Looney Gas and Lead Poisoning: A Short, Sad History



Author’s note: Most people don’t realize that we knew in the 1920s that leaded gasoline was extremely dangerous. And in light of a Mother Jones story this week that looks at the connection between leaded gasoline and crime rates in the United States, I thought it might be worth reviewing that history. The following is an updated version of an earlier post based on information from my book about early 10th century toxicology, The Poisoner’s Handbook.


In the fall of 1924, five bodies from New Jersey were delivered to the New York City Medical Examiner’s Office. You might not expect those out-of-state corpses to cause the chief medical examiner to worry about the dirt blowing in Manhattan streets. But they did.


To understand why you need to know the story of those five dead men, or at least the story of their exposure to a then mysterious industrial poison.


The five men worked at the Standard Oil Refinery in Bayway, New Jersey. All of them spent their days in what plant employees nicknamed “the loony gas building”, a tidy brick structure where workers seemed to sicken as they handled a new gasoline additive. The additive’s technical name was tetraethyl lead or, in industrial shorthand, TEL. It was developed by researchers at General Motors as an anti-knock formula, with the assurance that it was entirely safe to handle.


But, as I wrote in a previous post, men working at the plant quickly gave it the “loony gas” tag because anyone who spent much time handling the additive showed stunning signs of mental deterioration, from memory loss to a stumbling loss of coordination to  sudden twitchy bursts of rage. And then in October of 1924, workers in the TEL building began collapsing, going into convulsions, babbling deliriously. By the end of September, 32 of the 49 TEL workers were in the hospital; five of them were dead.


The problem, at that point, was that no one knew exactly why. Oh, they knew – or should have known – that tetraethyl lead was dangerous. As Charles Norris, chief medical examiner for New York City pointed out, the compound had been banned in Europe for years due to its toxic nature. But while U.S. corporations hurried TEL into production in the 1920s, they did not hurry to understand its medical or environmental effects.


In 1922,  the U.S. Public Health Service had asked Thomas Midgley, Jr. – the developer of the leaded gasoline process – for copies of all his research into the health consequences of tetraethyl lead (TEL).


Midgley, a scientist at General Motors, replied that no such research existed. And two years later, even with bodies starting to pile up,  he had still not looked into the question.  Although GM and Standard Oil had formed a joint company to manufacture leaded gasoline – the Ethyl Gasoline Corporation - its research had focused solely on improving the TEL formulas. The companies disliked and frankly avoided the lead issue. They’d deliberately left the word out of their new company name to avoid its negative image.


In response to the worker health crisis at the Bayway plant, Standard Oil suggested that the problem might simply be overwork. Unimpressed, the state of New Jersey ordered a halt to TEL production. And because the compound was so poorly understood, state health officials asked the New York City Medical Examiner’s Office to find out what had happened.



In 1924, New York had the best forensic toxicology department in the country; in fact,, it had one of the few such programs period. The chief chemist was a dark, cigar-smoking, perfectionist named Alexander Gettler, a famously dogged researcher who would sit up late at night designing both experiments and apparatus as needed.


It took Gettler three obsessively focused weeks to figure out how much tetraethyl lead the Standard Oil workers had absorbed before they became ill,  went crazy, or died. “This is one of the most difficult of many difficult investigations of the kind which have been carried on at this laboratory,” Norris said, when releasing the results. “This was the first work of its kind, as far as I know. Dr. Gettler had not only to do the work but to invent a considerable part of the method of doing it.”


Working with the first four bodies, then checking his results against the body of the last worker killed, who had died screaming in a straitjacket, Gettler discovered that TEL and its lead byproducts formed a recognizable distribution, concentrated in the lungs, the brain, and the bones. The highest levels were in the lungs suggesting that most of the poison had been inhaled; later tests showed that the types of masks used by Standard Oil did not filter out the lead in TEL vapors.


