World Oral & Maxillofacial Surgery Congress

Craniofacial surgery enhances skull and facial function and appearance for conditions like cleft lip and palate. NWE technology revolutionizes craniofacial surgery by improving procedures and patient outcomes. This session covers key subjects in NWE technology's role in advancing craniofacial surgery.

Head and neck surgery encompasses procedures on the structures of the head, face, throat, and neck to treat conditions such as tumors, infections, deformities, and trauma. Transoral robotic surgery (TORS) is a minimally invasive technique that uses a robotic system to access and remove head and neck tumors through the mouth. It provides enhanced precision, minimal scarring, and faster recovery compared to traditional open surgeries. The session will cover important aspects of TORS and its benefits for patients.

Dermatology is the branch of medicine that deals with the diagnosis and treatment of disorders and conditions related to the skin, hair, and nails. Dermatologists specialize in managing skin diseases, performing cosmetic procedures, and promoting skin health. AI algorithms are being developed to assist dermatologists in diagnosing skin conditions by analyzing images and identifying patterns. This technology has the potential to improve accuracy and efficiency in diagnosing skin diseases. This session will focus on current research and trends in the field of Dermatology

Plastic surgery enhances the appearance and restores body parts through surgical procedures, encompassing cosmetic and reconstructive surgeries. skilled surgeons use advanced imaging techniques like CT scans and MRIs to analyze patient anatomy and identify potential issues pre-surgery. This session will cover topics related to plastic surgery, including advancements in surgical techniques, aesthetic procedures, reconstructive interventions, and patient safety. During this session, we will delve into the following subjects:

Oral pathology is a dental specialty that diagnoses and studies diseases in the oral and maxillofacial regions. Tumor surgery within oral pathology focuses on removing oral tumors, preserving function and aesthetics. Advanced technology, including digital imaging, computer-aided diagnosis, molecular testing, robotic-assisted surgery, and telemedicine, has revolutionized oral pathology and tumor surgery, enabling precise diagnosis, personalized treatments, surgical precision, and remote consultations for improved patient care. This session covers,

Maxillofacial reconstruction is the surgical restoration of the face, jaw, and associated structures after trauma or deformities. It involves procedures like bone grafting, soft tissue reconstruction, and dental implants to improve function and aesthetics. Advanced technology in maxillofacial reconstruction includes CAD/CAM, VSP, 3D printing, robotics, AR/VR. These technologies improve precision, customization, planning, patient education, and imaging, enhancing maxillofacial reconstruction outcomes. This session will cover the following key subjects:

Facial aesthetics focuses on enhancing facial beauty through non-surgical treatments like fillers and chemical peels. Cosmetic surgery involves surgical procedures to improve facial features such as rhinoplasty and facelifts. Both aim to enhance appearance but differ in the nature of procedures performed. Facial aesthetics and cosmetic surgery benefit from advanced technology, including laser devices, 3D imaging, minimally invasive techniques, robotics, and injectables. These technologies offer precise treatment, realistic outcome visualization, reduced downtime, and improved precision for natural-looking results. We will provide an overview of Facial Aesthetics and Cosmetic Surgery, its applications, and future directions in this session

Medications or techniques to induce reversible loss of sensation during medical procedures. Pain Management is an Approaches to alleviate pain before, during, and after procedures. Both ensure patient comfort and safety. anesthesia and pain management include targeted drug delivery, ultrasound-guided regional anesthesia, monitoring systems, virtual reality distraction, neurostimulation, telemedicine, EMRs, AI, and machine learning, revolutionizing patient care in these fields. The Oral & Maxillofacial Surgery Congress conference will elaborate on this session

Cleft lip and palate surgery repairs congenital deformities of the lip or roof of the mouth. It involves closing the separation to improve appearance and speech. The procedure is performed in stages by a specialized team of surgeons and therapists. The design of a rotation-advancement flap is structured around a curved line on the non-cleft side, aiming to address the disparity in lip height and achieve balance. The session discussed the following subjects

