Treatment of Circumferential Defects with Osseoconductive Xenografts of Different Porosities: A Histological, Histometric, Resonance Frequency Analysis, and Micro‐<scp>CT</scp> Study in Dogs

Antunes, Antônio Azoubel; Grossi-Oliveira, Gustavo Augusto; Martins-Neto, Evandro Carneiro; Almeida, Ana Carolina de; Salata, Luiz Antônio

doi:10.1111/cid.12181

Cited by 12 publications

(18 citation statements)

References 55 publications

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“…Many case series reported good clinical outcomes from DBBM blocks used in onlay [3031] and inlay procedures [3233]. Nevertheless, some authors have reported that DBBM blocks pose difficulties for the invasion of newly formed bone, which was primarily found in proximity to native medullary bone or periosteum, both in onlay [34] and inlay [35] grafts. Such findings were confirmed by our morphometric analysis of CA, which was mainly composed of residual DBBM both at 1 month and 3 months of observation.…”

Section: Discussionmentioning

confidence: 99%

“Over-inlay” block graft and differential morphometry: a novel block graft model to study bone regeneration and host-to-graft interfaces in rats

Ghiacci

Graiani

Ravanetti

et al. 2016

J Periodontal Implant Sci

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PurposeThe aim of this study was to present new a model that allows the study of the bone healing process, with an emphasis on the biological behavior of different graft-to-host interfaces. A standardized “over-inlay” surgical technique combined with a differential histomorphometric analysis is presented in order to optimize the use of critical-size calvarial defects in pre-clinical testing.MethodsCritical-size defects were created into the parietal bone of 8 male Wistar rats. Deproteinized bovine bone (DBBM) blocks were inserted into the defects, so that part of the block was included within the calvarial thickness and part exceeded the calvarial height (an “over-inlay” graft). All animals were sacrificed at 1 or 3 months. Histomorphometric and immunohistochemical evaluation was carried out within distinct regions of interest (ROIs): the areas adjacent to the native bone (BA), the periosteal area (PA) and the central area (CA).ResultsThe animals healed without complications. Differential morphometry allowed the examination of the tissue composition within distinct regions: the BA presented consistent amounts of new bone formation (NB), which increased over time (24.53%±1.26% at 1 month; 37.73%±0.39% at 3 months), thus suggesting that this area makes a substantial contribution toward NB. The PA was mainly composed of fibrous tissue (71.16%±8.06% and 78.30%±2.67%, respectively), while the CA showed high amounts of DBBM at both time points (78.30%±2.67% and 74.68%±1.07%, respectively), demonstrating a slow remodeling process. Blood vessels revealed a progressive migration from the interface with native bone toward the central area of the graft. Osterix-positive cells observed at 1 month within the PA suggested that the periosteum was a source of osteoprogenitor elements. Alkaline phosphatase data on matrix deposition confirmed this observation.ConclusionsThe present model allowed for a standardized investigation of distinct graft-to-host interfaces both at vertically augmented and inlay-augmented sites, thus possibly limiting the number of animals required for pre-clinical investigations.

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Section: Discussionmentioning

confidence: 99%

“Over-inlay” block graft and differential morphometry: a novel block graft model to study bone regeneration and host-to-graft interfaces in rats

Ghiacci

Graiani

Ravanetti

et al. 2016

J Periodontal Implant Sci

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“…-модификация исходного ксеноматрикса (развитие технологии очистки, изменение структуры и химического состава матрикса кости) [58,59,60,61,62,63,64,65,66,67,68];…”

Section: результатыunclassified

“…Импрегнация биологически активными веществами Факторы роста [41,42,43,44,45] Антибиотики [46,47] Антибиотики + Факторы роста [48] Бисфосфонаты [49] Плазма, обогащенная тромбоцитами [50] Тканевая инженерия Обогащение ксеноматрикса стволовыми клетками [51,52,53,54,55,56,57] Химическая модификация ксеноматрикса Включение ионов фтора [58] Включение ионов хлора [59] Включение ионов магния [60] Химическая сшивка биополимеров [61] Физическая модификация ксеноматрикса Изменение пористости [62,63] Изменение кристалличности [64] Совершенствование технологии очистки Депротеинизация [65] Извлечение липидов [66] Новые источники ксеноматериала Роговая кость [67] Кролики, лошадь [68] Выполненный анализ показал, что костнопластические материалы ксеногенного происхождения в настоящее время в практической травматологии и ортопедии используются при лечении ограниченного спектра патологий, в отличие от челюстно-лицевой хирургии и стоматологии, где накоплен большой опыт применения этих материалов для замещения костных дефектов, а также сформированы собственные протоколы имплантации. Тем не менее, можно ожидать рост востребованности ксеноматериалов в травматологии и ортопедии, связанный с увеличением клинического спроса на костнопластические материалы, который, в частности, вызван увеличением числа ревизионных операций эндопротезирования, требующих восполнения недостатка костной ткани.…”

Section: направление тип модификации источникunclassified

Bone Xenografts in Trauma and Orthopaedics (Analytical Review)

