Category:Biomedical engineering

Sottocategorie

Questa categoria contiene le 16 sottocategorie indicate di seguito, su un totale di 16.

File nella categoria "Biomedical engineering"

Questa categoria contiene 128 file, indicati di seguito, su un totale di 128.

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  12 lead ECG.jpg 3 507 × 2 300; 1,59 MB
  
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  3036810 13239 2010 27 Fig1 HTML.png 512 × 339; 52 KB
  
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  3112189 pone.0020674.g001.png 512 × 278; 60 KB
  
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  41392 2022 1024 Fig1 HTML.webp 1 799 × 1 357; 128 KB
  
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  A Blood-Glucose-Powered Metabolic Fuel Cell for Self-Sufficient Bioelectronics.webp 1 367 × 871; 144 KB
  
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  A comparison of blood pressure and photoplethysmogram signals.svg 800 × 400; 44 KB
  
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  A plasma expression.jpg 2 358 × 2 358; 982 KB
  
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  A schematic of the neuroprosthesis showing the external control unit-es.png 300 × 369; 36 KB
  
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  A schematic of the neuroprosthesis showing the external control unit.gif 300 × 369; 17 KB
  
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  AC microcapsule microphotographs.png 284 × 220; 101 KB
  
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  Acaide505f01th.jpg 450 × 448; 64 KB
  
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  Accessing vascular age from the photoplethysmogram.pdf 1 979 × 1 181; 697 KB
  
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  Advanced medical imaging during noninjury ED visits.png 960 × 518; 32 KB
  
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  Analysing photoplethysmogram signals.pdf 1 947 × 1 229; 513 KB
  
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  Anatomisch 3D-model in Mimics.jpg 1 011 × 836; 90 KB
  
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  ANEEB2017 v0.jpg 494 × 378; 24 KB
  
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  AP microcapsule integrity, GI simulated transit.png 714 × 217; 196 KB
  
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  Artificialneuronhjdevias.jpeg 1 536 × 1 187; 192 KB
  
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  Assessing effective connectivity in epileptogenic networks. A model-based simulation approach..pdf 1 239 × 1 754, 10 pagine; 286 KB
  
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  Atrioventricularvalve.jpg 400 × 320; 78 KB
  
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  Autosyringe.png 1 023 × 825; 1 000 KB
  
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  Biomedical and Biotechnology department at NIT Rourkela.jpg 3 264 × 2 448; 2,25 MB
  
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  Biotechnology & Biomedical departments NITR.jpg 3 264 × 2 448; 2,26 MB
  
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  Biotribology.jpeg 1 056 × 816; 151 KB
  
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  BKG zaznam.jpg 901 × 623; 80 KB
  
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  BMSEED’s electrophysiology module Intan 120-Channel.png 2 016 × 1 512; 2,52 MB
  
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  Brain-computer interface (BCI) system.jpg 250 × 206; 10 KB
  
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  Bulk vs surface erosion.jpg 382 × 215; 21 KB
  
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  Cardiacoutput4.jpg 670 × 331; 56 KB
  
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  Cardiacoutput7.jpg 500 × 498; 32 KB
  
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  Cell capsule schematic.png 436 × 266; 49 KB
  
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  Challenges and perspectives of organoid technologies.webp 1 500 × 1 387; 115 KB
  
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  Circuito-Inibicao-Reciproca.tif 728 × 374; 20 KB
  
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  Classes of photoplethysmogram (PPG) pulse wave shape.svg 1 200 × 250; 57 KB
  
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  Clinical vs laboratory photoplethysmogram (PPG) pulse waves.svg 600 × 300; 36 KB
  
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  Control drone by eeg.jpg 1 721 × 963; 363 KB
  
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  Corticography recording.png 444 × 355; 427 KB
  
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  Darwin XI's environment and experimental protocol..jpg 450 × 684; 143 KB
  
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  Detecting atrial fibrillation (AF) from the photoplethysmogram (PPG).svg 700 × 800; 203 KB
  
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  Dr. Amin Mahoutforoush.jpg 1 272 × 841; 372 KB
  
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  Drugdeliverybrain.jpeg 1 440 × 1 113; 352 KB
  
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  Electroretinographhjdeviass2.jpeg 2 884 × 1 409; 589 KB
  
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  Estimating blood pressure from the photoplethysmogram.pdf 1 979 × 1 181; 382 KB
  
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  Extracting respiratory signals from the photoplethysmogram (PPG).svg 576 × 288; 107 KB
  
