• Dr. Rob's Solutions for Plastic Surgery and Cosmetic Treatments

  • 著者: Dr. Robert Whitfield MD
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Dr. Rob's Solutions for Plastic Surgery and Cosmetic Treatments

著者: Dr. Robert Whitfield MD
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  • A journey through Austin plastic surgeon Dr. Robert Whitfield’s deep experience with cutting edge technology for no-cut facelifts and other procedures. Known as Austin’s natural plastic surgeon, Dr. Whitfield brings you the true stories of actual plastic surgery patients, navigates through their surgical and non-surgical treatment options, then reveals their chosen path forward and the results they achieved. Dr. Rob is a board certified plastic surgeon and Austin’s Natural Choice for plastic surgery, laser and energy treatments, and aesthetics.
    © 2024 Dr. Robert Whitfield MD
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あらすじ・解説

A journey through Austin plastic surgeon Dr. Robert Whitfield’s deep experience with cutting edge technology for no-cut facelifts and other procedures. Known as Austin’s natural plastic surgeon, Dr. Whitfield brings you the true stories of actual plastic surgery patients, navigates through their surgical and non-surgical treatment options, then reveals their chosen path forward and the results they achieved. Dr. Rob is a board certified plastic surgeon and Austin’s Natural Choice for plastic surgery, laser and energy treatments, and aesthetics.
© 2024 Dr. Robert Whitfield MD
代替医療・補完医療 衛生・健康的な生活 身体的病い・疾患
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  • Introducing Dr. Rob's Solutions Podcast

    Introducing Dr. Rob's Solutions Podcast
    2021/08/20
    Austin’s natural plastic surgeon Dr. Robert Whitfield brings you the true stories of actual patients, navigates through their surgical and non-surgical treatment options, then reveals their chosen path forward and the results they achieved. Dr. Robert Whitfield is a board certified plastic surgeon and Austin’s Natural Choice for plastic surgery, laser and energy treatments, and aesthetics. Links and Resources: Let’s Connect... Podcast: https://podcasts.apple.com/gb/podcast/breast-implant-illness/id1678143554 Spotify: https://open.spotify.com/show/1SPDripbluZKYsC0rwrBdb?si=23ea2cd9f6734667 TikTok: https://www.tiktok.com/@drrobertwhitfield?t=8oQyjO25X5i&r=1 IG: https://www.instagram.com/breastimplantillnessexpert/ FB: https://www.facebook.com/DrRobertWhitfield Linkedin: https://www.linkedin.com/in/dr-robert-whitfield-md-50775b10/ X: https://x.com/rob_whitfieldmd Read this article - https://www.breastcancer.org/treatment/surgery/breast-reconstruction/types/implant-reconstruction/illness/breast-implant-illness Shop: https://drrobssolutions.com SHARP: https://www.harp.health NVISN Labs - https://nvisnlabs.com/ Get access to Dr. Rob's Favorite Products below: Danger Coffee - Use our link for mold free coffee - https://dangercoffee.com/pages/mold-free-coffee?ref=ztvhyjg JASPR Air Purifier - Use code DRROB for the Jaspr Air Purifier - https://jaspr.co/ Echo Water - Get high quality water with our code DRROB10 - https://echowater.com/ BallancerPro - Use code DRROBVIP for the world's leader in lymphatic drainage technology - https://ballancerpro.com Ultrahuman - Use code WHITFIELD10 for the most accurate wearable - https://www.ultrahuman.com/ring/buy/us/?affiliateCode=drwhitfield
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    6 分
  • Episode 17: Dangers Your Breast Implants May Be Concealing with Dr. Mithun Sinha

