MR Arthrography: Impact of Steroids, Local Anesthetics, and Iodinated Contrast Material on Gadolinium Signal Intensity in Phantoms at 1.5 and 3.0 T

Background: SLAP lesions of the shoulder are challenging to diagnose by clinical means alone. Interpretation of MR images requires knowledge of the normal appearance of the labrum, its anatomical variants, and the characteristic patterns of SLAP lesions. In general, high signal extending anterior and posterior to the biceps anchor is the hallmark of SLAP lesions. Common diagnostic criteria for a SLAP lesion by MR or MR arthrography include the following: presence of a laterally curved, high signal intensity in the labrum on a coronal image, multiple or branching lines of high signal intensity in the superior labrum on a coronal image, full-thickness detachment with irregularly marginated high signal intensity and/or separation >2 mm on conventional MRI or 3 mm on MR arthrography between the labrum and glenoid on a coronal image, and a paralabral cyst extending from the superior labrum. Methods: MR diagnosis of SLAP tears may be improved with provocative maneuvers, such as longitudinal traction of the arm or positioning of the shoulder in abduction and external rotation during imaging. The use of intra-articular contrast distends the joint similar to what occurs during arthroscopy and forced diffusion under the labrum may improve the ability to detect SLAP lesions that might not be seen with standard MR. Improved diagnostic accuracy for SLAP tears is seen with 3-T compared with 1.5-T MR imaging, with or without intra-articular contrast material. Conclusion: Regardless of MR findings, however, physicians should be cautious when recommending surgery in the patient with a vague clinical picture. The patient’s history, physical exam, and imaging evaluation all should be considered together in making the decision to proceed with surgery.

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Preangiographic Evaluation of Spinal Dural Arteriovenous Fistulas With Elliptic Centric Contrast-Enhanced MR Angiography and Effect on Radiation Dose and Volume of Iodinated Contrast Material

Yearbook of Neurology and Neurosurgery ◽

10.1016/s0513-5117(08)70340-5 ◽

2006 ◽

Vol 2006 ◽

pp. 155-156

Author(s):

B.C. Bowen

Keyword(s):

Radiation Dose ◽

Mr Angiography ◽

Contrast Material ◽

Arteriovenous Fistulas ◽

Iodinated Contrast ◽

Contrast Enhanced ◽

Dural Arteriovenous Fistulas ◽

Spinal Dural Arteriovenous Fistulas

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Nonionic Low-Osmolar Monomeric Iodinated Contrast Material: Some Aspects of use for Computed Tomography in Children

Medical Visualization ◽

10.24835/1607-0763-2017-6-118-129 ◽

2017 ◽

pp. 118-129

Author(s):

I. A. Kondrashov ◽

V. Mandal

Keyword(s):

Computed Tomography ◽

Contrast Agents ◽

Adverse Reactions ◽

Contrast Material ◽

Iodine Content ◽

Diagnostic Procedures ◽

Diagnostic Efficacy ◽

Minimum Risk ◽

Electrical Neutrality ◽

Iodinated Contrast

Iodine containing contrast media are used much frequently now-a-days for computed tomography examinations in children. The group of non-ionic monomers occupies a special place among modern contrast agents. Low osmolarity and viscosity, electrical neutrality and the highest iodine content of these contrast materials provide the best diagnostic efficacy with minimum risk of adverse reactions. However, characteristic anatomic and physiological aspects of a growing child’s body require additional attention and care during diagnostic procedures with use of such contrast agents. This article presents concise literature review of recent years highlighting practical aspects of nonionic lowosmolar iodinated contrast material use for computed tomography assisted diagnostic examinations in child population.

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Tissue pertechnetate and iodinated contrast material in ischemic stroke.

Stroke ◽

10.1161/01.str.11.6.617 ◽

1980 ◽

Vol 11 (6) ◽

pp. 617-622 ◽

Cited By ~ 6

Author(s):

D C Anderson ◽

D T Coss ◽

R L Jacobson ◽

M W Meyer

Keyword(s):

Ischemic Stroke ◽

Contrast Material ◽

Iodinated Contrast

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Retention of iodinated contrast material within renal cysts in a patient with autosomal dominant polycystic kidney disease

British Journal of Radiology ◽

10.1259/bjr/24588919 ◽

2012 ◽

Vol 85 (1011) ◽

pp. e53-e55

Author(s):

S J Park

Keyword(s):

Kidney Disease ◽

Polycystic Kidney Disease ◽

Autosomal Dominant ◽

Contrast Material ◽

Renal Cysts ◽

Polycystic Kidney ◽

Iodinated Contrast ◽

Autosomal Dominant Polycystic Kidney

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Abstract 2598: Radiation Exposure, Procedure Time And Contrast Load In Patients Referred For Coronary Angiography: Head-to-head Comparison Of Dual Source Ct With Conventional Coronary Angiography.

