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bandages, dressings or absorbent pads (1156051) 1156051
devices providing patency to, or preventing collapsing of,tubular structures of the body, e.g. stents (1156051) 1156051
filters implantable into blood vessels (1156051) 1156051
first-aid kits (1156051) 1156051
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medical or veterinary science (1156051) 1156051
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chemical aspects of bandages, dressings, absorbent pads, orsurgical articles (161416) 161416
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materials for bandages, dressings, absorbent pads, or surgicalarticles (161416) 161416
methods or apparatus for sterilising materials or objects ingeneral (161416) 161416
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textiles (42312) 42312
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artificial respiration (37152) 37152
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massage (37152) 37152
physical therapy apparatus, e.g. devices for locating orstimulating reflex points in the body (37152) 37152
compositions based thereon (34455) 34455
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layered products (34048) 34048
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working of plastics (30123) 30123
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contact lenses (18426) 18426
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sunglasses or goggles insofar as they have the same featuresas spectacles (18426) 18426
compositions of macromolecular compounds (17164) 17164
coffee mills (15786) 15786
domestic articles or appliances (15786) 15786
furniture (15786) 15786
spice mills (15786) 15786
suction cleaners in general (15786) 15786
measuring (14956) 14956
testing (14956) 14956
accessories (14623) 14623
outerwear (14623) 14623
protective garments (14623) 14623
accessories, closures, or fittings therefor (14408) 14408
containers for storage or transport of articles or materials,e.g. bags, barrels, bottles, boxes, cans, cartons, crates,drums, jars, tanks, hoppers, forwarding containers (14408) 14408
packages (14408) 14408
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transport or accomodation for patients (14144) 14144
adhesives (13505) 13505
dyes (13505) 13505
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1. Full Text Automated detection of vessel lumen and stent struts in intravascular optical coherence tomography to evaluate stent apposition and neointimal coverage
by Nam, Hyeong Soo and Kim, Chang-Soo and Lee, Jae Joong and Song, Joon Woo and Kim, Jin Won and Yoo, Hongki
Medical physics (Lancaster), ISSN 0094-2405, 04/2016, Volume 43, Issue 4, pp. 1662 - 1675
artificial neural network | Coherence imaging | Medical image smoothing | Segmentation | optical coherence tomography | stents | Neural engineering | object detection | optical tomography | Tissues | Devices providing patency to, or preventing collapsing of, tubular structures of the body, e.g. stents | Digital computing or data processing equipment or methods, specially adapted for specific applications | image segmentation | stent thrombosis | stent malapposition | medical image processing | Biomedical engineering | cardiovascular system | Medical image segmentation | Artificial neural networks | blood vessels | Biological material, e.g. blood, urine; Haemocytometers | Vascular system | Image data processing or generation, in general | Smart prosthetics | Visual imaging | neointimal covearge | neural nets | Medical image artifacts | Life Sciences & Biomedicine | Radiology, Nuclear Medicine & Medical Imaging | Science & Technology | Coronary Vessels - diagnostic imaging | User-Computer Interface | Automation | Time Factors | Tomography, Optical Coherence | Humans | Neointima - diagnostic imaging | Image Processing, Computer-Assisted - methods | Stents | Neural Networks (Computer) | Index Medicus | NEURAL NETWORKS | TOMOGRAPHY | BIOMEDICAL RADIOGRAPHY | CLINICAL TRIALS | THROMBOSIS | RADIATION PROTECTION AND DOSIMETRY | VALIDATION | ALGORITHMS | IN VIVO | 60 APPLIED LIFE SCIENCES | ACCURACY | DATA | IMAGES | CORONARIES | SIDE EFFECTS | MICROSTRUCTURE | THICKNESS
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2. Full Text Automatic vessel lumen segmentation and stent strut detection in intravascular optical coherence tomography
by Tsantis, Stavros and Kagadis, George C and Katsanos, Konstantinos and Karnabatidis, Dimitris and Bourantas, George and Nikiforidis, George C
Medical physics (Lancaster), ISSN 0094-2405, 01/2012, Volume 39, Issue 1, pp. 503 - 513
