P. Aspenberg et al., NO EFFECT OF GROWTH-HORMONE ON BONE-GRAFT INCORPORATION - TITANIUM CHAMBER STUDY IN THE NORMAL RAT, Acta orthopaedica Scandinavica, 65(4), 1994, pp. 456-461
A recent series of publications reported greatly improved mechanical p
roperties and increased callus size during the late stages of fracture
healing in normal (not hypophysectomized) rats after twice daily inje
ctions of growth hormone (GH). We tested whether GH could enhance the
incorporation of bone allografts in a new experimental model where we
have demonstrated an increase in bone allograft incorporation by local
application of basic fibroblast growth factor (bFGF). Cylinders of de
fatted allogeneic cancellous bone were placed as grafts in titanium Bo
ne Conduction Chambers in the tibiae of female rats. Only one end of t
his chamber is open for tissue ingrowth. This permits us to measure th
e distance into the graft that new bone penetrates after entering the
chamber. We injected 10 rats with 1.5 IU per rat of subcutaneous human
recombinant GH twice daily for 6 weeks and another 10 rats with simil
ar doses of sterile normal saline. GH caused a constant increase in th
e rate of weight gain and in the serum concentration of Insulin-like G
rowth Factor 1 (IGF 1). Tibiae became longer and the ash weight of the
second tail vertebra was increased. We also noted an increased joint
cartilage thickness. There was no difference in the amount of new bone
that had penetrated and replaced parts of the graft in GH-treated or
control rats and this was also the case with TcMDP activity of bone sa
mples from both groups. New bone forms in the grafts by membranous (me
taplastic) ossification. It appears that the effects of excessive GH s
timulation on endochondral and membranous ossification in this model a
re markedly different.