Skeletal fluorosis is caused by excessive fluoride intake over long periods of time. The main sources of fluoride are drinking water, tea, and indoor air pollution from burning coal. Fluoride is deposited in bones and teeth. At low levels it strengthens teeth and bones, but at high levels it leads to skeletal and dental fluorosis. Skeletal fluorosis causes bone and joint pain and stiffness, and if severe, bone deformities and crippling. It is a major public health problem affecting millions in India, China, and other parts of Asia and Africa. Reducing fluoride intake and ensuring adequate calcium and vitamin D can help prevent and treat skeletal fluorosis.
2. Fluorine
• Fluorine is the most abundant element in nature, and
about 96% of fluoride in the human body is found in
bones and teeth.
• Fluorine is essential for the normal mineralisation of
bones and formation of dental enamel?????
• The NRC estimates, for instance, that the biological
half-life of fluoride in bone (the time for half of it to be
removed) is as long as 20 years.
• The principal sources of fluorine was drinking water
and food such as sea fish, cheese and tea.
• The recommended level of fluoride in drinking water in
India is 0.5 to 0.8 mg/l
3. Common causes of fluorosis
• Consumption of fluoride from drinking water in
India.
• Ingestion of contaminated food grains by burning
coal as an indoor fuel source, a common practice
in China.
• Consumption of fluoride from the drinking of
poor-quality pu-erh tea (brick tea) is reported to
cause fluorosis in Tibet and China.
• Inhalation of fluoride dusts/fumes by workers in
Aluminium industry.
4. Fluorosis in China
• In China -burning coal with a non-chimney
stove → fluoride released in large quantity →
polluting indoor air → polluting stored crop
(mainly corn and chili) → ingestion into body
→ fluorosis.
5. Fluorosis - World
• Fluorosis is a public health problem in 24
countries, including India, which lies in the
geographical fluoride belt that extends from
Turkey to China and Japan through Iraq, Iran
and Afghanistan.
• Estimated total population consuming
drinking water containing elevated levels of
fluoride is over 66 million in India.
6. Five Global Belts
• Belt 1: Turkey, Syria, Jordan, Egypt, Sudan, Somali,
Ethiopia Kenya, Tanzania, Mozambique + South
Africa.
• Belt 2: Egypt , Libya , Algeria , Morocco , Western
Sahara, Mauritania.
• Belt 3: Turkey, Iraq, Iran, Afghanistan, Pakistan,
India, North Thailand, (parts of) China.
• Belt 4: Sierra Nevada, USA Rocky Mountain, Central
America, Colombia, Peru, Bolivia, Andes Mountains.
• Belt 5: Japan, Philippines, Volcanic Indonesia.
7.
8. Fluoride levels
• The safe level of fluoride is standardized to 0.5
mg/L and 1.0 mg/L, respectively as the
desirable and maximum allowable
concentrations in drinking water.
• The literature contains a wide range (0.008–
0.045 ppm) of reported normal plasma
fluoride concentrations.
9. Fluoride
• More than 90 % of the ingested fluoride is
absorbed from the gut.
• Approximately 50 % of the fluoride absorbed
is deposited in the bones and teeth. The
remaining is excreted in urine.
10. Fluoride
• About 99 % of the fluoride retained in the
body is stored in the
• mineralized bones and teeth on account of its
affinity for calcium phosphate. Its effects on
bones and teeth only are of clinical
importance influencing their mineralisation,
structure, functions and development.
• Fluoride ions are taken up rapidly by bone by
replacing hydroxyl ion in bone.
11. Fluoride
• Fluoride is a bone seeker and its incorporation
into hydroxyapatite, i.e. the spot wise
production of fluoroapatite, alters the size and
the structure of the bone crystals.
12. Fluoride
• The fluoroapatite crystals are larger in size; offer
less surface exchange, less soluble, more stable
and less reactive to the actions of parathyroid
hormone.
• The toxic effects are more severe in children with
growing bones, women with children with their
depleted bone and mineral reserves and in
labourers with excessive drinking of water that
can be up to 6 to 8 litres in summer.
