ABSTRACT
The aim of present study was to explore the impact of Atorvastatin (ATR) Sulfobutylether beta-cyclodextrin complex(ATR-SBE-β-CD) on ATR dissolution behavior. Various batches of inclusion complexes were formulated usingvarious drug: polymer ratios (1:1, 1:3, and 1:5); using β-CD and SBE-β-CD and using two methods (freeze dryingand kneading method). Phase solubility studies were carried out of all the complexes and ratio 1:5 (ATR-SBE-β-CD)prepared by freeze-drying yield maximum solubility enhancement (30-fold in comparison to pure drug). Fouriertransformation infrared spectroscopy, Powder X-ray diffraction, Scanning electron microscopy (SEM), Differentialscanning calorimetry (DSC) studies was also carried out. FTIR studies showed no drug polymer interaction. DSCand SEM studies suggested incorporation of drug into inclusion complexes of cyclodextrin. Solid dispersion viaFreeze drying technique using SBE-β-CD (1:3 ratio of drug to polymer) produces better dissolution characteristics incomparison to kneading method. The results revealed superiority of SBE-β-CD over β-CD for solubility enhancementof poorly soluble drugs (owing to amorphous nature and more stable form of SBE β-CD). No significant drug losswas observed in solid dispersion batch (as per results of drug content analysis) during storage for 3 months underaccelerated conditions. Further in vivo pharmacodynamics studies of selected batch were carried out by inducingobesity in rats by feeding them with a high-fat diet. Group I (normal control group) received normal chow diet andgroup II, group III, group IV (High fat diet group, optimized formulation group and disease control group) receivedHFD for 1 month and were further evaluated for BMI, Blood glucose, lipid profile, liver profile, and histopathologicalexamination. The results so obtained depicted that optimized formulation of Atorvastatin (10 mg/kg, p.o.) showedbetter results in comparison to pure Atorvastatin Calcium (10 mg/kg, p.o.).
ABSTRACT
Background: Cultivation of algae for conversion to biofuels has gained global interest. Outdoor raceway cultivation is preferred because of its lower capital and operating costs. A major disadvantage of outdoor cultivation is susceptibility of algal crops to attack by predatory rotifers. In order to quantify the impact of rotifer attack on different species of algae, we evaluated the growth of eleven microalgal species over a 21-d period after being infected by the predatory rotifer Brachionus rubens. Results: Of the eleven species, Chlorella sorokiniana was the most susceptible with rapid decline in algal growth concomitant with increase in rotifer population growth (3.82/d). In contrast, Synechococcus elongatus andScenedesmus dimorphus were both resistant to the rotifer and suppressed rotifer growth (-0.06/d). An index of algal species susceptibility to be consumed by the rotifer was generated with C. sorokiniana as the baseline (index = 1.000) indicating most susceptible among species tested. Other species' susceptibilities are indicated in parenthesis as follows: Monoraphidium spp. (0.997), Chlamydomonas globosa (0.827), Botryococcus braunii(0.740), Chlorella minutissima (0.570), Chlamydomonas augustae (0.530), Chlamydomonas yellowstonensis (0.500), Scenedesmus bijuga (0.420), and Haematococcus pluvialis (0.360). Two species, namely, S. dimorphus andS. elongatus were unique in that they exhibited an ability to suppress the growth of the rotifer as indicated by the decline in rotifer populations in their presence. Conclusions: Variations in susceptibility of algal species to rotifer predation could be a result of their individual morphology, cell walls structure, or the biochemical composition of individual species.