Poster presentation
103
CREATING OF THE COMPOSITION AND TECHNOLOGY OF
SUPPOSITORIES BASED ON THE ESTROGEN ACTIVE
TEFESTROL
Sh.N. Madrakhimov
1
, S.K. Burkhonova
2
, S. F Aripova
1
1) S.Yu. Yunusov Institute of the Chemistry of Plant Substances Academy of sciences of
the Republic of Uzbekistan st. Mirzo-Ulugbek, 77, 100170 Tashkent;
e-mail: latin06@mail.ru
2) Tashkent Pharmaceutical Institute
Tefestrol (FS 42 Uz--0150-2005) is a natural mixture of esters of sesquiterpene
alcohols and its esters the main components are ferutinin and tenuferidin, obtained from
the roots of
Ferula finely dissected White, with a cream color powder, soluble in
chloroform, moderately soluble in 96% alcohol, and in oils (opalescence of the resulting
solution is allowed), practically insoluble in water.
One of the important and major factors affecting the effectiveness of the drug
substance is the suppository base. Suppository base should provide optimal structural
and mechanical properties and one of the important indicators
is the stability of
viscoplastic systems. The base, which forms a large part of the suppository, has certain
physical and chemical properties and a significant impact on the bioavailability of the
active substances, the therapeutic effect, the uniformity of drug distribution,
dosing
accuracy. When conducting research as an active pharmaceutical substance was taken
tefestrol, as a choice of carrier studied four types of base, often used in modern
pharmaceutical production and recommended by GF v. XIII.
For the experiment, suppositories were prepared
and suppository models were
obtained with a mass of 2.5 g containing 3 mg of the active substance. Suppositories
were prepared by pouring method due to the fact that this method is used in industrial
conditions. Considering that. the amount of active substance in the suppositories was
less than 5%, the substitution factor was not taken into account. The required amount of
the base was melted in a water bath. Separately, tefestrol was pre-mixed in a porcelain
cup with a small amount of molten base, then added to the suppository base and
thoroughly mixed. The consistency of the molten mass at the time of pouring should be
close to the solidification temperature. Then stirring quickly poured into pre-lubricated
with soapy alcohol suppository forms and placed in the refrigerator for solidification.
After 35-40 minutes the prepared suppositories were
removed from the mold and
checked for compliance with the requirements of GF XII. Ready suppository models
were analyzed in accordance with the ND by the following criteria: description, mass
uniformity, melting temperature, solidification temperature,
average mass and
deviations from the average mass.