Propriedades citotóxicas da Beta-Lapachona em células de osteossarcoma in vitro / Citotoxic properties of β lapachone in osteosarcoma cells cultured in vitro

Gabriel, Gabriela Hadler

09 March 2017

Submitted by JÚLIO HEBER SILVA (julioheber@yahoo.com.br) on 2017-04-13T17:22:48Z No. of bitstreams: 2 Dissertação - Gabriela Hadler Gabriel - 2017.pdf: 1069284 bytes, checksum: 7c190e383bf6069f54d2eff26158427f (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Approved for entry into archive by Luciana Ferreira (lucgeral@gmail.com) on 2017-04-17T11:13:33Z (GMT) No. of bitstreams: 2 Dissertação - Gabriela Hadler Gabriel - 2017.pdf: 1069284 bytes, checksum: 7c190e383bf6069f54d2eff26158427f (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Made available in DSpace on 2017-04-17T11:13:33Z (GMT). No. of bitstreams: 2 Dissertação - Gabriela Hadler Gabriel - 2017.pdf: 1069284 bytes, checksum: 7c190e383bf6069f54d2eff26158427f (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Previous issue date: 2017-03-09 / Conselho Nacional de Pesquisa e Desenvolvimento Científico e Tecnológico - CNPq / Osteosarcoma is the main primary bone tumor, with unfavorable prognosis, high mortality and high incidence of metastases. The treatment of choice is the removal of the tumor associated with combined chemotherapy, whose adverse effects allude to the increasing need to develop new drugs. The plants constitute a large natural reserve of compounds that have medicinal and therapeutic properties, such as lapachol and its derivative, β-lapachone. The aim of this study was to evaluate the cytotoxic effects of β-lapachone in osteosarcoma cells cultured in vitro. Cells were cultured and treated with β-lapachone at different concentrations and times of exposure. Tripan blue exclusion, tetrazolium reduction and cell survival assay methods were performed to evaluate the effects of the compound on the cells. Cells treated with 0,1μM β-lapachone showed lower initial cytotoxicity in the 24h time, whereas those submitted to 1,0μM showed less viability after 72h of treatment. Cytotoxicity increased as the concentration and time of exposure increased. The lowest IC50 (0,148μM) was observed in treated cells for 72h. Cell growth after treatment was lower in the 1.0μl group after 72h and the highest cell growth was observed under a concentration of 0.1μl after 24h. There was no difference between groups for cell proliferation after treatment, and the cell survival fraction was lower after 72h of exposure. It was concluded that β-lapachone has cytotoxic effects on osteosarcoma cells cultured in vitro. / O osteossarcoma é o principal tumor ósseo primário, com prognóstico desfavorável, alta mortalidade e elevada incidência de metástases. O tratamento de escolha é remoção do tumor associada à quimioterapia combinada, cujos efeitos adversos aludem à necessidade crescente de desenvolver novos medicamentos. As plantas constituem grandes reservas naturais de compostos que possuem propriedades medicinais e terapêuticas, como o lapachol e seu derivado, a β lapachona. O objetivo desse estudo foi avaliar os efeitos citotóxicos da β lapachona em células de osteossarcoma cultivadas in vitro. As células foram cultivadas e tratadas com a β lapachona em diferentes concentrações e tempos de exposição. Foram realizados os métodos de exclusão com azul de Tripan, redução do tetrazólio e ensaio de sobrevivência celular para avaliar os efeitos do composto sobre as células. As células tratadas com 0,1μM de β lapachona apresentaram menor citotoxicidade inicial, no tempo de 24h, enquanto aquelas submetidas a 1,0μM apresentaram menor viabilidade após 72h de tratamento. A citotoxicidade aumentou de acordo com o aumento da concentração e tempo de exposição. O menor IC50 (0,148μM) foi observado nas células tratadas por 72h. O crescimento celular após o tratamento foi menor grupo sob concentração de 1,0µl após 72h e o maior crescimento celular foi observado sob concentração de 0,1µl após 24h. Não houve diferença entre grupos quanto à proliferação celular após o tratamento tendo a fração de sobrevivência das células sido menor após 72h de exposição. Concluiu-se que β lapachona apresenta efeitos citotóxicos em células de osteossarcoma cultivadas in vitro.

