Over the past 20 years, the demand for oral rehabilitation among edentulous patients has steadily increased. Traditionally, individuals with edentulous maxillae were treated using removable complete dentures. However, these often result in poor patient satisfaction due to instability and functional limitations. Dental rehabilitation with implants in the maxillary arch presents unique challenges, primarily due to the anatomical complexity of the maxilla and the need for adequate residual ridge dimensions for successful implant placement. Following the extraction of maxillary teeth, patients experience rapid and progressive alveolar bone loss in both vertical and horizontal dimensions. This resorption is largely attributed to the absence of teeth and periodontal ligament fibers support, which are essential for transmitting mechanical forces that maintain bone homeostasis. In addition, the loss of maxillary molars accelerates pneumatization/expansion of the maxillary sinus, further reducing available bone volume. Contributing factors such as ill-fitting dentures and systemic health conditions can exacerbate this process, complicating implant placement even further. To overcome these limitations, oral and maxillofacial surgeons have developed a range of advanced techniques, including tilted implants, sinus floor elevation, short implants, pterygoid implants, and most notably, zygomatic implants. Zygomatic implants bypass the atrophic alveolar ridge entirely by anchoring into the dense zygomatic bone, offering a reliable solution for patients with severely resorbed maxillae who are not candidates for conventional implant therapy.
The study aims to compare two different soft tissue augmentation techniques-buccal fat pad graft and palatal rotation scarf graft-to determine which method is more effective in enhancing soft tissue volume, improving tissue stability, and preventing dehiscence around zygomatic implants. Both grafts have shown promise in separate clinical applications, but this head-to-head comparison it will help in identifying the more optimal and predictable graft technique, the research aims to improve clinical outcomes, reduce complications, and enhance the long-term success of zygomatic implants in challenging clinical scenarios.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
PREVENTION
Masking
DOUBLE
Enrollment
8
BFP has a long successful history in oral surgery for its use in closure of Oroantral communication and taking advantage of the fact that it contains progenitor stem cells showing similar phenotype with (ASC) adipose-derived stem cells characteristics, which can similarly differentiate into the chondrogenic, adipogenic, or osteogenic lineage. Making them an invaluable reservoir for tissue engineering.
This technique uses tissue from the palatal area, which has a rich blood supply placed around the neck of the zygomatic implant aiming to protect the mucosal tissues buccal to the exteriorized implants from capillary compression and subsequent soft tissue recession. The palatal rotation scarf graft has been proven to provide a robust, resilient soft tissue flap with good potential for long-term stability and esthetic outcomes around implants.
Cairo University
Cairo, Giza Governorate, Egypt
RECRUITINGPeri-implant Soft-Tissue Recessions (PSTR), Condition & Quality
Incidence of dehiscence and peri-implantitis based on clinical examination, reference photographs obtained, signs of infection, keratinized soft tissue thickness using periodontal probe.
Time frame: 6 months
Implant Survival Rate
ORIS Success Criteria of Zygomatic Implants
Time frame: 6 months
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