determination of the chemical stability of heated samples of tetracycline hydrochloride presented at...
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DETERMINATION OF THE CHEMICAL STABILITY OF HEATED SAMPLES OF TETRACYCLINE HYDROCHLORIDE
DETERMINATION OF THE CHEMICAL STABILITY OF HEATED SAMPLES OF TETRACYCLINE HYDROCHLORIDE
Presented at
9th COMMONWEALTH PHARMACEUTICAL ASSOCIATION
+MALAYSIAN PHARMACEUTICAL SOCIETY
PHARMACY SCIENTIFIC CONFERENCE 2007PARKROYAL HOTEL, KUALA LUMPUR
MALAYSIA1st - 5th AUGUST, 2007
Presented at
9th COMMONWEALTH PHARMACEUTICAL ASSOCIATION
+MALAYSIAN PHARMACEUTICAL SOCIETY
PHARMACY SCIENTIFIC CONFERENCE 2007PARKROYAL HOTEL, KUALA LUMPUR
MALAYSIA1st - 5th AUGUST, 2007
Presented by
DR. NAEEM HASAN KHAN ASSOCIATE PROFESSOR HEAD DEPARTMENT OF PHARMACEUTICAL CHEMISTRY KULLIYYAH OF PHARMACY INTERNATIONAL ISLAMIC UNIVERSITY MALAYSIA KUANTAN CAMPUS, PAHANG DARUL MAKMUR MALAYSIA
Presented by
DR. NAEEM HASAN KHAN ASSOCIATE PROFESSOR HEAD DEPARTMENT OF PHARMACEUTICAL CHEMISTRY KULLIYYAH OF PHARMACY INTERNATIONAL ISLAMIC UNIVERSITY MALAYSIA KUANTAN CAMPUS, PAHANG DARUL MAKMUR MALAYSIA
STRUCTURE OF TETRACYCLINESTRUCTURE OF TETRACYCLINE
SUBSTITUTIONSUBSTITUTION
CHEMICAL TRANSFORMATION OF TETRACYCLINE
CHEMICAL TRANSFORMATION OF TETRACYCLINE
Tetracycline (TC) can be prepared by the catalytic reduction of Chlortetracycline.
TC undergoes epimerisation at C-4, resulting in the formation of 4-epitetracycline (ETC).
Due to the presence of a hydroxyl group at C-6, acid degradation takes place resulting in the formation of anhydrotetracycline (ATC). This anhydro derivative also epimerizes at C-4, to give degradation product, 4- epianhydrotetracycline (EATC). This degradation product can also be formed by acid degradation of ETC.
Another related compound, 2- acetyl - 2 - decarboxamidotetracycline is also present as a fermented impurity.
Tetracycline (TC) can be prepared by the catalytic reduction of Chlortetracycline.
TC undergoes epimerisation at C-4, resulting in the formation of 4-epitetracycline (ETC).
Due to the presence of a hydroxyl group at C-6, acid degradation takes place resulting in the formation of anhydrotetracycline (ATC). This anhydro derivative also epimerizes at C-4, to give degradation product, 4- epianhydrotetracycline (EATC). This degradation product can also be formed by acid degradation of ETC.
Another related compound, 2- acetyl - 2 - decarboxamidotetracycline is also present as a fermented impurity.
CHEMICAL STABILITY OF TETRACYCLINE HYDROCHLORIDE WHEN HEATED FOR A LONG
PERIOD OF TIME
CHEMICAL STABILITY OF TETRACYCLINE HYDROCHLORIDE WHEN HEATED FOR A LONG
PERIOD OF TIME The stability studies of heated samples of TC hydrochloride was
carried out following the references;
CONNORS K.A., AMIDON G.L. and KENNON L., CHEMICAL STABILITY OF PHARMACEUTICALS, WILEY (1978).
NAEEM HASAN KHAN, WERA P., ROETS E. and HOOGMARTENS J., JOURNAL OF LIQUID CHROMATOGRAPHY, 13(7),1351-1374 (1990).
NAEEM HASAN KHAN, ROETS E., HOOGMARTENS J. and VANDERHAEGHE H., JOURNAL OF CHROMATOGRAPHY,405,229 (1987).
UNITED STATES PHARMACOPEIA XXI, ROCKVILLE, MD (1985).
The stability studies of heated samples of TC hydrochloride was carried out following the references;
CONNORS K.A., AMIDON G.L. and KENNON L., CHEMICAL STABILITY OF PHARMACEUTICALS, WILEY (1978).
NAEEM HASAN KHAN, WERA P., ROETS E. and HOOGMARTENS J., JOURNAL OF LIQUID CHROMATOGRAPHY, 13(7),1351-1374 (1990).
NAEEM HASAN KHAN, ROETS E., HOOGMARTENS J. and VANDERHAEGHE H., JOURNAL OF CHROMATOGRAPHY,405,229 (1987).
UNITED STATES PHARMACOPEIA XXI, ROCKVILLE, MD (1985).
