A Novel Method for Accurate Quantification of Split Glomerular Filtration Rate Using Combination of Tc-99m-DTPA Renal Dynamic Imaging and Its Plasma Clearance

A Novel Method for Accurate Quantification of Split Glomerular Filtration Rate Using Combination of Tc-99m-DTPA Renal Dynamic Imaging and Its Plasma Clearance

Purpose. To precisely quantify split glomerular filtration rate by Tc-99m-DTPA renal dynamic imaging and plasma clearance in order to increase its consistency among doctors. Methods. Tc-99m-DTPA renal dynamic imaging was performed according to the conventional radionuclide renal dynamic imaging by f...

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Main Authors: Xiaoxi Pang, Fei Li, Shan Huang, Cheng’en Wang, Tao Zhang, Zihao Hu, Hao Cheng, Xinchen Tao, Wenrui Chang
Format: Article
Language:English
Published: Hindawi Limited 2021-01-01
Series:Disease Markers
Online Access:http://dx.doi.org/10.1155/2021/6643586
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spelling doaj-25bfdbc5c97a483f8f9bac30c9fe98ec2021-03-29T00:08:54ZengHindawi LimitedDisease Markers1875-86302021-01-01202110.1155/2021/6643586A Novel Method for Accurate Quantification of Split Glomerular Filtration Rate Using Combination of Tc-99m-DTPA Renal Dynamic Imaging and Its Plasma ClearanceXiaoxi Pang0Fei Li1Shan Huang2Cheng’en Wang3Tao Zhang4Zihao Hu5Hao Cheng6Xinchen Tao7Wenrui Chang8The Second Hospital of Anhui Medical UniversityThe Second Hospital of Anhui Medical UniversityThe Second Hospital of Anhui Medical UniversityBeijing HospitalThe Second Hospital of Anhui Medical UniversityThe Second Hospital of Anhui Medical UniversityThe Second Hospital of Anhui Medical UniversityThe Second Hospital of Anhui Medical UniversityThe Second Hospital of Anhui Medical UniversityPurpose. To precisely quantify split glomerular filtration rate by Tc-99m-DTPA renal dynamic imaging and plasma clearance in order to increase its consistency among doctors. Methods. Tc-99m-DTPA renal dynamic imaging was performed according to the conventional radionuclide renal dynamic imaging by five double-blinded doctors independently and automatically calculated split GFR, namely, gGFR. Moreover, the conventional radionuclide renal dynamic imaging was assessed to only outline the kidney, blank background, and automatically calculated split GFR, gGFR′. The total GFR value of patients, tGFR, was obtained by the double-plasma method. According to the formula, Precise GFR pGFR=gGFR′/gGFR′+gGFR′×tGFR. The precise GFR value of the divided kidney, pGFR, was calculated. The Kendall’s W test was used to compare the consistency of gGFR and pGFR drawn by five physicians. Results. According to Kendall’s W consistency test, Kendall’s coefficient of concordance was 0.834, p=0.0001 using conventional method. The same five doctors used blank background again and the same standard Gates method to draw the kidneys, which automatically calculated gGFR′. Using input formula, the pGFR was calculated and Kendall’s W consistency test (Kendall’s coefficient of concordance=0.956, p=0.0001). Conclusion. The combination of Tc-99m-DTPA renal dynamic imaging combined with the double-plasma method could achieve accurate split GFR, and because of the omission of influence factors, the consistency of pGFR obtained by different doctors using this method was significantly higher than that of conventional Tc-99m-DTPA renal dynamic imaging.http://dx.doi.org/10.1155/2021/6643586
collection DOAJ
language English
format Article
sources DOAJ
author Xiaoxi Pang
Fei Li
Shan Huang
Cheng’en Wang
Tao Zhang
Zihao Hu
Hao Cheng
Xinchen Tao
Wenrui Chang
spellingShingle Xiaoxi Pang
Fei Li
Shan Huang
Cheng’en Wang
Tao Zhang
Zihao Hu
Hao Cheng
Xinchen Tao
Wenrui Chang
A Novel Method for Accurate Quantification of Split Glomerular Filtration Rate Using Combination of Tc-99m-DTPA Renal Dynamic Imaging and Its Plasma Clearance
Disease Markers
author_facet Xiaoxi Pang
Fei Li
Shan Huang
Cheng’en Wang
Tao Zhang
Zihao Hu
Hao Cheng
Xinchen Tao
Wenrui Chang
author_sort Xiaoxi Pang
title A Novel Method for Accurate Quantification of Split Glomerular Filtration Rate Using Combination of Tc-99m-DTPA Renal Dynamic Imaging and Its Plasma Clearance
title_short A Novel Method for Accurate Quantification of Split Glomerular Filtration Rate Using Combination of Tc-99m-DTPA Renal Dynamic Imaging and Its Plasma Clearance
title_full A Novel Method for Accurate Quantification of Split Glomerular Filtration Rate Using Combination of Tc-99m-DTPA Renal Dynamic Imaging and Its Plasma Clearance
title_fullStr A Novel Method for Accurate Quantification of Split Glomerular Filtration Rate Using Combination of Tc-99m-DTPA Renal Dynamic Imaging and Its Plasma Clearance
title_full_unstemmed A Novel Method for Accurate Quantification of Split Glomerular Filtration Rate Using Combination of Tc-99m-DTPA Renal Dynamic Imaging and Its Plasma Clearance
title_sort novel method for accurate quantification of split glomerular filtration rate using combination of tc-99m-dtpa renal dynamic imaging and its plasma clearance
publisher Hindawi Limited
series Disease Markers
issn 1875-8630
publishDate 2021-01-01
description Purpose. To precisely quantify split glomerular filtration rate by Tc-99m-DTPA renal dynamic imaging and plasma clearance in order to increase its consistency among doctors. Methods. Tc-99m-DTPA renal dynamic imaging was performed according to the conventional radionuclide renal dynamic imaging by five double-blinded doctors independently and automatically calculated split GFR, namely, gGFR. Moreover, the conventional radionuclide renal dynamic imaging was assessed to only outline the kidney, blank background, and automatically calculated split GFR, gGFR′. The total GFR value of patients, tGFR, was obtained by the double-plasma method. According to the formula, Precise GFR pGFR=gGFR′/gGFR′+gGFR′×tGFR. The precise GFR value of the divided kidney, pGFR, was calculated. The Kendall’s W test was used to compare the consistency of gGFR and pGFR drawn by five physicians. Results. According to Kendall’s W consistency test, Kendall’s coefficient of concordance was 0.834, p=0.0001 using conventional method. The same five doctors used blank background again and the same standard Gates method to draw the kidneys, which automatically calculated gGFR′. Using input formula, the pGFR was calculated and Kendall’s W consistency test (Kendall’s coefficient of concordance=0.956, p=0.0001). Conclusion. The combination of Tc-99m-DTPA renal dynamic imaging combined with the double-plasma method could achieve accurate split GFR, and because of the omission of influence factors, the consistency of pGFR obtained by different doctors using this method was significantly higher than that of conventional Tc-99m-DTPA renal dynamic imaging.
url http://dx.doi.org/10.1155/2021/6643586
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