13. Fluoride
• Continuous daily intake of 2.5 mg of fluoride
for more than 6 months deposits 4000-6000
mg/kg of fluoride and causes detectable
radiological changes of fluorosis. About 100
million people in India are affected and more
than 200 million are exposed to the risk of
developing endemic fluorosis.
14. mechanism of fluorosis
• The fluoride incorporation into the bone hydroxyapatite,
altering the size and structure of its crystals.
• The fluoroapatite formed decreases the mechanical
competence of the bone, resulting in abnormal structure
and poor quality of bone, with increased risks for fractures.
• Rickets, osteomalacia, secondary hyperparathyrodism and
regional osteoporosis are often associated with skeletal
fluorosis.
• The bone diseases and deformities are more severe and
complex in patients with dietary calcium and vitamin-D
deficiencies.
15. Fluorosis – Indian States
• 15 States in India are endemic for fluorosis
(fluoride level in drinking water >1.5 mg/l).
• Worst affected – Rajasthan, Gujarat, &
Andhra.
• Moderately affected - Punjab, Haryana,
Madhya Pradesh and Maharashtra.
• Mildly affected - Tamil Nadu, West Bengal,
Uttar Pradesh, Bihar and Assam.
16. Fluorosis is endemic in 20
states out of the 35 states.
70-100% districts are
affected in Andhra Pradesh,
Gujarat and Rajasthan.
40-70% districts are
affected in Bihar, New
Delhi, Haryana, Jharkhand,
Karnataka, Maharashtra,
Madhya Pradesh, Orissa,
Tamil Nadu and Uttar
Pradesh
10-40% districts are
affected in Assam, Jammu
& Kashmir, Kerala,
Chhattisgarh and West
Bengal.
17. Radiological features:
• The earliest radiological findings appear within six
mouths of continuous exposure to high intakes of
fluoride and include periosteal and endosteal
reactions, coarse axial trabcculations and osteopenia in
the metaphyseal regions, sclerosis, and modelling
abnormalities of the epiphyses, carpal and other bones
of the hand, more particularly observed in growing
children.
• The incidence of spinal osteoporosis is significantly low
and of osteomalacia and secondary hyperparathyroid
bone disease significantly higher in women residing in
endemic fluorosis villages.
18. Biochemical Markers:
• Plasma calcium, magnesium and phosphorus
remain normal,
• Alkaline phosphatase and fluoride levels are
elevated.
• Serum parathyroid hormone levels are always
raised as a compensatory mechanism to maintain
extracellular ionised calcium equilibrium
consequent to decreased solubility and reactivity
of fluoroapatite crystals, fluoride induced
osteomalacia and dietary calcium deficiency.
19. Biochemical Markers:
• Osteocalcin, Calcitonin and (1,25 (OH)2D3)
concentrations are increased or high normal.
• Pituitary, thyroid, adrenal and gonadal functions
remain unaltered and serum growth hormone
levels are variably increased.
• Twenty-four hour urinary excretions of fluoride
and of hydroxyproline are increased and of
calcium and magnesium are decreased or low
normal. Renal functions remain unaltered.
20. Bone scanning and densitometry
• 99mTC dl-phosphonate bone scanning revealed
nonspecific appearance of generalized increased tracer
uptake throughout the skeleton.
• Greater uptake is observed in axial skeleton with tie
sternum sign, patella sign and faint kidney images,
diagnostic of compensatory secondary
hyperparathyrodism with high bone turnover.
• The DXA bone densitometric measurements of lumber
spine (L1-L4) showed increased BMD 1.12 ± 0.04 g/cm2
in patients of endemic skeletal fluorosis as compared
to matched normal controls 0.78 ± 0.03 g/cm2.
21. Bone histopathology and
histomorphometry:
• Histopathological studies of undecalcified iliac
crest biopsies revealed poorly formed haversian
systems, disordered lamellar orientation of the
bone and the new bone formed is immature,
woven, amorphous and hypomineralized.
