Copper &
Compunds
Edouard Bastarache
discusses the dangers of copper.
Introduction :
This
metal is red, brownish, ductile and malleable, and has excellent
electrical and thermal conductivity. Copper is an essential element;
it is transported in the serum linked to ceruloplasmin.
The compounds used by potters are :
- black copper oxide,
- red copper oxide,
- copper carbonate.
Sources and Production :
I-Chemical Forms :
Copper forms two (2) series of compounds :
copper (I) (cuprous) and copper (II) (cupric) compounds.
Metallic copper is fairly resistant to corrosion and is not attacked
by dry air, water, or nonoxidizing acid.
Copper I oxide (Cu2O) occurs naturally as the reddish mineral cuprite.
Copper II oxide is black and is obtained by heating copper metal
in air.
In moist air, copper becomes coated with green basic carbonate.
II-Uses and Sources of Exposure :
Copper was the first metal used by humans and appears to have been
discovered on the island of Cyprus around 2500 BC.
Copper salts have been used therapeutically for more than 2,000
years, copper sulfate has clinically been used as an emetic, and
it was also a popular murder weapon and abortifacient in France
in the 19TH century.
Chile, the USA, Canada, and Russia are the principal producers.
Mined ores of copper are concentrated by a flotation process and
then are refined. Smelting consists of applying sufficient heat
to concentrate the metal and fuse remaining gangue (waste ore) into
slag.
A-Uses :
Copper is used :
- in the production of a large variety of alloys having multiple
applications ;
- brass: contains mainly copper and zinc,
- bronze: contains mainly copper and tin,
- various alloys with silver, cadmium, beryllium, nickel...
- in the electrical industry;
- in the construction industry: gas lines...
- in pigments such as emerald green, in ceramic glazes, and as
a salt in the lithographic process.
-as pesticides (seeds and vineyards) in the form of salts, like
the Bordeaux solution based
on copper sulfate.
-copper sulfate is also used in the whitewashing and leather industry.
-etc.
B-Environmental exposure :
It occurs primarily from ingestion of drinking water with high
copper concentrations and accidental or intentional ingestion of
copper salts.
Clinical Toxicology :
I-Routes of exposure :
Copper is an essential element in mammalian systems. Ilness occurs
when diet is deficient or intake is excessive.
The principal route of exposure is through ingestion, but inhalation
of copper dust and fumes occurs in industrial settings.
Toxicity has resulted from treatment of burns using topical copper
compounds.
Copper has been reported to be absorbed internally from prostheses,
intrauterine devices, hemodialysis units using copper-containing
equipment, and copper azide impregnation of the skin after an explosion.
II-Absorption, Metabolism, and Elimination :
A-Absorption :
The daily copper requirement has been estimated at 30 micrograms/kg
of body weight for an adult. After ingestion, maximum absorption
of copper occurs in the stomach and jejunum.
Copper is bound initially in the serum to albumin and transcuprein,
then later is bound more firmly to ceruloplasmin, which binds more
than 75% of circulating copper.
Absorption is increased in copper deficiency and is impaired in
small-bowel disease.
Copper is distributed throughout the body but is stored primarily
in liver, muscle, and bone.
The normal concentration of copper in blood plasma is 1 mg/liter.
In all mammals, copper is an essential trace element involved in :
-fundamental cellular respiration,
-free radical defense,
-connective tissue synthesis,
-iron metabolism,
-neurotransmission.
B-Metabolism :
Absorbed copper is initially bound to albumin and is transported
from the gastrointestinal tract to the liver where it is transferred
to ceruloplasmin.
Urinary excretion is enhanced by increased molybdenum intake, cirrhosis,
and biliary obstruction.
C-Elimination :
Copper is eliminated principally through the feces after excretion
into the bile. Urinary excretion of copper is low in humans.
Healthy adults have urinary concentrations of less than 100µg per
24 hours.
III-Symptoms and Clinical Signs :
A-Acute Toxicity :
1-Gastrointestinal Tract :
Because copper is an essential element, toxicity is uncommon, as
with all essential elements.
Most reports of acute toxicity are from suicidal attempts from
ingesting copper sulfate. However, death is rare, owing to copper
sulfate's emetic properties :
a-Mild forms
Mild forms of poisoning produce only :
- nausea,
- vomiting,
- diarrhea,
- malaise.
They have been described in patients poisoned by eating or drinking
from copper-containing vessels or from a soft-drink dispenser.
b-Severe poisoning :
Copper sulfate ingestion produces a severe inflammation of the
gastrointestinal tract, an amount of 10 g of the sulfate is sufficient
to cause these gastrointestinal symptoms :
- -pain,
- -nausea,
- -vomiting,
- -diarrhea,
- -malaise,
- -hematemesis,
- -melena,
Also, the following are encountered :
- -convulsions,
- -dehydration,
- -shock,
- -hemolysis,
- -liver and kidney necrosis.
