Complex Application of Preparation Containing Ultralow Doses of Antibodies for the Treatment of Anemia Caused by Pubertal Uterine Bleedings

Abstract: Poetam and anaferon (pediatric formulation) administered in combination with iron preparation to patients with anemia induce pronounced positive shifts in metabolic and morphological status of mature erythrocytes: the number of sulfhydryl groups and lipoprotein complexes in cell membranes and dry weight of erythrocytes increased, while the number of forms at different stages of degeneration decreased.

“…In vertebrates, trace amines are a family of endogenous compounds with structural similarity to classical monoamine neurotransmitters found at low concentrations in the mammalian brain (Berry, 2007; Sotnikova et al, 2009a,b). These monoamines include tyramine, tryptamine, synephrine, octopamine, and β-phenylethylamine.…”

“…These monoamines include tyramine, tryptamine, synephrine, octopamine, and β-phenylethylamine. Although their functional role in mammals remains largely unknown, it has been noted that trace amine levels can be altered in various human disorders (Sotnikova et al, 2009a,b). The discovery of a specific family of GPCRs known as trace amines-associated receptors, which are capable of being activated by these trace amines, promotes the idea to use them as targets to correct monoaminergic processes that could be dysfunctional in various disorders of brain and peripheral nervous system (Sotnikova et al, 2009a,b).…”

“…Although their functional role in mammals remains largely unknown, it has been noted that trace amine levels can be altered in various human disorders (Sotnikova et al, 2009a,b). The discovery of a specific family of GPCRs known as trace amines-associated receptors, which are capable of being activated by these trace amines, promotes the idea to use them as targets to correct monoaminergic processes that could be dysfunctional in various disorders of brain and peripheral nervous system (Sotnikova et al, 2009a,b). To do this, it is necessary to further characterize their functional roles and biochemical properties, and identify their endogeous and exogenous ligands (Sotnikova et al, 2009a,b).…”

Cloning and distribution of a putative octopamine/tyramine receptor in the central nervous system of the freshwater prawn Macrobrachium rosenbergii

“…In vertebrates, trace amines are a family of endogenous compounds with structural similarity to classical monoamine neurotransmitters found at low concentrations in the mammalian brain (Berry, 2007; Sotnikova et al, 2009a,b). These monoamines include tyramine, tryptamine, synephrine, octopamine, and β-phenylethylamine.…”

“…These monoamines include tyramine, tryptamine, synephrine, octopamine, and β-phenylethylamine. Although their functional role in mammals remains largely unknown, it has been noted that trace amine levels can be altered in various human disorders (Sotnikova et al, 2009a,b). The discovery of a specific family of GPCRs known as trace amines-associated receptors, which are capable of being activated by these trace amines, promotes the idea to use them as targets to correct monoaminergic processes that could be dysfunctional in various disorders of brain and peripheral nervous system (Sotnikova et al, 2009a,b).…”

“…Although their functional role in mammals remains largely unknown, it has been noted that trace amine levels can be altered in various human disorders (Sotnikova et al, 2009a,b). The discovery of a specific family of GPCRs known as trace amines-associated receptors, which are capable of being activated by these trace amines, promotes the idea to use them as targets to correct monoaminergic processes that could be dysfunctional in various disorders of brain and peripheral nervous system (Sotnikova et al, 2009a,b). To do this, it is necessary to further characterize their functional roles and biochemical properties, and identify their endogeous and exogenous ligands (Sotnikova et al, 2009a,b).…”

Cloning and distribution of a putative octopamine/tyramine receptor in the central nervous system of the freshwater prawn Macrobrachium rosenbergii