32. The GSK1120212 solubility dmso assay results of different injections by applying method precision (Table 4) were found to be within the proposed limits and the mean assay value was found to be 98.88% w/w. The accuracy (Table 5) of the method was found to be good with the overall mean % recovery of 99.94% for the capsule dosage form. The proposed
method was found to be specific for the Ceftibuten drug and no interferences were found at the retention time of the Ceftibuten peak (Fig. 5 and Fig. 6). The proposed method was found to be robust and rugged. All the parameters were within the acceptance limits with an overall % RSD of 0.46. The developed method has various advantages like less retention times, good linearity. The accuracy and precision results indicates the high quality of the method. The robustness and ruggedness results indicate the vast applicability of the method. The see more developed RP-HPLC method for the quantification of Ceftibuten was found to be highly sensitive, simple, rapid, economical, very accurate and precise. It was validated as per the ICH/USP guidelines. It can be applied for the routine RP-HPLC analysis of Ceftibuten. All authors have none to declare. The authors are thankful to M/S Aurobindo Pharma Ltd, Hyderabad, India, for providing Ceftibuten API and Smt. P. Sulochana, M.A., B. Ed., L.L.B, correspondent, Sri Padmavathi Educational institutions, Tirupati for providing facilities
to carry out this work. The authors are also thankful to L. Nagamallika, C. Praveen, T. Pavan Kumar and K. Hari Babu for their help. “
“The ocean is the mother of life and it is believed that the most primitive forms of life originated from this “primordial soup”. It harbors a vast variety of TCL marine organisms that are diverse in their physiology and adaptations. It is noteworthy that marine sources have also demonstrated tremendous abilities as producers of anticancer compounds and secondary metabolites which act against infectious diseases and inflammation. In comparison with the other lifeforms, bioactive compounds have been detected especially frequently in sponges. Sponges (phylum Porifera)
are most primitive of the ulticelled animals that have existed for 700–800 million years. Although many bioactives have been discovered in sponges1, 2 and 3 only a few of these compounds have been commercialized. Concentrations of the desired bioactives in sponges are generally low, e.g. 0.4% of dry weight, but concentrations as high as 12% have been recorded for some metabolites.4 The aim of the present study is to analyze the anticancer activity of marine sponge against two human carcinoma cell lines. This raised the possibility the uses of marine sponge as the source of anticancer compounds since with the rich biodiversity and vast marine resources along the Indian coast is a potential useful research in the area of marine drug development and exciting new frontier of scientific discovery and economic opportunity.