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Multimodal Ultrasound Imaging Assessment on Keloid

NCT06034587 · Status: COMPLETED · Type: OBSERVATIONAL · Enrollment: 34

Last updated 2023-09-13

No results posted yet for this study

Summary

Skin keloids are common dermatological conditions that can lead to physical limitations, functional impairments, and deformities. Beyond the physiological implications, the aesthetic ramifications of keloids can also result in significant psychological distress, including anxiety and depression, causing both physical and emotional suffering to the affected individuals. The incidence of keloids is high, characterized by their chronicity, resistance to treatment, and high recurrence rate. They have become one of the most challenging conditions to treat across burn surgery, plastic surgery, and dermatology disciplines. The lack of standardized clinical treatment guidelines globally, combined with an absence of a well-defined standardized evaluation system, means that the effectiveness of various treatments is not consistently and objectively assessed, creating significant challenges in clinical applications. This project integrates traditional high-frequency ultrasound with cutting-edge technologies like real-time shear wave elastography and ultra-micro blood flow imaging. By using multimodal ultrasound, investigators aim to observe the therapeutic response of 90Sr-90Y patch treatment on skin keloids. Investigators seek to determine the objectivity and quantification role of multimodal ultrasound data and indicators in assessing keloid severity, including blood flow information and elasticity hardness. Another goal is to obtain quantitative data on keloid thickness, volume, stiffness, and microvascular distribution before and after treatment to monitor the therapy response. This would address the current limitations of subjective keloid scoring scales. It would also serve as an objective assessment standard for precise diagnosis, treatment, and follow-up of keloids in a clinical setting, thereby standardizing the clinical diagnosis and treatment of keloids.

Conditions

  • Keloid

Interventions

DIAGNOSTIC_TEST

multimodal ultrasound

An Aixplorer ultrasound machine (SuperSonic Imaging, Ltd, Aixen-Provence, France), equipped with AngioPLUS(AP) and shear wave elastography(SWE) functions, was used for all examinations using a 4-15MHz linear probe.AP function can detect microvessels of lesions,SWE can evaluate the stiffness of lesions and high frequency ultrasound can measure the thickness and volume of keloid.

RADIATION

radioisotope applicator therapy

The radioisotope applicator therapy utilized 90Sr-90Y(0094SR814975) isotope, customized by the China Atomic Energy Research Institute. The element therapy instrument used had overall dimensions of 2.8cm x 2.8cm, with an effective treatment area of 2.0cm x 2.0cm. It delivered a radiation dose of 5.0Gy/h. Each patient received superficial radiation therapy through a single 90Sr source, administered in repeated doses. The isotope therapy instrument was customized to fit the exact size of the keloid, ensuring coverage the irradiation range extending 0.5cm beyond the keloid's edge. During treatment, the surface of the applicator was aligned with the irradiated area and directly contact the surface of the keloid tissue. The treatment was carried out low-dose irradiation method, over 5 sessions, with each session delivering a dose of 2Gy. Each irradiation lasted for 25min.

Sponsors & Collaborators

  • Chongqing Medical University

    lead OTHER

Principal Investigators

  • Wang Zhigang · Chongqing Medical University

Eligibility

Min Age
16 Years
Sex
ALL
Healthy Volunteers
No

Timeline & Regulatory

Start
2021-07-21
Primary Completion
2023-08-30
Completion
2023-08-30

Countries

  • China

Study Locations

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Read the full study record

This page highlights key information. For complete eligibility criteria, study locations, investigator contacts, and the full protocol, visit the original record on ClinicalTrials.gov.

View NCT06034587 on ClinicalTrials.gov