The impact of spinal cord injury (SCI) on later bone mineral status wa
s studied in 35 adults who had sustained their injury in childhood. Th
e median age of the patients was 31 years, the median age at injury 12
.9 years and the median time period from injury was 19 years. The meth
ods used in the study were clinical interview and examination, measure
ment of bone mineral density (BMD) of the lumbar spine and the proxima
l femur with dual energy X-ray absorptiometry (DEXA) and estimation of
bone turnover with biochemical markers. The densitometric examination
revealed that the BMD at the lumbar spine was within the normal range
but grossly decreased in the femoral region. Moreover, there was a si
gnificant difference in BMD between patients with high (C2-T6) and low
(below T6) lesions in the lumbar spine as well as in the femoral regi
on. Patients with lower lesions had higher BMD values. The markers of
bone turnover which were studied were serum and urinary calcium and ph
osphate, serum alkaline phosphatase and its isoenzymes, osteocalcin, c
arboxyterminal propeptide of human type I procollagen (PICP), carboxyt
erminal telopeptide of type I collagen (ICTP) and urinary deoxypyridin
oline. These markers of bone metabolism showed no signs of ongoing acc
elerated bone formation or resorption. The present study suggests that
caution should be observed in weight bearing training or mobilisation
of patients with pediatric SCI or perhaps with long standing SCI beca
use of increased fracture risk. The prevention of dissociated osteopor
osis should be investigated further in order to avoid fractures of wea
kened bones. The modes of prevention might be found in the use of mode
rn pharmacotherapy of osteoporosis and from correctly dosaged physical
training.