Neck Pain Clinical Trial
Official title:
3-D Laser Imaging for Cervical Spine Motion Analysis
The goal of this research project is to develop a new system that uses lasers to provide 3-dimensional (3-D) images of the cervical spine (the seven spinal bones in the neck) in a moving person. Doctors and researchers could use this system to examine people with spinal disorders and to learn more about how the spine works. The laser technique would be better than existing imaging methods because it would provide 3-D views of the cervical spine and would not expose patients to radiation. These two features would make a laser system a safer and more effective tool than other imaging systems. This technique should be suitable for a wide variety of uses because the sensitivity of the measurement can be adjusted depending on what is being studied. The benefits of this research will include helping doctors and other health practitioners to detect and diagnose painful spinal disorders more effectively. This should lead to improved treatment and management of spinal disorders.
An improved method of spinal visualization is important because the examination and
treatment of people with diagnoses such as scoliosis, spinal instability, and painful
cervical spine and lumbar disorders depend on good spinal imaging. A system that would allow
three-dimensional analysis of the spine in a moving person without the risk and limitations
of radiation would greatly enhance the research and interventions needed to improve our
understanding of spine position and movement. Moreover, it is extremely important for
physicians, physical therapists, athletic trainers, coaches, and movement scientists to rely
on accurate yet reliable devices for measuring the spine during activity and research.
The objective of this study is to develop a novel automated, nondestructive 3-D laser
imaging system for cervical spine motion analysis. The imaging system is based on shadow
Moirý interferometry and finger pattern analysis. The proposed technique would be superior
to existing methods such as radiography because of its potential to allow 3-D visualization
and its elimination of patient exposure to radiation. These two attributes would make a
laser system a safer and more effective tool.
We hypothesize that the laser-based system will surpass conventional motion analysis systems
such as video motion analysis systems, inclinometers, flexible rulers, goniometers, and
posture grids in accuracy, reliability, and validity of measurements of spinal motion and
position.
The technique possesses several advantages with respect to simplicity, versatility and
suitability for operation in different environments. The sensitivity of the measurement can
be adjusted based on the nature of the object under investigation. This makes the technique
suitable for a wide variety of applications. The benefits of these basic studies will
include assisting physician and other allied health practitioners to more effectively detect
and diagnose painful spinal disorders. This ultimately should enhance the treatment and
management of spinal disorders.
We plan to test the device on 134 people whom we will recruit from Northern Illinois
University and the surrounding community. Thirty-four study participants (25%) will be
patients seeking medical, chiropractic, or physical therapy intervention for complaints of
neck pain from the Northern Illinois University Health Service and Northern Illinois area
medical, chiropractic, and physical therapy facilities. The rest of the participants will
have no complaints of neck pain.
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Primary Purpose: Screening, Time Perspective: Longitudinal
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