• There is an increase in bone surfaces lined with
wide osteoid seams associated with increased
bone re-sorption. These findings suggest
occurrence of osteomalacia with secondary
Hyperparathyroidism in patients with endemic
skeletal fluorosis.
22. Bone quality
• Bone quantity in skeletal fluorosis is increased at the
cost of bone quality, which increases the risk for
fracture.
• True fractures are extremely rare and occurred in less
1.5 percent of our cases.
• Pseudo-fractures appeared in more than 35% of the
patients with endemic skeletal fluorosis, more
particularly in women of child bearing age.
• The rare occurrence of true fractures and of spinal
osteoporosis may be due to associated osteomalacia
consequent to chronic exposure to fluoride.
23. Fluorosis, Goiter, & Renal Stones
• In the community with endemic fluorosis,
goiter and stone disease were practically non-
existent. In the community with endemic
goiter, fluorosis was non-existent and the
stone disease was sporadic. In the community
with endemic renal stone disease, the
prevalence of goiter was sporadic and
fluorosis was practically non-existent.
24. Fluorosis, Goiter, & Renal Stones
• A positive correlation existed between the
occurrence of stone disease, water hardness
and its calcium content. In endemic fluorosis
villages water analysis showed higher the
fluoride, higher the iodine, higher the
alkalinity and softer the water. In the areas
endemic for goitre lower the iodine and lower
was the fluoride in the drinking water.
25. Clinical recovery
• Clinical recovery occurred in more than 85%
with mild to moderate severity within 1-5
years after the exposure to fluoride is ceased
and treated with calcium and vitamin D.
• In severe cases clinical recovery was slow and
took 5-15 years for satisfactory clinical and
occupational recovery after the exposure to
fluoride is ceased and treated with calcium,
vitamin D and appropriate physiotherapy.
26. Clinical recovery
• The radiological reversibility in radiographs of the
pelvis, spine, chest and hands showed that the
trabecular sclerosis in all the films was slowly
reduced.
• The urine showed persistent increase in the
excretion of calcium. The cortical thickness and
sclerosis, calcifications of ligaments, muscular
attachments, tendons, capsules and of
interosseous membrane essentially remained
unchanged.
27. Reversibility
of ESF in 15
years old
girl 9
months
after
exposure to
fluoride is
ceased and
treated
with vit-D
and
calcium.
29. Reversibility of ESF in 18 years old boy 8 years after exposure
to fluoride is ceased and treated with vit-D and calcium.
(A) Before Treatment (B) After Treatment
30. Prevention
• The most illustrious and practical example is of Sri
Sathya Sai Project for the safe drinking water
supply, which has controlled fluorosis from more
than 1,000 villages in district Ananthpur of the
state of Andhra Pradesh, using deep bore water
technology.
• The use of more than 100 m deep bore water
supply is able to provide water with fluoride less
than 1mg/L, low alkalinity and normal or high
normal calcium contents and this could play a
master role in the control of endemic fluorosis.
31. Calcium and vitamin D supplements:
• Calcium is the strongest antagonist of fluoride toxicity. The
toxic effects of fluoride on bones and teeth are more
severe and complex in dietary calcium deficiency states.
• Calcium deficiency and fluoride interaction syndrome of
bone disease and deformities are more severe and complex
in growing children, adolescents, pregnant and lactating
mothers, because of the greater demands for calcium in
these groups.
• Adequate intakes of calcium to maintain the positive
calcium balance to counteract the toxic effects of fluoride is
therefore essential for the population residing in endemic
fluorosis villages.
32. Dental Fluorosis
• There is no conclusive evidence proving that
fluoride is an essential nutrient for human
health.
• The widely propagated dental caries
protection effect of fluoride is erroneous and
has not been supported by long-term control
double blind scientific investigations on a large
cross-section of population.
