the World of Biomedical Engineering
My Dream Job and Future in Medical Technology
Index
1. Why Biomedical Engineering?
2. What is Biomedical Engineering?
3. A Simple History of Medical Innovations
4.Cool Inventions in Biomedical Engineering
5. The Importance of Biomedical Engineering
6. Conclusion
Why Biomedical Engineering?
Biomedical Engineering allows me to combine my passion for science and technology to make a real impact on healthcare.
What is Biomedical Engineering?
Biomedical Engineering is the field where engineering, biology, and medicine meet to solve health problems.
A Simple History of Medical Innovations
The journey of Biomedical Engineering began centuries ago when humans used rudimentary tools to treat diseases and injuries. Over time, these inventions evolved into modern devices that revolutionized medicine.
Bionic Prosthetics
MRI
Pacemakes
1990s -present
1990s-present
1978
1977
1972
1958
1957
Fiber Endoscope
computed Tomography
In Vitro Fertilization
Gene Theraphy
Biomedical Engineering has revolutionized medicine with inventions that save lives and improve quality of life. Let's explore some of the most incredible innovations in this area!
Cool inventitons
Pacemakers
Imaging Devices
Prostheses
Replacing members with advanced designs!
Seeing inside the body without surgery!
Keeping the heart in the right rhythm!
Questions
question I
question ii
question iii
The Importance of Biomedical Engineering
Regenerative Medicine and 3D Bioprinting
Improving Surgical Techniques
Genetic Engineering and Personalized Medicine
Tissue Engineering
Medical Devices and Prosthetics
Biomedical Sensors and Diagnostics
Conclusions
As we’ve seen, Biomedical Engineering is an incredible field that blends science, technology, and creativity to improve healthcare and save lives. From advanced medical devices to groundbreaking research in genetics and AI-driven diagnostics, this field continues to shape the future of medicine.
A special message
Thanks
Did youknow that...
The X-ray, discovered in 1895, was the first technology of its kind. Computerized tomography (CT scan), created in 1972, provided much more detailed images of internal organs Magnetic Resonance Imaging, invented in 1977, revolutionized diagnostics by creating accurate images without the use of radiation.
Did you know that organs can be 3D printed? Biomedical Engineering is revolutionizing transplants with 3D printing of tissues and organs! Using a special bioprinter, scientists can create living structures made from real cells. Tissues such as skin, cartilage and even small prototypes of kidneys and hearts have already been printed.
With this function...
Small devices implanted in the chest to help the heart beat regularly. The first implantable model created in 1958, revolutionizing the treatment of arrhythmias.
Today, there are smart versions that automatically adjust your heart rate!
Did youknow...
Modern prostheses are made of lightweight, durable materials.
Some can be controlled by the brain, allowing natural movements.
3D printing now helps create affordable, custom prosthetics!
The World of Biomedical Engineering
Mariana Pinheiro
Created on February 22, 2025
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Transcript
the World of Biomedical Engineering
My Dream Job and Future in Medical Technology
Index
1. Why Biomedical Engineering?
2. What is Biomedical Engineering?
3. A Simple History of Medical Innovations
4.Cool Inventions in Biomedical Engineering
5. The Importance of Biomedical Engineering
6. Conclusion
Why Biomedical Engineering?
Biomedical Engineering allows me to combine my passion for science and technology to make a real impact on healthcare.
What is Biomedical Engineering?
Biomedical Engineering is the field where engineering, biology, and medicine meet to solve health problems.
A Simple History of Medical Innovations
The journey of Biomedical Engineering began centuries ago when humans used rudimentary tools to treat diseases and injuries. Over time, these inventions evolved into modern devices that revolutionized medicine.
Bionic Prosthetics
MRI
Pacemakes
1990s -present
1990s-present
1978
1977
1972
1958
1957
Fiber Endoscope
computed Tomography
In Vitro Fertilization
Gene Theraphy
Biomedical Engineering has revolutionized medicine with inventions that save lives and improve quality of life. Let's explore some of the most incredible innovations in this area!
Cool inventitons
Pacemakers
Imaging Devices
Prostheses
Replacing members with advanced designs!
Seeing inside the body without surgery!
Keeping the heart in the right rhythm!
Questions
question I
question ii
question iii
The Importance of Biomedical Engineering
Regenerative Medicine and 3D Bioprinting
Improving Surgical Techniques
Genetic Engineering and Personalized Medicine
Tissue Engineering
Medical Devices and Prosthetics
Biomedical Sensors and Diagnostics
Conclusions
As we’ve seen, Biomedical Engineering is an incredible field that blends science, technology, and creativity to improve healthcare and save lives. From advanced medical devices to groundbreaking research in genetics and AI-driven diagnostics, this field continues to shape the future of medicine.
A special message
Thanks
Did youknow that...
The X-ray, discovered in 1895, was the first technology of its kind. Computerized tomography (CT scan), created in 1972, provided much more detailed images of internal organs Magnetic Resonance Imaging, invented in 1977, revolutionized diagnostics by creating accurate images without the use of radiation.
Did you know that organs can be 3D printed? Biomedical Engineering is revolutionizing transplants with 3D printing of tissues and organs! Using a special bioprinter, scientists can create living structures made from real cells. Tissues such as skin, cartilage and even small prototypes of kidneys and hearts have already been printed.
With this function...
Small devices implanted in the chest to help the heart beat regularly. The first implantable model created in 1958, revolutionizing the treatment of arrhythmias. Today, there are smart versions that automatically adjust your heart rate!
Did youknow...
Modern prostheses are made of lightweight, durable materials. Some can be controlled by the brain, allowing natural movements. 3D printing now helps create affordable, custom prosthetics!