Bd. Whelton et al., CD-109 METABOLISM IN MICE .4. DIET VERSUS MATERNAL STORES AS A SOURCEOF CADMIUM TRANSFER TO MOUSE FETUSES AND PUPS DURING GESTATION AND LACTATION, Journal of toxicology and environmental health, 40(4), 1993, pp. 531-546
The transfer of Cd-109 from dam to offspring during gestation and lact
ation was studied in uniparous mice. From 70 to 210 d of age and durin
g the subsequent reproductive period, young adult female mice received
drinking water containing tracer amounts of Cd-109 (8 ppb total Cd) a
nd nutrient-sufficient or -deficient solid diet containing stable Cd (
5 ppm Cd). The nutrient quality of the deficient diet was patterned af
ter that consumed by Japanese women who contracted itai-itai disease.
To evaluate established maternal stores as a potential source of cadmi
um transfer to pups, some dams were switched to water with no Cd-109 a
nd diet with an environmental or control level of cadmium (0.25 ppm Cd
) during the reproductive period. The resulting pups were analyzed for
Cd-109 at birth and at 7-d intervals throughout the lactation period.
Pop Cd-109 content at birth, representative of the amount transferred
via the placenta during gestation, accounted for less than 1% of the
total Cd-109 transferred during the full reproductive period. During l
actation, Cd-109 levels in pups from dams with current Cd-109 exposure
approximately tripled with each 7-d interval; no significant differen
ces occurred due to nutrient quality of the darns' diet. For 21-d-old
pups, 98% of the Cd-109 burden came from the diet of the dam, while on
ly 2% came from her tissue stores, primarily the hepatic one. Such fra
ctions represented a transfer per pup of about 0.01% of the oral Cd-10
9 dose ingested by the dam during the reproductive period and about 0.
05% of the Cd-109 in her tissue stores. Overall, transfer per litter a
mounted to about 7% of the dietary Cd-109 dose absorbed and retained b
y the dam during that interval and about 0.2% of the Cd-109 from tissu
e stores. On lactation d 21, 90% of the total Cd-109 in pups was seque
stered in the gastrointestinal tract. Cadmium transfer was additionall
y examined in multiparous mice that began a repetitive breeding progra
m at 70 d of age at the time of introduction to the same diet/water re
gimens already described. Overall, females consuming nutrient-sufficie
nt diet experienced 5 consecutive 42-d rounds of gestation/lactation,
while their deficient diet counterparts experienced 3 nonconsecutive r
ounds during an equivalent period. Transfer was examined during their
last gestation/lactation experience. Throughout the lactation interval
, Cd-109 transfer to pups was about 30% increased for multiparous vers
us uniparous females; however, transfer again was not significantly af
fected by nutrient quality of the darns' diet. About 0.02% of the Cd-1
09 dose ingested by the dam during the last reproductive round was tra
nsferred to each 21-d-old pup, while about 0.08% was transferred per l
itter; approximately 94% of pup whole-body Cd-109 was sequestered in t
he gastrointestinal tract. These results suggest that the itai factors
of multiparity and nutrient-deficient diet did little to increase the
small amount of cadmium transferred from Japanese mothers to young du
ring gestation and lactation and that this route of administration was
not a significant source of exposure.