Researchers at Tel Aviv University noticed unusual cavities in two tail segments of the hadrosaur, which were unearthed at the Dinosaur Provincial Park in southern Alberta, Canada.
"Diagnosing diseases in skeletal remains and fossils is complicated as in some cases different diseases leave similar marks on bones. LCH, however, has a distinctive appearance that fit to the lesions found in the hadrosaur," said Dr. Hila May, head of the Biohistory and Evolutionary Medicine Laboratory, at TAU's Sackler Faculty of Medicine.
The researchers used advanced, high-resolution CT scans to analyze the dinosaur tail fossils.
"New technologies,such as the micro CT scanning, enabled us to examine the ... structure of the lesion and reconstruct the overgrowth as well as the blood vessels that fed it," May told CNN.
"The micro and macro analyses confirmed that it was, in fact, LCH. This is the first time this disease has been identified in a dinosaur," May said.
In humans, LCH is sometimes described as a rare form of cancer but May said that there are different opinions among experts as to whether it is definitively a cancer or not because in some cases its passes spontaneously.
"Most of the LCH-related tumors, which can be very painful, suddenly appear in the bones of children aged 2-10 years. Thankfully, these tumors disappear without intervention in many cases," she said.
Like us, dinosaurs got sick but evidence of disease and infection in the fossil record -- a field known as paleopathology -- has been scant.
However, there is evidence that tyrannosaurids, like the T-Rex, suffered from gout and that iguanodons may have had osteoarthritis. Cancer has proved more difficult for paleopathologists to diagnose but there is evidence that dinosaurs would have suffered from the disease, the study said.
Studying disease in fossils, independent of the species, is a complicated task. And it is even more complicated when dealing with those of animals that are extinct as we do not have a living reference, May explained.
The authors said the finding could help further evolutionary medicine -- a new field of research that investigates the development and behavior of diseases over time.
Given that many of the diseases we suffer from come from animals, such as coronovirus, HIV and tuberculosis, May said understanding how they manifest themselves in different species and survive evolution can help find new and effective ways to treat them.
"When we know that a disease is independent of species or time, it means the mechanism that encourages its development is not specific to human behavior and environment, rather [it's] a basic problem in an organism's physiology," May said.