Vahid Moosabeiki’s Post

🔬 What makes OrthoClay different? Rigid implants struggle with irregular acetabular defects. Every defect is unique, and every reconstruction demands flexibility. OrthoClay’s flexible titanium mesh is designed to adapt where others can’t: ✅ Morphs to irregular surfaces — the mesh can elastically deform to match the defect, minimizing the need for extensive bone reaming. ✅ Covers severe defects — can bridge complex acetabular bone loss, including large #Paprosky type III defects. ✅ Supports bone grafting #BIG — accommodates impacted bone graft beneath and between mesh layers, helping restore bone stock and structural integrity over time. ✅ Enables anatomical reconstruction — designed to recreate acetabular geometry with high conformity to the patient’s anatomy. ✅ Simplifies workflow — a small set of mesh geometries can fit a wide range of defects, reducing the need for fully custom implants. OrthoClay combines adaptability, stability, and practicality — helping surgeons tackle even the most complex acetabular reconstructions with more confidence. ➡️ Follow OrthoClay to see how we’re bringing this technology from lab to OR. #OrthoClay #MedTech #HipRevision #AcetabularReconstruction #3DPrinting #SurgicalInnovation

New publication from our team. Our team has just published a new paper in Videosurgery and Other Miniinvasive Techniques (Impact Factor: 1.9) titled: “Mechanical stability of new-generation meshes for M3 inguinal hernia repair: experimental pressure chamber testing of SWING-Mesh® and 3DMax™ MID Anatomical Mesh” https://lnkd.in/dkv_ca_Y The work investigated the biomechanical stability of two newly introduced meshes used for large inguinal hernia repairs (M3 defects). Using a custom pressure chamber model, we compared: SWING-Mesh® 3DMax™ MID Anatomical Mesh Key findings: 3DMax™ MID maintained full stability even under very high pressure. SWING-Mesh®, as expected, requires additional fixation in the case of large M3 hernias. The choice of mesh design is crucial for material safety and repair durability. In some cases, the use of a mechanically stable mesh may allow for non-fixated repair, potentially reducing complications related to fixation devices. We sincerely thank everyone involved in this study. We hope that these results will help improve hernia repair standards and patient safety worldwide. #HerniaSurgery #Research #Videosurgery #Mesh #Innovation #SurgicalScience #TeamWork #HerniaRepair #MinimallyInvasiveSurgery

The million dollar question when it comes to guided implantology is: are you seeing everything you need to see? Dr. Omar Noriega, a leading specialist in Prosthetics & Implantology, shares that his key recommendation is Diagnocat. He relies on it to instantly fuse CBCTs, facial, and intraoral scans for optimal 3D alignment as well as segmenting nerves and bone structure automatically. Dr. Noriega feels that Diagnocat gives him the surgical confidence and clarity needed to transform complex cases. If you are using CAD/CAM, don't sleep on this full professional endorsement! Hear it from him directly in this video ⬇️

Screw Fracture Overview Problem & Impact: Fractured implant screws, while uncommon, pose a significant mechanical complication. They often follow screw loosening or biomechanical overload, sometimes leading to complex retrieval or even implant removal. Main Causes: Fatigue fracture from repeated micro-movements, inadequate preload or torque, prosthetic misfit, excessive occlusal loading, parafunctional habits, and suboptimal screw design or materials are leading contributors. Materials/Fractography: Recent analyses show most fractures exhibit fatigue patterns, influenced by clinical loading and variations in screw geometry or titanium-alloy quality. Retrieval & Management: Stepwise protocols start with conservative retrieval (direct access, reverse torque), then ultrasonic/micro-drilling kits. Implant replacement may be needed if retrieval fails or the connection is damaged. Emerging Methods: Minimally invasive techniques (silicone holders, micro-brushes, ultrasonic tips) show promise but are supported mainly by case reports. References: Raju S et al. J Indian Prosthodont Soc. 2023;23(1):12–22. Martínez-Alcaraz P et al. J Prosthet Dent. 2024;132(2):177–185. Chowdhary R et al. J Osseointegration. 2023;15(1):47–54. Nayana P et al. J Indian Prosthodont Soc. 2022;22(3):215–222. Soleimani M et al. Clin Case Rep. 2024;12(2):e9621. Chowdhary R et al. J Prosthodont Res. 2024;68(3):231–239. Al-Omari WM et al. J Osseointegration. 2024;16(2):90–101. Aboushelib MN et al. Int J Prosthodont. 2023;36(1):55–62. Jang JH et al. Clin Implant Dent Relat Res. 2023;25(1):75–84. Petrescu R et al. Int J Prosthodont. 2023;36(5):510–517. #ScrewFracture #ImplantDentistry #Prosthodontics #DentalComplications #ClinicalCases #DentalImplants #ProtonDentalDesign #TorontoDentistry #PrecisionDentistry #DentalEducation

