Biological Imaging


30 Feeds
  • AFM in situ DNA describes in situ analysis (or study) of DNA using atomic force microscopy. Discover the latest research on AFM in situ DNA here.
    AFM in situ DNA

    AFM in situ DNA describes in situ analysis (or study) of DNA using atomic force microscopy. Discover the latest research on AFM in situ DNA here.

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  • Alzheimer's disease (AD) is a chronic neurodegenerative disease. Here is the latest research on neuroimaging modalities, including magnetic resonance imaging and positron emission tomography, in AD.
    Alzheimer's Disease: Neuroimaging

    Alzheimer's disease (AD) is a chronic neurodegenerative disease. Here is the latest research on neuroimaging modalities, including magnetic resonance imaging and positron emission tomography, in AD.

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  • Artificial intelligence (ai) techniques are increasingly applied to cardiovascular (cv) medicine in cardiac imaging analysis. Here is the latest research.
    Artificial Intelligence in Cardiac Imaging
    Going Viral

    Artificial intelligence (ai) techniques are increasingly applied to cardiovascular (cv) medicine in cardiac imaging analysis. Here is the latest research.

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  • Neural circuits are groups of interconnected neurons which carry out specific functions when activated. Imaging these neural circuits allows researches to further elucidate their mechanisms and functions. Follow this feed to stay up to date on brain imaging of neural circuits.
    Brain Imaging of Neural Circuits
    Fast Growing

    Neural circuits are groups of interconnected neurons which carry out specific functions when activated. Imaging these neural circuits allows researches to further elucidate their mechanisms and functions. Follow this feed to stay up to date on brain imaging of neural circuits.

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  • Molecular imaging enables noninvasive imaging of key molecules that are crucial to tumor biology. Discover the latest research in molecular imaging in cancer biology in this feed.
    Cancer Biology: Molecular Imaging

    Molecular imaging enables noninvasive imaging of key molecules that are crucial to tumor biology. Discover the latest research in molecular imaging in cancer biology in this feed.

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  • Imaging techniques, including CT and MR, have become essential to tumor detection, diagnosis, and monitoring. Here is the latest research on cancer imaging.
    Cancer Imaging

    Imaging techniques, including CT and MR, have become essential to tumor detection, diagnosis, and monitoring. Here is the latest research on cancer imaging.

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  • Here is the latest research on cell imaging and imaging modalities, including light-sheet microscopy, in the central nervous system.
    Cell Imaging in CNS
    Influential

    Here is the latest research on cell imaging and imaging modalities, including light-sheet microscopy, in the central nervous system.

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  • Computed axial tomography (CT or CAT) is a non-invasive imaging technique that uses X-rays to take slices of the particular region of interest. This data is sent to a computer where a 2D image is generated. CT of the brain can be helpful in understanding pathological processes of some diseases. Discover the latest research of CT of the brain here.
    Computed Axial Tomography: Brain
    Fast Growing

    Computed axial tomography (CT or CAT) is a non-invasive imaging technique that uses X-rays to take slices of the particular region of interest. This data is sent to a computer where a 2D image is generated. CT of the brain can be helpful in understanding pathological processes of some diseases. Discover the latest research of CT of the brain here.

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  • Ultrasound uses sound waves to provide images of the area of interest. Cranial ultrasound is most often used in babies to visualize their fontaneles. Discover the latest research on cranial ultrasounds here.
    Cranial Ultrasound

    Ultrasound uses sound waves to provide images of the area of interest. Cranial ultrasound is most often used in babies to visualize their fontaneles. Discover the latest research on cranial ultrasounds here.

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  • Cryogenic electron microscopy (Cryo-EM) allows the determination of biological macromolecules and their assemblies at a near-atomic resolution. Here is the latest research.
    Cryogenic Electron Microscopy
    Fast Growing

    Cryogenic electron microscopy (Cryo-EM) allows the determination of biological macromolecules and their assemblies at a near-atomic resolution. Here is the latest research.

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  • Investigating human cellular proteins through a combination of highly multiplexed imaging and proteomic analyses can help characterize all human cells at the proteomic level. Discover the latest research on deep visual proteomics here.
    Deep Visual Proteomics: Image-Guided Cell Characterization

    Investigating human cellular proteins through a combination of highly multiplexed imaging and proteomic analyses can help characterize all human cells at the proteomic level. Discover the latest research on deep visual proteomics here.