33. Dental Fluorosis
• The decline in the incidence of dental caries in
fluoridated areas, in fact has resulted due to
simultaneously increased dental health
facilities, increasing number of dental clinics
and hospitals, besides education and rising
community awareness on 1) oral health and
hygiene, 2) calcium and vitamin D nutrition,
and 3) the deleterious effects of excess
consumption of the sugary and starchy foods
on dental health.
34. Dental Fluorosis
• Tooth enamel is principally made up of
hydroxyapatite (87%) which is crystalline calcium
phosphate.
• Fluoride which is more stable than
hydroxyapatite displaces the hydroxide ions from
hydroxyapatite to form fluoroapatite.
• Fluorosis of dental enamel occurs when excess
Fluoride is ingested during the years of tooth
calcification-essentially during the first 7 years of
life.
35. Dental Fluorosis
• 1890 - "Tanagra", first Calcium Fluoride
containing toothpaste, sold by Karl F. Toellner
Company, of Bremen, Germany.
• Fluoride toothpastes developed in the 1950s
received the ADA's approval.
• In 1955, Procter & Gamble's Crest launched its
first clinically proven fluoride-containing
toothpaste.
36. Children under 6 years of age should have adult supervision.
Use only a pea sized amount.
Do not swallow.
Directions for use in children
37. Dental Fluorosis
• It is characterised by mottling of dental enamel, which
has been reported at levels above 1.5 mg/L intake.
• On prolonged continuation of this process the teeth
become hard and brittle.
• Dental fluorosis in the initial stages results in the tooth
becoming coloured from yellow to brown to black.
• Depending upon the severity, it may be only
discolouration of the teeth or formation of pits in the
teeth. The colouration on the teeth may be in the form
of spots or as streaks.
40. Skeletal Fluorosis
• Exposure to very high fluoride over a
prolonged period of time results in acute to
chronic skeletal fluorosis.
• Crippling skeletal fluorosis might occur in
people who have ingested 10 to 20 mg of
fluoride per day for over 10 to 20 years.
41. Skeletal Fluorosis
• Early stages of skeletal fluorosis start with pain
in bones and joints, muscle weakness,
sporadic pain, stiffness of joints and chronic
fatigue.
• During later stages, calcification of the bones
takes place, osteoporosis in long bones, and
symptoms of osteosclerosis where the bones
become denser and develop abnormal
crystalline structure.
42. Skeletal Fluorosis
• In the advanced stage the bones and joints
become completely weak and moving them is
difficult.
• The vertebrae in the spine fuse together and the
patient is left crippled which is the final stage.
• Neurological symptoms developed in the form of
radiculopathy or myelopathy due to mechanical
compression of the spinal card any multiple level.
43. Severity classification of skeletal fluorosis by Teotia et al:
Mild:
Clinical: Generalised bone and joint pains. Radiology: Only osteosclerosis.
Moderate:
Clinical: As above + Stiffness, rigidity and restricted movements at spine and
joints. Radiology: As above + Periosteal bone formation, dense cortex, loss of
trabecular pattern, calcifications of interosseous membrane and ligaments.
Severe:
Clinical: As above + Flexion deformities at spine and joints (hips, knees, elbows,
hands), features of metabolic bone disease. Radilogy: As above +
Osteophytosis, exostoses, Calcification of muscular attachments, tenons and
capsules.
Very Severe:
Clinical: As above + Crippling deformities, neurological complications (radicular
pains, muscle wasting, compression rediculo-myelopathy at cervical and
lumbar regions, paraplegia, quadriplegia) and bed-ridden state.
Radiology: As above + Metabolic bone disease (osteomalacia, pseudofractures,
osteoporosis, hyperparathyroid bone disease), Calcification of neural arch and
narrowing of spinal canal and intervertebral foramina.
44. Drinking water - fluorination
• More than 150 million people in the U.S. drink
fluoridated water.
• 50 cities or towns in USA have withdrawn
fluoride from supplies since 1990.
• Their legal limit, of four parts per million - is
four times our legal limit.
