Sanrad-XinAo MDT.

Slides:



Advertisements
Similar presentations
Frontal Lobes The Immune System A healthy brain and a healthy body.
Advertisements

1 Research Update LAE 8/22/08. 2 Uncertainty in Transcription of Lesion Contours to Diffusion Weighted Magnetic Resonance Images
MRI Charles Flynn. What is an MRI? A machine that that uses an incredibly powerful magnet for scans Several important parts (super conducting magnet,
David Anderson, Bruce Golden, Ed Wasil, Howard Zhang 1 INFORMS Healthcare 6/24/2013.
David Anderson, Bruce Golden, Ed Wasil, Howard Zhang 1 INFORMS Annual Meeting October, 2013.
Biomedical Engineering
(Adapted from Tallal & Gaab, 2006, TRENDS in Neurosciences)
University Medical Center Emergency and Urgent Care Medical Services.
Topic: Magnetism Objective: Cover basic foundation of electric magnetics and motors Summary: Students are asked what they know about specific topics and.
Brain Imaging Techniques
Image from
Medical Resonance Imaging MRI. First medical images: X-rays Discovered in 1895 Images of bones What part of the body is this?
Discuss the use of brain imaging technologies in investigating the relationship between biological factors and behaviour. (22) Discuss (22) – A considered.
From: Breakdown of within- and between-network Resting State Functional Magnetic Resonance Imaging Connectivity during Propofol-induced Loss of Consciousness.
Findings of Vascular Brain Injury and Structural Loss from Cranial Magnetic Resonance Imaging in Elderly American Indians: The Strong Heart Study Neuroepidemiology.
CT Scan vs MRI.
Source: Dizziness, Symptom to Diagnosis: An Evidence-Based Guide, 3e
Coming Back Stronger Voc. 1.
Experiment 1 (Randomly Split & Merge)
Date of download: 11/9/2017 Copyright © ASME. All rights reserved.
Nuclear magnetic resonance NMR spectroscopy is a key analytical technique for structure elucidation of a wide range of materials from small molecules to.
Figure 1. Brain imaging findings in chronological order: (A) initial brain CT shows negative findings on HD 3; (B) follow-up brain MRI (T2WI, enhanced)
Date of download: 12/24/2017 Copyright © ASME. All rights reserved.
Date of download: 12/26/2017 Copyright © ASME. All rights reserved.
Source: Dizziness, Symptom to Diagnosis: An Evidence-Based Guide, 3e
KEY CONCEPT Technology continually changes the way biologists work.
Fig year-old female patient with two months of headaches and falls and a remote history of right lung lobectomy for reported benign tumor with MR.
The Excretory System.
Key Stage 3 Magnetic Resonance Imaging Image bank
Additional Saturday Allied Health Services Increase Habitual Physical Activity Among Patients Receiving Inpatient Rehabilitation for Lower Limb Orthopedic.
______________ objects (including metal, air in a container, glass, string under tension, wood, etc) “bounce back” when _______________ , _______________.
Post-processing 4D Flow MRI using Ensemble Kalman Filter
أنماط الإدارة المدرسية وتفويض السلطة الدكتور أشرف الصايغ
Pretreatment Lesions on Magnetic Resonance Imaging in Patients With Hepatitis C Virus Infection Diagnosed With Hepatocellular Carcinoma After Initiating.
Physics 248 B (3 credits) SLN MWF 8:30 Autumn 2011
A b c d Figure 1: Strong T2 weighted images (inversion recovery sequences with fat suppression, TIRM) of a 18 year-old girl document a significant reduction.
Volume 68, Issue 4, Pages (October 2015)
Alexander Ghanem et al. JACC 2010;55:
Robot-assisted real-time magnetic resonance image–guided transcatheter aortic valve replacement  Justin G. Miller, MD, Ming Li, PhD, Dumitru Mazilu, PhD,
Mark E. Josephson, and Elad Anter JACEP 2015;1:
Allison L. Ruff, MD, Kathryn Teng, MD, Bo Hu, PhD, Michael B
C. Wesley Lindsey, MD, W. James Parks, MD, Brian E
 (A) Diffusion weighted magnetic resonance imaging (MRI) scan of the brain of a full term male infant 56 hours after birth, showing parasagittal changes.
Figure 2 White matter hyperintensities
Fluid-attenuated inversion recovery magnetic resonance imaging at the onset of the clinical investigation (A, B) and 2 months later (C, D). Fluid-attenuated.
We make Relationship for Life . . .
Table 2. Student's t–test (Tensile Strength)
Isolated Gonococcal Extensor Tenosynovitis
Brian D. Williamson et al. JACEP 2017;3:
Joanna Zurko, MD, Amitkumar Mehta, MD 
BJGP Volume 58(556):e10-e16 November 1, 2008
Frequency of lesions detected using CNS imaging (computed tomography [CT] and magnetic resonance imaging [MRI]) on patients with baylisascariasis (see.
Estimation of Adipose Pools in Hemodialysis Patients From Anthropometric Measures  George A. Kaysen, Peter Kotanko, Fansan Zhu, Shubho R. Sarkar, Steven.
The elusive mass in the right atrium: A liver in the heart
Structural Damage of the Thumb Base in Patients With Hand Osteoarthritis, Assessment by Magnetic Resonance Imaging Compared to Standard Radiography  S.
Mark A. Marinella, MD, Kenneth Greene, MD  Mayo Clinic Proceedings 
Ingrid Kindermann et al. JACC 2012;59:
Preoperative T2-weighted magnetic resonance imaging (MRI) (sagittal view) shows disc herniation at the L4-L5 disc level (A) and axial view of MRI shows.
Cardiac magnetic resonance imaging of the heart in a patient with pulmonary arterial hypertension. a) Short axis image. #: dilated right ventricle; ¶:
Valve-sparing root replacement: Still so much to learn
Idiopathic Intracranial Hypertension
To pleat or not to pleat…is that the question?
Henry F Tripp, MD, Robert M Stiegel, MD, Joseph P Coyle, MD 
Investigation of suspected idiopathic pulmonary fibrosis: multidisciplinary team (MDT) discussion is a key component of the diagnostic pathway. Investigation.
Images from a 62-year-old male patient presenting with a heterogeneous mass in the superior lobe of the right lung. a) Fusion of axial fat-saturated T1-weighted.
Abdominal magnetic resonance imaging of a patient with tuberous sclerosis complex lymphangioleiomyomatosis and multiple small renal angiomyolipomas (arrows)
Magnetic resonance imaging (MRI) of the right leg shows a 1. 1 × 0
Cerebral magnetic resonance imaging of our patient performed at ∼7
2015 State Convention Music.
Presentation transcript:

