RESUMEN
Introduction: Mental foramen is defined as the funnel-like opening in the lateral surface of the mandible at theterminus of the mental canal. The mental foramen is the termination of the mandibular canal in the mandible,transmits the inferior alveolar nerve and vessels. Accurate position of the mental foramen would help surgeonsin achieving successful anaesthesia to the terminal branches of the inferior alveolar nerve. The aim of the studywas to evaluate the most common radiographic position of mental foramen in costal population of AndhraPradesh.Materials and methods: A total of 250digital panoramic radiographs were collected between age of 16 and60yrs, which fulfil the inclusion criteria.Results: We observed that, in 40.4% of individuals mental foramen was in line with second premolar (position 4)followed by 27.8% between the first and second premolars (position 3), least common is position 1 in 4% of thepopulation. We also observed the mental foramen position to vary with gender and on right and left sides.Conclusion: The most common position of mental foramen is position 4. Gender and right and left side variationswere also observed in our study. surgeons should carefully identity mental foramen position in achievingsuccessful anaesthesia to the terminal branches of the inferior alveolar nervebefore going for the surgery of thelower jaw and floor of the mouth
RESUMEN
The main objective of the present exploration was to formulate and evaluate chronomodulated press-coated tablets to deliver the NSAID lornoxicam, when a pain in the joints, functional disability persist in the early morning time is typically observed in most Rheumatoid arthritis (RA) patients. Pre formulation studies and drug excipient compatibility studies were carried out for lornoxicam and excipients. Core tablets containing lornoxicam was prepared by direct compression method and the tablets were subjected to various pre-compression and post-compression parameters (C1-C4 formula) based on the above result best core tablet batch was selected and used for press coating processes. HPMC and EC granules were used as controlled release polymers in the outer layer. These tablets were subjected to pre and post compression parameters, finally the tablets were evaluated for lag time and in vitro dissolution. Results of preformulation studies were acceptable limits. No interaction was observed between lornoxicam and excipients by FTIR. The results of pre and post compression studies were within limits. Formulation code CC3 was identified as best formulation that extends a release profile with 6 h lag time followed by complete lornoxicam release after 8 h. From the graphical representation it can be well perceive that this is perfectly fit in to Korsemeyer which had a Regression coefficient (R2) of 0.9431. The results of the in-vitro release data of this layer were fitted to the Korsemeyer-Peppas equation to examine the release pattern of the drug from the polymeric system. The drug release was identified as super case II transport as the “n” value found to be more than 0.89.
RESUMEN
The main objective of the present exploration was to formulate and evaluate chronomodulated press-coated tablets to deliver the NSAID lornoxicam, when a pain in the joints, functional disability persist in the early morning time is typically observed in most Rheumatoid arthritis (RA) patients. Pre formulation studies and drug excipient compatibility studies were carried out for lornox-icam and excipients. Core tablets containing lornoxicam was prepared by direct compression method and the tablets were subjected to various pre-compression and post-compression parameters (C1-C4 formula) based on the above result best core tablet batch was selected and used for press coating processes. HPMC and EC granules were used as controlled release polymers in the outer layer. These tablets were subjected to pre and post compression parameters, finally the tablets were evaluated for lag time and in vitro dissolution. Results of preformulation studies were acceptable limits. No interaction was observed between lornoxicam and excipients by FTIR. The results of pre and post compression studies were within limits. Formulation code CC3 was identified as best formulation that extends a release profile with 6 h lag time followed by complete lornoxicam release after 8 h. From the graphical representation it can be well perceive that this is perfectly fit in to Korsemeyer which had a Regression coefficient (R2) of 0.9431. The results of the in-vitro release data of this layer were fitted to the Korsemeyer-Peppas equation to examine the release pattern of the drug from the polymeric system. The drug release was identified as super case II transport as the “n” value found to be more than 0.89.