Suspensions are one of the most important and popular dosage forms.  A large number of drugs are formulated in the form of suspensions and are available commercially.  Stability studies of suspensions are very important to enable the patient to receive the intended amount of the medicine(s) in the dose administered. Physical stability of ampicillin suspensions was studied in terms of sedimentation stability in a rapid way employing infrared extinction profiles by using the instrument Separation analyzer (LUMiReader®) in the present work. The LUMiReader® instantaneously measures the extinction profiles of the transmitted light across the entire length of a suspension sample employing STEP-Technology (Space- and Time-resolved Extinction Profiles Technology). Ampicillin trihydrate suspensions were formulated with different suspending agents like methylcellulose (MC), hydroxypropyl methylcellulose (HPMC), sodium carboxymethylcellulose (SCMC) and mucilage of Plantago ovata (POM) and their infrared extinction profiles were compared to determine their sedimentation stability. Instability indices determined on different suspension formulations indicated that SCMC and POM are preferable suspending agents for the preparation of stable suspensions of ampicillin trihydrate.

S. J. Carter. Cooper and Gunn’s Tutorial Pharmacy, CBS Publishers and Distributors, Delhi, 1986, pp. 75-78.

M. E. Aulton. Pharmaceutics- The Science of Dosage Form Design, Churchill Livingstone, Edinburgh, 2002, pp. 84-86, 273.

G. S. Banker and C. T. Rhodes. Modern Pharmaceutics, Marcel Dekker, INC., New York, 1979, Vol-72, pp. 345-346.

C. Ansel, L. V Allen and N. G. Popovich. Pharmaceutical Dosage Forms and Drug Delivery Systems, Lippincott Williams and Wilkins, Philadelphia, 2005, pp. 387-389, 398.

T. Detloff, M. Böddeker and D. Lerche LUM. Dispersion Stability and Particle Analysis,

info@lum-gmbh.de, www.lum-gmbh.com

T. Detloff, D. Lerche and T. Sobisch. Particle Size Distribution by Space or Time Dependent Extinction Profiles obtained by analytical centrifugation, Part. Syst. Charact. 23: 184 - 187 (2006).

T. Detloff, M. Boddeker and D. Lerche. Algorithms to determine the volume based particle distributions from multi wavelength extinction profiles of separating dispersions, Dispersion Letters. 2: 28-31 (2011).

G. T. Kulkarni, K. Gowthamarajan, B. G. Rao, B. Suresh. Evaluation of binding property of plantago ovata and Trigonella Foenum gracecum mucilage, Indian drugs. 39: 422-425 (2002).

S. Chakraboty, M. Khandai, S. P Singh and C. N. Patra. Comparative study of effect of natural and synthetic superdisintegrants in formulation of fast dissolving tablets. Int J Green Pharmacy. 2(1): 22-25 (2008).

T. Suriaprakash, S. Prabhu and T. Satyam. In-vitro studies of diclophenac sodium controlled release dosage form from biopolymeric matrices. Ars Pharm. 52 (2): 20-24 (2011).

S. Majdid, D. M. Naser and F. Djavad. Prevention of crystal growth in acetaminophen suspensions by the use of polyvinyl pirrolidone and bovine serum albumin. DARU journal of Pharmaceutical Sciences, 11 (3): (2003).