Karnataka

  A simple, sensitive and accurate spectrophotometric method was developed in ultraviolet region for the estimation of Glibenclamide in pure drug, pharmaceutical formulation. Linear response obtained was in the concentration range of 5-30µg/ml with correlation coefficient of 0.999 in acetronitrile: 0.2M NaOH (20:80). Excellent recovery proved that the method was sufficiently accurate. There is no interference from any common pharmaceutical additives and diluents. Results of the analysis were validated by recovery studies according to ICH Q2B guidelines. Key words: Glibenclamide, UV- Spectrophotometry, recovery, accuracy.

  A series of thiophene and aryl substituted compounds 1a-f; 2a-b and 3a-c were synthesized by Erlenmeyer azolactone synthesis. These compounds were screened for antimicrobial activity method in vitro. Among the tested compounds 3c showed significant activity and some of the other compounds showed promising activity. The structure of new compounds synthesized during present investigation have been authentically established by their IR,1H NMR and Mass spectra and some QSAR studies. Key words: Thiophene; antimicrobial; antibacterial; antifungal.

  Drug development technologies constituting innovations at the formulation end in the pharmaceutical industry has received a lot of attention in past two decades. Drug delivery as an opportunity to extend product life cycles has indeed proved its place in the market with significant advantages of therapeutic gains as well as commercial success. Carrier technology offers an intelligent approach for drug delivery by coupling the drug to a carrier particle such as microspheres, nanoparticles, liposomes, etc. which modulates the release and absorption characteristics of the drug. Mucoadhesion is a topic of current interest in the design of drug delivery systems. Mucoadhesive microspheres exhibit a prolonged residence time at the site of application or absorption and facilitate an intimate contact with the underlying absorption surface and thus contribute to improved and/or better therapeutic performance of drugs. Hence, uptake and consequently bioavailability of the drug is increased and frequency of dosing reduced with the result that patient compliance is improved. In recent years such Mucoadhesive microspheres have been developed for oral, buccal, nasal, ocular, rectal and vaginal for either systemic or local effects. This review article aims to provide various aspects of mucoadhesion, theories of mucoadhesion and the polymers which will shows the excellent mucoadhesive properties. It also contains a number of available methods of preparation of microspheres and its evaluation including in vitro-wash off test for to determine the mucoadhesive property of prepared microspheres.

  Technological attempts have been made in the research and development of rate-controlled oral drug delivery systems to overcome physiological adversities, such as short gastric residence times (GRT) and unpredictable gastric emptying times (GET). It is known that differences in gastric physiology, such as, gastric pH, and motility exhibit both intra-as well as inter-subject variability demonstrating significant impact on gastric retention time and drug delivery behavior. This triggered the attention towards formulation of stomach specific (gastro retentive) dosage forms. This dosage forms will be very much useful to deliver ‘narrow absorption window’ drugs. Several approaches are currently utilized in the prolongation of the GRT, including floating drug delivery systems (FDDS), swelling and expanding systems, polymeric bioadhesive systems, high-density systems, modified-shape systems and other delayed gastric emptying devices. In this review, current & recent developments of Stomach Specific FDDS are discussed. Key words: floating drug delivery system, hydrodynamically balanced system, effervescent, non-effervescent, gastric residence time.

  First and second order derivative UV-Spectrophotometric methods have been developed and validated for the estimation of Iloperidone in bulk and its tablet formulations. The solutions of standard and sample were prepared in methanol. The Iloperidone solution was showed the maximum absorbance at 262nm and 248nm for the first and second order UV-Spectrophotometric methods respectively. Beer’s law was obeyed in the concentration range of 4- 12 μg / ml with r2 value 0.999 for both the methods. These methods were tested and validated for various parameters according to ICH guidelines. The precision expressed as relative standard deviation and was found within the range of 0.13 % to 1.7 % for the both methods. Limit of detection was 0.0133 μg/ml (first order), 0.0216 μg/ml (second order) and  limit of quantification was found to be 0.0403 μg/ml (first order), 0.0657 μg/ml (second order). Recovery of Iloperidone was found to be within the range of 99.51 – 100.16 % for the two methods. The proposed methods were successfully applied for the determination of Iloperidone in tablet formulations. In addition, the proposed methods are simple, easy to apply, low cost, and requires relatively inexpensive instruments.  

  Nimodipine is an antihypertensive, calcium channel blocker, vasodilator agent and used in the treatment of various cardiovascular disorders such as angina pectoris, cardiac arrhythmia and hypertension. Oral bioavailability of Nimodipine is around 13% and having half life 9 hrs. In present research work an attempt has been made to prepare fast dissolving tablets of Nimodipine by direct compression technique with β-cyclodextrin complexes using various superdisintegrants. The powder blends were subjected for pre-compressional parameters. The prepared tablets were evaluated for post-compressional parameters. The prepared tablets were characterized by DSC and FTIR Studies. No chemical interaction between drug and excipients was confirmed by DSC and IR studies. The values of pre-compression parameters evaluated were within prescribed limits and indicated good free flowing property. All the post-compressional parameter are evaluated were prescribed limits and results were within IP acceptable limits. The tablets were evaluated for the in-vitro disintegration time and it was observed that the time for all the formulations varied from 19.24 to 48.29 sec. The promising formulations CCP4, CCC4 and CSS1 shows the 90 % of drug released within 5-8 min. Among all the formulation CCP4 (15 % crospovidone) were found to be best and showed a disintegration time of 19.24 sec, 50 % of drug released in 0.96 min, and 90 %  of drug released in 4.78 min. The stability study was conducted as per the ICH guidelines and the formulations were found to be stable, with insignificant changes in hardness, drug content and disintegration time. These results revealed that fast dissolving tablets of the poorly soluble drug, Nimodipine, showing enhanced dissolution and, hence, better patient compliance. Key words: Fast dissolving tablets, Nimodipine, sodium starch glycolate, croscarmellose sodium, crospovidone,  β-cyclodextrin.