/joomla/index.php/training/videos/classification/item/99-intromrphysics2b /joomla/index.php/training/videos/classification/item/98-intromrphysics2a /joomla/index.php/training/videos/classification/item/96-intromrphysics1b /joomla/index.php/training/videos/classification/item/95-intromrphysics1a /joomla/index.php/training/videos/classification/item/36-carotid-ultrasound /joomla/index.php/training/videos/classification/item/35-carotid-mr-imaging /joomla/index.php/training/videos/classification/item/34-ultrasound-techniques-for-carotid-imaging-3d-ultrasound /joomla/index.php/training/videos/classification/item/33-high-resolution-mri-and-predicting-ischemic-brain-lesions-cain1 /joomla/index.php/training/videos/classification/item/32-pet-agents-in-clinical-oncology-the-role-of-radiopharmaceutical-science /joomla/index.php/training/videos/classification/item/31-histologic-validation-of-preop-imaging-in-carotid-endarterectomy-specimens-cain2-david-spence

Introduction to MR Physics Part 2b

Part 2b of a six part series covering the fundamentals of magnetic resonance imaging physics. In this section, Dr. Stafford introduces concepts of relaxation and image contrast. Click here to view Part 2a or Part 1a.    Terms covered ...

Introduction to MR Physics Part 2a

Part 2a of a six part series covering the fundamentals of magnetic resonance imaging physics. In this section, Dr. Stafford introduces concepts of relaxation and image contrast. Click here to view Part 1a or Part 2b.   Terms covered ...

Introduction to MR Physics Part 1b

Part 1b of a six part series covering the fundamentals of magnetic resonance imaging physics. In this primer, Dr. Stafford discusses the course outline and basic physics of precession and excitation. Click here to view Part 1a. Terms covered in Part ...

Introduction to MR Physics Part 1a

Part 1a of a six part series covering the fundamentals of magnetic resonance imaging physics. In this primer, Dr. Stafford discusses the course outline and basic physics of precession and excitation. Click here for Part 1b.   Terms covered in ...

Carotid Ultrasound

Carotid ultrasound is a valuable tool for measuring and tracking carotid plaque area over time. Dr. Spence outlines how 3D ultrasound methods are used to calculate plaque area, which is an important predictor of stroke, myocardial infarction and deat ...

Carotid MR Imaging

Exploring the characteristics of vulnerable plaque is pivitol to the understanding of atherosclerosis disease progression. Traditionally, this has been done through histology, allowing for risk categories to be created. Dr. Moody et al., are using MR ...

Ultrasound Techniques for Carotid Imaging: 3D Ultrasound

Using specialized equipment and advanced software, Dr. Fenster et al. have extended 2 dimensional ultrasound images to 3 dimensional acquisition. Through further software development, it has been possible for his team to reconstruct an ...

High Resolution MRI and Predicting Ischemic Brain Lesions: CAIN1

The ability to anticipate future ischemic events in the brain is the goal of CAIN1.  This presentation given by Josephine Pressacco for Alan Moody, covers the hypothesis, rationale, methods, goals and status of the CAIN1 project as of April 2011 ...

PET Agents in Clinical Oncology: Role of Radiopharmaceutical Science

In keeping with the goals of the MITNEC program, Dr. Mercer discusses the roles of radiopharmaceuticals in PET and SPECT imaging. Flourine-based FDG is by far the most common of the imaging probes and is suitable for most cases, but it is not ap ...

Validation of Preop Imaging in Carotid Endarterectomy Specimens

Working within the goal of CAIN2, Dr. Spence outlines the importance and methods towards outlining atherosclerosis patients would would benefit from intervention. It has been determined that those with microemboli and with greater than 3 ulcers benef ...

Overview of Medical Imaging in Oncology

Positron Emission Tomography is an invaluable and perhaps most important tool for assessing cancer in vivo. Dr. Burrell provides a quick overview of the types of imaging used in oncology, specifically describing the role of PET in each stage of the t...
Overview of Medical Imaging in Oncology

Imaging Biomarkers in Vascular Cognitive Impairment

Using imaging to help unravel the complex relationships between vascular disease and cognitive impairment is the outline for this presentation. Imaging metrics can be quantified and used to identify disease markers, define risk factors and...
Imaging Biomarkers in Vascular Cognitive Impairment

PET Agents in Clinical Oncology: Role of Radiopharmaceutical Science

In keeping with the goals of the MITNEC program, Dr. Mercer discusses the roles of radiopharmaceuticals in PET and SPECT imaging. Flourine-based FDG is by far the most common of the imaging probes and is suitable for most cases, but it is not ap...
PET Agents in Clinical Oncology: Role of Radiopharmaceutical Science

Cerebrovascular Consequences of Atherosclerosis

Atherosclerosis is not a disease that happens in isolation and can often lead to Small Vessel Disease and other serious end organ effects. Dr. Sandra Black discusses in detail many of the consequences of atherosclerosis on brain, including overt stro...
Cerebrovascular Consequences of Atherosclerosis
  • Translating Knowledge to the Canadian Imaging Community

     

    ImagingKT is an online community for medical imaging professionals and trainees. It is a place for you to connect to your peers, your mentors and potential collaborators and colleagues. It is a place to seek accurate technical information and cutting edge research. 

