytherapy improves lung function in case of bronchopulmonary diseases, performance, and quality of life and it is used as an additional method in the pharmacotherapy of many diseases in pulmonology.

Comparative Analysis of Bioactivity of the Russian-Made Antitumor Substances of the Nitrosourea Group.

We performed an in vivo comparative study of activity of three substances of the nitrosourea group produced in Russia. All substances demonstrated high antitumor activity against various solid and leukemic tumors. Aranosa significantly enhanced life duration in mice with leukemia (by 65-194%) and inhibited the growth of solid tumors (by 49-99.6%). Lisomustine and ormustine showed higher activity than aranose. Single administration of lisomustine increased life span of mice (by 22-114%) and resulted in cure of all animals in four models: lymphoblastic leukemia L-1210, lymphocytic leukemia P-388, Lewis lung carcinoma, and cervical cancer RShM-5. After ormustine treatment, full recovery was observed only in groups with lymphocytic leukemia P-388 and cervical cancer RShM-5. These findings attest to higher activity of lisomustine in the studied models.

[Carboxytherapy - an innovative trend in resort medicine]. / Karboksiterapiia - odno iz innovatsionnykh napravlenii v kurortologii.

Carboxytherapy (the treatment based on carbon dioxide injections) is a multipurpose and widely used medical technology. The use of CO2 injections (intracutaneous, subcutaneous, and pneumopuncture) have substantially supplemented and increased the practical relevance of carboxytherapy as a method for the treatment of many diseases. Thanks to it physiological properties, CO2 has antihypoxic, antioxidant, vasodilatory, anti-inflammatory, analgesic, and spasmolytic activities; moreover, it improves blood viscosity, stimulates neoangiogenesis, and regenerative processes. Carbon dioxide is a sort of biochemical 'peacemaker' in tissue oxygenation: when blood cells are exposed to high CO2 concentrations (Bohr effect), the rate of gas exchange (CO2 and O2) increases. The human organism interprets carboxytherapy (local hypercapnia) as oxygen deficiency and responses to it by boosting not only the blood flow, but also the vascular endothelial growth factor which stimulates neoangiogenesis and in the long run improves blood supply and tissue trophism. The multiple mechanisms of action, polymodal efficacy, a tool kit with a wide range of detectors and various modes of treatment make carboxytherapy a popular medical technology all over the world, namely in cosmetology, dermatology, aesthetic medicine, angiology, orthopaedics, cardiology, neurology, pulmonology, gynaecology, urology, proctology, plastic and general surgery, and other areas. Carboxytherapy provides a perfect example of the off-label usage in medicine that made it one of the most extensively applied medical technology for the treatment of various diseases despite the lack of the preclinical data and scarce relevant information available in textbooks, reference books and booklets.

Chronopharmacological Characteristics of the Effect of Hepatoprotectors in Experiment?

We studied circadian rhythms of activity of hepatoprotectors (Antral, Carsil, and glutargin) under conditions of acute paracetamol-induced hepatitis simulated in the morning, afternoon, evening, and at night (09.00, 15.00, 21.00, and 03.00). Antral and Carsil exhibited similar chronoprofiles with the maximum hepatoprotective activity at 09.00 and 21.00, while glutargin exhibited circadian pattern opposite and its activity was maximum at 15.00 and 03.00.

Toxic and Immunomodulatory Properties of an Iron(II) Coordination Complex of Isoleucyltryptophan Dipeptide.

Results from toxicological and pharmacological studies of the iron(II) coordination complex of the immunoactive dipeptide isoleucyltryptophan (timofer) were presented. It was established that timofer was practically nontoxic and exhibited high immunostimulatory activity when combined with viral and bacterial vaccines.