Thursday, November 9, 2023
Direct Orthotics - Digital Orthotics State of the Advancved Medical Science
Consumers
Physicians-Therapists
Orthotic Selfie...
Custom hand made orthotics using your cell phone
We use optical software along with the size of your foot to manufacture a custom orthotic.
https://sites.google.com/arlomarketplace.com/foot-selfie
Introduction Video - Dr Craig Lowe
If you want the absolute best solution use 3D Kinematic Imaging, (3DO). Free Analysis available at our Tustin and Riverside lovcations.
- Static non movement 3D analysis
- Dynamic weight bearing 3D Motion Analysis
- Outcome measurement report
Computerized 3D imaging has revolutionized the way we diagnose and treat diseases and conditions across a wide range of medical fields. From dentistry to orthopedics to oncology, 3D imaging provides clinicians with unprecedented insights into the human body load mechanics allowing Dr Craig Lowe to make more informed decisions about your patient care.
What is computerized 3D imaging?
Computerized 3D imaging is a process of creating three-dimensional images of internal structures from a series of two-dimensional images. It was developed and conceived by Dr Craig Lowe who is a researcher and developer of advanced biomechanical systems.
- This is done using a analytical cyclic load imager and software that enables the physician and technician to "see the unseeable physics behind the creation of disease and pain.
Once the 3D images have been created, they can be rotated, zoomed, and manipulated in a variety of ways to provide clinicians with a comprehensive view of the patient's anatomy. This information can be used to diagnose diseases and conditions, plan treatments, and monitor patient progress.
Advantages of computerized 3D imaging over older methods
- Computerized 3D imaging offers a number of advantages over older methods of medical imaging, such as X-rays and fluoroscopy. These advantages include:
- Superior image quality: 3D images are much more detailed and precise than traditional 2D images. This allows clinicians to see structures that would be difficult or impossible to visualize using older methods.
- No radiation exposure: Some 3D imaging techniques, such as MRI and ultrasound, do not use radiation at all. This is a significant advantage for patients who need to undergo multiple imaging tests or who are at increased risk for non-radiation related health problems. Safe and effective.
- Improved diagnostic accuracy: 3D images can help clinicians to diagnose diseases and conditions more accurately and efficiently. For example, 3D CT scans can be used to diagnose tumors and other abnormalities that may be difficult to see on traditional X-rays.
- 3D Kinematic imaging is a pressure modality that evaluates; motion, balance, linear pressure, sheer pressure, balance, gait analysis, motion analysis.
Computerized 3D imaging is a rapidly evolving field, and new technologies are emerging all the time. One of the most promising areas of development is artificial intelligence (AI). AI is being used to develop new algorithms for processing and interpreting 3D images. This is leading to improved diagnostic accuracy and more personalized treatment plans.
Another promising area of development is the development of new 3D imaging devices that are more portable and affordable. This will make 3D imaging more accessible to patients around the world.
Conclusion
Computerized 3D imaging is a revolutionary technology that is transforming the way we diagnose and treat diseases and conditions. By providing clinicians with unprecedented insights into the human body, 3D imaging is helping to improve patient outcomes and reduce costs.
Dr Craig Lowe - Functional Biomechanical Specialist
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