The mechanisms of action of water-soluble aminohexanoic and malonic adducts of fullerene C with hexamethonium on model lipid membranes.

In an attempt to understand the possibility of applications of the fullerene-based systems for transporting various polar compounds like hexamethonium through the blood-brain barrier, we studied the influence of a series of derivatives of fullerene C in the form of salts with hexamethonium bis-anion, namely the adducts of fullerenols with 6-aminohexanoic acid (IEM-2197), and two bis-adduct malonic acid derivatives of fullerene with addents bound in two hemispheres (IEM-2143) and in equatorial positions (IEM-2144), on model membranes. We showed that IEM-2197 induced the disintegration of the bilayers composed of DOPC at the concentrations more than 2 mg/ml. IEM-2144 and IEM-2143-induced ion-permeable pores at concentrations of 0.

The biodegradation of fullerene C by myeloperoxidase.

It is shown for the first time that the mammalian enzymes can cause the degradation of the C60 fullerene molecules. This biodegradation is caused by the action of а hypochlorite generated neutrophil enzyme myeloperoxidase of fullerene molecule and leads to the loss of the topology of the fullerene core.

[THE COMPARATIVE CHARACTERISTIC OF KAOLIN-ACTIVATED THROMBOELASTOGRAPHY IN HEALTHY NEWBORNS AND NEWBORNS WITH HEART AILMENTS].

The study was carried out to diferentiate reference values for kaolin-activated thromboelastography in newborns with congenital heart disease. The study included two groups ofpatients. The first one consisted of 62 newborns with congenital heart disease and the second one consisted of 35 healthy newborns.

Enhanced brain penetration of hexamethonium in complexes with derivatives of fullerene C60.

The present report describes development of hexamethonium complexes based on fullerene C60. Hexamethonium has a limited penetration into CNS and therefore can antagonize central effects of nicotine only when given at high doses. In the present studies conducted in laboratory rodents, intraperitoneal administration of hexamethonium-fullerene complexes blocked effects of nicotine (convulsions and locomotor stimulation).