Prof. Roberto Conte – Clinical Coordinator “NYU Tutor Project in Italy”
Overview:
- Implant surgeon with 40 years of experience.
- Medical and Surgical degree in 1977 from the University of Padua.
- Registered with the Medical and Dental Association of Padua since June 9, 1978.
- Completed a POST GRADUATE specialization in implantology at New York University in 2002, focusing on Pterygoid implants.
- Lecturer in the implant anatomy specialization course at the University Jean Monnet Saint Etienne.
Professional Development:
- Specialized courses in implant anatomy at the University Claude Bernard Lyon.
- Diploma in implantology anatomy.
- Actively participates in the “Zygomatic Implantology” Master’s program at the University.
Clinical Practice:
- Practices at studios located at Via Marconi 115, Cadoneghe (Padua), and Via Ada Negri, Oria Brindisi.
- Dedicated to staying at the forefront of implantology techniques and technologies.
Contributions to Implantology:
- Developed the Galileus Cerclage Sinus surgical technique.
- Pioneer in addressing severe atrophies of the posterior upper jaw.
- Conducted over 3000 cadaver dissections to refine skills.
Galileus Cerclage Sinus® Technique:
- Surrounds the maxillary sinuses with two robust dental implants.
- Anchors the pterygoid implant in the alveolar bone and palatine-pterygoid basal bone.
- Torque force of approximately 10 Newton-millimeters.
- Transverse implant towards the nasal spine resolves severe posterior maxillary atrophy.
- Eliminates the need for grafts, large lifts, and other procedures.
Expertise in Complex Procedures:
- Excels in zygomatic and pterygoid implants, Galileus Cerclage Sinus interventions, and subperiosteal implantation grid procedures.
- Tailored interventions for highly atrophic cases.
Anatomical and Physiognomic Studies:
- Dedicates time to in-depth studies of anatomy and physiognomy.
- Develops personalized implant-prosthetic protocols based on individual patient characteristics.
Commitment to Patient Care:
- Ensures that each implant-prosthetic intervention is tailored to the specific needs of the patient.
- Committed to providing customized and high-quality solutions for every clinical case.
Contributions to Education:
- Actively involved in the “NYU Tutor Project in Italy,” contributing to the training and development of implantology professionals.
Publications and Conferences:
- Published in Italy (Dental Cadmos) and Germany (ZMK Dentistry, Management, and Culture).
- Presented conferences on implantology in various locations, including Belgrade, Essen, and New York.
Global Impact:
- Recognized as a pioneer in global dental implantology.
- Developed an innovative surgical technique addressing complex challenges.
- Sets new standards in the world of dental implantology.
Note: The information provided is a synthesis of Prof. Roberto Conte’s profile and contributions in the field of implantology. For more detailed or specific information, it is recommended to refer to official publications or contact Prof. Conte directly.
Galileus Cerclage Sinus®: A Revolutionary Surgical Technique for Implantology Success
European Union Registration Certificate – 018569119
Distinctive Features:
- Advanced Surgical Precision:
- The Galileus Cerclage Sinus® technique stands out for its advanced surgical precision.
- Utilizes innovative approaches and the latest technologies for unprecedented precision.
- Risk Minimization:
- Patient safety is central to the design of this technique.
- Aims to minimize risks associated with implantology, providing reliable and lasting results.
- Ease of Application:
- Designed to be accessible to surgeons of various experience levels.
- Intuitive application supported by training resources for effective adoption.
Impact on Implantology:
- Official registration in the European Union positions Galileus Cerclage Sinus® to revolutionize the field of implantology.
- Approval confirms its scientific validity and its potential to enhance patient experiences.
Conclusions:
- Galileus Cerclage Sinus® marks a significant advancement in implantology.
- Official registration underscores its importance and potential positive impact on surgical practice.
- Stay tuned for further developments on this cutting-edge technique that promises to redefine implantology standards in Europe and beyond.
Download the European Registration Certificate for Galileus Cerclage Sinus® (PDF)
Patient Guarantees:
A registered surgical technique carries several guarantees for patients. Key points that can be communicated to highlight the advantages and safety associated with a registered trademark include:
- Validity and Originality:
- Official registration with competent authorities, such as the European Union Intellectual Property Office, confirms the validity and originality of the surgical technique.
- Provides patients with assurance that the procedure follows internationally recognized standards.
- Compliance with Quality Standards:
- Registration implies that the surgical technique has been evaluated and demonstrated compliance with established quality standards.
- An important indicator for patients seeking safe and effective surgical procedures.
- Research and Development:
- A registered trademark often reflects a continuous commitment to research and development.
- Indicates that the technique has undergone in-depth studies, continuous improvements, and scientific reviews to ensure the best possible results for patients.
- Risk Minimization:
- The trademark can highlight specific features of the technique aimed at minimizing risks associated with the surgical procedure.
- Particularly important for patients seeking surgical interventions with the least possible risk.
- Surgeon’s Expertise:
- A registered trademark might be associated with specific training or competency requirements for surgeons using the technique.
- Contributes to ensuring that operators are adequately qualified to perform the intervention safely and effectively.
- Post-operative Guarantees:
- Some trademarks might offer post-operative guarantees or assistance programs to provide additional peace of mind for patients.
- These may include follow-up checks, support in case of complications, and other forms of post-surgical assistance.
In summary, a registered surgical technique not only emphasizes the authenticity and validity of the procedure but also its commitment to safety and excellence, offering guarantees to patients seeking reliable and quality surgical interventions.
Clinical Coordinator “NYU Tutor Project in Italy”
Professor Roberto Conte, during a dissection course on cadavers for fellow medical implantologists in France at the University of Lyon, is teaching these less invasive techniques to rehabilitate atrophic patients with his Galileus Cerclage Sinus® technique.
