Context: Mucoadhesive buccal films containing three layers (mucoadhesive layer, nanosuspension containing layer and backing membrane) were incorporated with carvedilol nanosuspension. Objective: Formulation and evaluation of nanosuspension incorporated mucoadhesive buccal films of carvedilol for bioavailability enhancement by avoiding first-pass metabolism. Methods: Carvedilol-loaded nanosuspension was prepared by a precipitation-ultrasonication method with varying concentrations of the polymer. The formulation was analyzed for size, size distribution, surface charge and morphology. Optimized nanosuspension was incorporated into drug gel layer which was sandwiched between a mucoadhesive layer and a backing layer to form tri-layered buccal films. They were evaluated for their physical, mechanical and bioadhesive parameters followed by in vitro and in vivo studies. Results and discussion: Nanosuspension showed a negative zeta potential (À17.21 mV) with a diameter of around 495 nm and a polydispersity index of 0.203. Nanosuspension incorporated drug gel layer (62.4% drug loading) was optimized to contain 3% HPMC and 50 mg Carbopol 934P. The mucoadhesive layer and the backing layer were optimized to contain 3% HPMC and 1% ethyl cellulose, respectively. In vitro drug release was 69% and 62.4% in 9 h across synthetic membrane and porcine buccal mucosa, respectively. In vivo studies conducted in rabbit model showed 916% increase in the relative bioavailability in comparison to marketed oral tablet formulation. The C max and T max of the prepared formulation increased due to increased surface area of drug and also by-passing hepatic metabolism. Conclusion: The drug delivery system has been designed as a novel platform for potential buccal delivery of drugs having high first-pass metabolism.
Detection and analysis of epileptic seizures is of clinical and research interest. We propose a novel seizure detection and analysis scheme based on the phase-slope index (PSI) of directed influence applied to multichannel electrocorticogram data. The PSI metric identifies increases in the spatio–temporal interactions between channels that clearly distinguish seizure from interictal activity. We form a global metric of interaction between channels and compare this metric to a threshold to detect the presence of seizures. The threshold is chosen based on a moving average of recent activity to accommodate differences between patients and slow changes within each patient over time. We evaluate detection performance over a challenging population of five patients with different types of epilepsy using a total of 47 seizures in nearly 258 h of recorded data. Using a common threshold procedure, we show that our approach detects all of the seizures in four of the five patients with a false detection rate less than two per hour. A variation on the global metric is proposed to identify which channels are strong drivers of activity in each patient. These metrics are computationally efficient and suitable for real-time application.
Ambiguous genitalia in the newborn can present a diagnostic challenge in medical practice. In most cases, the causes of genitourinary anomalies are not well understood; both genetic and environmental factors are thought to play a role. In this study, we report mosaic SRY gene deletion identified by fluorescence in situ hybridization (FISH) analysis in three unrelated newborn male patients with genital anomalies. G-banded chromosomes and microarray analysis were normal for all three patients. One patient had microphallus, hypospadias, bifid scrotum, exstrophic perineal tissue identified as a rectal duplication, lumbar vertebral anomalies, scoliosis, and a dysmorphic sacrum. The other two patients had isolated epispadias with the urethral meatus close to the penopubic junction. All three had bilateral palpable gonads in the scrotum. While this is the first report of mosaic SRY deletions, mosaic SRY sequence variants have been described in patients with variable genitourinary anomalies. This study identifies FISH analysis as a reliable method for mosaic SRY deletion detection. We suggest SRY FISH analysis should be used in the clinical workup of patients with genitourinary ambiguity.
Background and Objective: Tremendous advances have been made in the development of new pharmacotherapuetic agents and less invasive techniques to help men with lower urinary tract symptoms. The use of 5α-reductase inhibitor (5-ARI) is restricted to the patients with large prostate volumes, whose symptoms are refractory to antiandrogens or α– adrenergic blockers Out of the various synthesized5-reductase inhibitors with different substituents on steroidal nucleus, esters have been found to exhibited high anti-androgenic activity. Methods: In our attempt to find new, safer and potent 5-ARI and our continued interest in azasteorids, esters of 17a-Aza-Dhomo-5-androsten-3β-ol with synergistic effect were synthesized and characterized using different analytical techniques. The compounds were evaluated for their 5α-reductase inhibitory activity in-vivo by their effect on serum androgen level by ELISA assay procedure. The interaction with receptors was studied using advanced docking programme to predict the correlation of the synthesized compounds with actual biological activity. Results: The target compounds (6-12) showed increased anti-androgenic activity as compared to finasteride and control, which imply that the target compounds are effective in inhibiting 5α-reductase. Particularly, compound 6 showing highest inhibitory activity and greater affinity for 5-AR receptor with highest dock score. Results of these studies when compared with Finasteride showed increased solubility and dissolution of target compound 6. Conclusion: Compound6 showed immense potential with improved efficacy and better bioavailability, thus makes it a suitable candidate for further studies and optimal formulation.
Objective: Parkinson’s disease (PD) and Alzheimer’s disease (AD) are the most common forms of neurodegenerative disorders. The aim of the current work is to study the potential of some new indanone derivatives for the treatment of these neurological disorders. Methods: A new series of 4-(2-oxo-2-aminoethoxy)-2-benzylidene substituted indanone derivatives have been synthesized and studied for anti-Parkinsonian and anti-Alzheimer’s effects. Substitution of different aminoalkyl functionalities at the para position of 2-benzylidene moiety of indanone ring resulted in the formation of potent anti-parkinsonian and anti-Alzheimer’s agents (5-10). The neuroprotective effects of newly synthesized compounds were evaluated using perphenazine (PPZ)-induced catatonia in rats and LPS-induced cognitive deficits in mice models. Further, in silico molecular modelling studies of the new indanone derivatives were performed by docking against the 3D structures of various neuroinflammatory mediators, such as interleukin-1β (IL-1β), tumor necrosis factor-α (TNF-β) and monoamine oxidase-B (MAO-B), to gain the mechanistic insights of their anti-Alzheimer’s and antiparkinsonian effects. Results: The newly synthesized indanone analogues 5-10 were found effective against PPZ-induced motor dysfunction and LPS-induced memory impairment in animal models. Among all the synthesized analogues, morpholine-substituted indanone 9 displayed maximum anti-parkinsonian activity, even better than the standard drug L-DOPA, while pyrrolidine and piperidine substituted analogues 5 and 6 were found to be the most potent anti-Alzheimer’s agents. Conclusion: The new 2-arylidene-1-indanone analogues show good potential as promising leads for designing compounds against Parkinson’s and Alzheimer’s diseases.
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