Orthopedic LCP Screw (100mm) Production | Star Head | Helix-20 Sliding Head Machine Experience the complete machining process of a 100mm LCP Screw with Star Head manufactured on our Helix-20 Sliding Head CNC Machine. This video showcases high-precision orthopedic implant machining, smooth cutting performance, and flawless thread forming – designed for the medical industry’s strict quality requirements. 💡 Ideal for OEMs, orthopedic manufacturers, and CNC machining professionals. #LCPscrew #BoneScrew #OrthopedicImplants #CNCmachining #SlidingHeadMachine #SwissTypeLathe #Helix20 #MedicalMachining #OrthopedicManufacturing #CNCprecision #ImplantManufacturing #StarHeadScrew #CNCturning #CNCtechnology #MedicalDeviceManufacturing #trending #reel #youtube #linkedin #medical #ortho #cnc #screw #video

The Proximal Femoral Nail (PFN) is engineered for stability and precision in proximal femur fracture management. Designed to address pertrochanteric, intertrochanteric, and high subtrochanteric fractures, it offers both short (180–240 mm) and long (320–460 mm) configurations for varied anatomical requirements. With interlocking cannulated screws (⌀ 8.0 mm & 6.3 mm), a 6° ML angle, and CCD angle options of 130° / 135°, the system ensures accurate alignment and secure fixation. Distal locking bolts and adjustable end caps enable controlled compression, while durable SS construction provides long-term strength and reliability. #SorathOrtho #ProximalFemoralNail #PFN #FractureFixation #OrthopaedicImplants #TraumaSurgery #BoneHealing #OrthopaedicInnovation #SurgicalPrecision #AdvancedFixationSystems

Proud to share our original research published in the Journal of Contemporary Orthodontics (Scopus-indexed):”Evaluation of Stress in Bone by 9 Different Mini Implants Based on Placement Angle with Relation to En-masse Retraction Force – An FEM Study.” This Finite Element Method (FEM) analysis explored how mini-implant geometry and insertion angle affect stress distribution in surrounding bone during orthodontic en-masse retraction. Nine implant configurations and five insertion angulations (30°, 45°, 60°, 90°, 120°) were evaluated for biomechanical stability and cortical bone response This study strengthens the clinical understanding of how biomechanics influence mini-implant performance. By using digital simulations and stress mapping, orthodontists can make evidence-based decisions—ensuring safer, more predictable tooth movement during en-masse retraction. 🔗 Read the full article here: [10.18231/j.jco.2023.047.] #Orthodontics #Research #FEMStudy #MiniImplants #DigitalOrthodontics #Biomechanics #DJCollege #ScopusIndexed #ContemporaryOrthodontics #AcademicExcellence #VaibhavMisra

Tech is a young person’s game. 🔗 https://on.wsj.com/3LdhuJs It’s unsurprising, then, that men in tech are increasingly spending thousands of dollars on procedures such as “mini face-lifts,” neck lifts and eyelid lifts to beat the signs of aging, according to plastic surgeons. Yes, the latest addition to the tech-bro look is a brand-new face.

I came across this article about how way more men are getting facelifts because, according to Silicon Valley, “no one hires anyone over 30.” The pressure to look young and be beautiful is universal. It's not just in tech, but in almost every career path. Beyond employability, looking young has become a proxy for health. Youthful appearance signals vitality, longevity, and even cognitive sharpness: traits our society subconsciously associates with capability and resilience. In fact, research indicates that perceived youthfulness may be correlated with both lifespan and healthspan, suggesting a deeper connection between physical appearance, quality of life, and biological aging. The democratization of Botox and aesthetic medicine raises valid concerns for practitioners and policymakers, especially around quality control and access, but it’s also a conversation the healthcare field shouldn’t turn away from. These treatments touch not only the physical but also the psychological aspects of health: self-esteem, confidence, and social integration. At the end of the day, beauty isn’t just in the eye of the beholder. It’s in the well-being of the person who feels beautiful, physically and mentally. Because, whether conservative healthcare likes it or not, beauty treatments are healthcare and should be treated with the same degree of caution and validation. Ref: https://lnkd.in/eb_mEP38 https://lnkd.in/ekKXYbdZ https://lnkd.in/ekMBXrWa #cosmeticsurgery #beauty #botox #beautyindustry #qualityoflife

Cropping the area of interest (AOI) in an X-ray image before applying Canny edge detection can significantly improve edge quality and reduce noise from irrelevant regions. Why Cropping Helps: Reduces irrelevant noise: X-rays often contain large background areas, labels, or surrounding anatomy that introduce spurious edges. Focuses on the target structure: By isolating the region containing screws, implants, or bones, Canny can detect edges more accurately. Improves computation efficiency: Smaller image regions reduce processing time.