Correlation between hepatic venous pressure gradient and portal venous pressure gradient in hepatitis B cirrhosis with different hepatic veins anatomy

The hepatic venous pressure gradient (HVPG) has been employed as the gold standard for indicating the portal venous pressure gradient (PPG) in the diagnosis of portal hypertension (PHT). However, little has been reported on whether the HVPG can accurately estimate the PPG in patients with hepatic ve...

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Published in	European journal of radiology Vol. 155; p. 110463
Main Authors	Lv, Yifan, Song, Qingkun, Yue, Zhendong, Zhao, Hongwei, Wang, Lei, Fan, Zhenhua, Wu, Yifan, Meng, Mingming, Zhang, Ke, Jiang, Li, Ding, Huiguo, Zhang, Yuening, Liu, Fuquan
Format	Journal Article
Language	English
Published	Elsevier B.V 01.10.2022
Subjects	Hepatic vein pressure gradient Portal hypertension Portal vein pressure gradient Hepatic vein pressure gradient Portal vein pressure gradient Portal hypertension
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Abstract	The hepatic venous pressure gradient (HVPG) has been employed as the gold standard for indicating the portal venous pressure gradient (PPG) in the diagnosis of portal hypertension (PHT). However, little has been reported on whether the HVPG can accurately estimate the PPG in patients with hepatic vein collateral shunts. We aimed to explore the correlation between the HVPG and the PPG in hepatitis B cirrhosis patients with different hepatic vein anatomies. A total of 461 hepatitis B cirrhosis patients with portal hypertension (PHT) who were treated with a transjugular intrahepatic portosystemic shunt (TIPS) between January 2016 and June 2020 were included. All patients underwent various venous pressure measurements and balloon-occluded compression hepatic venography during the TIPS operation. Agreements were evaluated by Pearson’s correlation and the Bland–Altman method. Disagreements were assessed by paired t tests. The correlation coefficient (r) values (P < 0.001) between the HVPG and the PPG of the early (151 patients, 32.8 %), middle (73 patients, 15.8 %), late (46 patients, 10.0 %), portal vein (151 patients, 32.8 %), and no lateral branch development groups (40 patients, 8.7 %) were 0.373, 0.487, 0.569, 0.690, and 0.575, respectively; the determination coefficient (R2) values were 0.139, 0.238, 0.323, 0.475, and 0.330, respectively. According to the Bland–Altman method, agreement was the greatest in the portal vein development group, with the 95 % limits of agreement (95 % LoA, mean differences ± 1.96 SD) being the smallest. The differences were statistically significant (P < 0.05). The correlation between the HVPG and the PPG is the worst in early lateral branch development, followed by middle development, and the influence of lateral branches becomes significantly reduced in late development. Hepatic venous collateral formation is a vital factor for underestimation of the HVPG, which is the most accurate predictor of PPG in patients with portal vein development. Patients with no collateral channel development in the hepatic vein have a higher HVPG than PPG, which is an important reason for overestimation of the HVPG.