    Episode 17: Dangers Your Breast Implants May Be Concealing with Dr. Mithun Sinha
    2024/10/24
    In this podcast episode, Dr. Robert Whitfield, a board-certified plastic surgeon specializing in breast implant illness (BII), and Dr. Mithun Sinha, a PhD scientist, discuss the complexities of Breast Implant Illness. Dr. Whitfield shares his clinical experiences and emphasizes the importance of understanding the symptoms and experiences of women affected by Breast Implant Illness and Dr. Sinha provides scientific insights into the role of fatty acids, bacteria, and biofilm formation concerning breast implants, explaining how these factors contribute to symptoms like fatigue and brain fog. Be sure to tune in to hear more! Show Highlights: Role of Fatty Acids in Cell Structure (00:01:51) The importance of fatty acids in cellular stability and protection Interaction of Fatty Acids and Implants (00:03:20) Discussion on how fatty acids interact with breast implants and surrounding tissue Formation of 10 Home and Biofilms (00:05:20) Dr. Sinha describes how oleic acid transforms into 10 Home, linked to bacterial biofilms. Scar Capsule and Bacterial Colonization (00:06:40) Exploration of how the scar capsule provides a habitat for bacteria to form biofilms Historical Perspective on Surgical Techniques (00:12:40) Dr. Whitfield shares his experience with surgical techniques for patients with breast implant illness. Importance of Research on BII (00:13:41) Lack of attention to women suffering from BII and the need for better care Introduction to Oxaliplatin Home Research (00:14:54) Dr. Sinha introduces his new paper on oxaliplatin home and its link to inflammation Oxidation and Its Effects on the Body (00:16:04) Dr. Sinha explains how oxidation increases during stress and exercise, affecting health Potential Biomarkers for BII Symptoms (00:17:38) Discussion on identifying biomarkers to predict and assess symptoms in BII patients Characterizing Bacterial Contamination (00:19:54) Dr. Whitfield discusses the need to characterize bacterial contamination in patients with implants. Read Dr. Mithun Sinha’s paper in The Aesthetic Surgery Journal. Oxylipins in Breast Implant–Associated Systemic Symptoms (https://academic.oup.com/asj/article/44/10/NP695/7690705) Bio. Mithun Sinha, PhD Dr. Sinha is an Assistant Professor in the Division of Plastic Surgery, Department of Surgery at the Indiana University School of Medicine. His laboratory specializes in the field of bacterial biofilm research. The investigations are focused on implant-associated complications due to biofilms and wound healing complications. These include breast implant-associated systemic immunological manifestations, dental implant-associated peri-implantitis, and orthopedic implant-associated osteomalacia. Studies also include wound healing studies exploring host-biofilm-mediated metabolites. His laboratory explores the development of implant-based biomaterials for their anti-biofilm properties. Over the years, he has actively collaborated with surgeons and chemical and material science engineers. He has been continually funded by NIH and currently have two active grants from NIH as PI (R01 and R21). He has also served/serving on 4 NIH grants as Co-Investigator. He has published 45 articles in peer-reviewed journals, with a Google Scholar citation of 2600+ and an h-index of 20. Seven of his publications have been cited 100+ times. A recent study from his lab on breast implant-associated immunological complications published in the Journal of Clinical Investigation (PMID: 38032740) has received editorial-type commentary from the peer community (PMID: 38299590). In addition to being a researcher, he has served as a reviewer for 15+ peer-reviewed journals. He also serves as Associate Editor for the journal RNA Biology and as an ad-hoc member of the NIH study section and Plastic Surgery Foundation (PSF) study panels. Connect with Dr. Whitfield: Podcast (https://podcasts.apple.com/gb/podcast/breast-implant-illness/id1678143554) Spotify (https://open.spotify.com/show/1SPDripbluZKYsC0rwrBdb?si=23ea2cd9f6734667) TikTok (https://www.tiktok.com/@drrobertwhitfield?_t=8oQyjO25X5i&_r=1) IG (https://www.instagram.com/breastimplantillnessexpert/) FB (https://www.facebook.com/DrRobertWhitfield) Linkedin (https://www.linkedin.com/in/dr-robert-whitfield-md-50775b10/) X.com (https://x.com/rjwhitfield?lang=en) Read this article (https://www.breastcancer.org/treatment/surgery/breast-reconstruction/types/implant-reconstruction/illness/breast-implant-illness) Shop Dr. Whitfield’s Solutions (https://drrobssolutions.com) SHARP (https://www.harp.health) NVISN Labs (https://nvisnlabs.com/) Get access to Dr. Rob's Favorite Products below: Danger Coffee (https://dangercoffee.com/pages/mold-free-coffee?ref=ztvhyjg) - Use our link for mold-free coffee. JASPR Air Purifier (https://jaspr.co/)- Use code DRROB for the Jaspr Air Purifier. Echo Water (https://echowater.com/)- Get high-quality water with our code DRROB10. BallancerPro (https://ballancerpro.com) - Use code DRROBVIP for ...
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    23 分
  • Episode 16: Cutting-Edge Techniques: How Fat Transfers and Stem Cells Are Changing Lives