Using the approximate formula of Connors et.al. ; ( ∆ T/10) t 90 (T2) = t 90 ( t1) / Q 10 with T2 = T1+ ∆
T where
t 90 = time needed to reach 10% decomposition, T = temperature ºC, Q 10 = factor by which the rate constant increases for 10º
C Temperature increase, T2 = T1 + ∆ T
Using the approximate formula of Connors et.al. ; ( ∆ T/10) t 90 (T2) = t 90 ( t1) / Q 10 with T2 = T1+ ∆
T where
t 90 = time needed to reach 10% decomposition, T = temperature ºC, Q 10 = factor by which the rate constant increases for 10º
C Temperature increase, T2 = T1 + ∆ T
Shelf life Calculated t 90 values (years) of TC hydrochloride
Q 10 screw capped vials rubber stoppered vials 40º C 70º C 40º C
2 80 10 24 3 600 23 180
Q 10 / 2 = the estimate for the lower limit Q 10 / 3 = gives most likely estimate
Shelf life Calculated t 90 values (years) of TC hydrochloride
Q 10 screw capped vials rubber stoppered vials 40º C 70º C 40º C
2 80 10 24 3 600 23 180
Q 10 / 2 = the estimate for the lower limit Q 10 / 3 = gives most likely estimate
The values obtained from the, screw capped samples heated for 6 years, show that the stability is good as ;
t 90 (40º C) = 80 years for the Q 10/2. t 90 (70º C) = 10 years for the Q 10/3
The values obtained from the, screw capped samples heated for 6 years, show that the stability is good as ;
t 90 (40º C) = 80 years for the Q 10/2. t 90 (70º C) = 10 years for the Q 10/3
H.PL.C. CONDITIONSH.PL.C. CONDITIONS
Column : PLRP-S (polystyrene-divinylbenzene copolymer) Mobile phase : Tert.-butanol 6.9 gm ; 0.2 M phosphate buffer pH 9.0 (10.0 ml) ; 0.02 M tetrabutylammonium hydrogen sulphate solution pH 9.0 (15.0 ml) ; 0.01 M sodium edetate solution pH 9.0 (10.0
ml) ; double distilled water upto 100.0 ml. Flow rate : 1 ml / min. Detection : UV at 254 nm Temperature : 60º C Elution time : 35 minutes
Column : PLRP-S (polystyrene-divinylbenzene copolymer) Mobile phase : Tert.-butanol 6.9 gm ; 0.2 M phosphate buffer pH 9.0 (10.0 ml) ; 0.02 M tetrabutylammonium hydrogen sulphate solution pH 9.0 (15.0 ml) ; 0.01 M sodium edetate solution pH 9.0 (10.0
ml) ; double distilled water upto 100.0 ml. Flow rate : 1 ml / min. Detection : UV at 254 nm Temperature : 60º C Elution time : 35 minutes
Influence of heating on the compositionof laboratory made Tetracycline Base sample
Influence of heating on the compositionof laboratory made Tetracycline Base sample
TC Base
(Heated)
TC
%
ETC
%
ADTC
%
EATC
%
ATC
%
Water
%
Total
%
at 40º C
(open bottle) for 48 hours
76.7 1.6 0.3 0.2 0.2 19.6 98.6
at 40º C
(closed bottle ) for 48 hours
76.2 1.7 0.3 0.2 0.2 20.6 99.2
at 80º C
(open bottle) for 48 hours
88.9 3.2 0.3 0.2 1.4 2.2 95.8
DiscussionDiscussion
In the rubber stoppered vials , the decomposition was faster as compared to the screw capped vials. This can probably be explained by the fact that the samples in screw capped vials remain completely dry since small amount of water, liberated upon formation of ATC, is evaporated by evaporation. In the rubber stoppered vials,
this water is probably trapped and thus facilitates further acid catalysed decomposition of TC hydrochloride.
This confirms the influence of water content on the stability of TC which was also confirmed by the H.P.L.C. analysis of these samples.
In the rubber stoppered vials , the decomposition was faster as compared to the screw capped vials. This can probably be explained by the fact that the samples in screw capped vials remain completely dry since small amount of water, liberated upon formation of ATC, is evaporated by evaporation. In the rubber stoppered vials,
this water is probably trapped and thus facilitates further acid catalysed decomposition of TC hydrochloride.
This confirms the influence of water content on the stability of TC which was also confirmed by the H.P.L.C. analysis of these samples.
SUMMERYSUMMERY
After stability studies of TC hydrochloride by;
H.P.L.C., For content identification,separation and quantity determination
CARL FISCHER, for water content
It may be concluded that TC hydrochloride when kept for a longer period at relatively low temperature and under conditions of low humidity, is a stable product physico - chemically.
After stability studies of TC hydrochloride by;
H.P.L.C., For content identification,separation and quantity determination
CARL FISCHER, for water content
It may be concluded that TC hydrochloride when kept for a longer period at relatively low temperature and under conditions of low humidity, is a stable product physico - chemically.
WASSALAMOALAIKUM WARAHMATULAAH WABARAKATOHOO
TERIMA KASIH THANK YOU
WASSALAMOALAIKUM WARAHMATULAAH WABARAKATOHOO
TERIMA KASIH THANK YOU