Cultivo celular

Linhagem MG-63

Naftoquinona

Neoplasia óssea

Bone tumor

Cell culture

MG-63 cell line

Naphthoquinone

MEDICINA VETERINARIA::PATOLOGIA ANIMAL

The effect of synthetic cannabinoids and their combination with TGF-β3 on wound healing of cell cultured human bone cell monolayers and 3D models : the role of synthetic cannabinoid HU308 and HU308/TGF-β3 combinations on cellular adhesion, proliferation, wound healing, nitric oxide, MMP-2 and ECM protein regulation of MG-63 osteoblast monolayers and 3D models

Genedy, Mohamed

January 2013

Despite the ongoing political debate regarding the legality of medical marijuana, clinical investigations of the therapeutic use of cannabinoids are now more prevalent than at any time in history. Cannabinoids have been shown to have analgesic, anti-spasmodic, anticonvulsant, anti-tremor, anti-psychotic, anti-inflammatory, anti-oxidant, anti-emetic and appetite-stimulant properties. There are mainly two well-known cannabinoid receptors, CB1 and CB2, located in the central (CB1) and peripheral (CB2) nervous systems as well as the immune system. More recently, endocannabinoids (ligands) and their receptors have also been found in the skeleton which appear as the main body system and physiologically regulated by CB2. This study aimed to examine the effect of both CB1 and CB2 receptor stimulation on wound closure response of MG-63 osteoblast bone cell monolayers using different treatments with cannabinoid such as Winn55,212-2, URB602 and HU308. Also, cell adhesion, cell proliferation and cell length was investigated. The study also aimed to examine the effect of HU308 treatments in combination with TGF-β3 (transforming growth factor beta -3) on wound healing, cell adhesion and extracellular matrix up regulation (collagen type I, fibronectin and protien S-100A6) as well as other biological factors such as secretion of matrix metalloproteinase (MMP-2) and nitric oxide (NO). Finally, this study investigated HU308/TGF-β3 combination treatment on the regulation of extracellular matrix (collagen type I, fibronectin and protien S-100A6) in a 3D multilayer system of MG-63 osteoblast bone cells. Wound healing assays of MG-63 monolayers revealed accelerated wound repair as well as increased cell proliferation mainly regulated through CB2 receptors, and that treatments with HU308 and HU308/TGF-β3 achieved minimum closure timings compared with control groups (P<0.05). Our finding suggested that proliferation rate with 500nM HU308 was significantly higher than control and TGF-β3/HU308 combination groups (P<0.05). Interestingly, percentage of wound remained open after 15 hours for combination groups was 17.6%±1.32 whereas treatment with 500nM HU308 had 20%±2.25 indicating that the combination groups took the lead throughout wound healing. It was also observed that bridge formation in all treatment groups was taking place between 15 to 20 hour periods whereas within control treatments bridge formation started to take place after 25 hours. Cell surface attachment was examined via the trypsinization assay in which the time taken to trypsinize cells from the surface provided a means of assessing the strength of attachment. The results indicated that higher concentrations of HU308 (2μM), induced significant force of cell attachment compared with control and concentrations of 500nM and 1μM (P<0.05). However, groups treated with TGF-β3 and combination HU308/TGF-β3 indicated reduced cell surface attachment compared with control groups, indicating enhanced cell migration. Immunofluorescence staining as well as Elisa based semi-quantification technique indicated that both collagen type I and fibronectin were unregulated using higher concentrations of HU308 with decreased cell proliferation compared to lower concentrations. Nevertheless, protein S-100A6 was up-regulated in treatments with HU308, TGF-β3 and their combination HU308/TGF-β3 (P<0.05), indicating the positive role of these treatments in promoting cell differentiation. MMP-2 levels in the current study were also shown to be concentration-dependent, i.e. higher concentrations of HU308 significantly reduced MMP-2 secretion leading to decreased cell migration, while HU308/TGF-β3 combination treatment increased MMP-2 levels, indicating an increase in cell migration. The current study also examined levels of nitric oxide synthesis in relation to different treatments with HU308, TGF-β3 and HU308/TGF-β3 combination. It was found that nitric oxide up-regulation influences rate of MG-63 osteoblast wound healing in a concentration dependent manner. Lastly, UpCell culture dishes proved to have efficacy in obtaining a multilayer model of MG-63 osteoblast system in-vitro through changes in cell morphology. It was also found that treatments with HU308, TGF-β3 and HU308/TGF-β3 combination influenced collagen type I, fibronecton and protein S-100A6 secretion. These findings supported the earlier Elisa based semi-quantification results obtained for monolayer cultures.

