For thousands of years, humans have looked for ways to avoid sickness and have applied their problem solving skill to tackle illness and injury. Here, we’ll focus on just a few moments in the development of medical technology to understand the human body.
Ancient and medieval societies around the world had many different ways of thinking about health and disease. Until around 500 years ago, though, it was fairly rare for people to anatomize the human body or dissect a corpse. The increasing use of dissection to study the body was part of a bigger change in medical education in Europe. Instead of just reading centuries-old descriptions of anatomy—which weren’t always accurate—physicians-in-training began looking for themselves.
Before long, doctors and researchers wanted to look even closer. This led to the development of a foundational piece of medical and scientific technology: the microscope, which has been a critical element of countless scientific discoveries, not least the 19th-century discovery of germs as a cause of disease (Science History Institute, 2017).
Individuals have tried to create lenses or tools to help them see things more clearly for thousands of years. There is a long arc of innovation from early water-filled lenses in ancient Greece to the modern microscope to potentially far more powerful microscopes that use x-rays, fluorescence, or electrons to let us see more microscopically than ever before (Poppick, 2017).
At the end of the 19th century, technological innovation allowed doctors and scientists to look inside living bodies. The x-ray, invented by German physicist Wilhelm Conrad Röntgen, transformed the way doctors diagnose patients. Doctors realized that the x-ray was a powerful tool, and within a year of its invention, one of the first radiology departments opened in Glasgow, Scotland—an example of a professional field showing agility when a new technology tool became available (Ellis, 2017).
Today, x-rays are still used widely. However, medical practitioners have also developed newer ways of looking into the body. Tools like magnetic resonance imaging (MRI), ultrasound, and positron emission tomography (PET) let us see the body’s soft tissues and processes like brain signals at work.
As different technologies have been developed, medical schools and doctors themselves have had to adapt to the new possibilities for diagnosing and treating patients. Patients also have adapted to new kinds of medical technology, learning more about their own health and working more collaboratively with their healthcare providers to maximize their quality of life.
Up next, we’ll learn about how innovations in medicine have saved lives and changed the future of the medical field.
Source: Strategic Education, Inc. 2020. Learn from the Past, Prepare for the Future.
Ellis, Monique. (2017, November 22). The Top 10 Medical Advances in History. Proclinical. www.proclinical.com/blogs/2017-11/the-top-10-medical-advances-in-history
Louis Pasteur. (2017, December 14). Science History Institute. www.sciencehistory.org/historical-profile/louis-pasteur
Poppick, Laura. (2017, March 30). Let Us Now Praise the Invention of the Microscope. Smithsonian Magazine. www.smithsonianmag.com/science-nature/what-we-owe-to-the-invention-microscope-180962725