Rubber gloves did protect the hands but if TEL splattered onto unprotected skin, it absorbed alarmingly quickly. The result was intense poisoning with lead, a potent neurotoxin. The loony gas symptoms were, in fact, classic indicators of heavy lead toxicity.


After Norris released his office’s report on tetraethyl lead, New York City banned its sale, and the sale of “any preparation containing lead or other deleterious substances” as an additive to gasoline. So did New Jersey. So did the city of Philadelphia. It was a moment in which health officials in large urban areas were realizing that with increased use of automobiles, it was likely that residents would be increasingly exposed to dangerous lead residues and they moved quickly to protect them.


But fearing that such measures would spread,  that they would be forced to find another anti-knock compound, as well as losing considerable money, the manufacturing companies demanded that the federal government take over the investigation and develop its own regulations. U.S. President Calvin Coolidge, a Republican and small-government conservative, moved rapidly in favor of the business interests.


The manufacturers agreed to suspend TEL production and distribution until a federal investigation was completed. In May 1925, the U.S. Surgeon General called a national tetraethyl lead conference, to be followed by the formation of an investigative task force to study the problem. That same year, Midgley published his first health analysis of TEL, which acknowledged  a minor health risk at most, insisting that the use of lead compounds,”compared with other chemical industries it is neither grave nor inescapable.”


It was obvious in advance that he’d basically written the conclusion of the federal task force. That panel only included selected industry scientists like Midgely. It had no place for Alexander Gettler or Charles Norris or, in fact, anyone from any city where sales of the gas had been banned, or any agency involved in the producing that first critical analysis of tetraethyl lead.


In January 1926, the public health service released its report which concluded that there was “no danger” posed by adding TEL to gasoline…”no reason to prohibit the sale of leaded gasoline” as long as workers were well protected during the manufacturing process.


The task force did look briefly at risks associated with every day exposure by drivers, automobile attendants, gas station operators, and found that it was minimal. The researchers had indeed found lead residues in dusty corners of garages. In addition,  all the drivers tested showed trace amounts of lead in their blood. But a low level of lead could be tolerated, the scientists announced. After all, none of the test subjects showed the extreme behaviors and breakdowns associated with places like the looney gas building. And the worker problem could be handled with some protective gear.


There was one cautionary note, though. The federal panel warned that exposure levels would probably rise as more people took to the roads. Perhaps, at a later point, the scientists suggested, the research should be taken up again. It was always possible that leaded gasoline might “constitute a menace to the general public after prolonged use or other conditions not foreseen at this time.”


But, of course, that would be another generation’s problem. In 1926, citing evidence from the TEL report, the federal government revoked all bans on production and sale of leaded gasoline. The reaction of industry was jubilant; one Standard Oil spokesman likened the compound to a “gift of God,” so great was its potential to improve automobile performance.


In New York City, at least, Charles Norris decided to prepare for the health and environmental problems to come. He suggested that the department scientists do a base-line measurement of lead levels in the dirt and debris blowing across city streets. People died, he pointed out to his staff; and everyone knew that heavy metals like lead tended to accumulate. The resulting comparison of street dirt in 1924 and 1934 found a 50 percent increase in lead levels – a warning, an indicator of damage to come, if anyone had been paying attention.


It was some fifty years later – in 1986 – that the United States formally banned lead as a gasoline additive. By that time, according to some estimates, so much lead had been deposited into soils, streets, building surfaces, that an estimated 68 million children would register toxic levels of lead absorption and some 5,000 American adults would die annually of lead-induced heart disease. As lead affects cognitive function, some neuroscientists also suggested that chronic lead exposure resulted in a measurable drop in IQ scores during the leaded gas era. And more recently, of course, researchers had suggested that TEL exposure and resulting nervous system damage may have contributed to violent crime rates in the 20th century.


Images: 1) Manhattan, 34th Street, 1931/NYC Municipal Archives 2) 1940s gas station, US Route 66, Illinois/Deborah Blum


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