How 3-D Imaging is Innovating Modern Medicine

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3D-Imaging-Plastic-Surgery3-D imaging via medical diagnostic tools such as MRIs and CT scanning is completely revolutionizing modern medicine.

As these medical devices become increasingly more precise at an accelerating rate, they are providing doctors with more finely-detailed, high resolution 3-D imaging of their patients with each passing year.

At the same time as the rapid increase in the sensitivity and resolution of these modern imaging devices, the processing power of digital computation has continued its exponential growth in price-performance year over year, allowing physicians to render and analyze the data from 3-D imaging all the more effectively.

 

Innovations in 3-D Imaging Resolution

By contrast to the incremental improvements of medical techniques over the centuries, and even to radiography during the decades of the 20th century, in recent years the improvements to medical imaging are coming fast and making a difference by orders of magnitude.

A little over a year ago researchers at MIT announced they had developed an algorithm that exploits light polarization to boost the depth resolution of conventional 3-D imaging technology by 1,000 times.

Researchers say the technique is so promising that it could bring this technology to your pocket: “The technique could lead to high-quality 3-D cameras built into cellphones, and perhaps to the ability to snap a photo of an object and then use a 3-D printer to produce a replica.”

 

3-D Image Processing Speed

A high resolution imaging device has little useful application without the processing speed to match it. Processing power is essential to creating the images and manipulating the data in quality diagnostic scans made by imaging devices.

And it’s not only the rapid pace of improvement in the brute force of computer processing power that’s been essential to 3-D imaging innovation in recent years. It’s the implementation of software solutions that can use that power to effectively reconstruct volumetric data.

There’s also the configuration of hardware processing power in a way that’s effective and efficient for the kind of computation involved in 3-D imaging, such as the incorporation of GPUs (graphical processing units) like those used by gaming software to create better images faster than CPUs can.

 

Machine Learning and Modern 3-D Imaging

One innovator in the field, Mountain View, Calif.-based EchoPixel is helping surgeons take the guesswork out of surgical planning by allowing them to create a 3-D image from patient-imaging data and manipulate it in a virtual environment— to remove tumors, dissect tissues, or measure blood vessels. The technology is allowing physicians to get a more accurate view of their patients’ anatomy.

Furthermore, with the application of machine learning, the software records the clinician’s interactions with the 3-D imaging data, so other doctors can learn from the same steps and methodology. The software is compatible for use on different hardware devices, including wearable tech such as Google Glass, so it can be used in an operating room.

 

How 3-D Imaging is Saving Lives

An ounce of prevention: Along with life-saving advancements to surgery prep for critical surgeries that doctors perform on vital tissues and organs, 3-D imaging is saving lives in the critical field of medical diagnostics.

The use of modern computer 3-D images made from a composite of multiple 2-D radiographic images using tracers and contact dyes has allowed doctors to view a comprehensive image of a patient’s body and observe minor anomalies that would have otherwise gone undetected, providing vital early warning signs of potential health problems.

 

And Making Lives Better

With today’s level of sophistication in computer 3-D imaging technology, its use in medical practice has also found an ever-expanding role to play in helping doctors improve the quality and results of facial plastic and reconstructive surgery.

For patients seeking facial implants to improve the proportions or enhance the contours of their face, the computer era has made it possible for facial implants to be perfectly tailored to a patient’s face.

Custom implants made using 3-D imaging and computer-aided drafting look smoother, rounder, and anatomical, and allow facial reconstructive surgeons to correctly perceive the interaction of all facial features to create a balanced, well-proportioned face.

Dr. Binder was an early innovator in this field, noticing at first that facial implants of the time were not quite right, or as he would say: “non-anatomic.”

 

Pioneering Facial Contouring and 3-D Imaging

Before bringing the possibilities of high-resolution 3-D scanning, efficient digital rendering and imaging, and computer-aided drafting to fruition in facial reconstruction techniques, Dr. Binder did not see facial implants achieving the desired results he was striving to attain.