Stogov

Смоленцев²,

Kireeva

2019

Traumatology and Orthopedics of Russia

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Цель аналитического обзора-оценить опыт применения костных ксеноматериалов в травматологии и ортопедии. Методы. Поиск литературных источников проводился в открытых электронных базах данных научной литературы PubMed и eLIBRARY. Глубина поиска-20 лет. Результаты. Обнаружено 13 источников, в которых описан опыт клинического применения костнопластических материалов костного ксеногенного происхождения в травматологии и ортопедии. Отмечено, что наибольшая эффективность (от 92 до 100%) обнаруживается в случаях применения ксеноматериала для замещения дефектов при внутрисуставных переломах и ревизионном эндопротезировании. Случаи неудовлетворительных исходов связаны с отсутствием интеграции материала и его отторжением. Наименьшая эффективность (от 41,9 до 46,1%) отмечена при реконструктивных операциях на стопе. Отмечено отсутствие эффекта после применения ксеногенных костных материалов для замещения дефектов при псевдоартрозе. Основное встречаемое осложнение-инфицирование материала. Расчетный процент осложнений при применении ксеноматериалов после суммирования данных литературы составил 7,53% (18 случаев из 239, ДИ 5-95%: 4,53-11,21). Выделено два направления улучшения технических и биологических характеристик костных ксеноматериалов: 1. Модификация исходного ксеноматрикса (развитие технологии очистки, изменение структуры и химического состава матрикса кости); 2. Введение в объем матрикса дополнительных элементов (биологически активные вещества, стволовые клетки). Отмечено, что ксеноматериалы в травматологии и ортопедии могут быть более востребованными за счет уточнения и расширения показаний к их применению. Заключение. Ксеногенный костный материал в современной практике травматологии и ортопедии нашел свое применение для восполнения недостатка костной ткани при ревизионных операциях по эндопротезированию, а также для замещения дефектов кости при некоторых видах переломов. Этот материал относительно безопасен, а возможность его модифицирования позволяет улучшать его биологические характеристики.

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“…In the control sites, no bone grafts or barrier membranes were used. He listed that the filling of the peri-implant bone defects with autogenous bone grafts showed a better outcome compared to unfilled defects (5) .…”

Section: Introductionmentioning

confidence: 99%

Immediate Implant Placement With Provisionalization Using Autogenous Bone Graft Particulates vs Deproteinized Bovine Bone vs Nano-Hydroxyapatite as a Space Filling Material in the Maxillary Esthetic Zone

omar

Khadem

Rasoul

2021

Egyptian Dental Journal

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Background: Latest dentistry had been reported as fast and growing evolution. Regarding the implant-rehabilitation protocols, they had been altered in order to fulfill patient's increasing prospects in terms of ease, appealing and smaller treatment period. Aim; evaluate bone and soft tissue changes after tooth extraction and immediate implant insertion with immediate provisionalization in the anterior maxilla, Methods: Thirty immediate implants were placed in anterior maxilla, a novel synthetic bone graft (Geistlich Bio-Oss ® ), nano bone (Nano streams) was used to augment the gap between the implant and the alveolar bone interface. Implants diameter used in this study is (3.7*14) compared to the size of the socket were used. A fixed screw retained provisional restoration was delivered immediately after implant placement. Cone beam computed tomography (CBCT) scans were taken to evaluate bone changes immediate after surgery and after 6-months follow up. To assess soft tissue changes, clinical vertical measurements were performed by using pink esthetic score.Results: Mean horizontal bone loss for Group I, II and III were (0.671), (0.380) and (0.289) mm respectively. This was statistically not significant as p=0.057. Mean vertical bone loss for Group I, II and III were (0.212), (0.233) and (0.262) mm respectively. This was statistically not significant as p=0.807. Conclusion:Immediate implant with immediate temporization using graft materials to augment jumping gap is a successful treatment modality for rehabilitation of hopeless teeth in the esthetic zone. The type of graft materials doesn't significantly affect on the outcome (horizontal and vertical bone loss) following implant installation with immediate temporization in the esthetic zone.

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Treatment of Circumferential Defects with Osseoconductive Xenografts of Different Porosities: A Histological, Histometric, Resonance Frequency Analysis, and Micro‐CT Study in Dogs

Abstract: The high-porosity block (DBBM block) failed to provide greater bone repair within the defect. Biomaterials with lower porosity (DBBM sponge and granules) showed similar or higher bone formation when compared with autogenous bone.

Cited by 12 publications

References 55 publications

“Over-inlay” block graft and differential morphometry: a novel block graft model to study bone regeneration and host-to-graft interfaces in rats

“Over-inlay” block graft and differential morphometry: a novel block graft model to study bone regeneration and host-to-graft interfaces in rats

Bone Xenografts in Trauma and Orthopaedics (Analytical Review)

Immediate Implant Placement With Provisionalization Using Autogenous Bone Graft Particulates vs Deproteinized Bovine Bone vs Nano-Hydroxyapatite as a Space Filling Material in the Maxillary Esthetic Zone

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