Maxillofacial trauma involves injuries to the face, including bones and soft tissues. Emergency surgery is performed to promptly address severe facial trauma, stabilize fractures, control bleeding, and restore facial structures. A collaborative approach and timely intervention are vital for achieving optimal outcomes in these cases the development of high-resolution computed tomography, improved classification schemes, rigid fixation techniques, improved biomaterials, soft tissue resuspension, and primary bone grafting. During the Oral & Maxillofacial Surgery Congress, this topic will be elaborated upon

Oral cancer is a malignancy in the mouth, including lips, tongue, and gums. It presents as sores or patches and is linked to risk factors like tobacco and alcohol use. Early detection through dental check-ups is vital for prompt treatment, which may include surgery, radiation, or chemotherapy. screening devices, imaging techniques , molecular biomarkers, robotic-assisted surgery, targeted therapies, digital dentistry (CAD/CAM, 3D printing), and telemedicine. These technologies aid in early detection, precise diagnosis, personalized treatment, and improved patient outcomes in oral cancer management. The following topics cover during this session

Pediatric Oral Surgery focuses on surgical treatment for oral and maxillofacial conditions in children. It addresses issues like abnormalities, infections, trauma, and developmental concerns. Pediatric Oral Surgeons work with a team to provide comprehensive care for children's oral health. Piezo Electric Handpieces, which use ultrasound frequency for specific surgeries, will be covered in this session. This technology offers quieter operation and precise surgical capabilities in oral and maxillofacial surgery. During this session, the following significant topics will be covered

Robotics and AI in Oral and Maxillofacial Surgery shorten recovery times through advanced technologies. These innovations enable precise and minimally invasive surgeries, which can result in reduced trauma to the patient's tissues. Minimally invasive approaches typically lead to smaller incisions, less postoperative pain, and faster healing compared to traditional open surgeries. Additionally, the use of robotics and AI can optimize surgical techniques and improve efficiency, resulting in shorter procedure times. By minimizing surgical trauma and enhancing efficiency, these technologies contribute to shorter recovery periods for patients undergoing Oral and Maxillofacial Surgery. This session will focus on current research and trends in the field of Robotics and AI in Oral and Maxillofacial Surgery

Facial reconstruction with VR technology involves using virtual reality tools to simulate surgical interventions, allowing surgeons to manipulate virtual models of patients' faces and evaluate outcomes. This approach improves collaboration, enhances patient communication, and enables precise and personalized reconstruction. It incorporates high-resolution imaging, real-time simulation, haptic feedback, augmented reality integration, AI assistance, multi-disciplinary collaboration, and patient education, all of which contribute to improved precision, realism, collaboration, and patient engagement in the reconstruction process. Facial Reconstruction with VR Technology will be the topic of this session, which will focus on current research findings and trends

Dental anomalies are structural or developmental abnormalities that affect teeth and jaws. They include variations in tooth size, shape, number, position, and jaw structure. Treatment may involve  surgical interventions. CBCT imaging provides high-resolution 3D images of the teeth, jaws, and surrounding structures. It offers detailed anatomical information, aiding in the accurate diagnosis and visualization of dental anomalies. There will be a discussion of the following topics during this session

Minimal orthognathic surgery aims to correct jaw discrepancies and facial skeletal abnormalities using conservative techniques to minimize invasiveness and promote faster recovery. It involves virtual surgical planning, computer-assisted navigation, piezoelectric surgery, temporary skeletal anchorage devices, and a stepwise approach. minimal orthognathic surgery includes virtual surgical planning, computer-assisted navigation, piezoelectric surgery, temporary skeletal anchorage devices, robotic-assisted surgery. These technologies enable precise planning, navigation, and surgical techniques, minimizing invasiveness Our presentation will provide an overview of the current state of Minimal Orthognathic Surgery, its applications, and future directions.