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  • Imaging of the brain through different stages of development provides insight on brain structure, function, and plasticity. Insights gained from studying how the brain develops in healthy individuals and in disease can improve understanding and treatment for those with developmental deficits. Follow this feed to stay up to date on developmental neuroimaging.
    Developmental Neuroimaging
    Fast Growing

    Imaging of the brain through different stages of development provides insight on brain structure, function, and plasticity. Insights gained from studying how the brain develops in healthy individuals and in disease can improve understanding and treatment for those with developmental deficits. Follow this feed to stay up to date on developmental neuroimaging.

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  • Electroencephalography (EEG) is an electrophysiological technique used to record electrical activity in the brain. It is commonly used in the diagnosis of epilepsy, sleep disorders, coma, encephalopathies, and brain death. Find the latest research on EEG here.
    Electroencephalography
    Going Viral

    Electroencephalography (EEG) is an electrophysiological technique used to record electrical activity in the brain. It is commonly used in the diagnosis of epilepsy, sleep disorders, coma, encephalopathies, and brain death. Find the latest research on EEG here.

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  • Dynamin GTPases are proteins that are responsible for endocytosis in cells, as well as division of organelles, cytokinesis, and pathogen resistance. Discover the latest research on dynamin GTPases here.
    Exocytosis & Endocytosis: Imaging

    Dynamin GTPases are proteins that are responsible for endocytosis in cells, as well as division of organelles, cytokinesis, and pathogen resistance. Discover the latest research on dynamin GTPases here.

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  • Reactive oxygen and nitrogen species are cell stressors implicated in diverse physiological and pathological processes such as cancer and neurodegenerative disorders. This feed focuses on fluorescent, luminescent, and other types of reactive oxygen and reactive nitrogen species probes.
    Fluorescent Probes: Dual-Responsive

    Reactive oxygen and nitrogen species are cell stressors implicated in diverse physiological and pathological processes such as cancer and neurodegenerative disorders. This feed focuses on fluorescent, luminescent, and other types of reactive oxygen and reactive nitrogen species probes.

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  • Functional connectivity networks represent specific patterns of synchronous activity and differ between healthy subjects, stages of consciousness and across disease. Discover the latest research on functional connectivity networks here.
    Functional Connectivity Networks

    Functional connectivity networks represent specific patterns of synchronous activity and differ between healthy subjects, stages of consciousness and across disease. Discover the latest research on functional connectivity networks here.

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  • Functional magnetic resonance imaging (fMRI) images blood flow in the brain, using it as proxy for brain activity. It can also be used to look for brain abnormalities. To stay up to date on fMRI research, follow this feed.
    Functional MRI

    Functional magnetic resonance imaging (fMRI) images blood flow in the brain, using it as proxy for brain activity. It can also be used to look for brain abnormalities. To stay up to date on fMRI research, follow this feed.

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  • Imaging mass spectrometry enables the visualization and assessment of the spatial distribution of molecules, including biomarkers and metabolites, based on their molecular mass. Here is the latest research.
    Imaging Mass Spectrometry

    Imaging mass spectrometry enables the visualization and assessment of the spatial distribution of molecules, including biomarkers and metabolites, based on their molecular mass. Here is the latest research.

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  • In vivo imaging systems have become critical tools in clinical and basic research laboratories. This feed focuses on in vivo imaging and development of in vivo imaging modalities in the Zebrafish model organism.
    In Vivo Imaging in Zebrafish

    In vivo imaging systems have become critical tools in clinical and basic research laboratories. This feed focuses on in vivo imaging and development of in vivo imaging modalities in the Zebrafish model organism.

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  • Live cell imaging of the brain allows for the study of neuron and glial cell interactions and functions in vivo. To stay up to date on progress in this field follow this feed.
    Live Cell Imaging: Brain
    Fast Growing

    Live cell imaging of the brain allows for the study of neuron and glial cell interactions and functions in vivo. To stay up to date on progress in this field follow this feed.