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  Extraction of respiratory signals from the electrocardiogram (ECG) and photoplethysmogram (PPG).png 1 875 × 1 250; 103 KB
  
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  Finger vs ear photoplethysmogram (PPG) pulse waves.svg 600 × 300; 34 KB
  
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  Flow cytometer structure.png 865 × 599; 1,98 MB
  
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  Formetric 4D 12x14cm RGB.jpg 1 417 × 1 627; 205 KB
  
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  Graphical description of the Fick principle..jpg 500 × 210; 21 KB
  
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  Heart Rate Display Using Arduino and LabView.png 1 334 × 750; 2,66 MB
  
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  Hgmitralvalve.jpeg 1 440 × 1 113; 361 KB
  
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  Hjdeviassarotic valve.jpeg 1 440 × 1 113; 496 KB
  
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  Initial Consideration from ISO- 10993, Biological Evaluation of Medical Devices.jpeg 849 × 1 099; 141 KB
  
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  Institut d'Investigacions Biomèdiques de Barcelona.JPG 1 536 × 2 048; 1,26 MB
  
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  JindrichKopecekphoto2020.jpg 1 080 × 1 008; 257 KB
  
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  Jude Odele - Makerere University.jpg 1 840 × 1 840; 121 KB
  
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  Lower limb amputation levels.jpg 635 × 335; 49 KB
  
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  Manually Stretching Microelectrode Array.jpg 1 920 × 1 080; 805 KB
  
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  Material Models - Cardiovascular stent.jpg 600 × 400; 140 KB
  
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  Measurement of cardiac output with the use of carbon dioxide rebreathing.jpg 702 × 253; 28 KB
  
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  Medlineplustibial plateau.jpg 400 × 320; 69 KB
  
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  Methodological advancement in brain organoid generation.webp 1 350 × 896; 124 KB
  
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  MicroElectrode Array Stretching Simulating und Recording Equipment.jpg 3 024 × 4 032; 642 KB
  
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  Micropear.png 3 233 × 2 425; 6,46 MB
  
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  Modeling Respiratory system.png 600 × 600; 103 KB
  
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  Modeling the Cardiovascular System.png 449 × 813; 54 KB
  
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  ModeloArteriaGIF.gif 500 × 500; 72 KB
  
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  Modelos con cuadrícula.png 650 × 220; 42 KB
  
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  Modelos sin cuadrícula.png 520 × 220; 78 KB
  
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  MRtractographyheartRat.png 512 × 395; 435 KB
  
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  Myki project.jpg 8 466 × 7 018; 5 MB
  
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  Myofiber architecture and MRtractography of heart.jpeg 512 × 395; 122 KB
  
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  Neuromodulation targets for motor symptoms in Parkinson's disease.webp 2 052 × 1 085; 165 KB
  
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  Neuronactivity.jpeg 1 440 × 1 113; 414 KB
  
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  Neuroprosthetic technologies for sensorimotor disorders.webp 2 041 × 1 300; 319 KB
  
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  Neurotrophic Electrode2.JPG 414 × 255; 8 KB
  
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  Nonlinear analysis of the photoplethysmogram.svg 1 000 × 600; 209 KB
  
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  Photoplethysmogram (PPG) pulse wave fiducial points.svg 304 × 800; 45 KB
  
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  Photoplethysmogram (PPG) pulse wave indices.svg 304 × 800; 122 KB
  
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  Photoplethysmogram (PPG) pulse wave.svg 500 × 330; 33 KB
  
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  Photoplethysmogram pulse wave composition.svg 500 × 330; 39 KB
  
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  Photoplethysmogram signal components.svg 1 000 × 470; 105 KB
  
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  Pipeline for multiscale hyperdimensional analysis of organoids.webp 1 597 × 2 148; 661 KB
  
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  Plateau of Tibia.jpeg 1 440 × 1 113; 500 KB
  
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  Plethysmography.jpg 400 × 320; 55 KB
  
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  Positron Emission Tomography (PET) images from a Parkinson's patient before and after fetal tissue transplantation..jpg 1 440 × 1 113; 301 KB
  
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  Possible neuromodulation strategies for cognitive impairment and dementia.webp 2 048 × 1 182; 170 KB
  
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  Projecte Barcino.jpg 775 × 537; 125 KB
  
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  Pulse contour analysis..jpg 501 × 587; 45 KB
  
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  Pwv measurement fig.svg 1 600 × 450; 352 KB
  