615.7

Adheze, růst a potenciálníimunitní aktivace buněk na kovových materiálech pro kostní implamplantáty. / Adhesion, growth and potential immune activation of cells on metallic materials for bone implants.

Straňavová, Lucia

January 2013

The contemporary orthopaedics and traumatology of the musculoskeletal system and stomatology have been witnessing a substantial increase in the number of surgeries using metallic implants. The issue of reconstruction of bone defects covers a large area of study, where the surface properties of the implants are extremely important. Bone defects often occur as a result of open fractures, radical cancer treatment or limb lengthening, which is very common in paediatric orthopaedics. In the treatment of these conditions, the surface of the applied materials should provide a favorable environment for bone cells and support bone formation. In endoprosthetics it is highly desirable to achieve the strongest possible fixation between the implant surface and the bone. During the surgery, primary stability of the implant fixation is ensured by the proper positioning of the implant, based on the appropriate shape of the implant and the quality of bone cut. The initial stability is only temporary, being estimated to last approximately three months. After this period, the secondary stability starts, determined by the bone ingrowth into the implant surface structure. Osteogenic differentiation and extracellular matrix (ECM) mineralization can be enhanced by the presence of bone morphogenetic proteins (BMPs),...

In vitro effects of palmitoleic acid on osteoblast differentiation in MG-63 osteosarcoma cells and human adipose-derived stromal cells

Howard, Kayla

January 2019

Bone is an important organ influenced by mechanical load, hormones, nutrition and disease. During bone remodelling, osteoclasts resorb bone and osteoblasts form new bone. Osteoblasts are derived from mesenchymal stem cells (MSCs) such as adipose-derived stromal cells (ASCs). The mitogen-activated protein kinase (MAPK) pathway has been shown to interfere with osteoblast differentiation from an early stage. Runt related transcription factor 2 (RUNX2) exerts an effect downstream from p38 MAPK. RUNX2 phosphorylation by p38 MAPK may increase osteoblast differentiation markers such as alkaline phosphatase (ALP), osteoprotegerin (OPG) and receptor activator of nuclear factor kB ligand (RANKL). Palmitoleic acid (PLA), an omega-7 monounsaturated fatty acid (MUFA), promotes anti-osteoclastogenic effects, however, the effects of PLA on osteoblasts has not been reported. Osteoporosis is a condition which has debilitating effects in the elderly. Unsaturated fatty acids (UFA) have been studied for their beneficial effects on human health for a number of years. Polyunsaturated fatty acids (PUFA) have been studied as a potential therapeutic agent to prevent and assist in managing the condition. Few studies have been conducted on the effects of MUFA on bone therefore this study aimed to investigate the effects of PLA on osteoblast differentiation using ASCs and MG-63 osteosarcoma cells as an osteoblast model. ASCs and MG-63 osteosarcoma cell lines were exposed to PLA (20-100 μM) in osteogenic media (OM). The effects of PLA on cell viability was evaluated on undifferentiated cells. Thereafter, cells were exposed to PLA for 7, 14 or 21 days. Subsequently ALP activity, calcium mineralisation, gene expression, protein expression and adipogenesis were assessed. In this study, PLA had no significant effects on cell viability in undifferentiated cells. Furthermore, PLA had no significant effects on ALP activity, calcium mineralisation or phosphorylated extracellular signal-regulated kinase (pERK)/extracellular signal-regulated kinase (ERK) expression in differentiating cells, however, ALP activity increased at 7 day in ASCs and 21 days in MG-63 cells. Alizarin Red S staining increased at 21 days in both cell lines with a significant increase in the ASCs, however, calcium nodules were not visible. In the ASCs, PLA significantly increased the gene expression of ALP at 7 and 14 days compared to control (p<0.01 and p<0.05) while RANKL was significantly decreased at 7 days compared to the control (p<0.05). In the MG-63 cells, RUNX2 and OCN were significantly reduced at 7 days compared to control (p<0.05) and ALP, RUNX2, Osx and RANKL were significantly reduced at 14 days compared to control (p<0.001 and p<0.05). In the ASCs, lipid accumulation was not present after 21 days while in MG-63 cells, there was a significant increase in lipid accumulation at a high concentration of PLA after 21 days compared to control (p<0.05). This is the first study to explore the effects of PLA on osteoblast formation using ASCs and MG-63 osteosarcoma cells. Results suggest that PLA exerted changes in the ASCs and MG-63 cells during osteoblast differentiation, however, these changes were not significant. To conclude, PLA showed some significant effects on osteoblast-specific gene expression, however, most of the osteoblast-specific gene expression was downregulated, particularly in the MG-63 cells, after PLA treatment. / Dissertation (MSc)--University of Pretoria, 2020. / Physiology / MSc / Unrestricted