Patients who developed intense jaundice from liver centrolobular
necrosis after massive acute copper sulfate poisonning had a more
fulminant course than did patients with milder jaundice from intravascular
hemolysis.
The oxydule or the basic carbonate can also cause the intoxication
at the same dose.
Gastrointestinal effects, including anorexia, nausea, and occasional
diarrhea, have been attributed to swallowing copper dust.
2-Eye :
Chalcosis corneae is the impregnation of the eye with elemental
copper or copper alloys. This brownish or greenish-brown discoloration
of the cornea, lens, or iris may occur after penetrating injuries
with copper fragments.
Copper sulfate, copper acetoarsenite, and verdigris cause irritation
and inflammation but no permanent damage.
Copper chloride and copper cyanide plating bath can cause severe
reactions and permanent opacifications.
Transient irritation of the eyes has followed exposure to a fine
dust of oxidation products of copper produced in an electric arc.
3-Respiratory Tract :
Typical metal fume fever is characterized by :
- -nasal congestion,
- -fever up to 39 C,
- -chills,
- -malaise,
- -aching muscles,
- -dryness in the mouth and throat,
- -headache,
- -shortness of breath,
- -leucocytosis up to 12,000 to 16,000.
The symptoms generally develop after repeated exposure during
the work week, tending to diminish toward the end of the week, only
to return more prominently on reexposure after the weekend. This
phenomenon has led to the term Monday morning fever.
All symptoms resolve after removal from exposure.
The illness is postulated to result from immune mechanisms, but
no report of chronic toxicity.
Inhalation of copper salts may cause irritation of the respiratory
tract.
Inhalation of copper fumes may cause nausea, metallic taste, and
discoloration of the skin and hair.
4-Renal System :
Kidney abnormalities have been observed after copper sulfate ingestion.
Hematuria, rising blood urea nitrogen, and oliguria were frequently
observed in a large series of poisonnings. A picture of acute tubular
necrosis was observed on urinalysis and renal biopsy.
Intravascular hemolysis but not hypertension, preceded developement
of acute tubular necrosis.
5-Neurologic System :
No evidence substantiates neurologic injury from acquired copper
toxicity.
Coma observed in acute copper sulfate poisoning probably results
from uremia.
6-Hematologic System :
Hemolytic anemia accompanies severe copper sulfate poisoning and
additionally follows burn treatment with copper sulfate and hemodialysis
using copper-containing dialyzing equipement.
Hemolytic anemia also occurs sporadically in Wilson’s disease,
the hemolysis is precipitous in these situations.
B-Chronic Toxicity :
In rats, degenerative modifications in the liver and the kidney
have been described in animals receiving, in a chronic manner, copper
salts by ingestion (more than 4,000 ppm in foodstuffs).
In man, the same modifications (eventually accompanied by encephalopathy)
have been described mainly in patients suffering from Wilson's disease.
Chronic disease from excessive copper storage is epitomized by Wilson’s
disease, an inherited, autosomal recessive error in copper metabolism.
This disease is characterized by excess copper deposition in most
organs, especially the liver, kidneys, brain, and eyes.
It is characterized by a diminished capacity to eliminate copper
via bile.
Wilson’s disease also termed hepatolenticular degeneration,
owing to the prominent effects on the liver (cirrhosis) and eye.
Chelating treatment with D-penicillamine gives excellent therapeutic
results while the preferred maintenance treatment is 150 mg of zinc
orally per day.
High copper content in drinking water and food may contribute to
the development of severe liver damage (cirrhosis) in infants.
1-Skin :
Copper causes a greenish coloration of skin, nails, hair and teeth.
Contact dermatitis (copper itch) due to copper is rare and its
occurrence can be substantiated by careful patch testing.
Eczematous dermatitis and urticaria have been associated with the
use of copper intrauterine devices.
2-Eye :
The penetration of copper particles in the eye was responsible
for cataract.
3-Respiratory System :
Chronic recurrent inhalation of copper fumes and dust can lead
to nasal septal perforation
Chronic exposure to copper dust and fumes in the industrial setting
can lead to upper respiratory complaints and physical findings in
workers.
Long-term exposure to dust in copper refining was not associated
with chronic obstructive disease or small airway disease.
The higher incidence of respiratory cancer reported in copper smelters
is due to the presence of arsenic in the ore.
4-Vineyard Sprayer’s lung :
Vineyard sprayer’s lung disease occurred when Bordeaux solution
(1 to 2% solution of copper sulfate neutralized with lime) was chronically
sprayed by Portuguese vineyard workers.
