Value of Super-resolution Ultrasonography in Differentiating Benign and Malignant Lymph Nodes

Peking University Third Hospital779 enrolled

Overview

Lymph nodes are one of the most important components of the human immune system, and superficial lymph node enlargement lacks specificity. Ultrasound examination has been widely used in the diagnosis of lymph node lesions and is of great significance in distinguishing between benign and malignant. However, the two-dimensional and Doppler ultrasound features of different types of lymph node lesions overlap and intersect, and the blood flow perfusion information of lymph nodes can provide more information for differentiation. At present, the widely used contrast-enhanced ultrasound is easier to evaluate blood flow perfusion and can display small blood vessels smaller than 100 microns. The diagnostic accuracy of cervical lymph nodes using contrast-enhanced ultrasound is 80-90%. However, current contrast-enhanced ultrasound is limited by physical diffraction, with a resolution ranging from sub-millimeter to millimeter. This limitation hinders the visualization of small blood vessels or microcirculation by ultrasound, and parameters such as vascular size, spatial vascular pattern, and velocity of microcirculation are crucial for disease diagnosis and prognosis evaluation. Super resolution ultrasound (SRUS) is a new blood flow imaging technique. By tracking the movement trajectory of micro-bubbles instead of imaging the micro-bubbles themselves, the ultrasound diffraction limit can be exceeded to improve the sensitivity and image resolution of blood flow. Thus the study aim to evaluate the feasibility of SRUS technology in distinguishing between benign and malignant lymph nodes, and compare the differences in blood flow distribution and perfusion index between benign and malignant lymph nodes under SRUS imaging.

The study aim to evaluate the feasibility of SRUS technology in distinguishing between benign and malignant lymph nodes, and compare the differences in blood flow distribution, perfusion index, CEUS parameters, blood supply mode between benign and malignant lymph nodes under SRUS imaging.

Study Type

OBSERVATIONAL

Enrollment

779

Conditions

Lymphadenopathy

Eligibility

Sex: ALLMin age: 18 Years

Medical Language ↔ Plain English

Inclusion Criteria: * (1)suggested abnormal lymph nodes indicated by ultrasonography; (2) Patients scheduled for lymph nodes puncture or fine needle aspiration or surgery; (3) Age greater than or equal to 18 years old. Exclusion Criteria: * (1) Pregnant and lactating women; (2)pathological results not indicating benign or malignant lymph nodes; (3) history of chemotherapy or radiotherapy ; (4) History of allergies to eggs, milk, and ultrasound contrast agents; (5) Patients with acute coronary syndrome, severe pulmonary hypertension, or acute respiratory distress syndrome.

Outcomes

Primary Outcomes

benign or malignant pathology results from biopsy or surgery

Time frame: within 1 month after SRUS imaging

Secondary Outcomes

The expression level of various immuno-histochemical indicators of lymph nodes

Time frame: within 2 months after SRUS imaging

Microvascular Quantitative Indices between benign and malignant lymph nodes by SRUS

Time frame: within 2 months after the SRUS

Microvascular Quantitative Indices between lymph node metastasis and lymphoma

Time frame: within 2 months after the SRUS imaging

Blood supply mode of CEUS between benign and malignant lymph nodes

Time frame: within 2 months after the SRUS imaging

Quantitative analysis parameters of CEUS between benign and malignant lymph nodes

Quantitative analysis parameters of CEUS including AT, TTP, PKI, MTT, and AUC between benign and malignant lymph nodes