Modern and Convensional Wound Dressing to Interleukin 1 and Interleukin 6 in Diabetic Wound

Introduction:Holistic wound care is one of the ways to prevent gangrene and amputation, modern wound dressing is more effective than convensional with increasing transforming growth factor and cytokine, especially interleukin. This study aims to identify the effectiveness of Modern and Convensional Wound Dressing to Interleukin 1 (IL-1) and Interleukin 6 (IL-6) in Diabetic wound. Method:A Quasi eksperimental pre-post with control group design was used. The intervention given was modern wound dressing and Control group by convensional wound dressing, This study was conducted in Makassar with 32 samples (16 in intervention group and 16 in control group). Result: The result of Pooled T- test showed that p = 0.00 (p < 0.05), it means that there was signifi cant correlation between modern wound dressing to IL-6 and IL-1 than Convensional wound dressing. Discussion: Process of wound healing was produced growth factor and cytokine (IL-1 and IL-6), it will stimulated by wound dressing, modern wound dressing (Calcium alginat) can absorb wound drainage, non oklusive, non adhesif, and autolytic debridement

PENGEMBANGAN MEDIA PEMBELAJARAN INTERAKTIF BERBASIS ANIMASI PADA KELISTRIKAN BODI KENDARAAN

The purpose of this study is to develop and determine the feasibility of animation-based interactive learning media on the vehicle body electrical system. The research method used is Research and Development (R&amp;D) using the Four D (4D) Define, Design, Development, and Dissemination model. The data analysis technique used is quantitative and qualitative analysis techniques. The location of this research is at Gorontalo State University and the research subjects are students who have completed or are currently taking Automotive Electrical courses. The data collection technique is a questionnaire to test the feasibility of the media. The results of this study produced a product in the form of interactive learning media based on animation on the body's electrical system. The designed learning media is declared valid because it has been tested for its validity by media experts at 81.7%, material experts at 86.6%, and students at 90%. Based on the data above, it can be concluded that the media developed is very feasible and can be used as a learning tool in the Mechanical Engineering Education Study Program, State University of Gorontalo

Two-to-one resonant multi-modal dynamics of horizontal/inclined cables. Part II : internal resonance activation, reduced-order models and nonlinear normal modes

Resonant multi-modal dynamics due to planar 2:1 internal resonances in the nonlinear, finite-amplitude, free vibrations of horizontal/inclined cables are parametrically investigated based on the second-order multiple scales solution in Part I [1]. The already validated kinematically non-condensed cable model accounts for the effects of both non-linear dynamic extensibility and system asymmetry due to inclined sagged configurations. Actual activation of 2:1 resonances is discussed, enlightening on a remarkable qualitative difference of horizontal/inclined cables as regards non-linear orthogonality properties of normal modes. Based on the analysis of modal contribution and solution convergence of various resonant cables, hints are obtained on proper reduced-order model selections from the asymptotic solution accounting for higher-order effects of quadratic nonlinearities. The dependence of resonant dynamics on coupled vibration amplitudes, and the significant effects of cable sag, inclination and extensibility on system non-linear behavior are highlighted, along with meaningful contributions of longitudinal dynamics. The spatio-temporal variation of non-linear dynamic configurations and dynamic tensions associated with 2:1 resonant non-linear normal modes is illustrated. Overall, the analytical predictions are validated by finite difference-based numerical investigations of the original partial-differential equations of motion

Two-to-one resonant multi-modal dynamics of horizontal/inclined cables. Part I : theoretical formulation and model validation

This paper is first of the two papers dealingwith analytical investigation of resonant multimodal dynamics due to 2:1 internal resonances in the finite-amplitude free vibrations of horizontal/inclined cables. Part I deals with theoretical formulation and validation of the general cable model. Approximate nonlinear partial differential equations of 3-D coupled motion of small sagged cables - which account for both spatio-temporal variation of nonlinear dynamic tension and system asymmetry due to inclined sagged configurations - are presented. A multidimensional Galerkin expansion of the solution ofnonplanar/planar motion is performed, yielding a complete set of system quadratic/cubic coefficients. With the aim of parametrically studying the behavior of horizontal/inclined cables in Part II [25], a second-order asymptotic analysis under planar 2:1 resonance is accomplished by the method of multiple scales. On accounting for higher-order effectsof quadratic/cubic nonlinearities, approximate closed form solutions of nonlinear amplitudes, frequencies and dynamic configurations of resonant nonlinear normal modes reveal the dependence of cable response on resonant/nonresonant modal contributions. Depending on simplifying kinematic modeling and assigned system parameters, approximate horizontal/inclined cable models are thoroughly validated by numerically evaluating statics and non-planar/planar linear/non-linear dynamics against those of the exact model. Moreover, the modal coupling role and contribution of system longitudinal dynamics are discussed for horizontal cables, showing some meaningful effects due to kinematic condensation

Implied Open‐circuit Voltage Imaging via a Single Bandpass Filter Method—Its First Application in Perovskite Solar Cells

A novel, camera-based method for direct implied open-circuit voltage (iV$_{OC}$) imaging via the use of a single bandpass filter (s-BPF) is developed for large-area photovoltaic solar cells and precursors. The photoluminescence (PL) emission is imaged using a narrow BPF with centre energy inside the high-energy tail of the PL emission, utilising the close-to-unity and nearly constant absorptivity of typical photovoltaic devices in this energy range. As a result, the exact value of the sample\u27s absorptivity within the BPF transmission band is not required. The use of an s-BPF enables a fully contactless approach to calibrate the absolute PL photon flux for spectrally integrated detectors, including cameras. The method eliminates the need for knowledge of the imaging system spectral response. Through an appropriate choice of the BPF centre energy, a range of absorber compositions or a single absorber with different surface morphologies, such as planar and textured, can be imaged, all without the need for additional detection optics. The feasibility of this s-BPF method is first validated. The relative error in iV$_{OC}$ is determined to be ≤1.5%. The method is then demonstrated on device stacks with two different perovskite compositions commonly used in single-junction and monolithic tandem solar cells

