Week 14 Notes - Fluoride PDF

Summary

This document provides notes on fluoride chemistry, toxicity, and effects, including sources, bone effects, and dental hygiene. It discusses the chemistry related to fluoride and details its effects on bones, teeth, and the body.

Full Transcript

Has the highest electronegativity and the second
highest electron affinity, making it highly reactive
with metals and H;
The most favorable metal reactions with fluoride
are aluminum, calcium, and magnesium,
the most stable compounds are aluminum, iron,
and beryllium;
biological significant CaF2 and MgF2 are highly
insoluble and precipitate
 Johnston NR, Strobe SA, Principles of fluoride toxicity
and the cellular response: a review Arch Toxicol. 2020
April ; 94(4): 1051–1069.

 Wei et all. Effect of Fluoride on Cytotoxicity Involved in
Mitochondrial Dysfunction: A Review of Mechanism.
Front Vet Sci. 2022 Apr 19;9:850771

 Kubota et all. Fluoride induces endoplasmic reticulum
stress in ameloblasts responsible for dental enamel
formation. J Biol Chem. 2005 Jun 17;280(24):23194-202
 Found in 296 different species of minerals
Free fluoride is present in the ocean at 1.2–1.4 ppm
(mg/L)
groundwater, particularly in volcanic or mountainous
areas, can contain as much as 50 mg/L
makes up about 1.5–3% of the final phosphate
fertilizers
emitted as fumes upon coal combustion
fluoride-accumulating plants: tomato, spinach, tea,
grapes, and elderberry.
 Replaces Ca in bone and teeth making them harder but more
rigid, brittle, and porous
Cavity prevention:
o Strengthen enamel AFTER its formation; acts from outside of the
tooth: i.e. saliva or mouth content (gels, toothpaste, mouthwash).
o Mild toxic for mouth bacteria
o Fluorosilicic acid (H2SiF6) is the most commonly used additive for
water fluoridation in the United States as is an inexpensive by-
product of phosphate fertilizer manufacture
o ameloblasts: growth-inhibition at low concentration →ER stress and
caspase-mediated DNA fragmentation; altered email production at
higher concentration → dental fluorosis!
o children exposed during enamel production (birth to 8-12 yoa) → dental
fluorosis!!!
o Inhibits metal-enzymes (e.g. known since 1889 about lipase )
30%–50% of proteins require metal cofactors), organelle
disruption, altered pH, and electrolyte imbalance
o cell proliferation may be stimulated at higher concentrations
o triggers oxidative stress, cell cycle arrest, and apoptosis.
o Increases generation of superoxide anions;
o Induces mitochondrial toxicity:
❖ decreased activity of mitochondrial enzymes,
❖ decreased mitochondrial protein expression,
❖ damage of respiratory chain,
❖ ER disorder of calcium regulation,
❖ → ↓ATP, accumulation of ROS, opening of the transition pore &release of
cytochrome c from mitochondria → apoptosis;
o Inhibit cell migration, e.g. of embryonic neurons and sperm;
o increases expression of inflammatory factors, e.g. IL-8 and
NF-kappaB
 Dental plaque is the cause of cavities
microbial imbalance,
sucrose (sugar),
acid pH,
long term adherence to the teeth

 Kashbour et all. Pit and fissure sealants versus
fluoride varnishes for preventing dental decay in
the permanent teeth of children and adolescents.
Cochrane Database Syst Rev. 2020 Nov 4;11
F not better (or worse) than modern crack sealants