266 research outputs found
FORMULATION DEVELOPMENT AND CHARACTERIZATION OF GELUCIRE BEADS OF ANTIHYPERTENSIVE DRUG FOR FLOATING DRUG DELIVERY SYSTEM USING 32 FACTORIAL DESIGNS
Objective: The aim of this study was to design and to optimize lipid based beads for multiunit floating drug delivery of ramipril.
Methods: The beads prepared by melt-solidification method. In the investigation 32 full factorial design was used to investigate the joint influence of two formulation variable amount of Gelucire (X1) and Tween 20 (X2) as independent variable and the percentage drug release in 1 (Y1), 6 (Y2), and 12 h (Y3) as dependent variable. Gelucire 43/01 has chosen for release retardant and Tween 20 for solubility enhancement and drug loading agent.
Results: The results of multiple linear regression analysis indicated that for obtain a floating drug delivery, the optimum concentrations of both the lipid and drug loading agent should be used. The factorial models were used to prepare optimized floating beads and optimized formulations showed controlled release profiles for the extended period of more than 12 h.
Conclusion: From the study, it was concluded that beads of Gelucire for sparingly water-soluble drug ramipril can provide controlled release for extended period
Korean Character Recognition Using Neural Networks
We present a neural-network approach for recognizing printed Korean characters. Our approach is based on a variant of the back-propagation algorithm. The results indicate that by transforming the character data into Hough space, we can achieve excellent recognition
Few cycle pulse propagation
We present a comprehensive framework for treating the nonlinear interaction
of few-cycle pulses using an envelope description that goes beyond the
traditional SVEA method. This is applied to a range of simulations that
demonstrate how the effect of a nonlinearity differs between the
many-cycle and few-cycle cases. Our approach, which includes diffraction,
dispersion, multiple fields, and a wide range of nonlinearities, builds upon
the work of Brabec and Krausz[1] and Porras[2]. No approximations are made
until the final stage when a particular problem is considered.
The original version (v1) of this arXiv paper is close to the published
Phys.Rev.A. version, and much smaller in size.Comment: 9 pages, 14 figure
Astronomical spectrograph calibration with broad-spectrum frequency combs
Broadband femtosecond-laser frequency combs are filtered to
spectrographically resolvable frequency-mode spacing, and the limitations of
using cavities for spectral filtering are considered. Data and theory are used
to show implications to spectrographic calibration of high-resolution,
astronomical spectrometers
Comparative evaluation of two different fiber-reinforced composite materials in class 1 post-endodontic restorations in molars—a randomized clinical study
This study aimed to evaluate and compare two different fiber-reinforced composite materials in class I post-endodontic restoration in molars. A total of 50 patients were randomly assigned into two groups (n = 25 for each group); group A: everX Posterior (packable composite) with a top layer of solareX (nano-hybrid composite) and group B: everX Flow (flowable composite) with a top layer of G-aenial universal injectable (flowable composite). Patients were evaluated immediately after the procedure (baseline), at 6 months, and at 1 year time intervals based on the modified USPHS criteria. The statistical analysis using a chi-square test showed no statistically significant difference in the clinical performance of group A and group B. Clinical performance of the combination of everX Flow with overlying G-aenial universal injectable composite proved to be comparable with everX Posterior with overlying solareX composite as post-endodontic restorations in class I lesions in permanent molars
Second-Harmonic Generation in Silicon Nitride Ring Resonators
The emerging field of silicon photonics seeks to unify the high bandwidth of
optical communications with CMOS microelectronic circuits. Many components have
been demonstrated for on-chip optical communications, including those that
utilize the nonlinear optical properties of silicon[1, 2], silicon dioxide[3,
4] and silicon nitride[5, 6]. Processes such as second harmonic generation,
which are enabled by the second-order susceptibility, have not been developed
since the bulk vanishes in these centrosymmetric CMOS materials.
Generating the lowest-order nonlinearity would open the window to a new array
of CMOS-compatible optical devices capable of nonlinear functionalities not
achievable with the? response such as electro-optic modulation, sum
frequency up-conversion, and difference frequency generation. Here we
demonstrate second harmonic (SH) generation in CMOS compatible integrated
silicon nitride (Si3N4) waveguides. The response is induced in the
centrosymmetric material by using the nanoscale structure to break the bulk
symmetry. We use a high quality factor Q ring resonator cavity to enhance the
efficiency of the nonlinear optical process and detect SH output with milliwatt
input powers.Comment: 4 pages, 3 figure
X-wave mediated instability of plane waves in Kerr media
Plane waves in Kerr media spontaneously generate paraxial X-waves (i.e.
non-dispersive and non-diffractive pulsed beams) that get amplified along
propagation. This effect can be considered a form of conical emission (i.e.
spatio-temporal modulational instability), and can be used as a key for the
interpretation of the out of axis energy emission in the splitting process of
focused pulses in normally dispersive materials. A new class of spatio-temporal
localized wave patterns is identified. X-waves instability, and nonlinear
X-waves, are also expected in periodical Bose condensed gases.Comment: 4 pages, 6 figure
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