New Dosage Form of L-arginine based on its complex with cellulose acetate sulfate and activated carbon

Авторы

  • Ekaterina Alexandrovna Shakhno Belarusian State University
  • Savitskaya Tatyana Alexandrovna Belarusian State University
  • Tatyana Grigorevna Pokrovskaya Belgorod State University
  • Vladimir Ivanovich Yakushev Belgorod State University
  • Dmitry Davidovich Grinshpan Belarusian State University

Аннотация

Introduction: The oral route of L-arginine intake, despite its great comfort, is less effective in comparison with infusions. The development of new pharmaceutical forms for oral preparation is of undoubted interest.

Objectives: To obtain a new dosage form of L-arginine by complexation with sodium salt of cellulose sulfate acetate (Na-CSA) followed by immobilization on activated carbon, and to evaluate its endothelial, cardioprotective and antihypertensive activity.

Methods: UV-, visible spectroscopy, FTIR spectroscopy, viscometry, molecular mechanics, animal experiments with male Wistar albino rats in the modeling of L-NAME-induced endothelium dysfunction.

Results: The physicochemical parameters of complexation, the adsorption activity of activated carbons of various origins with respect to individual L-arginine and its complex with Na-CSA were investigated. The greatest amount of adsorption and its smaller difference between L-arginine and the complex were taken into account when choosing activated carbon as a carrier (AUT-MI: GL-Arginine=320.2±0.1 mg/g, Gcomplex=340.2±0.1 mg/g; OU-A: GL-Arginine=210.1±0.1 mg/g, Gcomplex=235.1±0.1 mg/g; TH-90G: GL-Arginine=190.1±0.1 mg/g, Gcomplex=190.2±0.1 mg/g). Release of L-arginine as a result of its desorption into the model media of the human body was higher (96.3±0.5 wt.%) for the alkaline medium of intestines than for the acidic medium of stomach (10.0±0.1 wt.%). In animal experiments, it was shown that a combined preparation of L-arginine complex immobilized at doses of 30 mg/kg, 70 mg/kg and 200 mg/kg exhibits a pronounced antihypertensive, endothelioprotecive and cardioprotective activity at a dose of 200 mg/kg with L-NAME-induced nitric oxide deficiency (p<0.05; 30 mg/kg: EDCL-Arginine=3.6±0.3; EDCcomplex=3.0±0.2; 70 mg/kg: EDCL-Arginine=2.7±0.1; EDCcomplex=2.3±0.2; 200 mg/kg: EDCLArginine= 2.5±0.1; EDCcomplex=1.9±0.1).

Conclusion: Due to the antihypertensive, endothelial and cardioprotective activity of L-arginine as a complex with Na-CAC immobilized on activated carbon, it is possible to obtain an effective dosage form (tableted or granulated) of L-arginine for oral use.

Ключевые слова:

L-arginine, L-NAME, nitric oxide deficiency, water-soluble cellulose derivative, activated carbon, immobilized complex, dosage form, antihypertensive, endothelioprotecive and cardioprotective activity

Вклад авторов

Ekaterina Alexandrovna Shakhno, Belarusian State University

Graduate student of the Department of Physical Chemistry.

Savitskaya Tatyana Alexandrovna, Belarusian State University

PhD in Chemistry, Professor of Physical Chemistry Department.

Tatyana Grigorevna Pokrovskaya, Belgorod State University

Doctor of Medical Sciences, Professor.

Vladimir Ivanovich Yakushev, Belgorod State University

Teaching assistant of pharmacological department.

Dmitry Davidovich Grinshpan, Belarusian State University

Doctor of Chemistry, Professor of Research Institute for Physical Chemical Problems.

Загрузки

Опубликован

30.06.2017

Как цитировать

Shakhno EA, Tatyana Alexandrovna S, Pokrovskaya TG, Yakushev VI, Grinshpan DD (2017) New Dosage Form of L-arginine based on its complex with cellulose acetate sulfate and activated carbon. Research Results in Pharmacology 3(2): 101–111

Выпуск

Раздел

Клиническая фармакология

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