Abstract
Female mice were fed a low fluoride diet (0.1 to 0.3 ppm fluoride) plus drinking water containing 0, 50, 100 or 200 ppm fluoride as sodium fluoride. Toxic effects of fluoride were evidenced by retarded growth and impaired reproduction in mice with intakes of 100 and 200 ppm fluoride, and the higher level resulted in a high mortality rate (50% deaths in 5 weeks). Mice with a low fluoride intake developed signs of fluorine deficiency, with a progressive development of infertility in two successive generations. Growth rate and litter size were not affected by the low fluoride intake, but the percentage of mice producing litters was lower, and the age at delivery of the first litter was greater than in mice receiving 50 ppm fluoride.
-
-
Fluoride exposure arrests the acrosome formation during spermatogenesis via down-regulated Zpbp1, Spaca1 and Dpy19l2 expression in rat testes.
Highlights Fluoride alters the ultrastructure of acrosome and arrests acrosome formation during spermatogenesis. Fluoride down-regulates the expressions of ZPBP1, SPACA1 and Dpy19L2 during acrosome biogenesis in testis. Fluoride alters the ultrastructure of the nuclear lamina, and reduces LMNB2 expression in testis. The exposure and health effects of fluoride are an ongoing
-
Fluoride reduced CRISP 2 expression in testis and epididymal sperm of rats.
Fluorine, an active element which is widely distributed in the environment, has been demonstrated to have adverse effects on male reproductive systems at a high dose. The objective of the present study was to explore the key role of cysteine-rich secretory protein (CRISP)2 in fluoride-induced male reproductive toxicity by investigating,
-
Fluoride interferes with sperm fertilizing ability via downregulated SPAM1, ACR and PRSS21 expression in rat epididymis.
Fluoride is a widespread environmental pollutant which can induce low sperm quality and fertilizing ability, however, the underlying mechanism is still remaining unclear. Hence, we aimed to investigate the influence of fluoride on sperm fertilizing ability via some key proteins in epididymis. For this, forty adult rats were assigned randomly
-
Maternal fluoride exposure, fertility and birth outcomes: The MIREC cohort.
Abstract Objective : Fluoride exposure >1.5 mg/L from water has been associated with adverse pregnancy and birth outcomes. Little is known, however, about the effect of fluoride at levels consistent with water fluoridation (i.e., 0.7 mg/L) on pregnancy and birth outcomes. We examined the relationship between maternal fluoride exposure, fertility, and birth
-
Ameliorative effects of reduced food-borne fluoride on reproduction in silver foxes
Reduction of ingested fluoride in a skulk of silver foxes resulted in the reduction of fluoride burden, decreased neonatal mortality and increased kit production during a two breeding and whelping season period.
Related Studies :
-
-
-
Fluoride's Effect on Male Reproductive System -- The "Sprando/Collins" Anomaly
In contrast to the findings of over 60 animal studies from other research teams, a series of studies by FDA researchers Sprando & Collins reported virtually no evidence of reproductive toxicity among animals treated with very high levels of fluoride exposure. The reasons for this discrepancy remains unclear. Excerpts from Sprando/Collins' Studies: "This study
-
Fluoride's Effect on Male Reproductive System: Animal Studies
Over 60 studies on animals (including rats, mice, roosters, and rabbits) have found that fluoride adversely impacts the male reproductive system. These studies have repeatedly found the following effects: (1) decreases in testosterone levels; (2) reduced sperm motility; (3) altered sperm morphology; (4) reduced sperm quantity; (5) increased oxidative stress; (6) and reduced capacity to breed.
-
Fluoride's Effect on the Male Reproductive System -- In Vitro Studies
Carefully controlled in vitro studies have found that direct exposure of fluoride to the testes or semen inhibits testosterone production and damages sperm. While researchers have known since the 1930s that mega concentrations of fluoride can completely (but reversibly) immobilize sperm, it was not until the 1970s and 1980s that researchers found that relatively modest concentrations of fluoride could cause damage prior to complete immobilization.
-
Fluoride's Effect on Male Reproductive System - Human Studies
Consistent with in vitro and animal research, studies of human populations have reported associations between fluoride exposure and damage to the male reproductive system. Most notably, a scientist at the Food & Drug Administration reported in 1994 that populations in the United States with more than 3 ppm fluoride in their water had lower "total fertility rates" than populations with lower fluoride levels.
Related FAN Content :
-