Contrast-induced nephropathy

Background

• Often defined as creatinine rise of more than 0.5mg/dL or ≥25% above baseline^[1]
• Vasoconstriction leading to ischemia in the deeper portion of the outer medulla
• Toxic to kidney tubular cells, inducing vacuolization, change in mitochondrial function, and apoptosis
• Less likely to occur with low and iso-osmolar contrast agents

Healthy Patients

• CIN not likely to occur in patients with a Cr<1.5 or a GFR >60ml/min^[2][3]

Impaired Renal Function

• Administration should follow your local hospital protocols
• Less likely to occur in iso-osmolar contrast agents (iodixanol/Visipaque) and contrary to traditional teaching, maybe not even an occurrence in patients with creatinine greater than 2.0mg/dL. ^[4]

Risk Factors

• Renal disease
• Recent contrast study within 72 hrs
• Hypotension
• Dehydration
• DM
• Multiple myeloma
• Age > 70
• hypertension
• Hyperuricemia
• Diuretics

Clinical Features

• Decreased urine output
• 0.5mg/dl absolute or >25% relative increase in serum creatinine 48-72hrs after contrast exposure

Differential Diagnosis

• Poor renal perfusion
• Nephrotoxic medications

Contrast induced complications

• Contrast induced allergic reaction
• Contrast-induced nephropathy
• CT contrast media extravasation
• Nephrogenic Systemic Fibrosis - gadolinium in GFRs < 60

Evaluation

• Same as for AKI

Management

Hallmark of management is prevention in at-risk patients.

Hydration

• Isotonic hydration with Normal Saline 1-1.5L (15ml/kg) prior to the contrast load in patients with impaired renal function may lessen the chances of developing CIN ^[5][6][7]
• If suspect the development or confirm the diagnosis continue adequate hydration to maintain urine output of 0.7cc-1cc/kg
• Early research suggests a potential benefit for forced furosemide diuresis (300ml/h) while continuing intravenous hydration fluids (0.5mg/kg) but should be performed in consult with radiologist and nephrologist^[8]

N-acetylcysteine

• Is not useful for preventing CIN^[9][7]

Other Measures

• Low osmolar contrast agents
• Bicarbonate infusion
• Hypertonic saline

See Also

• Creatinine screening prior to IV contrast
• MRI contraindications
• CT contrast media extravasation‎
• Contrast induced allergic reaction

References

1. ↑ Goldfarb, S. et al. Contrast-Induced Acute Kidney Injury: Specialty-Specific Protocols for Interventional Radiology, Diagnostic Computed Tomography Radiology, and Interventional Cardiology. Mayo Clin Proc. Feb 2009; 84(2): 170–179 Text
2. ↑ Davenport MS. et al. Contrast material-induced nephrotoxicity and intravenous low-osmolality iodinated contrast material. Radiology. 2013 Apr;267(1):94-105
3. ↑ Sinert R, Brandler E, et al. Acad Emerg Med2012;19(11):1261
4. ↑ McDonald RJ, McDonald JS, et al. Radiology. 2013;267(1):106
5. ↑ Mueller C. et al. Prevention of contrast media-associated nephropathy: randomized comparison of 2 hydration regimens in 1620 patients undergoing coronary angioplasty. Arch Intern Med. 2002;162(3):329
6. ↑ Bertrand Dussol. et al. A randomized trial of saline hydration to prevent contrast nephropathy in chronic renal failure patients. Nephrol. Dial. Transplant. 2006. 21 (8): 2120-2126
7. ↑ ^{7.0 7.1} Traub SJ, et al. N-acetylcysteine plus intravenous fluids versus intravenous fluids alone to prevent contrast-induced nephropathy in emergency computed tomography. Ann Emerg Med 2013;62(5):511-20 PDF
8. ↑ Marenzi G. et al. Prevention of contrast nephropathy by furosemide with matched hydration: the MYTHOS (Induced Diuresis With Matched Hydration Compared to Standard Hydration for Contrast Induced Nephropathy Prevention) trial. JACC Cardiovasc Interv. 2012 Jan;5(1):90-7
9. ↑ ACT Investigators. Acetylcysteine for prevention of renal outcomes in patients undergoing coronary and peripheral vascular angiography: main results from the randomized Acetylcysteine for Contrast-induced nephropathy Trial (ACT). Circulation. 2011 Sep 13;124(11):1250-9 PDF