optical coherence tomography | image segmentation | continuous wavelet transform | image analysis | image quantification | neointimal hypersplasia | Markov random fields | Intravascular ultrasonography | Segmentation | image classification | wavelet transforms | stents | optical tomography | Devices providing patency to, or preventing collapsing of, tubular structures of the body, e.g. stents | Digital computing or data processing equipment or methods, specially adapted for specific applications | Near infrared imaging | feature extraction | Ultrasonography | medical image processing | Biomedical imaging | Medical imaging | Wavelet transform | Analysis of texture | Medical image segmentation | blood vessels | Vascular system | image texture | Wavelets | Image data processing or generation, in general | Visual imaging | Markov processes | biomedical optical imaging | Life Sciences & Biomedicine | Radiology, Nuclear Medicine & Medical Imaging | Science & Technology | Femoral Artery - pathology | Reproducibility of Results | Blood Vessel Prosthesis - adverse effects | Neointima - etiology | Humans | Image Interpretation, Computer-Assisted - methods | Neointima - diagnosis | Tomography, Optical Coherence - methods | Foreign Bodies - diagnosis | Hyperplasia - etiology | Algorithms | Sensitivity and Specificity | Image Enhancement - methods | Stents - adverse effects | Femoral Artery - surgery | Pattern Recognition, Automated - methods | Index Medicus
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3. Full Text Computer-aided detection of intracoronary stent in intravascular ultrasound sequences
by Ciompi, F and Balocco, S and Rigla, J and Carrillo, X and Mauri, J and Radeva, P
Medical physics (Lancaster), ISSN 0094-2405, 2016, Volume 43, Issue 10, pp. 5616 - 5625
Intravascular ultrasonography | Optical coherence tomography | Calcium | Diagnosis using ultrasonic, sonic or infrasonic waves | stents | biomedical ultrasonics | blood vessels | IVUS | Bifurcations | Biological material, e.g. blood, urine; Haemocytometers | Vascular system | Stent detection | Devices providing patency to, or preventing collapsing of, tubular structures of the body, e.g. stents | Digital computing or data processing equipment or methods, specially adapted for specific applications | Image analysis | Ultrasonographic imaging | coronary arteries | Image data processing or generation, in general | Image detection systems | learning (artificial intelligence) | Sequence analysis | image sequences | medical image processing | Life Sciences & Biomedicine | Radiology, Nuclear Medicine & Medical Imaging | Science & Technology | Coronary Vessels - diagnostic imaging | Coronary Vessels - surgery | Blood Vessels - diagnostic imaging | Image Processing, Computer-Assisted - methods | Stents | Index Medicus
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4. Full Text Quantitative assessment of biliary stent artifacts on MR images: Potential implications for target delineation in radiotherapy
by Gurney-Champion, Oliver J and Bruins Slot, Thijs and Lens, Eelco and van der Horst, Astrid and Klaassen, Remy and van Laarhoven, Hanneke W. M and van Tienhoven, Geertjan and van Hooft, Jeanin E and Nederveen, Aart J and Bel, Arjan
Medical physics (Lancaster), ISSN 0094-2405, 2016, Volume 43, Issue 10, pp. 5603 - 5615
biomedical MRI | stainless steel | MRI | stents | phantoms | Devices providing patency to, or preventing collapsing of, tubular structures of the body, e.g. stents | Digital computing or data processing equipment or methods, specially adapted for specific applications | platinum | Involving electronic [emr] or nuclear [nmr] magnetic resonance, e.g. magnetic resonance imaging | Computed tomography | pancreas | polymers | titanium alloys | Eddies | medical image processing | Biomedical imaging | Artifacts and distortion | nickel alloys | Gels | Alloys based on nickel or cobalt | Biological material, e.g. blood, urine; Haemocytometers | image artifacts | biliary stents | Magnetic resonance imaging | Image data processing or generation, in general | radiation therapy | Magnetic susceptibilities | radiotherapy | cancer | Alloys based on titanium | Magnetic fields | Medical image artifacts | Life Sciences & Biomedicine | Radiology, Nuclear Medicine & Medical Imaging | Science & Technology | Magnetic Resonance Angiography - instrumentation | Artifacts | Humans | Radio Waves | Surgery, Computer-Assisted - methods | Phantoms, Imaging | Stents | Index Medicus
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5. Full Text Automatic quantitative analysis of in-stent restenosis using FD-OCT in vivo intra-arterial imaging
by Mandelias, Kostas and Tsantis, Stavros and Spiliopoulos, Stavros and Katsakiori, Paraskevi F and Karnabatidis, Dimitris and Nikiforidis, George C and Kagadis, George C
Medical physics (Lancaster), ISSN 0094-2405, 06/2013, Volume 40, Issue 6, pp. 063101 - n/a
Cluster analysis | Coherence imaging | wavelet transform local maxima | in‐stent restenosis | Segmentation | graphical user interfaces | wavelet transforms | optical coherence tomography | stents | Integral transforms | optical tomography | Devices providing patency to, or preventing collapsing of, tubular structures of the body, e.g. stents | Digital computing or data processing equipment or methods, specially adapted for specific applications | Near infrared imaging | feature extraction | image segmentation | fuzzy C means clustering | edge detection | medical image processing | quantification | Medical imaging | Wavelet transform | fuzzy logic | Medical image segmentation | blood vessels | Vascular system | Wavelets | Image analysis | pattern clustering | Image data processing or generation, in general | Logic and set theory | Visual imaging | biomedical optical imaging | in-stent restenosis | Life Sciences & Biomedicine | Radiology, Nuclear Medicine & Medical Imaging | Science & Technology | Femoral Artery - pathology | Reproducibility of Results | Endovascular Procedures - methods | Graft Occlusion, Vascular - pathology | Artificial Intelligence | Humans | Image Interpretation, Computer-Assisted - methods | Sensitivity and Specificity | Tomography, Optical Coherence - methods | Pattern Recognition, Automated - methods | Index Medicus
