Clinical Trial Details
— Status: Not yet recruiting
Administrative data
| NCT number |
NCT06361082 |
| Other study ID # |
CORPG5N0061 |
| Secondary ID |
|
| Status |
Not yet recruiting |
| Phase |
N/A
|
| First received |
|
| Last updated |
|
| Start date |
April 2024 |
| Est. completion date |
October 2025 |
Study information
| Verified date |
March 2024 |
| Source |
Chang Gung Memorial Hospital |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
This study explores ultrasonic scattering imaging technology in patients undergoing anterior
cruciate ligament (ACL) reconstruction and those with shoulder musculoskeletal disorders.
Ultrasonography, widely utilized for diagnosing musculoskeletal conditions, faces limitations
due to factors like operator experience and equipment settings, often lacking in quantifiable
disease metrics. Nakagami imaging, employing the backscattering statistical distribution
model, offers a quantitative assessment method that minimizes subjective interpretation by
extracting tissue properties through the interaction between ultrasound and tissue
microstructure. The Nakagami model effectively describes tissue scattering statistics,
enabling the identification and classification of tissue features based on specific
scattering conditions.
ACL reconstruction is commonly performed, with postoperative complications including joint
stiffness and muscle strength decline, associated with changes in muscle quality and volume.
Similarly, soft tissue injuries around the shoulder and ankle are prevalent in sports
medicine, with ultrasound used to assess the severity of injuries to soft tissues such as the
rotator cuff tendons/muscles and surrounding ligaments of the shoulder, as well as the medial
and lateral ligament complexes of the ankle. Preliminary findings suggest that Nakagami
imaging can differentiate layers within normal tendons, proposing its potential for
visualizing and quantifying soft tissue lesions post-ultrasound, aiming for standardized
diagnostic criteria.
The results of this project could significantly improve the diagnostic efficacy of
musculoskeletal ultrasound, facilitating earlier treatment and reducing the socio-economic
impacts. Academically, it positions the investigating team as pioneers in the application of
ultrasound inverse scattering imaging technology.
Description:
This study aims to explore the application of ultrasonic scattering imaging technology in
patients after anterior cruciate ligament (ACL) reconstruction and in patients with shoulder
musculoskeletal disorders. Ultrasonography is a convenient, real-time, non-invasive, and
portable imaging tool commonly used by clinicians for the diagnosis of musculoskeletal system
disorders. However, the interpretation of ultrasound images can be affected by factors such
as operator experience, probe orientation, machine type, and parameter settings, and most
diseases cannot be quantified. Nakagami imaging, based on the backscattering statistical
distribution model, is a quantitative assessment method that can reduce subjective human
judgment. It extracts the basic physical properties of tissues based on the interaction
between ultrasound and tissue microstructure. The Nakagami distribution is an effective model
for describing tissue inverse scattering envelope statistics, which can identify tissue
ultrasound image features and classify the examined tissue by comparing it with the specified
envelope-related scattering conditions.
ACL reconstruction surgery is a commonly performed procedure. Postoperative issues often
include joint stiffness, loss of neuromuscular control, muscle mass loss, and muscle strength
decline. Changes in muscle quality and volume are associated with a decrease in thigh muscle
strength. Both MRI and ultrasound can be used to assess changes in muscle volume and quality.
Soft tissue injuries around the shoulder and ankle joints are common in the field of sports
medicine. Ultrasound is commonly used to assess the severity of injuries to soft tissues such
as the rotator cuff tendons/muscles and surrounding ligaments of the shoulder, as well as the
medial and lateral ligament complexes of the ankle. Preliminary results of this study show
that Nakagami scattering imaging can visually distinguish layers within normal tendons. The
investigative team hypothesizes that ultrasonic Nakagami scattering imaging can provide a
method for visualizing and subsequent quantitative analysis of suspected soft tissue lesions
in patients after ultrasound scanning, with the goal of achieving standardized diagnostic
parameters for soft tissue lesions.
The results of this project may enhance the diagnostic efficacy of musculoskeletal ultrasound
for use in musculoskeletal diseases. If successful, it could lead to earlier diagnosis and
treatment for these patients, reducing the socioeconomic losses associated with work and
competition. Academically, it would establish the institution and team as world leaders in
the application of ultrasound inverse scattering imaging technology.
