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A lot of diseases are connected with hemolysis: hemolytic disease of new-born infants, paroxysmal nocturnal
hemoglobinuria, malaria, and some medicines also cause hemolysis. In addition, the coronavirus COVID- 19
lowers the amount of hemoglobin due to damage to the erythrocyte membrane. The association of autoimmune
hemolytic anemia during COVID-19 infection was described.
Hemolytic Disease of the Newborn (HDN) is a blood disorder in a fetus or newborn infant which can be fatal
in some infants. The process of developing hemolytic disease is simple: during pregnancy through the placenta
from the fetus to the mother Rh antigens enter. In response to this â??invasionâ?, maternal blood â??producesâ? Rh
antibodies to destroy Rh-positive erythrocytes of the fetus, damaging his liver and spleen, organs hematopoiesis,
and bone marrow. Maternal antibodies entering the bloodstream of a child contribute to hemolysis (destruction)
of his red blood cells, known prophylactic treatment of pregnant women with Rhesus conflict for the prevention
of hemolytic disease of the newborn. But this drug can cause allergic reactions, sometimes accompanied by
anaphylactic shock. Therefore, the development of a non-toxic antihemolytic drug capable of inhibiting hemolysis
is an urgent task.
In the study of polar negatively charged lipids we found a unique property of some mixtures of lipids inhibiting
and preventing hemolysis. As a result of these studies, we have developed a liposomal anti-hemolytic drug. The
antihemolytic preparation is the liposomes with the original lipidâ??s structure on the basis of naturally negatively
charged lipids. The antihemolytic preparation has been developed for treatment of the hemolytic disease
of newborns. Research of liposomal antihemolytic preparation has been carried out in vivo and in vitro. For
checking the biological activity of preparations for treatment of hemolytic disease of newborns we used models of
animals with induced hemolytic disease. The hemolytic disease of newborns has been simulated on experimental
animals (rabbits, rams) by introduction of the fatal dose of antibodies against erythrocytes. The experimental
animals were observed under the certification received from the Committee on Bioethics and Deontology.
As much as possible, a positive therapeutic effect in vivo has been reached: 100 % of animals with induced
hemolytic disease were healthy after one injection of our liposomal antihemolytic preparation. All animals of
the control group with induced hemolytic disease without the preparation were lost. We discovered that the
liposomes interact with the erythrocytes membrane to make them more stable against haemolysis and inactivate
antibodies. Based on these studies, the technology of the sterile antihemolytic drug was developed for the
treatment of hemolytic disease of the newborn (1% dispersion of liposomes with particleâ??s size 140 nm).
Conclusion: This preparation can and should be used in pregnant women with Rhesus conflict with the fetus. The
Rh factor in the baby's blood is set already from the third month of intrauterine development. Therefore, from
this time, Rh antigens begin to enter the mother's body and respectively, from this time or earlier it would be
possible to introduce pregnant drugs and repeatedly the drug is non-toxic, biodegradable, lipids are completely
utilized in the body.This anti-hemolytic liposomal drug can be used to create liposomal vaccines and loaded antiviral liposomal drugs
to protect red blood cells from COVID-19 viral infection.
The composition of this drug is original and is the intellectual property of Dr. Nina Ivanova and is protected by
patents because due to the war and the Russian attack on Ukraine, we will not be able to continue our research
and bring the drug to its finished form. Therefore, we are ready for any kind of cooperation.
Biography
Nina Ivanova completed her PhD from the State University Thin Chemical Technologies 1985 (Moscow, Russia). The specialty: bioorganic chemistry, chemistry of natural and physiologically active substances. After that she worked for 22 years as the head of the lipid laboratory in Biolek Company (Kharkiv, Ukraine). Since 2007 she worked as the leading researcher of the immunology and molecular genetics laboratory, SÐ? “Institute of dermatology and venereology of National Medical Science of Ukraine”. She has more 80 publications and 30 patents. Her work: developing of the liposomal preparations for the treatment of Alzheimer‘s disease, hemolytic diseases, syphilis, anthelmintic in parasitology, antiinfluenzal vaccine, antimycotics.
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