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Abstrak :
Latar Belakang: Ti-6Al-4V merupakan material implan yang sering digunakan untuk aplikasi biomedis, tetapi biaya produksi yang masih mahal. Sehingga diperlukan perlakuan panas untuk mengurangi biaya produksi dengan hasil produk yang optimal. Salah satu syarat diterimanya material implan yaitu harus kompatibel dengan jaringan sekitar. Tujuan: Mengamati efek implantasi material implan Ti-6Al-4V ELI dengan perlakuan panas 850°C pada regenerasi tulang femur tikus yang diamati melalui gambaran histologi. Metode: Penelitian ini menggunakan desain studi ekperimental pada 2 tikus betina Sprague Dawley di setiap kelompok. Terdapat 3 kelompok penelitian yang mencakup kelompok kontrol normal, kelompok kontrol defek, serta kelompok perlakuan yang diberi defek dan diimplantasi bahan uji material implan Ti-6Al-4V ELI dengan perlakuan panas 850°C. Tikus dikorbankan pada minggu ke-4 lalu dilakukan pengamatan histologis menggunakan skoring histologi Salkeld yang dimodifikasi. Hasil: Hasil skor histologi pada kedua sampel kelompok kontrol defek dan sampel-1 kelompok perlakuan yaitu 2 yang menandakan proses pembentukan tulang baru mencapai tahap pembentukan fibrokartilago. Pada sampel-2 kelompok perlakuan didapatkan hasil skor histologi 3 yang menandakan proses pembentukkan tulang sudah mencapai tahap terjadinya mineralisasi kartilago. Kesimpulan: Implantasi material implan Ti-6Al-4V ELI dengan perlakuan panas 850°C dapat diterima oleh jaringan tulang disekitarnya diamati dari proses regenerasi tulang yang ditunjukkan oleh adanya fibrosa, fibrokartilago, dan kartilago yang termineralisasi. 

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Background: Ti-6Al-4V is an implant material that is often used to biomedis application but the production costs are still expensive, so that heat treatment is needed to reduce production costs with optimal product results. One of the conditions for implant material is that it must be compatible with surrounding tissue. Objective: To evaluate the effect of Ti-6Al-4V ELI implan material implantation with 850°C heat treatment on the regeneration of rat femoral bone observed through histology. Method: This study used an experimental study design with two female Sprague Dawley Rattus novergicus rat on each group. There were three observation groups including normal control group, defect control group, and one treatment group that was given a defect and implanted by the implant material (Ti-6Al-4V ELI) with 850° C heat treatment. Rats were sacrificed in the fourth week and performed histological observation using modified Salkeld scoring. Result: The results obtained from histological scoring of 2 samples of control group and sample-1 of treatment group are 2 which indicate that they reached the formation stage of fibrocartilago tissue. The histological results of sample-2 treatment groups is 3 which indicates the recovery process have reached mineral cartilage mineralization. Conclusion: Implantation of Ti-6Al-4V ELI implant material with 850°C heat treatment is acceptable within the nearest bone tissue, observed from bone regeneration process which is indicated by the presence of fibrous, fibrocartilages, and mineralized cartilages.

Abstrak :
Latar Belakang: Ti-6Al-4V adalah salah satu bahan implan yang paling umum digunakan. Dalam upaya mengurangi biaya produksi implan titanium, bahan dipanaskan untuk mengoptimalkan produk akhir mereka. Salah satu kondisi yang perlu dipenuhi untuk bahan implan baru adalah biokompatibilitas bahan untuk jaringan di sekitarnya. Tujuan: Untuk memahami efek implantasi material implan Ti-6Al-4V ELI yang dipanaskan pada 10500C pada tulang paha tikus Sprague Dawley melalui studi histologis. Metode: Desain penelitian eksperimental digunakan dalam penelitian ini dengan tikus Sprague Dawley betina yang dibagi menjadi tiga kelompok: kelompok perlakuan; kelompok kontrol normal; dan kelompok kontrol cacat, yang dibuat lubang pada tulang paha. Dua tikus digunakan di masing-masing kelompok. Pada kelompok yang diberi perlakuan, defek tulang paha diimplantasikan dengan material implan Ti-6Al-4V ELI yang dipanaskan 10500C. Tikus dikorbankan setelah empat minggu dan dievaluasi secara histologis menggunakan Salkeld Histological Scoring yang dimodifikasi. Hasil: Skor histologis kelompok sampel 1 yang diobati adalah 3 yang berarti regenerasi tulang yang hampir sempurna, ditunjukkan oleh penampilan tulang rawan mineral. Nilai untuk kelompok perlakuan sampel 2 dan kelompok kontrol cacat sampel 1,2 adalah 2, yang berarti regenerasi tulang hanya mencapai fase pembentukan fibrocartilage. Kesimpulan: Regenerasi tulang dapat diperoleh di sekitar lokasi implantasi 10500C yang dipanaskan Ti-6Al-4V ELI material implan yang ditunjukkan oleh adanya jaringan fibrosa, fibrocartilage, dan tulang rawan termineralisasi.

