Medical Imaging, 3D Modelling and 3D Printing Beginners

Medical Imaging, 3D Modelling and 3D Printing – Beginners, available at $199.99, has an average rating of 4.5, with 90 lectures, 1 quizzes, based on 153 reviews, and has 497 subscribers.

You will learn about Course updated in 2024. Fill in your details on our course page on our website anatomiz3d[dot]com for a promotional discount! This course will enable students to extract and convert patient specific anatomy to 3D Models using open source segmentation softwares. Students will learn the basics of Radiology and how to read DICOM data to differentiate different anatomies. Students will learn how to prepare their file for Additive manufacturing (Design for Additive Manufacturing) along with build preparation for 3D Printing. The course will discuss the different types of 3D Printing Technologies and how each plays a role across different applications of customizing Healthcare. The course will also throw light on advanced applications of 3D Printing in Healthcare and its future. This course is ideal for individuals who are Biomedical Engineers or Biotech Engineers or Bioinformatics Engineers or Radiology Students or Medical Students or Radiology Technicians or Industrial Designers or Mechanical Engineers or Biology Students or High School students exploring a new career path or Anyone passionate about Healthcare It is particularly useful for Biomedical Engineers or Biotech Engineers or Bioinformatics Engineers or Radiology Students or Medical Students or Radiology Technicians or Industrial Designers or Mechanical Engineers or Biology Students or High School students exploring a new career path or Anyone passionate about Healthcare.

Enroll now: Medical Imaging, 3D Modelling and 3D Printing – Beginners

Summary

Title: Medical Imaging, 3D Modelling and 3D Printing – Beginners

Price: $199.99

Average Rating: 4.5

Number of Lectures: 90

Number of Quizzes: 1

Number of Published Lectures: 90

Number of Published Quizzes: 1

Number of Curriculum Items: 98

Number of Published Curriculum Objects: 98

Original Price: $199.99

Quality Status: approved

Status: Live

What You Will Learn

Course updated in 2024. Fill in your details on our course page on our website anatomiz3d[dot]com for a promotional discount!

This course will enable students to extract and convert patient specific anatomy to 3D Models using open source segmentation softwares.

Students will learn the basics of Radiology and how to read DICOM data to differentiate different anatomies.

Students will learn how to prepare their file for Additive manufacturing (Design for Additive Manufacturing) along with build preparation for 3D Printing.

The course will discuss the different types of 3D Printing Technologies and how each plays a role across different applications of customizing Healthcare.

The course will also throw light on advanced applications of 3D Printing in Healthcare and its future.

Who Should Attend

Biomedical Engineers

Biotech Engineers

Bioinformatics Engineers

Radiology Students

Medical Students

Radiology Technicians

Industrial Designers

Mechanical Engineers

Biology Students

High School students exploring a new career path

Anyone passionate about Healthcare

Target Audiences

Biomedical Engineers

Biotech Engineers

Bioinformatics Engineers

Radiology Students

Medical Students

Radiology Technicians

Industrial Designers

Mechanical Engineers

Biology Students

High School students exploring a new career path

Anyone passionate about Healthcare

This entire beginner level course will be focused on getting ourselves comfortable with the Open Source and Free 3D Slicer Software, how to extract valuable patient specific information from Patient CT/MRI Scans and convert them to 3D Models that provide an extra dimension to imaging. We will also learn how to prepare these files for 3D Printing, so the manufacturing process is seamless. We will move onto explaining the different technologies in 3D Printing, how do you decide which technology to use based on its medical applications and in conclusion, we will share extended applications of the revolutionizing technology.

This Open Source software is not intended for clinical use.

Course Curriculum

Chapter 1: Introduction

Lecture 1: Introduction

Lecture 2: Disclaimer

Lecture 3: Course Creation and Update

Lecture 4: Download 3D Slicer

Lecture 5: Installing 3D Slicer

Lecture 6: Installing Extension to 3D Slicer

Chapter 2: Radiology

Lecture 1: Overview of Section

Lecture 2: X-Rays

Lecture 3: Computed Tomography

Lecture 4: How to Understand X-Rays and CT Scans?

Lecture 5: Magnetic Resonance Imaging

Lecture 6: How to Differentiate between MRI and CT Scans?

Chapter 3: Introduction to 3D Slicer

Lecture 1: Overview of Section

Lecture 2: Basic Layout of 3D Slicer

Lecture 3: Customize 3D Slicer

Lecture 4: Layout – Top Section

Lecture 5: Layout – Right Section

Lecture 6: Maneuvering using Mouse Buttons and Keys

Lecture 7: Slicer Viewer Menu – Part 1

Lecture 8: Slicer Viewer Menu – Part 2

Lecture 9: Slicer Viewer Menu – Part 3

Lecture 10: How to load your DICOM Data?

