Explore Dartmouth’s Regenerative Medicine Course

Summary:

Discover how cells form tissues that can be used to repair cellular damage. Explore how stem cells and cellular therapies are revolutionizing healthcare through regenerative medicine.

Key Points:

• From sports injuries to the natural effects of aging, the body breaks down over time. Regenerative medicine is revolutionizing healthcare’s approach to discovering innovative treatments.
• Dartmouth College offers a precollege online course in regenerative medicine for motivated teens who want to become a part of this brave new world.
• Discover the fundamentals of regenerative medicine: how it mixes science, technology, and medicine to innovate with stem cells and reboot damaged tissues.
• Learn the three ways regeneration occurs.
• Get an analysis of Dartmouth’s course, Regenerative Medicine: Healing with Science.

Think about professional athletes with torn ligaments or tendons. Consider individuals who require an organ transplant, such as a kidney or heart. Or how stem cells and cellular therapies are gaining traction. All are aligned with regenerative medicine, the science that is revolutionizing the field of medicine.

Suppose you are a high school student with a passion for this kind of game-changing mix of medicine, science, technology, and innovation. In that case, we urge you to learn more about Dartmouth College’s precollege online course: Regenerative Medicine: Healing with Science.

In this article, we’ll delve into this innovative field, share the details of Dartmouth’s program, and touch on the enormous value to be achieved through precollege medical programs.

What is regenerative medicine?

According to WebMD, regenerative medicine gained momentum in the 1990s with the rise of tissue engineering, which led to advancements in stem cell research and procedures such as skin grafting. The goal is to replace or repair tissues or organs damaged by disease, injury, or age, rather than treating symptoms with medications or procedures.

Used in diabetes, cardiovascular tissue repair, brain injury tissue repair, immune system improvement, cell therapy, skin wounds, and even certain cancers, regenerative medicine is tomorrow’s medicine in the making. 

Regeneration in patients occurs at three different levels:

1. Molecular: This refers to small molecules that are the building blocks of the body, such as DNA, fats, and carbohydrates.
2. Cellular: This refers to cell structures like neurons or axons that foster cell growth and reproduction in the body.
3. Tissue: This includes blood, skin, bone, or muscle.

Although numerous research studies are ongoing, some forms of regenerative medicine are already in use. One is stem cell therapy. This occurs when scientists grow specialized stem cells in a lab. These cells can then be instructed to behave like healthy cells, such as those in your heart, blood, or nerves. For instance, if you have heart disease, lab-made heart muscle cells can be transplanted into tissue to repair or replace damaged heart cells.

If this is potentially the career path for you, put your interest to the test with the Dartmouth precollege regeneration medicine course.

What you will learn

In this course, you’ll delve into the building blocks of healing, how cells form tissues, and how they can be used to repair cellular damage. You’ll explore how stem cells and cellular therapies are advancing healthcare and advances in tissue engineering that support regeneration and healing. You’ll dig into the complexities of organ regeneration, which offer potential solutions to organ shortages. You’ll learn about regenerative medicine’s impact on biotechnology, personalized medicine, and its potential uses in space medicine, cosmetic applications, and animal care innovations. 

What you will gain from this course

• Become familiar with the latest advancements in modern medicine, such as biotechnology, precision medicine, and space-related regenerative innovations.
• Learn how regenerative medicine can mitigate critical challenges like organ shortages, tissue repair, and disease treatment through case studies and practical examples.
• Discover techniques and technologies used in regenerative medicine to analyze challenges like vascularization and tissue integration.
• Acquire foundational knowledge in medicine, engineering, and biology that supports careers in healthcare, biotechnology, and other medical- or science-related fields.
• Complete a Final Capstone Project to show what you’ve learned. Success with this project will earn you a Certificate of Completion from Dartmouth, which can be added to your college applications.

Your Final Capstone Project

You’ll design an innovative solution that demonstrates your knowledge of regenerative medicine. You’ll propose a creative, evidence-based idea that addresses a real-world challenge in healthcare or biotechnology. You’ll present your proposal, demonstrating mastery of course concepts like tissue engineering, stem cells, and organ regeneration.

Online high school STEM courses like this are rapidly gaining popularity among motivated students. Prelum, Powered by Kaplan, is a leader in the field and provides an amazing opportunity for teens to experience college-level courses. The Dartmouth Precollege Online Program is just one example of the top universities you can experience. Get started today!

This was last reviewed by Ashley Simmons on 08/7/2025.