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RESEARCHERS EXPLORED THE FOSSIL OF A TELMATOSAURUS TRANSSYLVANICUS, A 'MARSH LIZARD' THAT EXISTED BETWEEN 66 AND 70 MILLION YEARS AGO 07:00, 31 May 2025 Dinosaurs might not be the

first thing that comes to mind when considering cancer treatment. Yet scientists now believe these prehistoric creatures could actually provide valuable insights on how to tackle the

complex, cell-mutating disease. New research from Anglia Ruskin University and Imperial College London explored this subject, using pioneering techniques to closely examine the fossil of an

ancient species. Now they theorise that soft tissue and cellular structures are perhaps preserved in ancient remains more frequently than previously understood, potentially offering crucial

information for future illness prevention. Senior author Justin Stebbing, Professor of Biomedical Sciences at Anglia Ruskin University, said: "Dinosaurs, as long-lived, large-bodied

organisms, present a compelling case for investigating how species managed cancer susceptibility and resistance over millions of years. "Proteins, particularly those found in calcified

tissues like bone, are more stable than DNA and are less susceptible to degradation and contamination. This makes them ideal candidates for studying ancient diseases, including cancer, in

paleontological specimens." Article continues below The researchers specifically highlighted the Telmatosaurus transsylvanicus, a duck-billed 'marsh lizard' that roamed what

is now Romania between 66 and 70 million years ago. Using Scanning Electron Microscopy (SEM), researchers discovered 'red blood cell-like structures' within a fossil of this

creature. Now, by examining preserved proteins and biomarkers, scientists hope to gain insights into diseases that impacted prehistoric animals, including cancer. This project builds on a

previous study that found evidence of cancer in the same marsh lizard. Professor Stebbing continued: "Unlike skeletal structures alone, soft tissues contain proteins that provide

molecular information that can reveal the underlying biological mechanisms of disease." With this in mind, scientists also emphasised the importance of gathering and preserving dinosaur

tissue, not just skeletons. They asserted that future analyses could enhance our understanding of disease evolution over time, potentially informing treatments for humans. Article continues

below "Our research, using relatively underused methods, invites further exploration that could hold the key to future discoveries that could benefit humans," Professor Stebbing

added. "However, it is crucial that long-term fossil conservation efforts are coordinated to ensure that future researchers have access to specimens suitable for cutting-edge molecular

investigations." _WHAT DO YOU THINK? LET US KNOW IN THE COMMENT SECTION BELOW_