45. Drinking Water - Fluorination Banned
• Fewer than 2 per cent of Europe's population
have fluoridated water. Last year the Belgian
government outlawed the sale of fluoride tablets
and chewing gum.
• This was based on fears that it might increase the
risk of osteoporosis.
• France, Italy, Germany, Sweden, Denmark and
Holland have also rejected mass water
fluoridation.
• There has also been mounting opposition to it in
Ireland.
46. Fluoridation Linked To:
• Dental Fluorosis: Almost half of people drinking
fluoridated water at permissible levels, one part
per million, exhibit dental fluorosis. White and
brown spots appear on the enamel of the teeth -
causing an unsightly 'mottled' effect.
• This is the first sign that fluoride has poisoned
enzymes in the body. Some dentists
understandably question the wisdom of
preventing dental disease in one in six people,
only to cause it in one in two.
47. Fluoridation Linked To:
• Skeletal Fluorosis: - symptoms include pains in the
bones and joints, muscle weakness and gastrointestinal
disorders - may occur in people who have ingested 10-
20mg of fluoride per day for 10 to 20 years (equivalent
to 2.5-5 mg per day for 40-80 years). In the most
severe cases, the spine becomes completely rigid.
• Osteoporosis: Although fluoride exposure results in
denser bones, the bone appears to be weaker than
normal bone. Scientists in America have reported that
fluoride in strengths as little as 1 part per million
decreases bone strength and elasticity.
48. Fluoridation Linked To:
• 1992, a study of elderly patients in Utah found 'a small but
significant increase' in the risk of hip fracture in both men and
women.
• 1992, a study by the New Jersey Department of Health in the U.S.
found a strong link between fluoridation and osteosarcoma in
young males. They reported that osteosarcoma rates were three to
seven times higher in fluoridated areas than non-fluoridated areas.
• This disease is routinely found to be more common in males than in
females due to it’s interfere with the testosterone.
• Kidney Stones: 4.6 times more common in an area with high
fluoride (3.5 to 4.9 ppm) than in a similar area without high
fluoride.
• Moreover, in the high fluoride area, the prevalence of kidney stones
'was almost double in subjects with fluorosis than without
fluorosis‘.
49. Case report
• A 45 female from Kota Rajasthan.
• Obese, Peri-menopausal, Hypothyroid, &
Hypertensive.
• C/o – chronic backache for last 2 years,
cramps, leg pains, parasthesia Rt > lt.
• Claudication distance about 10 meters, can
stand for 5 minutes.
• No bladder problem.
50. Case report – cont….
• On Exam – Spinal movements were limited.
• SLRT – negative.
• Hips, Knees, and Ankle movements normal.
• All deep jerks were brisk.
• Planter reflex equivocal.
• Can stand and walk on heels and toes.
• Referred to Neurologist for possible
myelopathy.
51. Case report – cont….
• X-ray of Chest.
• X- Both fore arms - AP
• MRI of Dorsal and Lumbar Spine.
• CBC, serum Creatinine, TSH, PTH, Ca, Alk Po4,
Urine routine.
52.
53.
54.
55.
56.
57.
58.
59.
60.
61.
62. Treatment
• Calcium.
• Vitamin D.
• Vitamin C.
• Use of tape water/ river water, deep well.
• Use of water filter.
• Physiotherapy
• Continuous follow ups.
63. DISCLAIMER
• Information contained and transmitted by this presentation is
based on personal experience and collection of cases at Choithram
Hospital & Research centre, Indore, India.
• Some representative x-rays & text have taken from an article
“Highlights of Forty Years of Research on Endemic Skeletal
Fluorosis in India - S P S Teotia *, M Teotia and K P Singh, India.
• It is intended for use only by the students of orthopaedic surgery.
Views and opinion expressed in this presentation are personal
opinion. Depending upon the x-rays and clinical presentations
viewers can make their own opinion. For any confusion please
contact the sole author for clarification. Every body is allowed to
copy or download and use the material best suited to him. I am not
responsible for any controversies arise out of this presentation. For
any correction or suggestion please contact naneria@yahoo.com