{"product_id":"student-conference-proceedings-2017-von-undefined","title":"Student Conference Proceedings 2017","description":"The contributions to this proceedings book show how new approaches and methods in medical engineering and medical informatics can advance medicine, health and health care. The papers focus on the following topics:\n\nBiomedical Optics: \nDecreasing progressive myopia by Rose Bengal mediated crosslinking of the sclera;\nStrengthening the cornea post-LASIK using Rose Bengal mediated crosslinking;\nDetermination of quality and strength of animal pericardium – Development of an optical device – Dispersion Compensation for Fourier-Domain Mode-Locked Lasers;\nDamage thresholds of retinal pigment epithelium (RPE) cells by laser irradiation (527 nm) in the microsecond time domain;\nDevelopment and Optical Simulation of a Needle Endoscope for Optical Coherence Tomography to visualize Adipocyte Cells during Coolsculpting;\nDesign and Implementation of a Rigid Endoscope for Optical Coherence Tomography (OCT);\nOptimization of a multi-wavelength stimulation unit for functional in-vivo full-field swept-source optical coherence tomography;\nComponents towards fiber based Raman microspectroscopy;\nSupercontinuum Generation with Sub-Nanosecond Pulses for Stimulated Raman Scattering Microscopy;\nEvaluation of filter-combinations within a DNA-Quant-Module for Next Generation Sequencing;\nLight-Induced Permeabiliziation of Liposomes;\n\nBiochemical Physics: \nA SpIDA-derived method to analyse the in vivo GABAB receptor relocalization and oligomerization in chronic pain conditions;\nCharacterization of structural properties of bacterial membranes with atomic force microscopy;\nHow Antimicrobial Peptides Interact with Model Membranes and Affect the Lipid Mobility – a FRAP-based Approach –;\nCharacterization of the interaction between the antimicrobial peptide LL-32 and a lipid monolayer using a film balance;\nConcepts for a process-safe application of a micro-precipitation method;\nCharacterization of nanofluidics devices for high-throughput single-molecule fluorescence detection; \nDesign and implementation of a gel documentation system for multi-wavelength fluorescence detection for Biosafety Level S2 laboratories; \nInvestigation of the correlation between the natural moisturizing factor and non-invasive parameters of the skin barrier function in vivo;\n\nSafety and Quality: \nExtension of a medical engineering laboratory course in consideration of the research environment at HAWK and UMG;\nPrice-performance optimized hardware for molecular simulations; \nEvaluation and comparison of two different types of motor control for BiPAP and CPAP mode in non-invasive mechanical ventilation;\nAdvancement of a sensor-system simulation for sleep therapy and ventilation test benches; \n\nBiomedical Engineering: \nAn Improved Procedure for Automated Testing of Dialysis Machines;\nDetermination of intradialytic electrolyte shifts in dialyzers;\nTests with a new optical sensor for hematocrit and oxygen saturation at extracorporeal life support systems; \nEndoscopic Suction – Evaluation and Comparison of Specialized Pump Technologies –; \nDevelopment of a surface electromyography-based mechanical ventilation procedure; \nDevelopment of a stopped-flow apparatus for rapid mixing of small fluid volumes in reaction kinetic studies; \nNav-CARS-EVAR: Comparison of patient individual vessel anatomies with an abdominal aortic aneurysm to their corresponding rapid prototyping printed 3D-models;\nConstruction of an Elastic-Motion Phantom for MRI;\nA design to adapt a bleaching laser to a research microscope – An easy hardware extension to perform FRAP\/FRED\/photo switching –; \nDevelopment of a variable gradiometer coil to determine the thermal properties of magnetic nanoparticles;\nAutomated cavity-length optimization of a passively Q-switched microchip-laser by a piezo actuator control; \nDeveloping a Calibrated Setup to Investigate markerless Multi-View Reconstruction of Freely Moving Rodents;\n\nE-Health: \nStandardisation of Surgical Terms for the Extension of the ISO\/IEEE 11073-1010X Nomenclature;\nA framework for testing the compatibility of medical devices with new communication standards of the ISO\/IEEE 11073 family; \nDevelopment of data interfaces for opthalmologic devices;\nMEDEAS – Development of an Medical Device Development Assistance System; \nCreating Reports with BIRT to support the Development Process of Medical Software; \nReplicating and Synchronising a Medical Database in an Object Relational Mapping Context; \nLinked Data Applications through Ontology Based Data Access in Clinical Research;\nPipeline Insertion Sort on an FPGA – Special hardware for special solutions –; \nSystem Testing on a Medical Software – A conception for the procedure –; \nDevelopment of a verification technique for Automatic Intra-operative SpineMask™ Registration (AIM) Fallback workflow;\nAn Image Annotation Tool for the Preparation of Object Detection and Automatic Segmentation in Thermal Images; \n\nImage Processing: \nJoint registration and segmentation using statistical shape models;\nThe Schatten-p-Norm as a Distance Measure for Image Registration;\nPropagation of landmarks with a registration graph;\nGroupwise Affine Registration of Medical Images with Missing Correspondences;\nRegistration of thermographic Images and three dimensional Point Clouds; \nAutomatic left ventricle segmentation on axial cine cardiac MR Imaging – Phase 1 –;\nA Review of Neural Network based Semantic Segmentation for Scene Understanding in Context of the self driving Car; \nDeep learning for spinal centerline extraction;\nDevelopment of concepts for high quality image reconstruction based on adaptive grid sizes;\nA syntactic approach to wreck pattern recognition in sonar images; \nObject tracking for accurate irritation-free 3D shape measurements of human faces and body parts;\nEvaluation of Bluetooth Positioning for Medical Device Tracking;\n\nSignal Processing: \nCompressing Vector Fields by Using K-SVD; \nA Comparison of RIDE and ICA for the Decomposition of ERPs in EEG-data;\nA Neural Network for Single-Channel EEG Prediction and Encoding of Attention Selection;\nStructure the Noise! Machine Learning for Alarm Diagnosis; \nClassification of Solitary Pulmonary Nodules using Deep Learning Networks;\nDesign and implementation of a noise reducing filter solution for biosignals derived from phonocardiography and beat-to-beat finger plethysmography; \nDevelopment of a ball balancing robot – Modularity and control concept –;\nDevelopment of a Ball-Balancing Robot platform;\n\nMedical Imaging: \nSimulated Monochromatic X-ray Images by Forward Projection Utilizing the Lambert-Beer Law;\nFailure detection of X-ray tubes for medical devices – a case study –; \nInfluence of patient motion on the depiction of microcalcifications in digital tomosynthesis; \nDiscriminating breast microcalcifications with MARS;\u003cdiv class=\"aw-variant-hidden-subtitle-div\" id=\"aw-variant-subtitle-9783945954331\"\u003e\u003ch3\u003e6th Conference on Medical Engineering Science and 2nd Conference on Medical Informatics\u003c\/h3\u003e\u003c\/div\u003e","brand":"Autorenwelt Shop","offers":[{"title":"Softcover - 9783945954331","offer_id":53966158790981,"sku":"9783945954331","price":79.9,"currency_code":"EUR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0940\/0622\/files\/8414da4e-d76c-4425-b81f-f79662824879.jpg?v=1772781174","url":"https:\/\/shop.autorenwelt.de\/products\/student-conference-proceedings-2017-von-undefined","provider":"Autorenwelt Shop","version":"1.0","type":"link"}