Effect of propylthiouracil induced hypothyroidism in developing rat cerebellum: Comparison of cerebellar parameters in five day old normal and treated rat pups
Dk. Mwangi, Effect of propylthiouracil induced hypothyroidism in developing rat cerebellum: Comparison of cerebellar parameters in five day old normal and treated rat pups, E AFR MED J, 75(10), 1998, pp. 602-608
The effect of pre and postnatal hypothyroid environment on the development
of cerebellum in the rat pups was determined. Four groups of rat dams, name
ly control, Group I, II and III were treated with propylthiouracil (PTU) in
water for different length of time during pregnancy and nursing periods. T
he pups born from these dam groups were subsequently named after the corres
ponding dam group, namely control, Group I, II and III. General quantitativ
e results showed that pups from the treated dams had significantly lower (p
<0.05) body weights compared to control pups. Cerebella from five day old p
ups were taken and structural changes estimated using unbiased "design base
d" stereological methods, which have made it possible to investigate specif
ic qualities in the organ. The total volumes of cerebellum and intracerebel
lar nuclei were estimated using Cavalieri Principle. The mean total volume
of cerebellum and the mean total volume of intracerebellar nuclei were sign
ificantly lower (p<0.05) in all the pup groups (I, II,III) from the treated
dams compared to control pups from the control dams. The cerebellar volume
decreased in relation to the duration of treatment. The mean ratio of the
total volume of intracerebellar nuclei to volume of cerebellum was signific
antly increased (p<0.05) in Group III pups compared to control and Group I
pups. The mean numerical density of neurones in the intracerebellar nuclei
was nearly equal in all the pup groups except in Group III pups whereby it
was increased. The mean total number of neurones in Groups I and II pups wa
s reduced, but did not reach statistical significance. The mean numerical d
ensity of neuroglia in the intracerebellar nuclei was nearly the same in al
l the pup groups, the mean total number of glial cells was significantly re
duced (p < 0.05) in Groups I and II pups compared to control and the mean n
euron/glial ratio was increased in Group III pups compared to control and o
ther treated groups. Thus, the neuroglia appear to be more sensitive to hyp
othyroidism than neurons. The above results show that PTU-induced hypothyro
idism causes reduction in structural parameters in developing cerebellum an
d confirm that growth and maturation of the foetal cerebellum is dependent
on the maintenance of normal T-4 and T-3 levels in the pregnant dam and dev
eloping pups during pre and postnatal stages of development.