Circulation ◽

10.1161/circ.116.suppl_16.ii_575-b ◽

2007 ◽

Vol 116 (suppl_16) ◽

Author(s):

Carlos A Van Mieghem ◽

Annick C Weustink ◽

Marcel Kofflard ◽

A. Schreve-Steensma ◽

Niels A Matheijssen ◽

...

Keyword(s):

Coronary Angiography ◽

Radiation Exposure ◽

Contrast Material ◽

Conventional Coronary Angiography ◽

Dual Source Ct ◽

Procedure Time ◽

X Ray ◽

Iodinated Contrast ◽

Dual Source ◽

The Mean

Introduction and aim: Dual Source CT (DSCT) scanners, with an increased temporal resolution (83 ms), are becoming widely available. To evaluate the current potential of this scanner in the clinical arena, we performed a head-to-head comparison with conventional coronary angiography (CCA) taking into account the following parameters: radiation exposure, procedure time and contrast load. Methods: During a one-year period (april 2006 to march 2007) we compared a consecutive patient group who underwent DSCT (318 patients, 222 male, mean age 68±11 years) and CCA (352 patients, 258 male, mean age 61±12) respectively. Patients with previous bypass surgery were excluded. In DSCT, the volume of iodinated contrast material was adapted to the scan time. A contrast bolus was injected in an antecubital vein at a flow rate of 5.0 ml/s followed by a saline chaser of 40 ml at 5.0 ml/s. Each tube provided 412 mAs/rot (maximum), and full X-ray tube current was given during 25–70% of the RR-interval. Exposure data were collected using the x-ray dosimetrical reports from DSCT and CCA. Results: The mean procedure time using DSCT and CCA was 16.1±4.7 min and 44.1±25.5 min (p<0.001), respectively. The mean contrast load in DSCT and CCA was 77.9±7.6 ml and 175.3±4.3ml (p<0.001), respectively. The overall radiation exposure for DSCT and CCA was calculated as 15.3±4.0 mSv and 5.7±4.3 mSv, respectively. Radiation exposure with DSCT was significantly lower (p<0.001) in patients with a heart rate of >70 bpm (12.9±3.1 mSv ) as compared with patients with heart rates <70 bpm (16.4±3.8 mSv). Conclusion: In today’s practice currently available DSCT scanners perform favorably as compared with CCA, considering procedure time and patient contrast load. Radiation exposure with DSCT remains higher but should not be considered a major disadvantage taking into account the relatively old age group that generally undergoes coronary angiography and the major benefit of not being exposed to the risks of an invasive procedure.

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Contrast-Induced Acute Kidney Injury: Definition, Epidemiology, and Outcome

BioMed Research International ◽

10.1155/2014/859328 ◽

2014 ◽

Vol 2014 ◽

pp. 1-6 ◽

Cited By ~ 25

Author(s):

Felix G. Meinel ◽

Carlo N. De Cecco ◽

U. Joseph Schoepf ◽

Richard Katzberg

Keyword(s):

Acute Kidney Injury ◽

Renal Function ◽

Renal Insufficiency ◽

Time Window ◽

Contrast Material ◽

Kidney Injury ◽

Preventive Strategy ◽

Iodinated Contrast ◽

Contrast Enhanced Ct ◽

Contrast Enhanced

Contrast-induced acute kidney injury (CI-AKI) is commonly defined as a decline in kidney function occurring in a narrow time window after administration of iodinated contrast material. The incidence of AKI after contrast material administration greatly depends on the specific definition and cutoff values used. Although self-limiting in most cases, postcontrast AKI carries a risk of more permanent renal insufficiency, dialysis, and death. The risk of AKI from contrast material, in particular when administered intravenously for contrast-enhanced CT, has been exaggerated by older, noncontrolled studies due to background fluctuations in renal function. More recent evidence from controlled studies suggests that the risk is likely nonexistent in patients with normal renal function, but there may be a risk in patients with renal insufficiency. However, even in this patient population, the risk of CI-AKI is probably much smaller than traditionally assumed. Since volume expansion is the only preventive strategy with a convincing evidence base, liberal hydration should be encouraged to further minimize the risk. The benefits of the diagnostic information gained from contrast-enhanced examinations will still need to be balanced with the potential risk of CI-AKI for the individual patient and clinical scenario.

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