These workers developed interstitial pulmonary disease including :
- -histiocytic granulomas,
- -associated nodular fibrohyaline scars containing abundant copper.
The clinical picture is characterized initially by general symptoms :
- weakness,
- loss of appetite,
- loss of weight;
- dyspnea and cough.
Micronodular or reticulonodular lung infiltration, especially in
the lower fields, is the most frequent radiological image encountered.
The evolution is variable: stabilization or regression or evolution
towards a pseudotumoral form as in arthracosilicosis.
A high incidence of adenocarcinoma, particularly alveolar cell
carcinoma, was observed.
Extensive liver damage was also noted. Biopsies revealed fibrosis,
micronodular cirrhosis angiosarcoma, and portal hypertension.
C-Teratogenesis :
No teratogenic effects attributed to copper have been observed
in humans.
D-Carcinogenesis :
With the exception of adenocarcinoma of the lung and angiosarcoma
of the liver seen in patients with vineyard sprayer’s lung, no evidence
corroborates carcinogenesis from copper exposure.
IV-Management of Toxicity :
A-Clinical Examination :
Careful history taking is essential to diagnose copper poisoning
in acutely ill patients.
The history should contain questions relevant to intentional poisoning
with copper salts and to ingestion of food and drink, especially
acidic beverages or alcohol prepared in copper-containing vessels.
Persons acutely poisoned by copper (especially copper sulfate) should
be evaluated initially for nausea, vomiting, and diarrhea. Blue-green
vomitus is diagnostic.
Investigation for abnormal liver and renal function and hemolytic
anemia should be conducted.
Vital signs and urine output should be conducted for hypotension
and oliguria.
The medical history is also cornerstone of investigating dermatits
suspected to arise from copper. Inquiry as to exposure to copper
salts at work, use of copper-containing jewelry, or use of copper
intrauterine device should be conducted. Patch testing may be necessary
to confirm the diagnosis.
A history of delayed onset of fever, chills, shortness of breath,
and malaise after exposure to copper fumes should lead to the suspicion
of metal fume fever. Fever, rigorous chills, diaphoresis, and wheezing
may be noted on physical examination.
B-Laboratory Diagnosis :
1-Severe copper sulfate poisoning :
Laboratory findings in severe copper sulfate poisoning include :
- -abnormal hepatocellular function,
- -hyperbilirubinemia (both direct and indirect),
- -elevated blood urea nitrogen,
- -elevated creatinine,
- -hematuria and cellular casts on urinalysis,
- -anemia,
- -positive stool guaiac,
- -elevated serum copper,
- -elevated ceruloplasmin.
2-Metal fume fever :
Findings during episodes of metal fume fever include :
- -leukocytosis,
- -abnormal pulmonary function study results :
- -small airway obstruction,
- -reduced lung volumes,
- -reduced carbon dioxide diffusing capacity.
- -abnormal chest X-ray :
- -peribronchiolar cuffing,
- -hazy infiltrates.
- -elevated urine copper levels.
C-Treatment :
Removal from exposure is often sufficient to resolve most ilnesses
associated with copper toxicity.
1-Severe acute poisoning by ingestion :
In severe acute poisoning by ingestion, emesis should not be induced
and rarely is necessary, owing to spontaneous vomiting.
Dilution with 4 to 8 ounces of milk or water is indicated after
ingestion or prior to gastric lavage. After any seizure activity
is controlled, gastric lavage may be indicated.
If necessary to prevent further absorption, activated charcoal
may be administered and followed by a cathartic.
In symptomatic patients, either intravenous calcium disodium-ethylenediaminetetraacetic
acid or intramuscular dimercaprol should be given as soon as possible.
D-Penicillamine may be given after initial treatment with dimercaprol.
Hemodialysis alone is not effective.
2-Eye injuries :
Treatment of eye injuries includes vigorous irrigation with normal
salin. Ophthalmologic referral is indicated for severe elemental
copper, copper chloride or copper cyanide plating bath injuries
to the eye.
3-Metal fume fever :
Treatment is symptomatic and removal from exposure may be sufficient.
4-Dermatitis :
Removal from exposure may be sufficient but application of topical
corticosteroid preparations may be required.
5-Green hair :
Green hair from exogenous copper can be treated effectively with
shampoos containing D-penicillamine.
IV-Biological Monitoring :
The normal concentration of copper in blood plasma is 1 mg/liter.
Ninety-five percent (95%) of the copper in plasma is in ceruloplasmin
but, it is one of the acute-phase reactant proteins and it increases
in acute and chronic inflammatory conditions. It is elevated also
in patients taking estrogens and birth control pills and in those
who are pregnant or have cirrhosis, cancer, or thyrotoxicosis.