Bone remodelling

Osteoblast

MG-63 osteosarcoma cells

Adipose-derived stromal cells

Palmitoleic acid

UCTD

Characteristics and Effects of Variable Polydopamine Surfaces on Human Osteoblastic Cell Behaviour

Spracklin, Michael

15 February 2022

Polydopamine (PDA) surfaces have attracted much attention, both for their innate capability as a versatile biomaterial and their standalone antibacterial and adhesive properties. However, the mechanics of PDA deposition as well as the attributes of PDA-coated surfaces remain relatively underexplored despite their adaptability and ease of deposition. Two polydopamine surfaces from literature, smooth and rough PDA (sPDA and rPDA), were compared to a novel surface, inverted PDA (iPDA), to further explore their mechanochemical and bioactive properties. The iPDA surface displayed, by design, a smoother topography when compared to sPDA, with smaller aggregate structures covering 2.7% of the overall surface. However, the chemical signature obtained via Raman spectroscopy of these aggregates shared remarkable similarities at the 1370 cm-1 peak with the rougher rPDA surface, leading to the conclusion that gas exchange at the solution surface may play a critical role in determining PDA subunit composition despite dissimilar deposition methods. Atomic force microscopy (AFM) analysis concluded that the iPDA surface was ~17% more adhesive than other PDA types, while also displaying relatively large hysteresis and a small Young’s modulus. Human osteoblastic MG-63 cells cultured on all three surfaces revealed that a smoother surface topography correlated to more pronounced anisotropic spread independent of cell size, while a serum-independent component was also noted. This work provides a clearer insight into the nature of polydopamine surfaces by the creation of a viable new deposition method, providing an analysis of its mechanochemical and bioactive properties as well as a deeper understanding of the PDA coating process.

polydopamine surface

atomic force microscopy

Raman spectroscopy

MG-63 cell morphology

The effect of synthetic cannabinoids and their combination with TGF-β3 on wound healing of cell cultured human bone cell monolayers and 3D models. The role of synthetic cannabinoid HU308 and HU308/TGF-β3 combinations on cellular adhesion, proliferation, wound healing, nitric oxide, MMP-2 and ECM protein regulation of MG-63 osteoblast monolayers and 3D models

Genedy, Mohamed A.