By innovating a system capable of fabricating custom-designed facial implants to a high degree of precision, Dr. Binder was able to pioneer a technique that allows the reconstruction of most facial contour defects with a higher degree of accuracy and better results than were ever before possible.

Surgical Reconstruction for Extreme Physical Damage

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Plastic Surgery

When many people hear the words “plastic surgery” they immediately think of breast augmentations, liposuction, and age-defying Botox injections. Of course, there are many other procedures in the realm of plastic surgery than the purely cosmetic. In many cases, plastic surgery is performed for reconstructive or reparative purposes, rather than cosmetic or aesthetic reasons. Following physical trauma that leaves lasting damage, certain cosmetic surgery can restore not just the physical appearance of damaged tissue, but also physical function.

Why Might Someone Need or Want Reconstructive Surgery?

Following an accident or other injury that results in physical trauma, once a patient’s overall health has become stable again, thoughts begin to turn to repairing the damage, particularly in the case of severe or disfiguring facial trauma. Studies have shown that patients with uncorrected facial trauma have a higher incidence rate of body-image issues, depression, and post-traumatic stress disorder.

Types of Reconstructive Surgery

This type of surgery takes many forms, and the number of techniques and procedures is growing every day. Facial reconstruction in particular is a rapidly growing field, and now includes techniques that would have been impossible even just a decade ago.

Facial reconstructive procedures can include:

Reconstruction of the Skin

Skin treatments typically take the form of chemical peels or laser treatment to lessen the raised appearance of scars, or to eliminate excessively darkened or lightened pigmentation following a burn or skin graft. These same procedures can also be used to reverse the appearance of fine lines and wrinkles that comes as a result of passing time.

Laser treatments, particularly C02 laser treatment, can also be used to “sand away” a raised or hypertrophic scar in order to bring it in line with the rest of the skin on the face, thereby making it far less noticeable and obtrusive. The same can also be done with dermabrasion, and often the two techniques are used in conjunction with chemical peels and other deeper reconstructive options to achieve the very best result.

Skin Treatments Beneath the Skin

For deeper damage that causes the skin to be raised or lowered, particularly following trauma such as a burn, there are more intensive options that can aid in scar removal. This typically takes the form of collagen or other fillers, but it can also include tissue expanders that help to bring the skin together to promote smoother, more aesthetic healing. This procedure is a bit more involved than other simple skin treatments, but it can also be used in combination with Z-plasty to help bring severe scars more in line with the natural lines of the face in order to more effectively blend them into the surrounding skin

What Reconstructive Surgery Can’t Do

Despite the advances in modern cosmetic surgery, there are some things it just can’t do. For one, deep burns are particularly problematic to reconstruct, as there is often very little tissue left to work with. There is likely to always be some measure of visible damage following a severe burn. However, even the most severe scarring can be lessened with the proper techniques. By combining several different types of reconstructive procedures to achieve a customized solution, severe scarring can be improved and the physical and emotional after-effects of trauma can be lessened.

Why Choosing the Right Surgeon Matters

The most important part of any surgery is choosing the right surgeon. The very best reconstructive surgeons are the ones that specialize in particular areas of care, so be sure to find one that is specifically focused and well versed in facial reconstruction, before choosing to undergo such delicate procedures. Facial scarring can easily be made much worse with improper or poorly performed scar removal procedures, making it especially important that you choose a reliable physician with an excellent track record.

Dr. William J. Binder is one of the world’s leading facial reconstructive experts, and has a long history of innovation and creative application of advanced reconstructive procedures. He is based out of Los Angeles, but due to his expertise and experience, patients from around the country and even the world come to receive treatment from him. Dr. Binder is extensively published and is board certified by both the American Board of Otolaryngology and Head and Neck Surgery and the American Board of Facial Plastic and Reconstructive Surgery. If you have questions about facial reconstruction and want a consultation with the very best, contact Dr. Binder’s office today.