FORT LAUDERDALE, FLA. — Although the majority of fibrous dysplasia lesions are established early in childhood, many patients don't experience pain until later in life, Dr. Michael T. Collins reported at a meeting sponsored by the Paget's Foundation for Paget's Disease of Bone and Related Disorders.
Since many patients with fibrous dysplasia (FD) don't present early enough for prevention of lesions, efforts should focus on therapies directed toward management or regression of existing lesions, and awareness and appropriate treatment of pain. Bisphosphonates are usually effective in relieving pain, said Dr. Collins, who heads the Skeletal Clinical Studies Unit at the National Institute of Dental and Craniofacial Research (NIDCR) of the National Institutes of Health, Bethesda, Md.
The new findings are among the latest to come from ongoing research conducted within the NIDCR's Skeletal Clinical Studies Program. Over the last 4 years, the group has published a series of papers on the clinical and metabolic aspects of FD, a rare congenital disorder of bone metabolism in which normal bone and bone marrow are replaced with abnormal fibroosseous tissue.
Elizabeth Hart, a medical student and trainee with the NIDCR program, presented a poster on her onset/disease progression study, which included 44 FD patients who were screened over 32 years and who had at least two 99mTc-methylene diphosphonate bone scans. The median number of scans was four; the median age at first scan was 10 years and the median follow-up 4 years.
The bone scans were scored for location and extent of FD lesions using a validated FD-scoring tool—also developed by the NIDCR group—that captures the extreme variability of FD's mosaic nature by incorporating the extent of disease in each of 11 skeletal segments (J. Bone Miner. Res. 2005;20:219–26).
More than 90% of skeletal lesions were established before age 15 years. Craniofacial lesions were established earliest, followed by long bone, and then axial lesions. New lesions were rarely established later in life (after age 25), Ms. Hart reported.
Paradoxically, even though children experience more new lesions and more fractures, they report less pain than do adults. That finding, presented in a second poster by Marilyn H. Kelly, R.N., and Beth Brillante, R.N., came from a population of 33 children aged 5–18 years and 43 adults aged 23–62 years.
Pain was reported by 65% of the group overall, but the proportion among children was just 45%, compared with 81% of the adults.
The lower extremities were the sites most likely to be painful (56% of children and 89% of adults), while the sites most commonly associated with FD were the head (94% of children and 86% of adults) and the lower extremities (97% of children and 86% of adults).
The spine, which was the only site at which there was a significant increase in FD involvement over time (45% of children vs. 71% of adults), was not a significant source of overall pain morbidity, Ms. Kelly and her NIDCR associates reported.
The mechanism of bone pain in FD and its increase in adulthood are unknown and warrant further investigation, they wrote.
A previous study led by Ms. Kelly revealed that mental, emotional, and psychological function among both adults and children with FD is often normal, despite diminished physical function (Bone 2005;37:388–94). “In the all-important areas of relationships, education, and career, patients with FD are normal,” Dr. Collins noted in his overview presentation.
In fact, the parents' emotional state is the one most dramatically affected by the diagnosis. “Parents of children with this disease suffer. … One of our goals is that by educating parents that their children's life expectancy is not affected, and that their ability to achieve social and emotional health is not affected, parental emotional pain can be eased,” he remarked.
Another earlier finding from the NIDCR program changed previous thinking about the clinical management of FD in whom the optic nerve becomes encased. Optic neuropathy is a major concern in FD, because the optic nerve passes through the skull base, which is affected in more than 90% of FD patients. As skull involvement increases over time, the optic nerve becomes encased in almost all patients.
The prevailing belief had been that it was necessary to prophylactically decompress the nerve in all patients to avoid progressive vision loss. However, the NIDCR group was able to show that in fact 91% of completely encased optic nerves were asymptomatic and that only 5% progressed to vision loss. Therefore, prophylactic nerve decompression was not indicated (N. Engl. J. Med. 2002;347:1670–6).
Other previous data suggest that growth hormone (GH) excess is common in patients with both FD and the related disorder, McCune-Albright syndrome, and when present is associated with more severe craniofacial abnormalities (J. Clin. Endocrinol. Metab. 2002;87:5104–12). “This [finding] is significant because GH excess is often treatable, but unfortunately the diagnosis is often overlooked in children prior to complications,” Dr. Collins said, adding that it is still uncertain whether early diagnosis in children and treatment with GH will prevent morbidity.