January 2013

Despite the ongoing political debate regarding the legality of medical marijuana, clinical investigations of the therapeutic use of cannabinoids are now more prevalent than at any time in history. Cannabinoids have been shown to have analgesic, anti-spasmodic, anticonvulsant, anti-tremor, anti-psychotic, anti-inflammatory, anti-oxidant, anti-emetic and appetite-stimulant properties. There are mainly two well-known cannabinoid receptors, CB1 and CB2, located in the central (CB1) and peripheral (CB2) nervous systems as well as the immune system. More recently, endocannabinoids (ligands) and their receptors have also been found in the skeleton which appear as the main body system and physiologically regulated by CB2. This study aimed to examine the effect of both CB1 and CB2 receptor stimulation on wound closure response of MG-63 osteoblast bone cell monolayers using different treatments with cannabinoid such as Winn55,212-2, URB602 and HU308. Also, cell adhesion, cell proliferation and cell length was investigated. The study also aimed to examine the effect of HU308 treatments in combination with TGF-β3 (transforming growth factor beta -3) on wound healing, cell adhesion and extracellular matrix up regulation (collagen type I, fibronectin and protien S-100A6) as well as other biological factors such as secretion of matrix metalloproteinase (MMP-2) and nitric oxide (NO). Finally, this study investigated HU308/TGF-β3 combination treatment on the regulation of extracellular matrix (collagen type I, fibronectin and protien S-100A6) in a 3D multilayer system of MG-63 osteoblast bone cells. Wound healing assays of MG-63 monolayers revealed accelerated wound repair as well as increased cell proliferation mainly regulated through CB2 receptors, and that treatments with HU308 and HU308/TGF-β3 achieved minimum closure timings compared with control groups (P<0.05). Our finding suggested that proliferation rate with 500nM HU308 was significantly higher than control and TGF-β3/HU308 combination groups (P<0.05). Interestingly, percentage of wound remained open after 15 hours for combination groups was 17.6%±1.32 whereas treatment with 500nM HU308 had 20%±2.25 indicating that the combination groups took the lead throughout wound healing. It was also observed that bridge formation in all treatment groups was taking place between 15 to 20 hour periods whereas within control treatments bridge formation started to take place after 25 hours. Cell surface attachment was examined via the trypsinization assay in which the time taken to trypsinize cells from the surface provided a means of assessing the strength of attachment. The results indicated that higher concentrations of HU308 (2μM), induced significant force of cell attachment compared with control and concentrations of 500nM and 1μM (P<0.05). However, groups treated with TGF-β3 and combination HU308/TGF-β3 indicated reduced cell surface attachment compared with control groups, indicating enhanced cell migration. Immunofluorescence staining as well as Elisa based semi-quantification technique indicated that both collagen type I and fibronectin were unregulated using higher concentrations of HU308 with decreased cell proliferation compared to lower concentrations. Nevertheless, protein S-100A6 was up-regulated in treatments with HU308, TGF-β3 and their combination HU308/TGF-β3 (P<0.05), indicating the positive role of these treatments in promoting cell differentiation. MMP-2 levels in the current study were also shown to be concentration-dependent, i.e. higher concentrations of HU308 significantly reduced MMP-2 secretion leading to decreased cell migration, while HU308/TGF-β3 combination treatment increased MMP-2 levels, indicating an increase in cell migration. The current study also examined levels of nitric oxide synthesis in relation to different treatments with HU308, TGF-β3 and HU308/TGF-β3 combination. It was found that nitric oxide up-regulation influences rate of MG-63 osteoblast wound healing in a concentration dependent manner. Lastly, UpCell culture dishes proved to have efficacy in obtaining a multilayer model of MG-63 osteoblast system in-vitro through changes in cell morphology. It was also found that treatments with HU308, TGF-β3 and HU308/TGF-β3 combination influenced collagen type I, fibronecton and protein S-100A6 secretion. These findings supported the earlier Elisa based semi-quantification results obtained for monolayer cultures.

