This two-day course is designed to provide implantologists of all levels the ability to confidently integrate three dimensional diagnosis and treatment planning in their daily practice. The program will consist of lectures and case presentations, over-the-shoulder hands-on computer software training, practical hands-on exercises and a live-surgery demonstration during which use of the computer generated surgical guide and accessories will be demonstrated. In addition, anatomical interpretation and sequential diagnostic protocols for implant planning and placement will be taught and explained. On the second day simulated surgical implant placement will be practiced on computer generated models from the scans submitted by attendees. In the afternoon there will be a live surgery demonstration during which a computer generated surgical guide and accessories will be demonstrated.
Upon completion of this course, attendees will be able to:
- Understand the importance and advantages of cone-beam imaging.
- Assess implant recipient site anatomy three-dimensionally.
- Differentiate abnormal findings versus artifacts.
- Identify vital structures and tagging them on a CBCT study.
- Utilizing software tools to enhance visualization and diagnostics.
- When to refer to an ENT for further evaluation.
- Identify the prosthetic need for site preparation and/or preservation.
- Cone beam CT evaluation using a sequential diagnostic protocol.
- Perform interactive treatment planning on your own computer.
- Utilize CBCT and virtual implant planning software to increase case success.
- Know how to order and customize surgical guide design for each case.
- Understand the workflow from obtaining a scan, to ordering surgical guides.
- Utilize the In Vivo surgical guide drill handle kit.
- Decision making when purchasing a CBCT unit.
- Medico-legal ramifications of CBCT.
- Submission of a basic dental implant case you plan to treat in your practice after attending the course.
- A laptop computer with enough processing power to download and utilize the InVivo software during and after the course.
- All participants to this course will receive a free 60-day fully functional version of InVivo 5 implant planning software installed on their laptop computer.
Please contact Charles Banh for more information on the above listed items at 408-885-1474 or by email at firstname.lastname@example.org.
FRIDAY, JUNE 7, 2013: ADVANCED CLINICAL CURRICULUM
||Patient case review (Scanning to surgery)
||Live surgery demonstration
||Treatment planning (Clinical, Radiographic, Adv planning methods)
||Temporization techniques –case review
SATURDAY, JANUARY 8, 2013: HANDS-ON
||Interactive treatment planning (on your computer)
||Actual cases planning (case submitted by attendee)
||Simulation order of a surgical guide
||Hands-on implant placement with surgical guide and 3D model
||End of Course
This 3D diagnosis and treatment planning program will be held at Miles of Smiles Implant Dentistry located at 801 Wayne Ave, Suite #G200 in Silver Spring, Maryland. Sessions on both days will start at 8 a.m. and end around 4 p.m. Lodging information will be sent upon receipt of your registration.
CANCELLATIONS AND CHANGES:
Full refunds may be granted only if notification is received no later than May 20, 2013. Cancellation after this time will result in a $350 processing fee. We cannot assume responsibility for losses due to participant travel arrangements.
This is a two-day course, 12 CE (continued education) credits will be awarded and full tuition for both days is $599. International Academy of Ceramic Implantology Members (IAOCI) save $100.
Full Tuition: $599.00
IAOCI Member: $499.00
First-time IAOCI Members: $199.00 (Must sign up by May 17, 2013)
If you are not yet a member of the IAOCI you can sign up for a one year membership ($395.00) at www.IAOCI.com/join. All IAOCI memberships will be verified before you are enrolled in the course.
This course has limited space and only ten (10) doctors will be able to attend this session.
FOR FURTHER INFORMATION PLEASE CALL RONETTA AT 301-588-0768 TO REGISTER.
