The effect of posterior mandibular ridge augmentation using mineralized plasmatic matrix versus autogenous bone graft on implant body stability : A randomized clinical trial comparative study /
Ahmed Abdelsattar Abdelaziz
The effect of posterior mandibular ridge augmentation using mineralized plasmatic matrix versus autogenous bone graft on implant body stability : A randomized clinical trial comparative study / اعاده بناء التلال العظميه فى الفك السفلى للمنطقه الخلفيه باستخدام العظم اللزج مقارنه بالعظم الذاتى و تأثيره على ثبات زرعه الأسنان : تجربة إكلينيكية بالانتقاء العشوائي Ahmed Abdelsattar Abdelaziz ; Supervised Ragia Mounir , Ramy Ragab Elbeialy - Cairo : Ahmed Abdelsattar Abdelaziz , 2018 - 90 P. : charts , photographs ; 25cm
Thesis (M.Sc.) - Cairo University - Faculty of Oral and Dental Medicine - Department of Oral and Maxillofacial Surgery
Objective: To assess the effect of posterior mandibular ridge augmentation using mineralized plasmatic matrix versus autogenous bone graft on implant body stability: a randomized clinical trial comparative study. Materials and Methods: Twenty implants were placed in eight patients with defective edentulous posterior mandibular ridge. After diagnosis of each case clinically and radiographically, patients were randomly assigned into two equal groups of 4 patients each. After implant placement, the ridges assigned to the study group received MPM prepared by centrifugation of patients blood- mixed with autogenous bone graft; while ridges in the control group received the gold standard of particulate aurogenous bone graft with high-density PTFE membrane. Implant stability was assessed in ISQ unit by Osstell, and Vertical bone height was assessed by CBCT at 0 and 6 months. All demographic data and ISQ scores and CBCT measurements were collected and statistically analyzed. Results: Results showed that, there was a statistically significant increase in implant stability, and vertical bone height after 6 months in both groups (P < 0.05). The mean value of ISQ scores, buccal and lingual vertical bone height in was not statistical different between both groups neither at 0 nor at 6 months (P > 0.05). The mean Osstell gain, buccal, and lingual bone height in the study group was significantly higher than that in the control group (P < 0.05). Conclusion: The results suggest that both techniques can be used to improve implant stability. The use of MPM in osseous regeneration and implant therapy have a positive impact in the outcome of the grafting surgery. It eases and enhances the delivery and homogenization of the grafting materials
Mineralized Plasmatic Posterior Mandibular Ridge Augmentation
The effect of posterior mandibular ridge augmentation using mineralized plasmatic matrix versus autogenous bone graft on implant body stability : A randomized clinical trial comparative study / اعاده بناء التلال العظميه فى الفك السفلى للمنطقه الخلفيه باستخدام العظم اللزج مقارنه بالعظم الذاتى و تأثيره على ثبات زرعه الأسنان : تجربة إكلينيكية بالانتقاء العشوائي Ahmed Abdelsattar Abdelaziz ; Supervised Ragia Mounir , Ramy Ragab Elbeialy - Cairo : Ahmed Abdelsattar Abdelaziz , 2018 - 90 P. : charts , photographs ; 25cm
Thesis (M.Sc.) - Cairo University - Faculty of Oral and Dental Medicine - Department of Oral and Maxillofacial Surgery
Objective: To assess the effect of posterior mandibular ridge augmentation using mineralized plasmatic matrix versus autogenous bone graft on implant body stability: a randomized clinical trial comparative study. Materials and Methods: Twenty implants were placed in eight patients with defective edentulous posterior mandibular ridge. After diagnosis of each case clinically and radiographically, patients were randomly assigned into two equal groups of 4 patients each. After implant placement, the ridges assigned to the study group received MPM prepared by centrifugation of patients blood- mixed with autogenous bone graft; while ridges in the control group received the gold standard of particulate aurogenous bone graft with high-density PTFE membrane. Implant stability was assessed in ISQ unit by Osstell, and Vertical bone height was assessed by CBCT at 0 and 6 months. All demographic data and ISQ scores and CBCT measurements were collected and statistically analyzed. Results: Results showed that, there was a statistically significant increase in implant stability, and vertical bone height after 6 months in both groups (P < 0.05). The mean value of ISQ scores, buccal and lingual vertical bone height in was not statistical different between both groups neither at 0 nor at 6 months (P > 0.05). The mean Osstell gain, buccal, and lingual bone height in the study group was significantly higher than that in the control group (P < 0.05). Conclusion: The results suggest that both techniques can be used to improve implant stability. The use of MPM in osseous regeneration and implant therapy have a positive impact in the outcome of the grafting surgery. It eases and enhances the delivery and homogenization of the grafting materials
Mineralized Plasmatic Posterior Mandibular Ridge Augmentation