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Background: Ti-6Al-4V is one of the most commonly used implant materials. In an effort to reduce the cost of producing titanium implants, the material is heated to optimize their final product. One of the conditions that need to be met for new implant material is the biocompatibility of the material for the surrounding tissue. Objective: To understand the effect of implantation of TiI 6Al-4V ELI material that was heated at 10500C on the femur of Sprague Dawley rats through histological studies. Methods: The experimental research design used in this study with female Sprague Dawley mice was divided into three groups: the treatment group; normal control group; and the deformed control group, which made a hole in the femur. Two mice were used in each group. In the treated group, femur defects were implanted with the implant material 10500C EL-Ti-6Al-4V. Mice were sacrificed after four weeks and evaluated histologically using modified Salkeld Histological Scoring. Results: The histological score of the sample group 1 treated was 3, which means almost perfect bone regeneration, indicated by the appearance of mineral cartilage. The values ​​for the sample 2 treatment group and the sample defect control group 1,2 are 2, which means bone regeneration only reaches the fibrocartilage formation phase. Conclusion: Bone regeneration can be obtained around the implantation site of ELI Ti-6Al-4V implant material heated by 10500C which is indicated by the presence of fibrous tissue, fibrocartilage, and mineralized cartilage.

Abstrak :
Osteoartritis merupakan penyakit kronis yang ditandai dengan kemunduran tulang rawan dan menyebabkan kekakuan, nyeri, dan gangguan pergerakan. Strategi rekayasa jaringan tulang menggunakan perancah dapat menjadi alternatif yang menjanjikan untuk regenerasi jaringan tulang yang rusak. Penelitian ini bertujuan untuk fabrikasi dan karakterisasi perancah dengan material chitosan (CS), hyaluronic acid (HA), hydroxyapatite (Hap) dengan kombinasi penambahan graphite (Gr), graphene oxide (GO), dan multiwalled carbon nanotube (MWNCT) untuk aplikasi rekayasa jaringan tulang. Dalam penelitian ini, dilakukan sintesis GO dan fungsionalisasi kimia dari material Gr dan MWNCT. Fabrikasi perancah dilakukan dengan metode freeze drying. Seluruh kelompok perancah dilakukan karakterisasi SEM dan FTIR, uji tekan dan porositas, uji swelling, wettability, dan laju degradasi. Fabrikasi perancah dibagi menjadi empat kelompok yaitu CS/HA/HAp, CS/HA/HAp/GO, CS/HA/HAp/f-Gr, dan CS/HA/HAp/f-MWNCT dengan ukuran diameter 1 cm, tinggi 1,5 cm, dan luas permukaan luas permukaan 4,71-6,28 cm2. Keseluruhan perancah memiliki ukuran pori yang bervariasi dan terdistribusi pada permukaan. Berdasarkan hasil FTIR, perancah mengandung gugus fungsi O-H, C=O, C-O-C, amida I, amida II, dan fosfat (PO43-). Pada uji kekuatan tekan, keseluruhan perancah memiliki CS/HA/HAp memiliki kekuatan tekan dan young modulus yang serupa dengan cancellous bone sebesar 5,76-6,14 MPa dan 3,95-471 MPa. Perancah memiliki laju porositas dengan rentang 13,8- 86,6%. Perancah memiliki kemampuan wettabiliy yang baik dengan rentang persentase 726-1069%. Rasio swelling perancah berada pada rentang 25,2-39,3%. Laju degradasi perancah cukup terkontrol dengan rentang 16,7-35,5%. Berdasarkan seluruh hasil karakterisitik, perancah CS/HA/HAp dengan penambahan GO merupakan kandidat terkuat sebagai perancah ideal pada penelitian ini. Perancah GO mempunyai karakteristik yang berada diantara perancah kontrol dan perancah f-MWNCT/f-Gr. ......Osteoarthritis is a chronic disease characterized by the deterioration of cartilage and causes stiffness, pain, and impaired movement. The bone tissue engineering strategy using scaffolds can be a promising alternative for the regeneration of damaged bone tissue. This study aims to fabricate and characterize scaffolds with chitosan (CS), hyaluronic acid (HA), hydroxyapatite (Hap) with a combination of addition of graphite (Gr), graphene oxide (GO), and multiwalled carbon nanotubes (MWNCT) for tissue engineering applications. In this study, GO synthesis and chemical functionalization of Gr and MWNCT materials were carried out. Scaffolding was done by freeze drying method. All groups of scaffolds were characterized by SEM and FTIR, compressive and porosity tests, swelling, wettability, and rate of degradation tests. Scaffolding was divided into four groups, namely CS/HA/HAp, CS/HA/HAp/GO, CS/HA/HAp/f-Gr, and CS/HA/HAp/f-MWNCT with a diameter of 1 cm, height 1, 5 cm, and a surface area of ​​4.71-6.28 cm2. The entire scaffold has varying pore sizes and is distributed over the surface. Based on the results of FTIR, the scaffold contains functional groups O-H, C=O, C-O-C, amide I, amide II, and phosphate (PO43-). In the compressive strength test, all scaffolds having CS/HA/HAp had similar compressive strength and young modulus with cancellous bone of 5.76-6.14 MPa and 3.95-471 MPa. Scaffolds have porosity rates in the range of 13.8-86.6%. Scaffolds have good wetability with a percentage range of 726-1069%. The swelling ratio of the scaffolds was in the range of 25.2-39.3%. The rate of degradation of the scaffold was quite controlled with a range of 16.7-35.5%. Based on all the characteristic results, the CS/HA/HAp scaffold with the addition of GO was the strongest candidate as the ideal scaffold in this study. The GO scaffold has characteristics that are between the control scaffold and the f-MWNCT/f-Gr scaffold.

