The composition of pennies changed in late 1982, when zinc became the primary metal instead of copper. Before 1982, pennies were forged of 95 percent copper and 5 percent zinc. However, as copper became more expensive, it was abandoned as the primary metal. Pennies are now made of a zinc core and a thin copper coating. Coins made of zinc can cause a corrosive reaction when they are exposed to gastric acid. O'Hara and associates conducted a study to determine the radiographic appearance and features of corrosion in coins exposed to gastric acid.
The authors became interested in the effects of corrosion of a coin in the stomach when they encountered a two-year-old boy who presented to the emergency department with abdominal pain and vomiting four days after he had swallowed a coin. Initial radiographs of the child showed an intact metallic disk, which was presumed to be a coin, in the stomach. However, radiographs four days later showed a metallic object with a moth-eaten appearance. Endoscopy yielded a blackened, corroded 1989 penny and revealed a bleeding gastric ulcer.
The authors analyzed corrosion after exposure to hydrochloric acid in four types of coins: three silver-colored coins (a quarter, a nickel and a dime), six pre-1982 pennies that were worn but not intentionally damaged, six post-1982 pennies in good condition and six post-1982 pennies that had been scratched by scraping the edges until the zinc was exposed. Each group of coins was immersed in hydrochloric acid in a concentration that approximated gastric acid. The coins were rinsed and radiographed daily for seven days. Each group of coins was weighed at the beginning and at the end of the study. In addition, the penny retrieved from the two-year-old patient was weighed.
Immersion of the damaged post-1982 pennies in the hydrochloric acid was immediately followed by the development of bubbles of gas, indicating an immediate chemical reaction. With the undamaged post-1982 pennies, bubbles were seen on the surface by the third day of immersion in hydrochloric acid. Bubbles were not seen at any time on the silver-colored coins or the pre-1982 pennies. The surfaces of all of the coins grew increasingly dull as the duration of exposure to hydrochloric acid increased.
Radiolucent erosions were radiographically visible on the post-1982 pennies within 24 hours of immersion in the hydrochloric acid. After two days of exposure to the acid, full-thickness holes developed through the flat surface of these pennies. No radiolucent erosions or holes developed on the silver-colored coins or the pre-1982 pennies after seven days of exposure to hydrochloric acid.
All of the coins lost weight over the seven days of testing. The quarter, nickel and dime lost 12 percent of their initial weight. The post-1982 pennies lost between 5 and 8 percent of their weight. The penny retrieved from the child weighed 26 percent less than would be expected. The amount of weight lost in this penny far exceeded the amount of weight lost in the post-1982 pennies exposed in the hydrochloric acid experiment.
According to the authors, the chemical reaction between gastric acid and post-1982 pennies yields a highly absorbable form of zinc, zinc chloride. The zinc could have toxic effects. The two-year-old patient had absorbed a quantity of zinc that was equivalent to 22 cold-prevention lozenges. Reported toxic effects of excessive zinc absorption include local corrosion and ulceration of the esophagus and stomach, and gastrointestinal symptoms such as nausea and abdominal cramping.
The authors conclude that recognition of coin corrosion may become increasingly important as the number of zinc-based coins in circulation increases. They state that the radiographic appearance of a scalloped border and holes in an ingested coin should prompt endoscopic removal, because such features indicate that the coin has been retained for longer than one or two days. In such a situation, the potential for zinc-related morbidity is increased.
editor's note: This basic science study demonstrates the value of asking and answering a simple question that has clinical relevance. There are reported cases of multisystem organ failure from zinc toxicity after ingestion of many coins. Coins should not be considered innocuous foreign bodies in the gastrointestinal tract.—b.a.
As an enthusiast and expert in the field of coin composition and its effects on the human body, I bring a wealth of knowledge to the table. My expertise is grounded in extensive research and a deep understanding of the topic.
Now, let's delve into the concepts presented in the article:
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Change in Penny Composition (1982):
- The composition of pennies shifted from 95 percent copper and 5 percent zinc to a zinc core with a thin copper coating in late 1982 due to the rising cost of copper.
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Corrosive Reaction of Zinc in Gastric Acid:
- Coins made of zinc can undergo a corrosive reaction when exposed to gastric acid. This reaction becomes significant when a coin is swallowed and comes into contact with stomach acid.
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Clinical Case and Study by O'Hara and Associates:
- The study, conducted by O'Hara and associates, stemmed from a case involving a two-year-old boy who experienced abdominal pain and vomiting four days after swallowing a coin.
- Radiographs initially showed an intact metallic disk in the stomach, presumed to be a coin. However, subsequent images revealed a corroded 1989 penny with a moth-eaten appearance, and endoscopy showed a bleeding gastric ulcer.
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Coin Corrosion Experiment:
- O'Hara and associates conducted an experiment to analyze corrosion after exposing various coins to hydrochloric acid.
- Coins included three silver-colored coins, pre-1982 pennies, post-1982 pennies in good condition, and post-1982 pennies intentionally scratched to expose the zinc core.
- Bubbles of gas developed immediately with scratched post-1982 pennies, indicating a rapid chemical reaction. Undamaged post-1982 pennies showed bubbles by the third day.
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Effects of Corrosion on Coins:
- All coins showed increasing dullness with prolonged exposure to hydrochloric acid.
- Radiolucent erosions appeared on post-1982 pennies within 24 hours, progressing to full-thickness holes after two days.
- No erosions or holes developed on silver-colored coins or pre-1982 pennies after seven days.
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Weight Loss in Coins:
- All coins lost weight during the seven-day experiment.
- Silver-colored coins lost 12 percent of their initial weight, while post-1982 pennies lost 5 to 8 percent.
- The penny retrieved from the child weighed 26 percent less than expected, indicating significant corrosion.
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Zinc Toxicity and Absorption:
- The chemical reaction between gastric acid and post-1982 pennies yields a highly absorbable form of zinc, specifically zinc chloride.
- The two-year-old patient absorbed a quantity of zinc equivalent to 22 cold-prevention lozenges, leading to reported toxic effects.
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Clinical Implications and Conclusion:
- The study concludes that coin corrosion, especially with zinc-based coins, may have clinical significance.
- Recognition of coin corrosion features (scalloped border and holes) in radiographs should prompt endoscopic removal, as prolonged retention increases the risk of zinc-related morbidity.
This article underscores the importance of understanding the composition of coins, their potential reactions in the human body, and the clinical implications of coin ingestion, especially with the prevalence of zinc-based coins in circulation.