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6. Full Text Microwave spectrometry for the evaluation of the structural integrity of metallic stents
by Arauz-Garofalo, Gianluca and López-Domínguez, Víctor and Hernàndez, Joan Manel and Rodríguez-Leor, Oriol and Bayés-Genís, Antoni and O’Callaghan, Juan M and García-Santiago, Antoni and Tejada, Javier
Medical physics (Lancaster), ISSN 0094-2405, 04/2014, Volume 41, Issue 4, pp. 041902 - n/a
microwaves | coronary artery disease | permittivity | Medical imaging | materials testing | stents | stent fracture | Geologic fractures | Spectral properties | Nondestructive testing: electromagnetic testing, eddy‐current testing | Statistical methods | Water vapor | Investigating or analysing materials by determining their chemical or physical properties | fracture | phantoms | Devices providing patency to, or preventing collapsing of, tubular structures of the body, e.g. stents | Absorption spectra | microwave spectra | shrinkage | stent recoil | Fatigue, corrosion fatigue, embrittlement, cracking, fracture, and failure | Antennas | Biomedical engineering | Life Sciences & Biomedicine | Radiology, Nuclear Medicine & Medical Imaging | Science & Technology | Water | Metals - chemistry | Phantoms, Imaging | Spectrum Analysis - methods | Stents | Microwaves | Index Medicus | Stents (Surgery) | Espectroscòpia de microones | Pròtesis de Stent | Artèries coronàries | Microwave spectroscopy | Coronary arteries
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7. Full Text MR-CT registration using a Ni-Ti prostate stent in image-guided radiotherapy of prostate cancer
by Korsager, Anne Sofie and Carl, Jesper and Østergaard, Lasse Riis
Medical physics (Lancaster), ISSN 0094-2405, 06/2013, Volume 40, Issue 6, pp. 061907 - n/a
biomedical MRI | magnetic resonance imaging | image registration | stents | phantoms | Devices providing patency to, or preventing collapsing of, tubular structures of the body, e.g. stents | Digital computing or data processing equipment or methods, specially adapted for specific applications | image‐guided radiotherapy | Computed tomography | Involving electronic [emr] or nuclear [nmr] magnetic resonance, e.g. magnetic resonance imaging | Registration | Clinical applications | mutual information | Dosimetry | Computerised tomographs | medical image processing | Medical imaging | Magnetic resonance | bone | computerised tomography | prostate cancer | Image data processing or generation, in general | Data sets | Optical inspection | radiation therapy | Image guided radiation therapy | Medical magnetic resonance imaging | Therapeutic applications, including brachytherapy | Cancer | computed tomography | image-guided radiotherapy | Life Sciences & Biomedicine | Radiology, Nuclear Medicine & Medical Imaging | Science & Technology | Prostatic Neoplasms - radiotherapy | Reproducibility of Results | Fiducial Markers | Humans | Male | Multimodal Imaging - instrumentation | Prostatic Neoplasms - diagnosis | Equipment Design | Subtraction Technique - instrumentation | Magnetic Resonance Imaging - statistics & numerical data | Sensitivity and Specificity | Titanium | Nickel | Radiotherapy, Image-Guided - instrumentation | Stents | Equipment Failure Analysis | Tomography, X-Ray Computed - instrumentation | Index Medicus | PROSTATE | IMAGE PROCESSING | NMR IMAGING | NEOPLASMS | IMAGES | RADIOLOGY AND NUCLEAR MEDICINE | PHANTOMS | RADIOTHERAPY | COMPUTERIZED TOMOGRAPHY | ACCURACY | SKELETON
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8. Full Text Measurement with microscopic MRI and simulation of flow in different aneurysm models
by Edelhoff, Daniel and Walczak, Lars and Frank, Frauke and Heil, Marvin and Schmitz, Inge and Weichert, Frank and Suter, Dieter
Medical physics (Lancaster), ISSN 0094-2405, 10/2015, Volume 42, Issue 10, pp. 5661 - 5670
biomedical MRI | flow simulation | aneurysm | MRI | stents | ToF | phantoms | Devices providing patency to, or preventing collapsing of, tubular structures of the body, e.g. stents | Involving electronic [emr] or nuclear [nmr] magnetic resonance, e.g. magnetic resonance imaging | Flow imaging | Velocimetry | Boundary value problems | Mass diffusion | Fluid mechanics and rheology | Biological material, e.g. blood, urine; Haemocytometers | graphics processing units | Lattice Boltzmann methods | spin‐lattice relaxation | Magnetic resonance imaging | Rotating flows | Flow visualization | lattice Boltzmann method | Hemodynamics | Processor architectures; Processor configuration, e.g. pipelining | Magnetic fields | haemodynamics | 3D printing | Life Sciences & Biomedicine | Radiology, Nuclear Medicine & Medical Imaging | Science & Technology | Magnetic Resonance Imaging | Aneurysm - physiopathology | Models, Biological | Blood Circulation | Index Medicus | BLOOD FLOW | FORECASTING | NMR IMAGING | SPATIAL RESOLUTION | BIOMEDICAL RADIOGRAPHY | PHANTOMS | COMPARATIVE EVALUATIONS | 60 APPLIED LIFE SCIENCES | COMPUTERIZED SIMULATION
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