Clinical Trial: Effects of Anorexia Nervosa on Peak Bone Mass

Study Status: Recruiting
Recruit Status: Recruiting
Study Type: Interventional

Official Title: Effects of Anorexia Nervosa on Peak Bone Mass

Brief Summary:

Teenage girls with anorexia nervosa (AN) are at risk for low bone density and low rates of bone accrual, raising concerns regarding acquisition of peak bone mass, an important determinant of future bone health and fracture risk. Important factors contributing to low bone density in AN include low levels of estrogen and insulin like growth factor-1 (IGF-1). While estrogen is important for preventing bone loss, IGF-1 is important for optimizing bone formation. We have shown in a previous study that replacement of estrogen is effective in increasing bone density in teenage girls with AN; however, this increase in bone density remains lower than that seen in normal-weight controls over the same duration, and residual deficits persist. Importantly, the impact of administering replacement doses of IGF-1 with estrogen replacement has not been studied in teenagers with AN.

This study will examine the impact of administering recombinant human (rh) insulin like growth factor-1 (rhIGF-1) with estrogen (to mimic pubertal levels of these hormones) versus administration of estrogen alone on bone metabolism in adolescent girls with anorexia nervosa (AN).

One aim of this proposal is to investigate whether co-administration of insulin like growth factor-1 (rhIGF-1) with physiologic estradiol replacement to adolescent girls with AN will increase BMD (bone mineral density) more than estrogen monotherapy, and whether bone mass will approach that seen in healthy adolescent girls. An additional aim is to determine whether co-administration of rhIGF-1 with estradiol to mimic the normal pubertal milieu stimulates bone formation through an IGF-1 mediated anabolic effect, increases bone density to a greater extent than estrogen monotherapy, and improves bone mass accrual to approach that in healthy controls. The impact of rhIGF-1 +estradiol versus

Detailed Summary: Given the increasing prevalence of AN, its profound consequences on bone health, and lack of optimal treatment interventions, these studies will provide critical data needed to identify optimal treatment strategies for this severe co-morbid disease using state- of- the- art endpoints of BMD, bone microarchitecture and strength. Although both low IGF-1 and hypogonadism are associated with increased skeletal fragility in AN, the mechanisms by which these factors interact are incompletely understood. Specifically, the increased skeletal fragility that is associated with AN is poorly reflected by DXA-derived BMD. Furthermore, the magnitude and mechanisms by which IGF-1 deficiency and hypogonadism influence bone microarchitecture are not defined. The growing incidence of eating disorders in adolescent girls and their long-term effects on skeletal health provide strong rationale for studies that will provide a better understanding of these issues and the evaluation of rational therapeutic approaches. The studies described in this proposal utilize both cross-sectional and RCT approaches to achieve this goal. Additionally, our utilization of sophisticated techniques such as high resolution peripheral QCT (HR-pQCT) will improve our understanding of the relationship between IGF-1, gonadal steroids and bone quality and will aid in the development of effective therapies in the treatment of skeletal fragility in Anorexia Nervosa.
Sponsor: Massachusetts General Hospital

Current Primary Outcome: A significant increase in bone density over a 12-month period [ Time Frame: 12 months ]

Original Primary Outcome: Stimulation of bone formation through an IGF-1 mediated anabolic effect as well as the increase of bone density to a greater extent than estrogen monotherapy. [ Time Frame: 12 months ]

Current Secondary Outcome: A significant improvement in bone microarchitecture parameters at the ultradistal radius and tibia over a 12-month period [ Time Frame: 12 months ]

Original Secondary Outcome: Assessment of done density microarchitecture at the ultradistal radius and tibia. [ Time Frame: 12 months ]

Cortical and trabecular bone density and microarchitecture at the ultradistal radius (non-weight bearing bone) and tibia (weight bearing bone) as assessed by HR-pQCT, and bone strength, as assessed by finite element analysis (FEA), are abnormal in AN compared to controls, and are associated positively with nutritional and hormonal predictors of bone mass, including BMI, body fat, fat-free mass, estradiol and IGF-1 levels


Information By: Massachusetts General Hospital

Dates:
Date Received: February 18, 2011
Date Started: February 2011
Date Completion: December 2018
Last Updated: July 26, 2016
Last Verified: July 2016