    Welcome.

Overview of Medical Imaging in Oncology

Positron Emission Tomography is an invaluable and perhaps most important tool for assessing cancer in…

Read more..

Imaging Biomarkers in Vascular Cognitive Impairment

Using imaging to help unravel the complex relationships between vascular disease and cognitive impairment is the…

Read more..

PET Agents in Clinical Oncology: Role of Radiopharmaceutical Science

In keeping with the goals of the MITNEC program, Dr. Mercer discusses the roles of radiopharmaceuticals…

Read more..

Cerebrovascular Consequences of Atherosclerosis

Atherosclerosis is not a disease that happens in isolation and can often lead to Small…

Read more..

Myocardial Perfusion Imaging and Flow Quantification with Rubidium-82 PET

Responding to the impending shut down of reactor facilities and a call for further research,…

Read more..

Molecular Imaging Probes: Discovery, Development and Manufacturing

Taking novel imaging probes from discovery in a lab setting, through full development and on to…

Read more..

CAIN & MITNEC Advanced Imaging Networks in Canada

Dr. Jean-Claude Tardif, leader of the CAIN and MITNEC imaging networks, sets the stage with an overview…

Read more..

Regulatory Perspective on Biomarkers and Surrogate Endpoints

As the Director of the Evaluation of Radiopharmaceuticals and Biotherapeutic Products at Health Canada, Dr. Klein gives a brief…

Read more..

Translation to Clinical Research/Practice (CAIN3)

While imaging is recognized as a useful tool to characterize atherosclerosis and its complications, there…

Read more..

Translational Development of Novel Ligands for Cardiac and Renal Diseases

The Ottawa Heart Institute is active in the development of novel radiopharmaceutical agents for PET…

Read more..

Ultrasound Techniques for Carotid Imaging: 3D Ultrasound

Using specialized equipment and advanced software, Dr. Fenster et al. have extended 2 dimensional ultrasound images to…

Read more..

High Resolution MRI and Predicting Ischemic Brain Lesions: CAIN1

The ability to anticipate future ischemic events in the brain is the goal of CAIN1.…

Read more..

Validation of Preop Imaging in Carotid Endarterectomy Specimens

Working within the goal of CAIN2, Dr. Spence outlines the importance and methods towards outlining…

Read more..

Carotid Ultrasound

Carotid ultrasound is a valuable tool for measuring and tracking carotid plaque area over time.…

Read more..

Measuring Tissue Perfusion with Magnetic Resonance

The ability to calculate tissue perfusion accurately is clinically important challenge. Using magnetic resonance imaging,…

Read more..

Imaging as a Biomarker in Cardiology (CAIN1)

This presentation focuses on how MRI techniques can be used to examine carotid artery diseases.…

Read more..

CT Measurement of Myocardial Perfusion

The ability to determine the functional significance of coronary stenosis and myocardium at risk in the…

Read more..

Carotid MR Imaging

Exploring the characteristics of vulnerable plaque is pivitol to the understanding of atherosclerosis disease progression.…

Read more..

Pathology of Atherosclerosis

A great primer in atheroma characterisation and processing, this video is recommended for all cardiac…

Read more..

Cardiac and Vascular Imaging

Understanding the markers of atherosclerosis is pivitol to providing effective care and perhaps prevention of the…

Read more..

Imaging as a Biomarker in Cardiology: Cardiac CT

Following the mandate of an ancient Chinese medical writing, Dr. Chow describes how it should…

Read more..

Introduction to MR Physics Part 1a

Part 1a of a six part series covering the fundamentals of magnetic resonance imaging physics.…

Read more..

Introduction to MR Physics Part 1b

Part 1b of a six part series covering the fundamentals of magnetic resonance imaging physics.…

Read more..

Introduction to MR Physics Part 2b

Part 2b of a six part series covering the fundamentals of magnetic resonance imaging physics.…

Read more..

Introduction to MR Physics Part 2a

Part 2a of a six part series covering the fundamentals of magnetic resonance imaging physics.…

Read more..

Stay Connected

FacebookTwitterRedditLinkedin