Erythrocytes also contain a significant portion of the copper found
in blood in the form of an enzyme, superoxide dismutase.
Increased serum concentrations of copper are found in individuals
with such liver diseases as primary cirrhosis and other cholestatic
diseases.
At air concentrations near current exposure limits, biological
monitoring is not warrented. Biological limit values cannot be established,
owing to lack of reliable exposure dose, and effect relationship.
V-Occupational, Environmental Regulations, and
Dietary Recommendations :
A-Occupational :
1-The VEMP in Quebec for copper dust and mist is :
1mg/m3 expressed as copper
2-The VEMP for copper fumes is :
0.2mg/m3 expressed as copper.
B-Environmental :
The EPA (USA) has determined that lake and stream water should
contain no more than 1 ppm, and drinking water no more than 1.3
ppm.
C-Dietary :
The National Academy of Sciences (USA) recommends 2 to 3 mg of
copper per day as a safe and adequate intake for adults.
VI-Environmental Fate and Transport :
Copper is found in the earth’s crust at approximately 70 ppm and
in sea water at 0.001 to 0.002 ppm. Mining and smelting are the
primary anthropogenic sources.
Acidic soil conditions contribute to solubility and increased transport,
although appreciable mobilization occurs only at pH less than 3
in organic soils.
Low pH and the passage of soft water through copper pipes can produce
high levels in drinking water; however, only 1% of U.S. drinking
water samples exceed the U.S. Environmental Protection Agency’s
standard.
VII-Environmental and Occupational Monitoring :
Copper fume and dust levels should be measured to ensure compliance
with local standards.
Remonitoring should be performed after any changes in work practices
or plant processes that could cause a rise in air concentrations.
For patients suspected of having non-occupational overexposure
to copper, an environmental investigation should be conducted including measuring
copper :
-in drinking water,
-in non-prescription remedies and supplements,
and investigating dietary practices such as drinking acidic beverages
fron copper-containing vessels.
Contact dermatitis due to copper is rare. However, its occurrence
can be substantiated by careful patch testing. Exzematous dermatitis
and urticaria have been associated with the use of copper intrauterine
devices.
Greenish discoloration of the hair has been seen in blond or lightly
pigmented individuals exposed to copper dust or copper-tainted water
used for shampooing or swimming.
VIII-Prevention :
Copper compounds used by potters are not considered much hazardous.
In glazes, copper enhances lead leaching.
Good studio housekeeping is always good practice. Avoidance of
processes
generating unnecessary dust is also important and the wearing of
an approved
dust mask when the exposure seems hazardous is also good practice.
Thanks to Edouard Bastarache M.D. (Occupational & Environmental
Medicine) for supplying this text.
Edouard Bastarache M.D. - author of « Substitutions for
raw ceramic materials »
edouardb@sorel-tracy.qc.ca
http://www.sorel-tracy.qc.ca/~edouardb/
References :
1-Occupational Medicine,Carl Zenz, last edition.
2-Occupational & Environmental Medicine,Joseph Ladoue, last
edition.
3-Clinical Environmental Health and Toxic Exposures, Sullivan &
Krieger; last edition.
4-Sax’s Dangerous Properties of Industrial Materials, Lewis C.,
last edition.
5-Toxicologie Industrielle et Intoxications Professionnelles, Lauwerys
R. last edition.
6-Chemical Hazards of the Workplace, Proctor & Hughes, 4th
edition.
Inhalation of copper dust and fume results in irritation of the
respiratory tract, ulceration and perforation of nasal septum, metallic
or sweet taste, and in some instances, discoloration of the skin
and hair.The inhalation of metal fumes produced at high temperature,
such as welding, may cause 'metal fume fever', an influenza-like(benign)
illness.
Copper sulfate is also used in the whitewashing and leather industry.Toxicity
is primarily due to accidental and suicidal attempts, and results
in intravascular hemolysis, methemogloninemia, renal failure and
often death. Remember clinical liver disease due to copper is not
usually significant. High copper content in drinking water and food
may contribute to the development of severe liver damage in infants.
Copper compounds used by potters are not considered hazardous
as well as for pottery users. Copper in glazes fluxed by lead compounds
will leach more lead.
Good studio housekeeping is always good practice. Avoidance of
processes generating unnecessary dust is also important and the
wearing of an approved dust mask when the exposure seems hazardous
is also good practice.
References:
- Occupational Medicine,Carl Zenz.
- Occupational & Environmental Medicine, Joseph Ladoue.
- Hazardous Materials Toxicology, Sullivan & Krieger;
Hazardous Materials Used in Arts and Crafts,chapter 60
Many thanks to Edouard
Bastarache for this and previous contributions.
Related Pages:
Ceramic Toxic Materials
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