HEAVY METALS (continued)

Cadmium:

* Used in alloys, pigments, and batteries

* Concentrates in tobacco and rice -- so smokers have a

higher Cd burden than others

* Less than 5% is absorbed from GI, however 10-40% is

absorbed after inhalation

* t1/2 is about 10-30 years in the body

Symptoms of Cd poisoning:

Acute:

oral exposure causes local irritation and vomiting

inhalational exposure can cause respiratory problems

Chronic:

Cd is conjugated in the liver and is either excreted in

the bile or bound to metallothionein (MT)

Kidney is the main target–the CdMT complex can

escape an hepatocyte and get to the kidney

In the lumg, Cd causes emphysema and pulmonary

fibrosis

Cd effects on the bone result in osteomalacia

Can cause cancer of the lung, prostate, and kidney

Treatment of Cd poisoning:

No chelators are available

Chelators may actually increase the availability of Cd to

the rest of the body!

Other metals:

Aluminum:

Shaver’s disease – inhalational Al exposure

Antimony:

Similar to that seen in Arsenic

Barium:

Soluble salts (BaCl) produce cardiocascular and CNS effects

Insoluble salts (BaSO3) display minimal toxicity, if any

Beryllium:

Skin lesions, dermatitis, and granulomas; it’s also a

carcinogen in lab animals

Fluoride:

Higher concentrations discolor the teeth, and can lead

to brittle bones

Nickel:

Dermatitis – from nickel jewelry

Nickel carbonyl can cause: pneumonia, hyperthermia,

and delerium

Nickel subsulfate is a human carcinogen

The chelator is dithiocarbamate

Thallium:

Used as a rodenticide

Distributes in the body similar to potassium

Acute exposure causes GI and cardiovascular effects
Overview of Chelators:

Edetate calcium disodium (EDTA) is used for:

Lead

* Usually given IV

Dimercaprol (BAL) is used for:

Arsenic, Gold, Lead, and Mercury

Succimer is used for:

Lead, and possibly arsenic & mercury

* Its advantage is that it can be given orally

Penicillamine is used for:

Mercury, Lead, and Arsenic

Deferoxamine is used for:

Iron

AIR POLLUTION, SOLVENTS, & VAPORS

Air Pollutants

Five main pollutants:

Carbon monoxide (52%)

Sulfur dioxide (18%) – mucous membrane irritation and

bronchoconstriction

Hydrocarbons (12%)

Particulate matter (10%)
Nitrogen oxides (6%)

Two kinds of pollution:

Reducing – caused by sulfur dioxide

Oxidizing – caused by the other four

Carbon Monoxide:

* Most common cause of accidental and suicidal poisoning

* Heavy smokers may have CoHb levels of 6% (Norm is .4-.7%)

* CO toxicity is due to its affects on Hb affinity for oxygen;

CO will cause a left-shift in the dissociation curve

* t1/2 for CO is 320 minutes, being eliminated thru the lungs

* Brain and Heart are the sites for the most toxic effects

* Symptoms of CO poisoning, therefore, resemble hypoxia

* Treatment of CO poisoning is O2; hyperbaric oxygen is the

preferred treatment (100% O2 reduces the t1/2 to 80 min.)

Particulate Matter:

* Silicosis is the most common example

* Silica dusts result in fibrotic nodules in the lung

* Asbestosis results from long-term inhalation of its dust

* Asbestosis is associated w/ increased risk of mesothelioma

of the lung

Solvents and Vapors

Aliphatic hydrocarbons:

Gasoline and kerosine – are CNS depressants; death from

hemorrhagic pulmonary edema can occur w/in 24 hrs

of aspiration! Also contain benzene, which is a known

carcinogen in humans.

Methane and Ethane -- in natural gas and propane

* Higher-molecular weight hydrocarbons also act as CNS

depressants

Halogenated hydrocarbons:

Carbon tetrachloride (CCl4) – CNS depression, kidney

injury, liver injury, liver cancer, and sensitizes the heart

to catecholamines; it is metabolized by a P-450 to

a hazardous free-radical (akin to a Montana militiaman)

the free radicals cause membrane lipid peroxidation

* Other HHs also produce CNS depression at high doses

* Vinyl chloride is a carcinogen

* Trichloroethylene and tetrachloroethylene are fairly safe

* Tetrachloroethylene is used in the dry-cleaning industry

Aliphatic Alcohols:

Ethanol:

Oxidized to acetaldehyde in the liver

Acute EtOH inhibits microsomal enzymes

Chronic EtOH increases microsomal enzyme activity

Methanol:

Found in canned fuels, paint removers, and some

antifreeze solutions

Causes CNS depression

Upon metabolism, formaldehyde and formic acid are formed;

acidosis and blindness can result from this accumulation

of formic acid and formaldehyde!

The best therapy for Methanol poisoning is EtOH by IV; EtOH

has a much higher affinity for the dehydrogenase

Isopropanol:

Found in ‘rubbing alcohol’, hand lotions, and de-icing

compounds

Produces CNS depression and severe gastritis

Glycols:

Ethylene glycol:

Is a CNS depressant; target organ of toxicity is the kidney

The toxicity is due to its metabolite – oxalic acid

Antifreeze toxicity is also treated with EtOH, IV

Diethylene glycol: same as for ethylene glycol

Propylene glycol: does NOT produce kidney injury

Glycol ethers:

Used in films, wire insulation, paints, fingernail polish, inks, etc..

(see the book for the LONG names) these are teratogenic,

and produce testicular atrophy (ouch!)

The exception to this is Propylene glycol monomethyl ether,

which is neither a teratogen nor a reproductive toxin

Aromatic hydrocarbons:

Benzene:

Found in gasoline; acute exposure causes CNS depression

Its chronic toxicity results in aplastic anemia and leukemia

Toluene:

Only produces CNS depressant effects; NO other toxicities

This is ‘supposedly’ why there was this ‘glue sniffing’ craze(?)