    Episode 16: Cutting-Edge Techniques: How Fat Transfers and Stem Cells Are Changing Lives
    2024/06/13
    Over the years, stem cells have gained significant attention for their remarkable ability to transform into various cell types, presenting immense potential for regenerative medicine and treatment for a wide range of diseases. This growing interest has been driven by a series of groundbreaking discoveries and significant advancements in stem cell research. In the context of breast implants and breast implant illness, stem cells offer promising solutions for tissue regeneration and recovery, providing new hope for those seeking alternative treatments. Whether you're curious about the science behind stem cells or considering a procedure involving fat transfer, this episode is packed with valuable insights to guide you on your journey to better health and wellness. Let’s explore more about how stem cells are transforming the medical field, providing new avenues for treatment and recovery. We'll dive into valuable insights and the latest advancements, helping you understand the incredible potential of stem cells and their benefits. Fat transfer surgery for breast augmentation and reconstruction I’ve recently attended several notable conferences where I gained valuable insights and innovations that I’m eager to integrate into our clinic. Some of these advancements include the incorporation of more lymphatic massage techniques, the introduction of NanoVi technology to improve protein folding and recovery, and the use of H-Wave therapy to further enhance lymphatic drainage and aid in patient recovery. For today, however, let’s focus on fat transfers. Drawing from my extensive experience with fat transfers, a technique I’ve refined over many years, I explain that fat transfers are effective because they use the patient’s own tissue, making them autologous and thus free from the risks associated with donor tissues, such as genetic mismatches. Fat transfers are versatile, as adipose-derived stem cells can differentiate into fat cells, bone cells, or cartilage, providing a range of benefits. My initial interest in this technique stemmed from a personal desire to regenerate cartilage in my knees after multiple surgeries, leading to a deep understanding of the procedure’s potential. With extensive experience in sarcoma reconstruction, I can confidently say that fat transfers are safe when performed correctly. It's essential not to transfer fat to areas with existing tumors or sarcomas, as these mesenchymal regions could complicate the procedure. For breast augmentation and reconstruction, fat transfers have been effective for many years, and I have conducted numerous procedures since 2005. Successful outcomes depend on transferring a mixture of adipocytes, vascular cells, and adipose-derived stem cells. This technique requires precise placement of fat in specific areas to avoid complications and ensure proper integration with the surrounding tissue. There were early safety concerns regarding fat transfers for cosmetic purposes, such as buttock augmentation, due to technical issues when the procedure first gained popularity in South America and Miami. However, with advancements in techniques and improved safety measures, fat transfers for both buttock and breast augmentation have become reliable and effective procedures. Fat transfer for breast implant illness, including stem cells and healing When the skin gets really tense, you'll notice a condition called "peau d'orange," where the surface of the skin starts to look like the surface of an orange. This indicates too much pressure and that expansion should stop. Unlike implants, which can hold their shape and maintain more volume, fat cannot be continuously added. The amount of fat that can be added depends on the initial condition of the skin. For younger clients with tight skin, multiple sessions may be needed to gradually increase volume. In cases where I remove implants that have been in place for a long time, often after weight changes, pregnancies, or breastfeeding, the skin is usually stretched out. After removing the implant with its capsular material intact, I don't fill the old implant pocket and instead, place the fat beneath the skin, where it belongs, and let it heal. Adipose-derived stem cells in the fat offer numerous benefits, aiding in wound rejuvenation and healing. They can help turn genes on, produce exosomes, modulate immune responses, and improve mitochondrial function. This is why fat transfers are more than just about the fat itself – they bring substantial healing properties. To maintain the results over time, factors like diet, detoxification ability, and gut health are crucial. We strongly advocate for fat transfers, leveraging the healing power of stem cells. We also offer stem cell harvesting and banking, a process I personally undergo every three to six months. Using our cell surgical device and extensive experience since 1998, we continually strive to enhance our offerings and improve patient outcomes. We offer a ...
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    16 分

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