Lecture 11: How to Qualify a Scan?

Lecture 12: Scan Filter – Binomial Blur

Lecture 13: Rejection of Scan

Lecture 14: Metal Artifact Reduction – Median Filter

Chapter 4: Case Study 1 – CT Segmentation – Spine

Lecture 1: Overview of Section

Lecture 2: Scan Reading Recap and Anatomy Orientation of DICOM Views

Lecture 3: Multi Planar Reconstruction (MPR)

Lecture 4: Reading Spine Anatomy on 2D and 3D

Lecture 5: Update to Volume Rendering – Annotation ROI

Lecture 6: Volume Rendering

Lecture 7: Segmentation

Lecture 8: Method 1 – Threshold – Spine

Lecture 9: Method 1 – Scissors and Islands – Spine

Lecture 10: What is a Voxel?

Lecture 11: Method 1 – Paint and Erase – Spine

Lecture 12: Method 2 – Local Threshold, Scissors – Spine

Lecture 13: Method 1 – Paint – Lumbar

Lecture 14: Method 2 – Level Tracing, Paint, Fill Between Slices – Lumbar

Lecture 15: Logical Operations – Lumbar

Lecture 16: Saving Data

Lecture 17: Points to Remember

Lecture 18: Software Warning

Chapter 5: Case Study 2 – MRI Segmentation – Brain Tumour

Lecture 1: Overview of Section

Lecture 2: Reading Brain and Tumour Anatomy

Lecture 3: Paint – Tumour

Lecture 4: (Bonus) Threshold, Scissors and Erase – Tumour

Lecture 5: Fill Between Slices – Tumour

Lecture 6: Grow From Seeds – Tumour

Lecture 7: Watershed – Tumour

Lecture 8: Draw Tube – Tumour

Lecture 9: Local Threshold and Histogram – Brain and Head

Lecture 10: Segmentations Module

Lecture 11: Models Module – Clipping

Lecture 12: The Power is in YOUR Hands

Chapter 6: Case Study 3 – CT Segmentation – Mandible and Maxilla

Lecture 1: Overview of Section

Lecture 2: Reading Facial Bones Anatomy and Base Segmentation

Lecture 3: Grow From Seeds – Mandible and Maxilla Separation

Lecture 4: Watershed – Mandible Correction

Chapter 7: Case Study 4 – CT Segmentation – Trachea and Lungs

Lecture 1: Overview of Section

Lecture 2: Reading Trachea and Lung Anatomy

Lecture 3: Fast Marching and Margins – Trachea and Lung Segmentation

Lecture 4: Flood Fill and Smoothing – Trachea

Lecture 5: Hollow – Trachea

Chapter 8: Case Study 5 – Volume Manipulation – Kidneys and Abdominal Aortic Aneurysm

Lecture 1: Overview of Section

Lecture 2: Reading Kidney and Abdominal Aortic Aneurysm Anatomy

Lecture 3: Scissors and Mask Volume – Right Kidney

Lecture 4: Surface Cut and Mask Volume – Left Kidney

Lecture 5: Fast Marching and Split Volume – AAA

Chapter 9: 3D File Fixing

Lecture 1: Overview of Section

Lecture 2: Downloading and Installing Meshmixer

Lecture 3: Basic Layout

Lecture 4: File Fixing

Chapter 10: 3D Printing Technologies – Overview

Lecture 1: Overview of Section

Lecture 2: History and Basics of 3D Printing

Lecture 3: FDM – Fused Deposition Modelling

Lecture 4: SLA – Stereolithography

Lecture 5: SLS – Selective Laser Sintering

Lecture 6: CJP – Colour Jet Printing

Lecture 7: Polyjet Technology

Lecture 8: DMLS – Direct Metal Laser Sintering

Instructors

Firoza Kothari
Medical 3D Printing Specialist

Rating Distribution

1 stars: 0 votes

2 stars: 1 votes

3 stars: 9 votes

4 stars: 41 votes

5 stars: 102 votes

Frequently Asked Questions

How long do I have access to the course materials?

You can view and review the lecture materials indefinitely, like an on-demand channel.

Can I take my courses with me wherever I go?

Definitely! If you have an internet connection, courses on Udemy are available on any device at any time. If you don’t have an internet connection, some instructors also let their students download course lectures. That’s up to the instructor though, so make sure you get on their good side!