Formulation and Evaluation of Mesalamine Loaded pH Dependent Colon Specific Pulsatile Drug Delivery System
Abstract
The aim of these research of an oral colon specific, pulsatile device to attain time and or site specific release of Mesalamine, based on chronopharmaceutical consideration. The basic design consists of an insoluble hard gelatin capsule body, filled with Eudragit microcapsules of Mesalamine and sealed with a hydrogel plug. The entire device was enteric coated, so that the variability in gastric emptying time can be overcome and a colon-specific release can be achieved. The Mesalamine microcapsules were prepared in three batches, with Eudragit L-100 and S-100 (1:2) by changing drug to polymer ratio and evaluated for the particle size, drug content and in vitro release profile and from the obtained results; one better formulation was selected for further fabrication of pulsatile capsule. Different hydrogel polymers were used as plugs, to maintain a suitable lag period and it was found that the drug release was controlled by the proportion of polymers used. In vitro release studies of pulsatile device revealed that, increasing the hydrophilic polymer content resulted in delayed release of Mesalamine from microcapsules. Pulsatile, colon-specific release has been achieved from a capsule device over a 2–24 h period, consistent with the demands of chronotherapeutic drug delivery.
References
2. Nagaraja G. Design and evaluation of time programmed pulsincap system for chronotherapeutic delivery of losartan potassium Journal of Chemical and Pharmaceutical Research, 2013;5(6):76-87.
3. Rasve G. Pulsatile Drug Delivery System: Current Scenario. International Journal of Pharma and Bio Sciences. 2011; 2(3): 332-343.
4. Mukhopadhyay S. Formulation and Evaluation of Pulsatile Drug Delivery System for Sequential Release of Atorvastatin International Journal of Pharmaceutical. 2014; 3 (2): 594-606.
5. Senthilnathan B. Design And Development Of Pulsatile Drug Delivery Of Glibenclamide Using Pulsincap Technology. International journal of pharmTech research. 2012; 4:1606-1613.
6. Jagdale SC. Formulation and Evaluation of Modified Pulsincap Drug Delivery System of Rizatriptan Benzoate. International Journal of Pharmacy and Pharmaceutical Sciences. 2014; 6(5): 48-52.
7. Sandeep P. Formulation and evaluation of rosuvastatin drug delievery system by using press coating technique international journal of research in pharmaceutical science, 6-52.
8. Indian Pharmacopoeia. Govt of India, Minisrty of health and welfare Delhi, controller of publication. 2010; (2) :149,274,849.
9. Najmuddin M. Development and evaluation of pulsatile drug delivery
system of flurbiprofen Research Journal of Pharmaceutical, Biological and Chemical Sciences. 2010; 284-290.
10. Qureshi J. Development and Evaluation of Chronotherapeutic Drug Delivery System for the Management of Nocturnal Asthma. Tropical Journal of Pharmaceutical Research October 2012; 11 (5): 703-712
11. Gohel H. Review on Colon Targeted Drug Delivery System by Combine approch of Ph and Microbial. Int. J. Inv. Pharm. Sci., 2013; 1(3):217-220.
12. Bodkhe AA. pH dependent, colon specific, delivery of Ornidazole and Ciprofloxacin Hydrochloride in stomach Scholars Research Library, Der Pharmacia Lettre, 2010, 2(3): 101-105
13. Villa J and Prately RE. Ezetimibe/simvastatin or Atorvastatin for the treatment of hypercholesterolemia in patients with the metabolic syndrome: the VYMET study. Curr Diab Rep. 10(3):173-175.
14. McCormack T, Harvey P and Gaunt R. Incremental cholesterol reduction with Ezetimibe/simvastatin, Atorvastatin and rosuvastatin in UK General Practice: randomised controlled trial of achievement of Joint British Societies cholesterol targets. Int j clin pract. 64(8):1052-61.
15. Sarkar BK. Colon Targeted Drug Delivery System, Research Journal of Pharmaceutical, Biological & Chemical Sciences. 2013; 2(4):365-372.
16. Lennernas H. Clinical Pharmacokinetics of Atorvastatin Clin Pharmacokinet. 2003; 42(13):1141-1160.
17. Rajput M. Pulsatile Drug Delivery System: A Review, International Journal of Research in Pharmaceutical and Biomedical Sciences. 2012; 3 (1):118-124.
.