Maxillofacial prosthetics restores form, function, and aesthetics for patients with facial or craniofacial defects. It involves custom prosthetic devices like facial prostheses, orbital prostheses, and obturators. Its goal is to improve quality of life and confidence in individuals with facial abnormalities. Maxillofacial prosthetics includes CAD/CAM, materials and tissue engineering, digital dentistry, augmented reality, rapid prototyping, osseointegration, and virtual reality simulation. These technologies improve precision, customization, aesthetics, patient communication, and training opportunities in maxillofacial prosthetics. Here are some of the topics we will discuss during this session,

Maxillofacial transplantation is the surgical transplantation of tissues or organs in the face to restore structure and function, including bone grafting, skin grafting, soft tissue grafting, and composite tissue transplantation. It aims to repair defects and improve facial aesthetics and function. The Neo Graft system stands out as the pioneering and sole FDA-cleared solution for follicular unit harvesting and implantation. By offering automation of the Follicular Unit Extraction (FUE) technique, which is widely regarded as the most advanced method in the field of hair transplant, Neo Graft revolutionizes the industry. During this session, the following significant topics will be covered

Facial prosthetics for oncology patients are custom devices that restore facial structures affected by cancer treatment. They improve appearance, function, and quality of life, aiding patient confidence and social integration. Collaboration among healthcare professionals is crucial. facial prosthetics for oncology patients includes 3D scanning and printing, CAD/CAM, digital imaging, advanced materials, and virtual reality. These technologies enable precise measurements, customization, realistic visualization, and improved prosthetic design and fitting, enhancing patient outcomes and satisfaction. This session will focus on current research and trends in the field of Facial Prosthetics for Oncology Patients

Tissue engineering for maxillofacial reconstruction involves the application of principles and techniques from biology, engineering, and medicine to create functional and biocompatible tissues for restoring and reconstructing maxillofacial structures. This field combines the use of biomaterials, cells, and bioactive factors to regenerate damaged or missing tissues in the face, jaw, and neck region. Tissue engineering has led to significant advancements in regenerative medicine and disease modeling, including three-dimensional bioprinting, organ-on-a-chip systems, and induced pluripotent stem cell (iPSC) technologies. These innovations have revolutionized the field, offering new possibilities for medical research and therapy. The following topics during this session

Surgical techniques for facial nerve regeneration involve procedures to repair, reconnect, or reroute the damaged facial nerve. These techniques aim to restore facial function and promote nerve regrowth. Common approaches include direct nerve repair, nerve grafting, nerve transfers, cross-facial nerve grafts, regenerative techniques, and facial reanimation. These techniques enhance functional recovery and improve the quality of life for individuals with facial nerve injuries. The session will cover various surgical techniques, their principles, and their clinical applications.

Augmented reality (AR) in maxillofacial surgery, we will explore the advancements and applications of AR technology in the field of maxillofacial surgery. AR offers innovative tools and visualization techniques that enhance surgical planning, intraoperative navigation, and postoperative outcomes. The following topics during this session

Rehabilitation of maxillofacial defects involve a multidisciplinary approach to restore form, function, and aesthetics in individuals with facial and jaw abnormalities. It includes surgical interventions, prosthetic treatments, and supportive therapies to address specific patient needs and improve quality of life. we will explore the latest advancements and research in the field of surgical rehabilitation, focusing on techniques to restore form, function, and aesthetics in patients with maxillofacial defects. The session will cover various surgical approaches and innovations in the field.

Computer-aided implant placement refers to the use of digital technologies, such as imaging, virtual planning, and surgical guides, to enhance the accuracy and predictability of dental implant procedures. It involves the visualization, planning, and guided placement of implants using computer-based techniques, resulting in improved outcomes and patient safety. we will explore the advancements and applications of computer-aided techniques in implant dentistry. Computer-aided implant placement utilizes advanced imaging, virtual planning, and guided surgical tools to enhance accuracy, predictability, and clinical outcomes This session will cover the following significant topics:

It involves the use of lasers for various surgical procedures. This advanced technology offers precise and minimally invasive treatment options with benefits such as reduced bleeding, decreased postoperative pain, and faster healing. Laser applications in oral surgery encompass procedures like soft tissue surgery, periodontal therapy, frenectomy, and lesion removal. By utilizing lasers, oral surgeons can provide efficient and effective surgical interventions, enhancing patient outcomes in oral surgery.