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Author Notes:

Reprints: Andrew T. Taylor, MD, Department of Radiology, Emory University Hospital, 1364 Clifton Rd, NE, Atlanta, GA 30322. andrew.taylor@emory.edu.

The terms of this arrangement have been reviewed and approved by Emory University in accordance with its conflict-of-interest policies

Subjects:

Research Funding:

Three of the authors, Andrew T. Taylor, Russell Folks, and Ernest V. Garcia, are entitled to a share of the royalties for the use of QuantEM software for processing MAG3 renal scans, which was licensed by Emory University to GE Healthcare in the mid-1990s.

These investigators have subsequently developed in-house software in Interactive Data Language, which was used in this study and could affect their financial status.

This research was funded by a United States National Institutes of Health (NIH) grant RO1-EB008838; specifically, the research was supported by the National Institute of Biomedical Imaging and Bioengineering and the National Institute of Diabetes and Digestive and Kidney Diseases.

Keywords:

  • Science & Technology
  • Life Sciences & Biomedicine
  • Radiology, Nuclear Medicine & Medical Imaging
  • renal size
  • renal length
  • MAG3 scintigraphy
  • Tc-99m-MAG3 scintigraphy
  • regression equations
  • quantile analysis
  • renal scintigraphy
  • ADULT VOLUNTEERS
  • LENGTH
  • VOLUME
  • SONOGRAPHY
  • CHILDREN
  • AREA

Reference Values for Renal Size Obtained From MAG3 Scintigraphy

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Journal Title:

Clinical Nuclear Medicine

Volume:

Volume 38, Number 1

Publisher:

, Pages 13-17

Type of Work:

Article | Post-print: After Peer Review

Abstract:

PURPOSE: The purposes of this study were to establish reference values for renal size determined from Tc-MAG3 renal scintigraphy and to derive regression equations to predict normal limits. METHODS: The study population consisted of 106 subjects evaluated for kidney donation who underwent Tc-MAG3 renal scintigraphy. Renal length, width, and area were determined from the pixel length and area of whole-kidney regions of interest and correlated with patient sex, height, weight, body mass index, and body surface area (BSA). Reference values were obtained based on estimation of the lower and upper percentiles via quantile regression. RESULTS: The mean (SD) left and right kidney lengths was 12.2 (1.0) and 12.1 (1.0) in male and 11.9 (0.9) and 11.8 (0.9) in female patients, respectively. Sex was not a significant factor in the quantile regression models. Regression equations defining the lower and upper limits of renal length (cm) and area (cm) are as follows: left kidney length (5th percentile), 8.2 + 1.3 × BSA; left kidney length (95th percentile), 9.1 + 2.3 × BSA; right kidney length (5th percentile), 8.8 + 1.0 × BSA; right kidney length (95th percentile), 11.1 + 1.4 × BSA; left kidney area (5th percentile), 32.5 + 9.6 × BSA; left kidney area (95th percentile), 12.6 + 31.7 × BSA; right kidney area (5th percentile), 16.1 + 18.5 × BSA; right kidney area (95th percentile), 32.6 + 22.2 × BSA. CONCLUSIONS: Regression equations have been developed, which define the upper and lower limits of renal size from Tc-MAG3 images and may assist in the detection of unsuspected bilateral increases or decreases in renal size.

Copyright information:

© 2012 by Lippincott Williams & Wilkins.

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