Clinical Trial: Influence of Leg Length Discrepancy on the Spinal Shape and Biomechanics in Functional and Idiopathic Scoliosis Patients
Study Status: Completed
Recruit Status: Completed
Study Type: Interventional
Official Title: Influence of Leg Length Discrepancy on the Spinal Shape and Biomechanics During Static and Dynamic Activities in Functional and Idiopathic Scoliosis Patients
Brief Summary: The purposes of this study are to use motion analysis techniques to study the biomechanical interactions between the spine and the lower limbs in scoliosis patients with or without leg length discrepancy (LLD) during activity; to investigate the effects of correction of LLD: using foot orthosis on the functional scoliotic spinal curve and motion during functional activity; and to test whether idiopathic scoliosis without LLD can be improved by artificially creating a leg length discrepancy with a foot orthosis.
Detailed Summary:
Scoliosis is one of the most common back deformities in children. Idiopathic and functional (secondary) scoliosis are arguably the two most common types. The etiology of idiopathic scoliosis has been studied in many aspects such as genetic factors, skeletal muscle abnormalities, neurological mechanisms, and biomechanical factors, while the common causes of secondary or functional scoliosis are leg length inequality and muscle spasm. It is evident that biomechanical factors that involve the interactions of the musculoskeletal alignment and loading are closely associated with the development of both types of scoliosis.
Leg length discrepancy (LLD) is defined as a condition in which paired limbs are unequal in length. It is now generally accepted that LLD can lead to lumbar scoliosis and it is assumed that scoliosis caused by LLD can be removed if LLD is eliminated. However, no study has documented the effects of the correction of LLD on the functional scoliotic spinal curve and motion during functional activity. Since spinal curve and motion have clear associations with leg length inequality, one would wonder whether idiopathic scoliosis without LLD can be improved by artificially creating a leg length difference with an orthosis when spine surgery is not considered or in a less severe condition. It has been shown that LLD and scoliosis have effects on pain, force transmission and performance of motion. Therefore, the artificially created leg length difference may have negative effects even though the scoliosis is improved. The benefits and disadvantages of using a foot orthosis to create artificial LLD in order to relieve idiopathic scoliosis require careful investigation. Although the biomechanics of the spine or the lower extremities have been studied separately in the literature, the biomechanical interactions between the spine and the lower limbs in scoliosis patients
Sponsor: National Taiwan University Hospital
Current Primary Outcome:
- Variation of spine angle [ Time Frame: 30 ]
- Variation of spine shape [ Time Frame: 30 ]
Original Primary Outcome:
- Variation of spine angle
- Variation of spine shape
Current Secondary Outcome:
Original Secondary Outcome:
Information By: National Taiwan University Hospital
Dates:
Date Received: September 9, 2005
Date Started: September 2005
Date Completion:
Last Updated: December 6, 2012
Last Verified: November 2012