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  Recording single-lead ECG using a Withings Move ECG watch.jpg 1 471 × 1 591; 367 KB
  
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  Reflexo H.gif 488 × 279; 9 KB
  
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  Respiratory modulations of the photoplethysmogram.svg 691 × 288; 109 KB
  
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  Ryan O'Shea Northstar Photo.JPG 5 472 × 3 648; 6,86 MB
  
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  Sarcomerelengthtension.png 512 × 338; 88 KB
  
• Scale-Free-Brain-Quartet-Artistic-Filtering-of-Multi-Channel-Brainwave-Music-pone.0064046.s001.oga 59 s; 553 KB
  
• Scale-Free-Brain-Quartet-Artistic-Filtering-of-Multi-Channel-Brainwave-Music-pone.0064046.s002.oga 1 min 0 s; 576 KB
  
• Scale-Free-Brain-Wave-Music-from-Simultaneously-EEG-and-fMRI-Recordings-pone.0049773.s001.ogg 30 s; 276 KB
  
• Scale-Free-Brain-Wave-Music-from-Simultaneously-EEG-and-fMRI-Recordings-pone.0049773.s002.ogg 30 s; 331 KB
  
• Scale-Free-Brain-Wave-Music-from-Simultaneously-EEG-and-fMRI-Recordings-pone.0049773.s003.ogg 30 s; 278 KB
  
• Scale-Free-Brain-Wave-Music-from-Simultaneously-EEG-and-fMRI-Recordings-pone.0049773.s004.ogg 30 s; 275 KB
  
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  Schematic of different strategies to vascularization of brain organoid.webp 1 350 × 874; 138 KB
  
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  Schematic representation of the biomedical applications of microswimmers.webp 3 365 × 2 200; 616 KB
  
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  Science edunihgovinfo fig02.gif 500 × 292; 11 KB
  
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  Short photoplethysmogram (PPG) signal.svg 1 000 × 470; 31 KB
  
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  Simulated photoplethysmogram pulse waves.png 2 999 × 1 533; 599 KB
  
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  Stretchable Microelectrode Array (sMEA) before and during stretch.png 2 205 × 1 404; 3,42 MB
  
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  Stretchable Microelectrode Array (sMEA) with PDMS glue.jpg 3 024 × 4 032; 1,7 MB
  
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  Stretchable Microelectrode Array (sMEA) with white glue.jpg 2 732 × 2 732; 1,31 MB
  
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  Surface and Bulk Erosion.jpg 241 × 551; 9 KB
  
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  The concept of neuroregeneration.png 512 × 611; 225 KB
  
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  The extensive industry-FDA interactions that occur during product development, using the drug development process as a specific example.gif 611 × 423; 18 KB
  
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  The neuroprosthetic system..gif 400 × 131; 5 KB
  
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  Tibia-CT-Biomechanics-part1.png 990 × 814; 362 KB
  
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  Towards large-scale bidirectional neuroprostheses for memory disorders.webp 2 044 × 1 615; 256 KB
  
• Towards-User-Friendly-Spelling-with-an-Auditory-Brain-Computer-Interface-The-CharStreamer-Paradigm-pone.0098322.s002.oga 1 min 30 s; 1,19 MB
  
• Towards-User-Friendly-Spelling-with-an-Auditory-Brain-Computer-Interface-The-CharStreamer-Paradigm-pone.0098322.s003.oga 35 s; 538 KB
  
• Towards-User-Friendly-Spelling-with-an-Auditory-Brain-Computer-Interface-The-CharStreamer-Paradigm-pone.0098322.s004.oga 34 s; 534 KB
  
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  Triggering a single-lead ECG recording on a Withings Move ECG watch.jpg 1 249 × 1 544; 319 KB
  
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  TxBDC Logo.png 413 × 122; 4 KB
  
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  Variations of the velocity across the tricuspid valve.png 512 × 384; 277 KB
  
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  Volume conductor model.png 466 × 327; 261 KB
  
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  VolumeConductorprinciple.jpeg 1 536 × 1 187; 226 KB
  
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  Wavevelocity.png 468 × 350; 53 KB
  
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  Withings Move ECG watch worn on wrist.jpg 1 003 × 1 003; 198 KB
  
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  Wrist pulse oximeter.jpg 1 347 × 726; 75 KB
  
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  צילום כיתת ביורפואה ומערכות רפואיות בבית חינוך ירקון.jpg 1 920 × 1 080; 143 KB
  
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  “Mini-brains” generated from PSCs.webp 1 971 × 465; 276 KB