Combined Exercise and Nutrition Intervention for Spinal Sarcopenia

Seoul National University

Status

Unknown

Conditions

Sarcopenia

Treatments

Other: Combined exercise and nutrition intervention

Study type

Interventional

Funder types

Other

Identifiers

NCT04810312

10-2021-27

Details and patient eligibility

About

Sarcopenia in the lumbar paraspinal muscles is receiving renewed attention as a cause of spinal degeneration. However, there were few studies on the precise concept and diagnostic criteria for spinal sarcopenia. We have already developed the concept of spinal sarcopenia in community-dwelling older adults and investigated the association between conventional sarcopenic indices and spinal sarcopenia. However, intervention studies on spinal sarcopenia have not been conducted until now. Here, we aim a pilot study to evaluate the effectiveness of the combined exercise and nutrition intervention for spinal sarcopenia.

This is a prospective study with 35 community-dwelling older women who were diagnosed as spinal sarcopenia in our previous cohort study. Combined intervention will consist of back extensor strengthening exercise and nutritional supplementation for 12 weeks. The primary outcome of this study is isometric back extensor strength after 12 weeks' intervention. All functional outcomes will be measured at 0, 12, and 24 weeks after intervention. The data will be analysed using the intention-to-treat principle.

Full description

Both the atrophy and fatty change of paraspinal muscles originated from sarcopenia on lumbar paraspinal are also known to be associated with functional disorders and chronic back pain. We want to suggest classifying this phenomenon as "spinal sarcopenia." While feasible, inexpensive, and less radiation-exposed tools such as dual energy X-ray absorptiometry have been used to measure appendicular skeletal muscle mass, paraspinal muscle assessment is still needed using spinal CT or MRI. In addition, spinal extensor strength measurement is necessary to confirm the function of lumbar paraspinal muscle, but isokinetic exercise equipment for accurate measurement is not as feasible as a dynamometer for hand grip strength to evaluate sarcopenia. Furthermore, many elderly people may experience pain during the measurement of spinal extension strength. Therefore, it is necessary to develop a simple, accessible, and clinically meaningful measurement index to confirm the myofunction of spinal extension. The main two axes of treatment and prevention of conventional sarcopenia are muscle strengthening exercises and high protein nutritional supplements. Therefore, it is necessary to confirm the clinical effect by intervention for spinal extension exercise and nutritional supplementation.

Enrollment

35 estimated patients

Sex

Female

Ages

65 to 90 years old

Volunteers

Accepts Healthy Volunteers

Inclusion criteria

Older women (≥ 65 years old)
Community-dwellers
Able to walk with or without assistive devices for more than 100 meters

Exclusion criteria

Low back pain with moderate severity (numeric rating scale 5 and over)
History of any types of lumbar spine surgery
History of hip fracture surgery and arthroplasty of hip or knee
Contraindications for MRI (such as cardiac pacemaker, implanted metallic objects, and claustrophobia)
Disorders in central nervous system (such as stroke, parkinsonism, spinal cord injury)
Cognitive dysfunction (Mini Mental State Examination score < 24)
Communication disorder (such as severe hearing loss)
Musculoskeletal condition affecting physical function (such as amputation of limb)
Long-term use of corticosteroids due to inflammatory disease
Malignancy requiring treatment within 5 years
Other medical conditions which need active treatment
Subjects who refuse to participate in a study