Implied Open‐circuit Voltage Imaging via a Single Bandpass Filter Method—Its First Application in Perovskite Solar Cells

A direct, camera-based implied open-circuit voltage (iVOC) imaging method via the novel use of a single bandpass filter (s-BPF) is developed for large-area photovoltaic solar cells and solar cell precursors. This method images the photoluminescence (PL) emission using a narrow BPF with centre energy in the high-energy tail of the PL emission taking advantage of the close-to-unity absorptivity of typical photovoltaic devices with low variability in this energy range. As a result, the exact value of the sample\u27s absorptivity within the BPF transmission band is not required. The use of a s-BPF enables the adaptation of a fully contactless approach to calibrate the absolute PL photon flux for camera-based spectrally-integrated imaging tools. The method eliminates the need for knowledge of the imaging system spectral response and the use of the emission and excitation spectral shapes. Through an appropriate choice of the BPF centre energy, a range of absorber compositions or a single absorber with different surface morphologies (e.g., planar vs textured) can be imaged, all without the need for additional detection optics. The feasibility of this s-BPF method is first assessed using a high-quality Cs$_{0.05}$FA$_{0.79}$MA$_{0.16}$Pb(I$_{0.83}$Br$_{0.17}$)$_3$ perovskite neat film. The error in iVOC is determined to be less than 1.5%. The efficacy of the method is then demonstrated on device stacks with two different perovskite compositions commonly used in single-junction and monolithic tandem solar cells

Infrastructure-Aided Localization With UWB Antenna Arrays

This paper presents an approach for a precise 2D-localization of a mobile station in indoor scenarios using a single base station only. In the approach both, the Direction of Arrival (DoA) and the Time of Arrival (ToA), are estimated using ultra-wideband (UWB) beamformers at both sides of the link. The article describes the algorithm, as well as the required hardware which among these are dual-linear polarized, directive UWB antenna arrays and an UWB-beam-forming network, based on finite impulse response-filters (FIR-filters) which permits the steering of the beamformer

A review of polymeric membranes and processes for potable water reuse

Conventional water resources in many regions are insufficient to meet the water needs of growing populations, thus reuse is gaining acceptance as a method of water supply augmentation. Recent advancements in membrane technology have allowed for the reclamation of municipal wastewater for the production of drinking water, i.e., potable reuse. Although public perception can be a challenge, potable reuse is often the least energy-intensive method of providing additional drinking water to water stressed regions. A variety of membranes have been developed that can remove water contaminants ranging from particles and pathogens to dissolved organic compounds and salts. Typically, potable reuse treatment plants use polymeric membranes for microfiltration or ultrafiltration in conjunction with reverse osmosis and, in some cases, nanofiltration. Membrane properties, including pore size, wettability, surface charge, roughness, thermal resistance, chemical stability, permeability, thickness and mechanical strength, vary between membranes and applications. Advancements in membrane technology including new membrane materials, coatings, and manufacturing methods, as well as emerging membrane processes such as membrane bioreactors, electrodialysis, and forward osmosis have been developed to improve selectivity, energy consumption, fouling resistance, and/or capital cost. The purpose of this review is to provide a comprehensive summary of the role of polymeric membranes and process components in the treatment of wastewater to potable water quality and to highlight recent advancements and needs in separation processes. Beyond membranes themselves, this review covers the background and history of potable reuse, and commonly used potable reuse process chains, pretreatment steps, and advanced oxidation processes. Key trends in membrane technology include novel configurations, materials, and fouling prevention techniques. Challenges still facing membrane-based potable reuse applications, including chemical and biological contaminant removal, membrane fouling, and public perception, are highlighted as areas in need of further research and development. Keywords: Potable reuse; Polymeric membranes; Reverse osmosis; Filtration; Fouling; Revie

The Relation between Surviving Gene Expression and Urinary Bladder Cancer Disease

Purpose: The aim of this study is to investigate the expression of survivin gene in patients suffering from urinary bladder cancer, thus contributing to further understanding of the molecular etiology of the disease by assessment of Survivin gene expression on both RNA and protein levels in urinary bladder tissue samples and Correlate between its expression and pathological prognostic parameters of patients with urinary bladder cancer risk. Methods: In the present study 26 cases of urinary bladder cancer and 26 cases of normal tissues far from tumor sites in the urinary bladder of the same patients (as control samples) were collected, also 10 paraffin-embedded tissue samples from consecutive of archival bladder specimens patients and 10 tissue samples that of healthy tissue from the same individual as control group were collected for immunohistochemical detection of survivin protein and real time PCR for survivin mRNA detection. Results: In normal tissues of control samples no expression for survivin gene has been noticed. However, in patients affected with bladder cancer the survivin expression was highly increased by increasing degree of tumor malignancy as indicated by real time PCR for survivin mRNA and immunohistochemistry for survivin protein. Conclusion: From this study, it is concluded that survivin protein was not expressed in normal bladder urothelium but was present in a high percentage in tissue samples of patients suffering from bladder cancer and its expression is associated with disease recurrence, tumor grade, progression and mortality