High signal intensity in the dentate nucleus and globus pallidus on unenhanced T1-weighted MR images: relationship with increasing cumulative dose of a gadolinium-based contrast material.
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Gadolinium-based contrast agent toxicity: a review of known and proposed mechanisms25 Years of Contrast-Enhanced MRI: Developments, Current Challenges and Future PerspectivesEmerging Techniques in Brain Tumor Imaging: What Radiologists Need to KnowClinical Breast MR Using MRS or DWI: Who Is the Winner?Advanced MRI for Pediatric Brain Tumors with Emphasis on Clinical BenefitsGuidelines for documentation and consent for nonclinical, nonresearch MRI in human subjects.Hyperintense Dentate Nuclei on T1-Weighted MRI: Relation to Repeat Gadolinium AdministrationBasal ganglia T1 hyperintensity in LGI1-autoantibody faciobrachial dystonic seizures.State-of-the-art MRI techniques in neuroradiology: principles, pitfalls, and clinical applications.National Institutes of Health Perspective on Reports of Gadolinium Deposition in the Brain.Gadolinium deposition within the dentate nucleus and globus pallidus after repeated administrations of gadolinium-based contrast agents-current status.Contribution of metals to brain MR signal intensity: review articles.Normal saline as a natural intravascular contrast agent for dynamic perfusion-weighted MRI of the brain: Proof of concept at 1.5T.Guidelines for the use of magnetic resonance imaging in diagnosing and monitoring the treatment of multiple sclerosis: recommendations of the Swedish Multiple Sclerosis Association and the Swedish Neuroradiological SocietyT1 hyperintensity on brain imaging subsequent to gadolinium-based contrast agent administration: what do we know about intracranial gadolinium deposition?The presence of the gadolinium-based contrast agent depositions in the brain and symptoms of gadolinium neurotoxicity - A systematic review.On a fractional order calculus model in diffusion weighted breast imaging to differentiate between malignant and benign breast lesions detected on X-ray screening mammography.Quantification and Assessment of the Chemical Form of Residual Gadolinium in the Brain After Repeated Administration of Gadolinium-Based Contrast Agents: Comparative Study in Rats.Hyperpolarized 13C urea myocardial first-pass perfusion imaging using velocity-selective excitation.Novel nano-sized MR contrast agent mediates strong tumor contrast enhancement in an oncogene-driven breast cancer modelT1-Weighted Hypersignal in the Deep Cerebellar Nuclei After Repeated Administrations of Gadolinium-Based Contrast Agents in Healthy Rats: Difference Between Linear and Macrocyclic Agents.Gadolinium-based contrast agents: did we miss something in the last 25 years?Distribution and clearance of retained gadolinium in the brain: differences between linear and macrocyclic gadolinium based contrast agents in a mouse model.Off-resonance magnetic resonance angiography improves visualization of in-stent lumen in peripheral nitinol stents compared to conventional T1-weighted acquisitions: an in vitro comparison study.Histology and Gadolinium Distribution in the Rodent Brain After the Administration of Cumulative High Doses of Linear and Macrocyclic Gadolinium-Based Contrast Agents.Imaging Approaches to Stroke and Neurovascular Disease.Gadolinium retention in the body: what we know and what we can do.Blood-Brain Barrier Permeability and Gadolinium: Benefits and Potential Pitfalls in Research.Linear Gadolinium-Based Contrast Agents Are Associated With Brain Gadolinium Retention in Healthy Rats.A Manganese Alternative to Gadolinium for MRI Contrast.Nonenhanced hybridized arterial spin labeled magnetic resonance angiography of the extracranial carotid arteries using a fast low angle shot readout at 3 TeslaConsiderations for Imaging the Inferior Vena Cava (IVC) with/without IVC Filters.Sodium MRI in Multiple Sclerosis is Compatible with Intracellular Sodium Accumulation and Inflammation-Induced Hyper-Cellularity of Acute Brain Lesions.Safety of Gadobutrol: Results From 42 Clinical Phase II to IV Studies and Postmarketing Surveillance After 29 Million ApplicationsHigh signal intensity in dentate nucleus and globus pallidus on unenhanced T1-weighted MR images in three patients with impaired renal function and vascular calcification.Pediatric Patients Demonstrate Progressive T1-Weighted Hyperintensity in the Dentate Nucleus following Multiple Doses of Gadolinium-Based Contrast Agent.Lack of increased signal intensity in the dentate nucleus after repeated administration of a macrocyclic contrast agent in multiple sclerosis: An observational study.Whole-body MRI in pediatric patients with cancerModerate Renal Failure Accentuates T1 Signal Enhancement in the Deep Cerebellar Nuclei of Gadodiamide-Treated Rats.The role of gadolinium chelates in the mechanism of nephrogenic systemic fibrosis: A critical update.