AbstractList	The hepatic venous pressure gradient (HVPG) has been employed as the gold standard for indicating the portal venous pressure gradient (PPG) in the diagnosis of portal hypertension (PHT). However, little has been reported on whether the HVPG can accurately estimate the PPG in patients with hepatic vein collateral shunts. We aimed to explore the correlation between the HVPG and the PPG in hepatitis B cirrhosis patients with different hepatic vein anatomies. A total of 461 hepatitis B cirrhosis patients with portal hypertension (PHT) who were treated with a transjugular intrahepatic portosystemic shunt (TIPS) between January 2016 and June 2020 were included. All patients underwent various venous pressure measurements and balloon-occluded compression hepatic venography during the TIPS operation. Agreements were evaluated by Pearson’s correlation and the Bland–Altman method. Disagreements were assessed by paired t tests. The correlation coefficient (r) values (P < 0.001) between the HVPG and the PPG of the early (151 patients, 32.8 %), middle (73 patients, 15.8 %), late (46 patients, 10.0 %), portal vein (151 patients, 32.8 %), and no lateral branch development groups (40 patients, 8.7 %) were 0.373, 0.487, 0.569, 0.690, and 0.575, respectively; the determination coefficient (R2) values were 0.139, 0.238, 0.323, 0.475, and 0.330, respectively. According to the Bland–Altman method, agreement was the greatest in the portal vein development group, with the 95 % limits of agreement (95 % LoA, mean differences ± 1.96 SD) being the smallest. The differences were statistically significant (P < 0.05). The correlation between the HVPG and the PPG is the worst in early lateral branch development, followed by middle development, and the influence of lateral branches becomes significantly reduced in late development. Hepatic venous collateral formation is a vital factor for underestimation of the HVPG, which is the most accurate predictor of PPG in patients with portal vein development. Patients with no collateral channel development in the hepatic vein have a higher HVPG than PPG, which is an important reason for overestimation of the HVPG. The hepatic venous pressure gradient (HVPG) has been employed as the gold standard for indicating the portal venous pressure gradient (PPG) in the diagnosis of portal hypertension (PHT). However, little has been reported on whether the HVPG can accurately estimate the PPG in patients with hepatic vein collateral shunts. We aimed to explore the correlation between the HVPG and the PPG in hepatitis B cirrhosis patients with different hepatic vein anatomies.PURPOSEThe hepatic venous pressure gradient (HVPG) has been employed as the gold standard for indicating the portal venous pressure gradient (PPG) in the diagnosis of portal hypertension (PHT). However, little has been reported on whether the HVPG can accurately estimate the PPG in patients with hepatic vein collateral shunts. We aimed to explore the correlation between the HVPG and the PPG in hepatitis B cirrhosis patients with different hepatic vein anatomies.A total of 461 hepatitis B cirrhosis patients with portal hypertension (PHT) who were treated with a transjugular intrahepatic portosystemic shunt (TIPS) between January 2016 and June 2020 were included. All patients underwent various venous pressure measurements and balloon-occluded compression hepatic venography during the TIPS operation. Agreements were evaluated by Pearson's correlation and the Bland-Altman method. Disagreements were assessed by paired t tests.METHODSA total of 461 hepatitis B cirrhosis patients with portal hypertension (PHT) who were treated with a transjugular intrahepatic portosystemic shunt (TIPS) between January 2016 and June 2020 were included. All patients underwent various venous pressure measurements and balloon-occluded compression hepatic venography during the TIPS operation. Agreements were evaluated by Pearson's correlation and the Bland-Altman method. Disagreements were assessed by paired t tests.The correlation coefficient (r) values (P < 0.001) between the HVPG and the PPG of the early (151 patients, 32.8 %), middle (73 patients, 15.8 %), late (46 patients, 10.0 %), portal vein (151 patients, 32.8 %), and no lateral branch development groups (40 patients, 8.7 %) were 0.373, 0.487, 0.569, 0.690, and 0.575, respectively; the determination coefficient (R2) values were 0.139, 0.238, 0.323, 0.475, and 0.330, respectively. According to the Bland-Altman method, agreement was the greatest in the portal vein development group, with the 95 % limits of agreement (95 % LoA, mean differences ± 1.96 SD) being the smallest. The differences were statistically significant (P < 0.05).RESULTSThe correlation coefficient (r) values (P < 0.001) between the HVPG and the PPG of the early (151 patients, 32.8 %), middle (73 patients, 15.8 %), late (46 patients, 10.0 %), portal vein (151 patients, 32.8 %), and no lateral branch development groups (40 patients, 8.7 %) were 0.373, 0.487, 0.569, 0.690, and 0.575, respectively; the determination coefficient (R2) values were 0.139, 0.238, 0.323, 0.475, and 0.330, respectively. According to the Bland-Altman method, agreement was the greatest in the portal vein development group, with the 95 % limits of agreement (95 % LoA, mean differences ± 1.96 SD) being the smallest. The differences were statistically significant (P < 0.05).The correlation between the HVPG and the PPG is the worst in early lateral branch development, followed by middle development, and the influence of lateral branches becomes significantly reduced in late development. Hepatic venous collateral formation is a vital factor for underestimation of the HVPG, which is the most accurate predictor of PPG in patients with portal vein development. Patients with no collateral channel development in the hepatic vein have a higher HVPG than PPG, which is an important reason for overestimation of the HVPG.CONCLUSIONThe correlation between the HVPG and the PPG is the worst in early lateral branch development, followed by middle development, and the influence of lateral branches becomes significantly reduced in late development. Hepatic venous collateral formation is a vital factor for underestimation of the HVPG, which is the most accurate predictor of PPG in patients with portal vein development. Patients with no collateral channel development in the hepatic vein have a higher HVPG than PPG, which is an important reason for overestimation of the HVPG.
ArticleNumber	110463
Author	Zhang, Ke Lv, Yifan Zhao, Hongwei Meng, Mingming Fan, Zhenhua Zhang, Yuening Liu, Fuquan Song, Qingkun Yue, Zhendong Jiang, Li Wang, Lei Ding, Huiguo Wu, Yifan
Author_xml	– sequence: 1 givenname: Yifan surname: Lv fullname: Lv, Yifan organization: Department of Interventional Therapy, Beijing Shijitan Hospital, Capital Medical University, Beijing 100038, China – sequence: 2 givenname: Qingkun surname: Song fullname: Song, Qingkun organization: Department of Statistics, Beijing You’an Hospital, Capital Medical University, Beijing 100069, China – sequence: 3 givenname: Zhendong surname: Yue fullname: Yue, Zhendong organization: Department of Interventional Therapy, Beijing Shijitan Hospital, Capital Medical University, Beijing 100038, China – sequence: 4 givenname: Hongwei surname: Zhao fullname: Zhao, Hongwei organization: Department of Interventional Therapy, Beijing Tongren Hospital, Capital Medical University, Beijing 811300, China – sequence: 5 givenname: Lei surname: Wang fullname: Wang, Lei organization: Department of Interventional Therapy, Beijing Shijitan Hospital, Capital Medical University, Beijing 100038, China – sequence: 6 givenname: Zhenhua surname: Fan fullname: Fan, Zhenhua organization: Department of Interventional Therapy, Beijing Shijitan Hospital, Capital Medical University, Beijing 100038, China – sequence: 7 givenname: Yifan surname: Wu fullname: Wu, Yifan organization: Department of Interventional Therapy, Beijing Shijitan Hospital, Capital Medical University, Beijing 100038, China – sequence: 8 givenname: Mingming surname: Meng fullname: Meng, Mingming organization: Department of Gastroenterology, Beijing Shijitan Hospital, Capital Medical University, Beijing 100038, China – sequence: 9 givenname: Ke surname: Zhang fullname: Zhang, Ke organization: Department of Surgery, Beijing Ditan Hospital, Capital Medical University, Beijing 100015, China – sequence: 10 givenname: Li surname: Jiang fullname: Jiang, Li organization: Department of Surgery, Beijing Ditan Hospital, Capital Medical University, Beijing 100015, China – sequence: 11 givenname: Huiguo surname: Ding fullname: Ding, Huiguo organization: Department of Gastroenterology and Hepatology, Beijing You’an Hospital, Capital Medical University, Beijing 100069, China – sequence: 12 givenname: Yuening surname: Zhang fullname: Zhang, Yuening organization: Department of Gastroenterology and Hepatology, Beijing You’an Hospital, Capital Medical University, Beijing 100069, China – sequence: 13 givenname: Fuquan surname: Liu fullname: Liu, Fuquan email: lfuquan@aliyun.com organization: Department of Interventional Therapy, Beijing Shijitan Hospital, Capital Medical University, Beijing 100038, China
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Snippet	The hepatic venous pressure gradient (HVPG) has been employed as the gold standard for indicating the portal venous pressure gradient (PPG) in the diagnosis of...
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SubjectTerms	Hepatic vein pressure gradient Portal hypertension Portal vein pressure gradient
Title	Correlation between hepatic venous pressure gradient and portal venous pressure gradient in hepatitis B cirrhosis with different hepatic veins anatomy
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