MG-63

; Cannabinoids

; HU308

; Winn55

; 212-2

; TGF-β3

; Wound healing

EXPLORING NOVEL BIOACTIVE BONE REPAIR STRATEGIES

Arjuna Kumarasuriyar

Unknown Date

Alternative bone repair strategies are frequently sought after in orthopaedic surgery to address the growing need for improved morbidity and healing rates. This thesis sought to initiate and validate such an alternative, harnessing the flexible nature of a biomaterial substrate and the unique potential of glycosaminoglycan sugars. A novel, biodegradable biomaterial polymer, PHBV, has previously been identified to have the potential to mimic the characteristics of bone necessary for tissue repair and in this study, it was hypothesized that PHBV would be able to support bone formation. When tested in vitro, PHBV was found to support osteoblast cell attachment, proliferation and differentiation, despite its rougher, more hydrophobic surface characteristics compared to tissue culture plastic (TCP). However, unlike the progression of cells on TCP, PHBV caused a developmental delay at each stage of osteogenesis, suggesting a sub-optimal cell-substrate interaction. The expression profiles of genes involved in the maintenance of the extracellular matrix were monitored to investigate this phenomenon further. The results suggested that cells cultured on PHBV appeared to preference 7 against a collagen-based ECM and, instead, trigger an increase in the expression of other factors, such as osteopontin, presumably to modify the biomaterial microenvironment to optimise continued growth and differentiation. This finding led to the next hypothesis that functionalisation of PHBV with suitable compounds could optimise and enhance the osteogenic development at the implant site by facilitating the desired and appropriate cell-substrate interactions. Non-protein factors are often preferred for functionalisation to material scaffolds over proteins, as they are relatively robust and can survive many of the processes used in the manufacture of biomaterials. Glycosaminoglycan (GAG) sugars were appropriate candidates for this purpose, as they are not only abundantly expressed in bone, but more importantly, they are capable of binding and facilitating the activity of growth factors. Furthermore, they are resistant to several environmental influences including changes in pH, heat and desiccation. To identify a GAG that could be integrated with PHBV or any other biomaterial substrate, GAGs were extracted from phenotypically-distinct stages of MG-63 osteosarcoma cells. These GAGs were identified to display gross structural differences, as well as differences in the enzymes synthesising them, between immature and mature osteoblastic cells, with the increased production of a larger GAG species observed as the cells differentiated. Unexpectedly, however, when these GAGs were subsequently dosed back into the media of growing MG-63 cells, their bioactivity did not match the stage at which they had been harvested: all GAG species were able to influence cell survival and growth to varying degrees but were not capable of affecting cell differentiation. However, if these same GAGs were exposed to cells by first being attached to the growth substrate, they induced varying degrees of aggregation in human mesenchymal stem cells (hMSCs), with more mature GAGs producing the most profound effects. Interestingly, a similar phenomenon was not observed when MG-63 cells where cultured in a similar manner. A direct correlation between the GAGs expressed by osteoblasts and the specific cellular processes they functionally influence has yet to be identified. While the experiments presented here demonstrate an effect of GAGs in osteoblastic cell survival, a role for GAGs in the progression of bone formation was not revealed. Loss-of-function studies were therefore necessary to determine the role of GAGs in bone, but this was hampered by the limited availability of procedures that allow the alteration of GAGs and the subsequent detection of these effects. Therefore, a tool to screen the efficacy of a loss of GAG function was developed. TAT-EGFP, a purpose-designed fluorescent GAG-binding peptide, was able to confirm that treatment with sodium chlorate was an effective 8 strategy to hinder GAG expression in MG-63 cells with minimal cytotoxicity to the cells. Following more extensive studies with chlorate treatment, it was found that a recoverable disruption to both proliferation and mineralisation could be induced in MG-63 cells. This suggested a role for GAGs in osteogenesis. A series of experiments then carried out following gene expression microarray analysis indicated that GAG de-sulfation by chlorate gives rise to an S-phase block in the cell cycle and a disruption to the actin cytoskeleton, which appeared to be associated with a change in the activity of cell-surface proteoglycans, most likely syndecan 4. It was also found that cells up-regulated plasma membrane ALP activity and cholesterol synthesis, presumably in an attempt to recover from a chlorate-induced loss in GAG function. Cholesterol is known to be important in establishing connections between membrane elements and the actin cytoskeleton, and its up-regulation here may reflect dysfunctions in these units and a dysfunction in syndecan 4 activity. With further confirmation, this would suggest that syndecan 4 plays a pivotal role in maintaining osteogenesis, in at least MG-63 cells, and that sulfated GAGs function principally to facilitate this role. The effective use of GAGs in bone repair strategies will require further understanding of GAG/syndecan 4/osteogenesis relationship.

bone

osteogenesis

glycsoaminoglycan

heparan sulfate

chondriotin sulfate

MG-63

syndecan 4

chlorate

extracellular matrix

Additively Manufactured Ti-6Al-4V Biomimetic Lattice Structures for Patient-Specific Orthopedic Implants: The Effect of Unit Cell Geometry, Pore Size, and Pulsed Electromagnetic Field Stimulation on the Osseointegration of MG-63 Cells in Vitro, Mechanical Properties, and Surface Characterization

Papazoglou, Dimitri Pierre

15 May 2023

No description available.

Biomedical Engineering

Biomedical Research

Electromagnetics

Electrical Engineering

Mechanical Engineering

Biology

Biomimetic

Lattice Structures

Orthopedic

Additive Manufacturing

Selective Laser Melting

Pulsed Electromagnetic Field

MG-63

Osseointegration