Sanrad-XinAo MDT

Sanrad Centauri 0.30T MRI System Super Open Magnetic Resonance Imaging System Wide bore ,Patient friendly . In house music Adopts Dynamic balancing technology. Best homogeneity ,<.9ppm.

Sanrad Powerful Gradient System Gradient coil/ Amplifier Maximum gradient strength 18T/m ensure high special resolution Rising time 600μs( up to 98%) Slew rate 55mT/m/ms increase the scanning speed Thin slice thickness and less scan time.

Sanrad Comprehensive Receiving coils 7 standard Coil configuration: QD Head coil QD Neck Coil QD Body Coil Shoulder coil Spine Coil QD Extremity Coil

Sanrad Abundant Imaging Sequences Spin Echo /FSE Gradient Echo(GE) IR, FLAIR, STIR MSME MRA/MRV SS FSE MRU,MRCP) DWI/ADC Mapping

Sanrad Advanced Imaging Techniques Multi-slice/Multi-angle Gating Technology Partial echo Flow compensation Anti-wrap-around artifact elimination Multi-region pre-saturation Optimized bandwidth Optimized data acquisition In house music systems

Sanrad Features of MRI Non-invasive examination Multi-type of images High image contrast Slicing at any orientation No contrast agent required in MRA/MRV/MRU

Sanrad Multi-type of images To get more diagnosis information by comparing various images To improve diagnostic confidence and detection rate. GRE Images T2 Images FLAIR Image T1 image

Slicing at any orientation Sanrad Slicing at any orientation Axial Sag Coronal

Sanrad No Contract Agent Need in MRA In-flow and out-flow effect 3D and 2DTOF

Sanrad MRI Clinical Applications Nervous system Spine ,extremity Muscle,Soft tissue Angiography system Abdomen/MRCP/ Pelvis

Sanrad Clinical Applications Head Post Contrast with MTC Brain Infarct demonstrated by Diffusion

Sanrad Clinical Applications Coronal T1 Small Brain lesions like Pitutory,optic lesions Coronal T1

Sanrad Clinical Applications Spine and Spinal Cord T2 T1 STIR

Sanrad Clinical Applications D Spine T2,T1 sag & axial

Sanrad Clinical Applications C SPINE

Sanrad Clinical Applications Extremity ,Joint PD IMAGE STIR IMAGE

Sanrad Clinical Applications Small Extremity,Shoulder,wrist.

Sanrad Clinical Applications Pelvis

Sanrad Clinical Applications Body Morphology.

Sanrad Spin Echo(SE) . Bread and Butter sequence Clear image For anatomic details Gives Good T1 wt contrast .

Sanrad Fast Spin Echo (FSE) Used for T2 contrast. For better pathological details.

Sanrad Gradient Echo (GE) Fast image acquisition Sensitive to bleeding T2 Images

Sanrad IR , FLAIR Water Suppressed Infarct/ tumor displayed better Judge focal composition

Sanrad IR, STIR Fat suppression signal Judge focus composition Other parts displayed much clearer

Sanrad MRA Carotid MRA Angio without contrast 2D/3D TOD MOSTE MTContrast MIP projection arterio and venogramme displayed Venogramme

Sanrad MRCP,MRU MRCP and MRU Magnetic Resonance Cholangiopancreatography (MRCP) Magnetic Resonance Urograpgy (MRU) Magnetic Resonance Myelography (MRM) Bile duct Obstruction

Sanrad THANK YOU Anantha Padmanabha