See What Can’t Be Seen, Promise the Best Surgical Outcomes with a 3D Microscope. Now, Go for 3D SCOPEYE!

Hello. I’m a certified plastic surgeon. Working in the operating room daily to help patients regain their youth makes me reflect deeply on the passage of time and the changes it brings. Particularly, as people enter their 50s, the deepening nasolabial folds and sagging jawlines significantly impact their confidence. One of the most certain solutions to these issues is ‘facelift surgery.’ However, it is also a source of great concern for many.

“It’s not the surgery itself that scares me, but I am most worried that my expressions will become unnatural afterward. I’m afraid I won’t be able to smile brightly as before.”

This is a sentiment shared with me by a consultation patient. Many people, likewise, worry about awkward expressions or sensory issues that may occur after a facelift. These concerns, however, can be alleviated by understanding the core principles of surgery, with ‘precision’ being at the heart of it.

Why is Precision Critical in Facelift Surgery?

Beneath our facial skin lies a thin, tough membrane called the SMAS (Superficial Musculoaponeurotic System) layer. The SMAS layer holds the skin and muscles tightly together, but as we age, it loses strength due to gravity and droops downwards. This is the fundamental cause of facial sagging. Hence, a successful facelift involves more than just pulling the skin; it’s crucial to accurately dissect the SMAS layer, reposition it upwards, and securely fix it in place.

The complication is that numerous tiny nerves and blood vessels intricately surround the SMAS layer. If these nerves get damaged during the dissection process, critical side effects such as facial asymmetry or awkward expressions can occur. Thus, the success of a facelift hinges on safely and precisely dissecting the SMAS layer and elevating it without damage.

3D Microscope: Transforming Surgical Paradigms

In the past, like many other doctors, I performed surgeries while bent over a loupe (magnifying lens). Prolonged surgery reduced concentration, and neck and shoulder aches were unavoidable companions. I operated this way for a time and would invariably rub the back of my neck after surgeries. Physical fatigue of the surgeon can lead to tiny hand tremors, which can affect surgical outcomes.

However, with the introduction of the 3D microscope system, the surgical environment has undergone a significant change. Surgeons no longer need to bend down but can perform operations comfortably by looking at a high-resolution 3D monitor positioned in front. The 3D microscope magnifies the surgical area up to 20 times, clearly displaying even the tiny nerves and vessels that are difficult to see with the naked eye or loupe. This allows surgeons to maintain concentration throughout the surgery, reduce the risk of nerve damage, and perform more precise dissections. It represents an important shift connected to patient safety.

Outcomes of 3D Ultra-Precision Facelifts: Naturalness and Safety

Facelifts performed using a 3D microscope not only increase safety but also enhance the lifting effect because the SMAS layer can be dissected more deeply and extensively. Because fewer tiny vessels are disturbed, recovery is smoother and faster.

Most importantly, the results are natural. Tailored surgery is possible because the surgery is conducted while observing the anatomical structure of the face on a monitor, taking into account the movements of facial muscles. Thus, patients maintain natural expressions post-surgery without appearing unnaturally tight, achieving a comfortable and relaxed impression. A properly performed 3D ultra-precision facelift is a reliable choice for regaining youth.

Concerns of a Youthful Appearance

If a facelift addresses overall facial sagging, another crucial area influencing impressions is ‘under the eyes.’ With age, the fat under the eyes may protrude, and shadows beneath them can give a tired and aged look. One surgery that can improve this is ‘lower blepharoplasty.’

Lower blepharoplasty entails more than just removing fat; it also involves repositioning fat in sunken areas and tightening loose tissue to create a more three-dimensional and bright impression. This surgery, like others, requires detailed consultation with medical staff, taking into consideration individual eye and facial structures.

What’s your biggest curiosity on the journey to erase traces of time and regain confidence? Leave your queries in the comments, and I’ll delve into them in the next article. We support your youthful days.

The application of 3D microscopes in facelift surgery represents not just a change in technology but an evolved approach that enhances surgical precision and patient satisfaction. Thanks to advanced equipment like 3D SCOPEYE, the surgeon’s field of vision is broadened, and concerns over microstructural damage are reduced. If you have any questions about this system, please contact us.

Promise the best surgical outcomes with the unseen precision of a 3D microscope.

Now, go for 3D SCOPEYE!