Public Release: 

More frequent exercise therapy benefits bone strength in very low weight pre-term infants

Study shows that a twice daily program of assisted range-of-motion exercises provides significant benefits for bone strength, potentially decreasing the risk of low bone density and future fractures in very low birth weight pre-term infants

International Osteoporosis Foundation


IMAGE: Administrating range-of-motion exercise at the ankle joint in a very low birth weight preterm infant. view more

Credit: ©picasa

Because of their low weight and premature birth, very low birth weight (VLBW) pre-term infants have lower bone mineral mass and a greater need for bone nutrients compared to most new-born infants. This places them at greater risk of osteopenia (low bone density) and fractures in later life.

While efforts to prevent osteopenia of prematurity have focused on nutritional therapy via intravenous or tube feeding, these, and other major advances in postnatal intensive care, have been only partially successful in improving improving the bone mineral mass of VLBW preterm infants. More recently, various studies have shown that the use of physical activity interventions -- comprising a daily program of passive range-of-motion-assisted exercise of the large joints -- have promising protective effects for bone strength and metabolism.

In a new study published in the journal Calcified Tissue International and Musculoskeletal Research, researchers investigated whether increasing the frequency of physical activity intervention to twice daily has a greater effect on bone strength compared to a once daily intervention or no intervention at all.

Thirty-four VLBW preterm infants (average birth weight 127 ± 55g and average gestational age 28.6 ± 1.1 weeks) were randomly assigned to one of the three study groups. The exercise intervention was initiated at around 8 days of life and continued for 4 weeks. Bone health was measured at the beginning of the study and after 2 and 4 weeks using quantitative ultrasound of tibial bone speed of sound (SOS).

Initially the average bone mass was comparable in all infants, and, as expected, it declined in all groups during the study period despite the infants' overall growth and remarkable weight gain. However, the 13 infants receiving the twice daily intervention programme had a significantly lower rate of decrease in bone mass compared to the once-daily (12 infants) group and no intervention control group (11 infants).

Lead author Dr. Ita Litmanovitz of the Meir Medical Center, Kfar Saba, and Sackler School of Medicine at Tel-Aviv University, stated, "Our study is the first to demonstrate that the bone mass response to exercise in pre-term infants is dose-related. Although more research is needed to determine the optimal duration, frequency and type of exercise intervention, we found that the twice daily intervention was safe and had a greater effect on bone strength."


Reference: Litmanovitz I, Erez H, Eliakim A, Bauer-Rusek S, Arnon S, Regev RH, Sirota G, Nemet D. The Effect of Assisted Exercise Frequency on Bone Strength in Very Low Birth Weight Preterm Infants: A Randomized Control Trial. Calcif Tissue Int. 2016 [Epub ahead of print] DOI 10.1007/s00223-016-0145-3

About Calcified Tissue International & Musculoskeletal Research

Calcified Tissue International & Musculoskeletal Research is a peer-reviewed journal which publishes original preclinical, translational and clinical research, and reviews concerning the structure and function of bone, and other musculoskeletal tissues in living organisms, as well as clinical studies of musculoskeletal disease. It includes studies of cell biology, molecular biology, intracellular signaling, and physiology, as well as research into the hormones, cytokines and other mediators that influence the musculoskeletal system. The journal also publishes clinical studies of relevance to bone disease, mineral metabolism, muscle function, and musculoskeletal interactions.

Editors in Chief: Stuart Ralston and René Rizzoli; Musculoskeletal Research Section Editor: Roger Fielding.

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