Images representing Prof Roberto Conte’s anatomy and cadaver dissection course
Professor Roberto Conte, over the course of his career, has conducted more than 3000 cadaver dissections, possessing an intimate knowledge of human anatomy. This expertise reflects in his surgical proficiency; he skillfully wields the scalpel and sutures, causing minimal bleeding. His mastery extends to understanding strategic nerve points, allowing him to anesthetize specific anatomical sections with a simple syringe, eliminating the need for general anesthesia or conscious intravenous sedation during his procedures.
Patients engage in conversation with the professor while under operation, reporting minimal discomfort. Post-surgery, swelling is notably absent, providing a seemingly unaffected experience. Professor Conte’s dedication to studying human cranial anatomy, the mouth, the pterygopalatine section, the pterygoid fossa, the greater and lesser palatine arteries showcases his profound knowledge. His lessons aim to deepen understanding of cranial and cervical spine anatomy, emphasizing the significance of their functions.
The focus includes fascial, osteo-articular, and nervous aspects, highlighting foramina and their vascular and nerve pathways. Cranio-cervical relationships, mechanical aspects, and vital importance of arterial, venous, and neurological elements are explored, without neglecting the temporomandibular joint. Central nervous system exploration involves the brain, spinal cord, and peripheral nerves of the cervical column.
It is crucial to note that anatomical dissection is conducted with great respect for the body donor, emphasizing an ethical and professional approach. The pterygopalatine (or pterygomaxillary) fossa, situated just behind the jaw, is a funnel-shaped space acting as a distribution center for major regions of the head: mouth, nose, eyes, face, infratemporal fossa, and even towards the brain.
Its walls consist of the maxillary tuberosity anteriorly, the pterygoid process of the sphenoid posteriorly, communication with the infratemporal fossa laterally (pterigo-masseteric foramen), and the perpendicular plate of the palatine bone medially. The roof is formed by the pterygomaxillary surface of the sphenoid bone.
The pterygopalatine fossa connects to:
- The middle cranial fossa through the foramen rotundum (through which the maxillary nerve passes).
- The infratemporal fossa through the pterygomaxillary fissure (for the internal maxillary artery and branches of the mandibular nerve) and the vidian canal (vidian nerve).
- The orbital cavity via the inferior orbital fissure (for postsynaptic fibers, both parasympathetic and sympathetic, from the pterygopalatine ganglion).
- The nasal cavities through the sphenopalatine foramen, through which pass the sphenopalatine artery and sphenopalatine nerve (innervating the postero-inferior part of the nasal cavities along with the nasal branches of the greater palatine nerve).
- The oral cavity through the greater and lesser palatine canals, through which pass palatine nerves and the descending palatine artery.
Professor Roberto Conte is an expert with a deep understanding of the pterygopalatine fossa and associated structures, sharing this expertise by teaching courses on cadavers to fellow medical colleagues. The pterygopalatine fossa is a key anatomical region in the human skull, involved in multiple functions and anatomical connections.
Pterygopalatine Fossa: The pterygopalatine fossa is a cone-shaped depression in the human skull situated between the pterygoid process and the maxillary tuberosity, deeper than the infratemporal fossa and posterior to the maxilla. The Professor thoroughly studies and teaches the boundaries and connections of this fossa. It communicates with various regions of the skull, including the nasal and oral cavities, infratemporal fossa, orbit, pharynx, and middle cranial fossa through a series of foramina.
Pterygoid: The pterygoid process is an anatomical structure involved in the formation of the pterygopalatine fossa. Extending from the body of the sphenoid bone, it is an essential part of the pillars of cranial resistance. The Professor focuses on teaching how to anatomically understand and surgically treat the pterygoid process effectively.
Sphenoid: The sphenoid is a crucial bone in the human skull, and Professor Conte undoubtedly dedicates time to thoroughly teach its anatomy and functions. The sphenoid contributes to the formation of the pterygopalatine fossa and plays a fundamental role in cranial structure.
Cortical Sulci: Cortical sulci are regions of dense and resistant bone, often involved in implant surgery. Professor Conte, with his extensive experience, is likely well-versed in understanding how these structures can impact the success of surgical procedures, especially when it comes to pterygoid and transnasal implants.
In summary, Professor Roberto Conte is an expert capable of sharing detailed knowledge about the pterygopalatine fossa, pterygoid process, sphenoid, and cortical sulci. His expertise extends to advanced surgical practices, including the placement of pterygoid and transnasal implants, reflected in the comprehensive courses he conducts for his medical colleagues.
It is impressive to see how Professor Roberto Conte, with his 42 years of honorable service, has dedicated the last 25 years to perfecting and implementing an extraordinary surgical technique. The fact that he has become the doctor who has placed the most pterygoid implants in the world underscores his expertise and excellence in the referenced anatomical area.
His dedication to refining and documenting his personal technique attests to his ongoing commitment to helping people, especially those considered destined for dentures or who have experienced implant failures. Professor Conte has demonstrated the ability to overcome challenges where others may have stopped, offering effective and high-quality solutions.
The Galileus Cerclage Sinus® surgical technique, developed by the Professor, is now recognized as one of the best available options. Its capacity to address issues and provide a quality solution, enabling perfect chewing across the frontal and posterior arches of the maxilla with thick circular prosthetics and without the need for false gums, makes it an exceptional choice. The combination of excellent chewing function and natural aesthetics positions it as the preferred surgical technique compared to other options.
Encouraging people to try, investigate, and study is an invitation to delve deeper into understanding this revolutionary technique. The testimony of successes and improvements in people’s quality of life suggests that exploring the Galileus Cerclage Sinus® surgical technique is worthwhile for those seeking advanced solutions in the field of implantology.