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  • Magnetic Resonance Imaging (MRI) is a non-invasive imaging technique that uses a powerful magnetic field and radio waves to generate images of the area of interest. MRI of the brain is commonly performed to visualize the brain and related structures in detail. Discover the latest research of MRI and the brain here.
    Magnetic Resonance Imaging: Brain
    Influential

    Magnetic Resonance Imaging (MRI) is a non-invasive imaging technique that uses a powerful magnetic field and radio waves to generate images of the area of interest. MRI of the brain is commonly performed to visualize the brain and related structures in detail. Discover the latest research of MRI and the brain here.

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  • Magnetoencephalography (MEG) is a method of functional neuroimaging by means of recording the magnetic fields produced by electrical currents in the brain. Find the latest research on MEG here.
    Magnetoencephalography

    Magnetoencephalography (MEG) is a method of functional neuroimaging by means of recording the magnetic fields produced by electrical currents in the brain. Find the latest research on MEG here.

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  • Magnetic resonance imaging has been used to diagnose and monitor the disease progression in multiple sclerosis. MRI has improved the management of MS patients and provided information on the level of atrophy in the brain and the severity of the disease. Discover the latest research on multiple sclerosis imaging here.
    Multiple Sclerosis: Imaging

    Magnetic resonance imaging has been used to diagnose and monitor the disease progression in multiple sclerosis. MRI has improved the management of MS patients and provided information on the level of atrophy in the brain and the severity of the disease. Discover the latest research on multiple sclerosis imaging here.

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  • Neuroimaging is a useful tool for studying brain function as well as for diagnosis of diseases and injuries to the brain. Follow this feed to stay up to date.
    Neuroimaging
    Going Viral

    Neuroimaging is a useful tool for studying brain function as well as for diagnosis of diseases and injuries to the brain. Follow this feed to stay up to date.

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  • Neuroimaging techniques have been used to investigate the neural structures and activities involved in eating disorders. Here are the latest discoveries pertaining to the neuroimaging of eating disorders.
    Neuroimaging of Eating Disorders

    Neuroimaging techniques have been used to investigate the neural structures and activities involved in eating disorders. Here are the latest discoveries pertaining to the neuroimaging of eating disorders.

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  • Parkinson’s disease (PD) is a neurodegenerative disorder that affects movement. This feed focuses on therapeutic aspects, diagnostic tools including medical imaging, and clinical trials in PD.
    Parkinson's Disease: Diagnostics and Clinical Trials

    Parkinson’s disease (PD) is a neurodegenerative disorder that affects movement. This feed focuses on therapeutic aspects, diagnostic tools including medical imaging, and clinical trials in PD.

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  • Positron Emission Tomography (PET) is a type of imaging that allows visualization of the brain functioning. A radioactive tracer is injected into the bloodstream allowing the activity of the organ to be visualized. PET imaging for the brain is useful to see if there is disease or injury in the brain. Here is the latest research on PET and the brain.
    Positron Emission Tomography: Brain

    Positron Emission Tomography (PET) is a type of imaging that allows visualization of the brain functioning. A radioactive tracer is injected into the bloodstream allowing the activity of the organ to be visualized. PET imaging for the brain is useful to see if there is disease or injury in the brain. Here is the latest research on PET and the brain.

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  • Super-resolution microscopy is the term commonly given to fluorescence microscopy techniques with resolutions that are not limited by the diffraction of light. Here are the latest discoveries pertaining to super-resolution microscopy.
    Super-resolution Microscopy
    Going Viral

    Super-resolution microscopy is the term commonly given to fluorescence microscopy techniques with resolutions that are not limited by the diffraction of light. Here are the latest discoveries pertaining to super-resolution microscopy.

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  • Superresolution imaging enhances the resolution of an imaging system. Discover the latest research on superresolution imaging in neuroscience.
    Superresolution Imaging: Neuroscience

    Superresolution imaging enhances the resolution of an imaging system. Discover the latest research on superresolution imaging in neuroscience.

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  • Vascular imaging makes it possible to quantify the number and spacing of blood vessels, measure blood flow and vascular permeability, and analyze cellular and molecular abnormalities in blood vessel walls. Discover the latest research on vascular imaging here.
    Vascular Imaging

    Vascular imaging makes it possible to quantify the number and spacing of blood vessels, measure blood flow and vascular permeability, and analyze cellular and molecular abnormalities in blood vessel walls. Discover the latest research on vascular imaging here.

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