1.Effect of Dibutyl Phthalate on Demodicidosis
Fangshu YUAN ; Shuling GUO ; Zhenxu QIU ; Shuhai DENG ; Guihua HUANG
Chinese Journal of Parasitology and Parasitic Diseases 1987;0(03):-
Objective To evaluate the curative effect and safety of dibutyl phthalate on demodicidosis. Methods A single blinded and controlled study of human demodicidosis treated with dibutyl phthalate was conducted. One hundred and forty three patients with demodicidosis, including 81 acne and 62 rosacea, randomly divided into trial and control groups. The trial group was treated with dibutyl phthalate and control group with "new fumanling" cream twice a day in the early morning and evening respectively for six weeks consecutively. Results The rates of excellent, good, and fair efficacy and total effective rate in the trial group with acne were 53\^7%, 41\^5%, 4\^9% and 100% respectively, with a significant difference to the control group (P0\^05). No complaint of side effects in the trial group was recorded. Conclusion Dibutyl phthalate is highly effective to demodicidosis without prominent adverse reactions.
2.The factors influencing metoprolol succinate release from hydroxypropyl methylcellulose matrix tablet.
Guihua HUANG ; Rongmei WANG ; Defeng WANG ; Zhiwen ZHANG ; Shuhai DENG
Journal of Biomedical Engineering 2006;23(3):587-591
The hydroxypropyl methylcellulose (HPMC) matrix tablet containing metoprolol succinate (MS) as a model drug was obtained by wet method compression tablet. The effects of the amount and viscosity of HPMC, the preparation method, compressing pressure, the amount of ethycellulose (EC), the pH of dissolution medium and the speed of basket rotation on the drug release from the matrix tablets were evaluated. The results showed that the release rate of metoprolol succinate from HPMC matrix tablets followed Higuchi equation. The release mechanism was in line with the synthetical effect of diffusion and corrosion. Drug release was influenced by the amount and viscosity of HPMC, the amount of EC in matrices, the preparation method and compressing pressure, etc. Drug release was not influenced by the pH of dissolution medium used, and not by the speed of basket rotation, either.
Delayed-Action Preparations
;
Drug Compounding
;
Hypromellose Derivatives
;
Methylcellulose
;
analogs & derivatives
;
chemistry
;
Metoprolol
;
administration & dosage
;
analogs & derivatives
;
pharmacokinetics
;
Pharmaceutic Aids
;
chemistry
;
Pharmaceutical Preparations
;
chemistry
;
Tablets
;
Viscosity