Healing 3D Lewin Ear

Healing 3D Lewin Ear (2 months microtia ear surgery post-op vs original 3D scan)

Estimated read time: 1:20

    Summary

    In the video 'Healing 3D Lewin Ear (2 months microtia ear surgery post-op vs original 3D scan)' by Dr. Sheryl Lewin, the focus is on the transformation and healing process two months after a microtia ear surgery. Viewers learn that at this stage, the child's ear begins to exhibit its unique 3D shape, with the anticipation that in the upcoming year, scars will diminish, skin tones will start to blend, and the ear's form will appear more natural. The video also highlights the use of a 3D scan, captured using an Artec scanner, to assist in implant design and assess Hemifacial Microsomia—providing crucial insights into the surgical planning. The skin used in the reconstructive process is sourced from the area surrounding the microtia ear and the non-affected opposite ear, ensuring optimal color match.

      Highlights

      • At two months post-op, the ear's 3D shape begins to emerge—a promising sign of successful healing! 📷
      • The integration of 3D scanning technology aids significantly in the surgical planning process. 🤖
      • Over time, scars fade and the ear's appearance becomes more natural as the skin tones blend. 🌟
      • The video showcases the intricate sourcing of skin from the microtia and opposite ear for reconstruction. 🔬
      • Dr. Lewin provides a comprehensive overview of the postoperative journey, highlighting a year-long transformation. 📅

      Key Takeaways

      • Two months post-op, a child's ear starts to reveal its 3D structure! 🏗️
      • Scarring fades and skin tones blend nicely over the year. 🌈
      • 3D scans play a crucial role in implant design for microtia surgery. 🖨️
      • Understanding Hemifacial Microsomia improves surgical planning. 📊
      • Skin for reconstruction is creatively sourced for best color match! 🎨

      Overview

      Two months into the recovery from microtia ear surgery, Dr. Sheryl Lewin's video captures the remarkable transformation as the ear starts taking its new 3D structure. This visual milestone signifies successful progress in the healing journey, as viewers can see the unique shape forming and get an insight into what lies ahead.

        Aided by cutting-edge technology, the 3D scanning process is pivotal in creating a tailored surgical plan. The use of the Artec scanner offers precise implant design and helps in the evaluation of conditions like Hemifacial Microsomia, ensuring every child's procedure is as personalized and effective as possible.

          As the body continues to heal, viewers learn that scars will gradually become less visible, and skin colors will harmonize to give the ear a more natural appearance. The thoughtful selection of skin sources—from both the microtia and opposite ear—demonstrates the meticulous approach taken in ensuring aesthetic and functional reconstruction outcomes.

            Chapters

            • 00:00 - 00:30: Introduction and Video Overview The video "Healing 3D Lewin Ear (2 months microtia ear surgery post-op vs original 3D scan)" by Dr. Sheryl Lewin provides an overview of the ear's healing process two months after surgery. During this period, the ear begins to showcase its unique 3D shape, with expectations that over a year, scars will diminish, skin color will assimilate, and the ear's appearance will become increasingly realistic. The procedure involves a 3D scan using the Artec scanner, which aids in designing implants and analyzing Hemifacial Microsomia. The skin used in the reconstruction is sourced from the area around the microtia ear and the back of the opposite, non-microtia ear, ensuring a blend in skin color over time.
            • 00:30 - 01:00: Two Months Post-Op Healing Signs This video, titled 'Healing 3D Lewin Ear (2 months microtia ear surgery post-op vs original 3D scan)' by Dr. Sheryl Lewin, discusses the healing process two months after microtia ear surgery. At this stage, the unique 3D shape of the child's new ear begins to emerge. Over the next year, the scarring will diminish, the skin color will blend, and the shape will develop into a more realistic appearance. The process involves an initial 3D scan using an Artec scanner, which assists in the design of implants and the analysis of Hemifacial Microsomia. The skin used in the reconstruction comes from the area around the microtia ear and the rear of the non-microtia ear, ensuring the skin color blends naturally over time.
            • 01:00 - 01:30: 3D Shape Development of the Child's Ear The video titled 'Healing 3D Lewin Ear' by Dr. Sheryl Lewin focuses on the development of the 3D shape of a child's ear post-microtia surgery. It discusses how, two months after surgery, the unique 3D shape of the child's ear begins to manifest and describes the expected changes over the following year, including fading scars, blending skin color, and a more realistic shape. The ear is 3D scanned before surgery using an Artec scanner to aid in the design of implants and analysis of Hemifacial Microsomia. The video also notes that skin from around the microtia ear and the back of the opposite non-microtia ear is used, affecting skin color post-surgery.
            • 01:30 - 02:00: Long-Term Healing Expectations The chapter titled 'Long-Term Healing Expectations' covers the healing process of an ear surgery conducted by Dr. Sheryl Lewin. The focus is on the progress observed two months post-operation in a microtia ear surgery case. As described in the video, by the two-month mark, the ear starts taking on its 3D shape, which becomes more defined with time. Over the following year, the scars will lighten, the skin tones will match more closely, and the ear will gain a more realistic appearance. The pre-surgical procedure involves using an Artec scanner to create a 3D scan of the ear for designing and analyzing the implant, considering conditions like Hemifacial Microsomia. Additionally, a unique method is used for skin placement, using skin from both the microtia ear and the opposite ear to ensure a natural skin color and texture over time.
            • 02:00 - 02:30: Importance of 3D Scanning in Surgery The chapter titled 'Importance of 3D Scanning in Surgery' discusses the role of 3D scanning in the context of microtia ear surgery, as explained in the video by Dr. Sheryl Lewin. The process involves using advanced 3D scanning technology, specifically the Artec scanner, to aid in the design of implants and the analysis of Hemifacial Microsomia prior to the surgical procedure. This innovative technique allows surgeons to achieve more realistic postoperative outcomes. By two months after surgery, the unique 3D shape of the patient's ear begins to manifest and over the next year, the skin's appearance will improve as the scars fade and the skin color blends. Additionally, the text details the process of how the skin used in the surgery is sourced from different areas around the child's ears.

            Healing 3D Lewin Ear (2 months microtia ear surgery post-op vs original 3D scan) Transcription

            • Segment 1: 00:00 - 02:30 This is a video titled "Healing 3D Lewin Ear (2 months microtia ear surgery post-op vs original 3D scan)" by Dr. Sheryl Lewin. Video description: By 2 months after surgery you can start to see the unique 3D shape of your child’s ear begin to appear. Over the next year the scars will fade, the skin color will blend, and the shape will become more realistic. 📷The ear is 3D scanned prior to surgery using the Artec scanner. The scan helps with implant design and analysis of Hemifacial Microsomia. 📷The skin on the front of the ear comes from around the microtia ear and the back of the opposite (non-microtia) ear, so the skin color will ult