Abstrak :
Fraktur tulang merupakan kondisi ketika kontinuitas dari tulang rusak sehingga menyebabkan perubahan pada bentuk tulang. Rekayasa jaringan tulang merupakan kombinasi dari perancah, sel, dan biofaktor dimana perancah merupakan komponen yang memainkan peranan penting. Solusi yang ditawarkan adalah memfabrikasi perancah dengan gabungan biomaterial atau komposit berupa graphite/ hydroxyapatite/ fibrin (G/HAp/F), graphene oxide/ hydroxyapatite/ fibrin (GO/HAp/F), multiwalled carbon nanotubes/ hydroxyapatite/ fibrin (MWCNT/HAp/F), dan hydroxyapatite/ fibrin (HAp/F) dengan penambahan material karbon (MWCNT, GO, dan G) sebanyak 1% wt, HAp sebanyak 2% wt, dan penambahan fibrin dengan perbandingan HAp:Fibrin senilai 20:1. Metode: Perancah disintesis dengan menggunakan metode freeze-drying. Parameter uji dilakukan melalui uji biokompatibilitas atau viabilitas sel (MTS assay), uji diferensiasi sel (pewarnaan alizarin red), dan analisa statistik. Pengujian tersebut dilakukan untuk melihat perbandingan antara keempat kombinasi perancah dalam menginduksi osteogenesis dan mempercepat proses regenerasi tulang. Hasil: Fabrikasi perancah dengan metode freeze-drying menghasilkan perancah dengan ukuran rata-rata diameter 0,68 cm dan tinggi 0,41 cm. Uji viablitas menunjukkan perancah dengan penambahan karbon menunjukkan viabilitas sel yang buruk, tidak menginduksi adhesi dan proliferasi sel, meskipun sel cenderung bermigrasi dan mendekati perancah. Uji diferensiasi menunjukkan perancah dengan penambahan karbon gagal dalam menginduksi diferensiasi sel osteogenik, Sel yang berdiferensiasi hanya ditemukan pada perancah HAp/F. ......A fracture is a condition when the continuity of the bone is broken, causing a change in the shape of the bone. Bone tissue engineering is a combination of scaffolds, cells, and biofactors where the scaffold is a component that plays an important role. In this study, scaffolds with a combination of biomaterials or composites in the form of graphite/ hydroxyapatite/ fibrin (G/HAp/F), graphene oxide/ hydroxyapatite/ fibrin (GO/HAp/F), multiwalled carbon nanotubes/ hydroxyapatite/ fibrin (MWCNT/ HAp/F), and hydroxyapatite/ fibrin (HAp/F) with the addition of carbon material (MWCNT, GO, and G) as much as 1% wt, HAp as much as 2% wt, and the addition of fibrin with a HAp:Fibrin ratio of 20:1 were fabricated. Scaffolds were synthesized using the freeze-drying method. The test parameters were carried out through biocompatibility or cell viability test (MTS assay) and cell differentiation test (alizarin red staining), and statistical analysis. The test was conducted to see the comparison between the three combinations of scaffolds in inducing osteogenesis and accelerating the process of bone regeneration. The scaffold fabrication using the freeze-drying method resulted in a scaffold with an average diameter of 0.68 cm and an average height of 0.41 cm. