Noninvasive Prediction of Portal Hypertension in Cirrhosis Using Sound Touch Viscoelastography

Not yet recruiting

• Conditions: Portal Hypertension; Cirrhosis

• Registration Number: NCT06316869
• Lead Sponsor: First Affiliated Hospital of Wenzhou Medical University

Brief Summary

The objective of this observational study is to investigate and validate the utility of the Sound Touch Viscoelastography(STVi) technique in patients with liver cirrhosis for noninvasive prediction of Portal hypertension (PH). The primary research questions it seeks to address are as follows:

* What is the correlation between the liver STVi index and Portal Venous Pressure Gradient (HVPG)?

* Is STVi an available tool to non-invasively predict PH in patients with liver cirrhosis? And the effectiveness and practicality of STVi will be validated.

* To establish a predictive model for Clinically Significant Portal Hypertension (CSPH) utilizing liver STVi index as the primary indicator.

The HVPG is considered as the gold standard in our study and STVi was employed to quantify the STVi index of the liver in patients with liver cirrhosis. Researchers will compare the two patients groups, HVPG≥10 mmHg and HVPG\<10 mmHg, to see the usage of STVi in the noninvasive prediction of PH.

Detailed Description

1. Research subjects: Subjects were included in strict accordance with the preparation procedures (inclusion criteria, informed consent), and with the approval of the Ethics Committee of the First Affiliated Hospital of Wenzhou Medical University, relevant data were collected within 1 week after the patients were enrolled and before the HVPG test..

2. Clinical baseline information and laboratory data: including name, gender, age, blood pressure, BMI (height, weight), causes of liver cirrhosis and other general information, and relevant laboratory tests, including platelet count, hemoglobin, albumin, prothrombin time, international normalized ratio, total bilirubin, creatinine, aspartate aminotransferase, alanine aminotransferase, alkaline phosphatase, blood ammonia, etc.

3. Conventional gray-scale ultrasound and color Doppler examination: including hepatic artery inner diameter, hepatic artery peak flow velocity, hepatic artery resistance index, portal vein trunk inner diameter, portal vein average flow velocity, spleen size, etc.

4. STVi detection: Use the color Doppler ultrasound system (including elastic components) of Shenzhen Mindray Biomedical Electronics Co., Ltd., equipped with an abdominal convex array probe with a probe frequency of 1\~6 MHz. The probe was placed in a supine position or slightly tilted to the left, with the right arm raised and fully abducted to increase the width of the intercostal space, and the liver viscoelastic index of the right lobe of the liver was measured between the intercostals. During measurement, the subject should hold his breath for 3 to 5 seconds in a calm state. Do not hold his breath after taking a deep breath. The sampling frame should be placed in a place with uniform echo in the liver parenchyma, avoiding large blood vessels, bile ducts and ribs. The sampling frame should be as parallel to the liver capsule as possible and placed 1 to 2 cm below the liver capsule and no more than 6 cm. The region of interest is preferably placed in the center of the elastogram, and the diameter of the sampling frame is recommended to be ≥1.5 cm. Take the median after 3 valid measurements of the same site. The sampling results require measurement success rate ≥60% and IQR/Median≤0.3.

5. HVPG detection: Use the right jugular vein approach, refer to the Chinese Expert Consensus on Clinical Application of Hepatic Venous Pressure Gradient (2018 Edition) , and select the balloon catheter to the hepatic vein under fluoroscopy, at a distance from the inferior vena cava 2\~4 cm, wait at least 20 s (some patients may take longer to reach a stable reading), and then read the Free Hepatic Venous Pressure (FHVP) after the pressure value is stable. After injecting contrast medium or air to expand the balloon to fully block the hepatic venous blood flow, wait at least 40 s until the pressure value is stable, and then read the Hepatic Venous Wedge Pressure (WHVP). Keep the balloon in the inflated state, instruct the patient to hold his breath, slowly inject 5 ml of contrast agent through the balloon catheter, and perform hepatic venography to confirm that there is no contrast agent reflux or venous-venous collateral shunt. Calculated according to the formula HVPG = WHVP - FHVP, HVPG should be the average of 2 measurements.

6. Group according to the HVPG test results and divide them into 2 groups: CSPH group (HVPG≥10 mmHg) and non-CSPH group (HVPG\<10 mmHg).

7. Build a model: Screen out independent variable information related to the occurrence of CSPH through model variable screening and correlation analysis, and use it to build a prediction model. And establish a Nomogram model to realize the visualization of the model.

8. Evaluate the model: Discrimination of the model: ROC curve analysis, C-index; Calibration of the model: Hosmer-Lemeshow goodness of fit test, consistency curve (test); Clinical net benefit assessment: Decision curve analysis ( DCA).

Study Timeline

• Status Verified: 2024-03
• Study First Submitted: 2024-03-10
• Study Start: 2024-03-15
• Study First Submitted QC: 2024-03-15
• Last Update Submitted: 2024-03-15
• Study First Posted: 2024-03-19
• Last Update Posted: 2024-03-19
• Primary Completion: 2025-03-31
• Study Completion: 2025-03-31

Recruitment & Eligibility

• Status: NOT_YET_RECRUITING
• Sex: All
• Target Recruitment: 216

Inclusion Criteria

• Age older than 18 years.
• Clinically diagnosed with cirrhosis. Meeting the diagnostic criteria of the 2019 edition of the "Cirrhosis Diagnosis and Treatment Guidelines": (1) Histology consistent with cirrhosis diagnosis; (2) Endoscopy shows esophageal gastric varices or ectopic varices, excluding non-cirrhotic portal hypertension; (3) Imaging examinations such as ultrasound, LSM, or CT suggest features of cirrhosis or portal hypertension: such as splenomegaly, portal vein ≥1.3 cm, LSM measurements meeting diagnostic thresholds for cirrhosis of different etiologies; (4) In the absence of histology, endoscopy, or imaging examinations, the following abnormal indicators suggest the presence of cirrhosis (must meet 2 of the 4 criteria): a. PLT <100×10^9/L, with no other explanations; b. Serum ALB <35 g/L, excluding malnutrition or other causes such as renal disease; c. INR >1.3 or prolonged PT (discontinuation of thrombolytics or anticoagulants for >7 days); d. AST/PLT ratio index (APRI): Adult APRI score >2, with attention to the influence of hepatotoxic drugs and other factors on APRI.
• Planning to undergo HVPG testing and meeting the indications for HVPG testing in the "Chinese Expert Consensus on the Clinical Application of Hepatic Venous Pressure Gradient (2018 edition)" : (1) Assessing the efficacy of drug therapy for primary and secondary prevention of esophageal gastric variceal bleeding; (2) Predicting the risk of esophageal gastric variceal bleeding and guiding treatment plan selection; (3) Predicting the risk, degree of progression, and clinical prognosis of decompensated events in cirrhosis; (4) Evaluating the efficacy of related new drugs; (5) Evaluating the accuracy of related non-invasive techniques; (6) Diagnosis and differential diagnosis of portal hypertension types.
• Able to understand and voluntarily sign a written informed consent form.

Exclusion Criteria

• Post-TIPS procedure;
• Post-hepatectomy splenectomy;
• Hepatic malignancy;
• Portal vein thrombosis;
• Individuals with severe cardiac, pulmonary, hepatic, or renal dysfunction;
• Pregnant and postpartum women.

Study & Design

• Study Type: OBSERVATIONAL
• Study Design: Not specified

Primary Outcome Measures

Name	Time	Method
STVi index	baseline, pre-intervention	The abdominal convex array probe equipped with the color Doppler ultrasound system (including elastic components) was used to measure the shear wave signals. And then using pulse wave technology and specific computer algorithms (mainly utilizing the Voigt model to calculate liver shear wave viscosity and linear dispersion model to compute shear wave dispersion slope), liver STVi index can be calculated. Since the STVi index is a new evaluation index based on a new ultrasonic technology, there is no clear maximum and minimum values has been reported. Based on previous research, we estimate STVi index was an independent risk factor for high HVPG and was significantly higher in CSPH group than non-CSPH group.

Trial Locations

Locations (1)

the First Affiliated Hospital the First Affiliated Hospital; 🇨🇳 Wenzhou, Zhejiang, China