P2860
Q26751073-86346A7E-6867-4FBE-9510-23F3C29B9685Q26774810-E3E29A79-D58A-4CB1-8ED4-D13BFEEDB9F9Q28068259-79BF0B05-47B6-43DA-BB5D-9EED1C6E1E4EQ28072837-DEBA1DD4-19D7-4369-9898-6133DD7F02C7Q28817044-F87D9175-491D-4A38-A702-A72906F5C370Q30366862-9F60523B-B430-43D7-AE46-FECE7FE32197Q30383185-B2A64613-E1CE-41CE-B343-D9E575FD228CQ30666620-E7399E5B-320B-4180-915D-A7BF47C4F33DQ30928967-CF260561-669B-4DD9-B26E-FAB6811D7036Q31039888-E6D96001-AA57-401D-A3CE-99BAD5100B5DQ31045014-1AF207BB-880C-4E04-9DD7-1F14352D9C36Q31051153-762E509D-037D-4661-9E42-A978C1DF5132Q31086314-A53AACF1-BBD2-4820-929C-09E219D413EFQ31123447-F2EC3C56-CABB-4DF5-BD9C-7F2656F1E86AQ31132207-45F6869E-FF5A-4281-B904-C4F3BCD1A754Q31161095-51EDC715-F910-4F96-98B6-FC233D73BA06Q33615009-8635BC74-FF24-4563-B61B-6DFE4A99A70DQ33778968-A3B119BD-F0BB-4EEF-A858-610614E2BDF3Q33823839-857DB646-6919-482B-B479-7C1D962162F8Q34306808-4A147CBB-E78E-47D4-BD7D-FFE2D055322DQ35827906-490AD8EC-ACE8-49AF-8F54-4D574B631170Q35878856-82D87DD4-F82C-4C75-AA8B-666D0E9CA770Q36085936-93F85A22-0415-4D60-AF98-3387214A5FCBQ36106277-0F718245-FFF4-491B-BAAE-755E2029B67DQ36316226-1C2C1556-5A89-4A6D-ADD7-B03BB43EBD29Q36317835-4174ECDB-66EC-4236-9CE3-90212B61B06FQ36329191-CC7CCCF2-6329-4CA3-8FC1-F8B10D968035Q36531442-68567EC8-C926-46B4-B17C-42D15BE2A3CBQ36564222-E9CF50D4-93D2-4B03-B2BC-5CDFDA2B6B23Q36609886-2D5E9CEE-8ED5-47B7-840E-594BD4406363Q36790167-EA739094-0205-4337-B2DB-772B8193E669Q36888994-600A2DA7-9281-497E-91AD-1F05A9B59685Q37163249-4072B912-F643-4B78-9786-52B8F38D8D15Q37170996-DD717AEC-8190-45D0-8790-CEE0BD6F8211Q37344053-1EDFB79D-B6F2-49DB-9863-108242663B2BQ37510442-5287AABC-0F99-4F55-B120-ABCDAA032552Q37605738-2A702AE1-F572-4978-94D6-5C7FE4BC5397Q37637025-D3DD60DE-0511-4E3E-8F1C-BE4C674D32A7Q37740128-2B3C0DE7-CA55-4912-B0DA-2D2BC7111B1CQ38254508-D33C8A2A-0A21-45FC-AAAC-18D6766C829C
P2860
High signal intensity in the dentate nucleus and globus pallidus on unenhanced T1-weighted MR images: relationship with increasing cumulative dose of a gadolinium-based contrast material.
description
2013 nî lūn-bûn
@nan
2013 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2013 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
name
High signal intensity in the d ...... inium-based contrast material.
@ast
High signal intensity in the d ...... inium-based contrast material.
@en
type
label
High signal intensity in the d ...... inium-based contrast material.
@ast
High signal intensity in the d ...... inium-based contrast material.
@en
prefLabel
High signal intensity in the d ...... inium-based contrast material.
@ast
High signal intensity in the d ...... inium-based contrast material.
@en
P2093
P356
P1433
P1476
High signal intensity in the d ...... inium-based contrast material.
@en
P2093
Daisuke Takenaka
Hiroki Kawaguchi
Kazuhiro Kitajima
Kazunari Ishii
Tomonori Kanda
P304
P356
10.1148/RADIOL.13131669
P407
P577
2013-12-07T00:00:00Z