For nearly 200 years, the Fugate family of Kentucky remained largely sealed off from the outside world as they passed their blue skin from generation to generation.
The Blue Fugates Family

Original source unknown, via ABC NewsThe Blue Fugates are shown in this colorized black and white photo. Date unspecified.

When Benjamin “Benjy” Stacy was born in 1975, nurses and doctors were shocked and confused.

Rather than coming out a bright shade of crimson like most babies, Benjy was born with dark blue skin. Doctors were so worried by this alien skin color that they called an ambulance to take Benjy the 116 miles from his hometown outside Hazard, Kentucky to the University of Kentucky Medical Center.

After two days of testing, the doctors were no closer to understanding why little Benjy’s skin was blue.

Then Benjy’s grandmother spoke up, saying, “Have you ever heard of the blue Fugates of Troublesome Creek?”

At that point, Benjy’s father, Alva Stacy, explained to the doctors, “My grandmother Luna on my dad’s side was a blue Fugate. It was real bad in her.”

Benjy Stacy was the latest child born in a long line of blue Fugates who had lived in the Appalachian mountains of Kentucky for the past 197 years.

Eleanor Fugate

City of Hazard A photo of Lorenzo ‘Blue Anze’ Dow Fugate and Eleanor Fugate.

The first Fugate in the United States was a French orphan named Martin Fugate, who settled in Troublesome Creek in the hills of eastern Kentucky in 1820. He married a woman named Elizabeth Smith, who was said to be as pale and white as the mountain laurel that blooms every spring around the creek hollows.

Unbeknownst to either of them, by some incalculable odds, both possessed a recessive gene that led to four of the seven children of this union being born with blue skin. In those days in rural eastern Kentucky, there were no roads, and a railroad wouldn’t even reach that part of the state until the early 1910s.

Bridge Creek

Kentucky Digital LibraryTroublesome Creek

As a result, many of the Fugates began to marry and have children within their own bloodline.

“It was hard to get out, so they intermarried,” says Dennis Stacy, an amateur genealogist, and descendant of the Fugates. “I’m kin to myself.”

Benjy is descended from a line of this family that began when Martin’s son, Zachariah, married his mother’s sister.

This kind of genetic isolation allowed for the continued reproduction and expression of the Fugate family’s “blue skin” gene.

Fugate Family

The Fugate Family NewsletterThe Fugate family tree.

Over the next hundred or so years, the Fugates continued to live in relative isolation and were accepted by the people of Troublesome Creek.

“They looked like anybody else, ‘cept they had the blue color,” said one resident.

However, by the early 1960s, some members of the Fugate clan had begun to resent their cobalt-tinted skin. Not only did their skin mark them as different, but by that time, people had already begun to associate their skin color with the family’s history of inbreeding.

It was then that two Fugates approached Madison Cawein, a hematologist at the University of Kentucky’s medical clinic at the time, in search of a cure.

“They were really embarrassed about being blue,” Cawein remembers. “Patrick was all hunched down in the hall. Rachel was leaning against the wall. They wouldn’t come into the waiting room. You could tell how much it bothered them to be blue.”

Using research collected from studies of isolated Alaskan Eskimo populations, Cawein was able to conclude that the Fugates carried a rare hereditary blood disorder that causes excessive levels of methemoglobin in their blood.

Methemoglobin is a nonfunctional blue version of the healthy red hemoglobin protein that carries oxygen. In most Caucasians, the red hemoglobin of the blood in their bodies shows through their skin giving it a pink tint.

For the Fugates, the excessive amount of blue methemoglobin in their blood turned their skin color blue.

This blood disorder is the result of a recessive gene, and so requires that both parents of a child have the recessive gene for the disorder to appear in their offspring. Without the Fugate’s intense isolation and inbreeding, this disorder would be incredibly rare in their bloodline.

Recessive Gene Flow

Wikimedia CommonsHow recessive genes are passed.

Cawein devised a cure for this disorder: more blue. Counterintuitively, the best chemical for activating the body’s process of turning methemoglobin to hemoglobin is methylene blue dye. The Fugates he treated ingested this dye and within a few minutes, the blue coloration of their skin disappeared, and their skin turned pink.

As long as they kept ingesting pills of the substance regularly, these Fugates could live their lives normally.

Within a couple of months of his birth, Benjy’s skin color began to change to the average color for a baby. By the age of seven, he had lost nearly all of this blue coloring, indicating that he likely only received a copy of the gene from one parent.

Benjy likely had this gene passed down from his father’s grandmother, Luna.

“Luna was bluish all over. Her lips were as dark as a bruise. She was as blue a woman as I ever saw,” said local nurse Carrie Lee Kilburn.

Benjy Stacy

LinkedinBenjy Stacy at 37.

Though today Benjy and most of the Fugate descendants have lost their blue coloring, the tint still comes out in their skin when they are cold or flush with anger. In those moments, the legacy of the blue Fugates of Kentucky lives on — a legacy of hardship, isolation, and perseverance.


Next, read up on the most interesting diseases to have ever ravaged humanity. Then, have a look at five weird mental disorders that you won’t believe are real.

Gabe Paoletti
Gabe is a New York City-based writer and an Editorial Intern at All That Is Interesting.
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