Today there is an increasing amount of people who choose to have their teeth replaced with dental implants. In some cases the replacement is immediate meaning that once teeth are removed, during the same surgery implants are placed to replace those previous teeth. The advantage of replacing a tooth with an implant at the time of extraction is that the amount of bone loss at the site of extraction is greatly minimized. However for most people the decision or option to have their teeth replaced comes long after their teeth were lost, and after years of wearing removable partials, dentures or having fixed bridges anchored to adjacent teeth. The problem often encountered in such cases is that the bone in the area where the teeth have been missing shrinks and there is significant loss of volume and height making it challenging to place implants . A bone augmentation or reconstruction procedure is then necessary and occasionally must be done prior to and in preparation for implant placement, this is what is commonly called a bone graft.
When situations of bone loss or long term absence of teeth present themselves the first step is to obtain the proper information for accurate diagnosis. A clinical and ultra low radiation 3D X-ray is taken of the jaw to be treated, the x-ray unit we use in our practice is called a Cone Beam CT Scan (CBCT) and it provides an accurate view and analysis of the problem. The slide show below shows how by means of clinical pictures and dental CT scan we are able not only to plan the volume of bone that needs to be augmented but also with a second scan assess the success of the bone graft.
Conventional regular two-dimensional X-rays (2D) are not always sufficient to determine the extent and nature of a bone lesion or a lesion of the jaw associated with a tooth. In some cases the very presence of a lesion is only verifiable with 3D imaging because often 2D imaging superimposes neighboring structures and the actual lesion becomes blurred or less visible.
The situation presented here is one where there was no pain or any other symptoms at all. The patient actually came in for an implant consultation and this cyst was discovered. The patient was immediately referred out for biopsy and treatment. The lesion was found to be benign, it was cleaned out and bone grafting done to correct the defect.
This is a case report published in Prexion3D’s December 2011 newsletter. All phases of this case were completed by Dr. Noumbissi. A patient had a missing tooth in the anterior maxilla, 3D dental imaging technology (CBCT) and software (InVivo5) were utilized to adequately and accurately plan the placement and temporization of a metal free zirconia dental implant.
The CBCT radiation from the Prexion is extremely low compared to medical CT scanners. The InVivo 5 software was used to perform virtual implant placement prior to surgery. From the implant placement simulation a surgical guide was generated using CAD/CAM technology. The surgical guide was then utilized to place the implant in a precise manner allowing for much safer and more predictable implant placement.
Sammy Noumbissi DDS MS
Using Cone Beam CT (CBCT) Technology to Plan Zirconia Implant Placement in a Bone Deficient Site.
This is a very unique situation where a patient had an extensive medical history, multiple allergies including to metals, was opposed to getting root canal treatment on the diseased tooth and had high aesthetic requirements. A clinical exam was done, there was type II to type III mobility and the tooth was symptomatic. The general dentist sent a two-dimensional peri-apical x-ray that confirmed suspicions root pathology. A Cone Beam CT scan exam (3D Imaging) confirmed the previous finding but also allowed to assess the possibility of and plan for an immediate implant placement with an aesthetic temporary crown.
The case presented here details the process by which Dr. Noumbissi uses dental Cone Beam Computed Tomography (CBCT) technology also commonly called 3D dental imaging to diagnose and plan the course of treatment for all our implant patients. This technology has been available in our practice since 2007. The images obtained from the CBCT are reconstructed with a specialized software called InVivo5 (www.Anatomage.com).
The diagnostic aspect of the InVivo5 software allowed Dr. Noumbissi to visualize the patient’s bone and determine prior to surgery the volume (height and width) and the quality (density) of the bone at the projected implantation site. Critical anatomical structures like the floor of the nose in relation to the implant were also evaluated in a three-dimensional manner.
The implant planning aspect of InVivo5 software made it possible for Dr. Noumbissi to select the precise implant size and type specifically indicated to replace this patient’s front tooth. A surgical guide was also generated from the CBCT data;the surgical guide makes it possible for Dr. Noumbissi to transfer the virtual plan to the patient during implant placement.
Immediate Replacement of a Front Tooth With a Zirconia Implant from Sammy Noumbissi DDS MS on Vimeo.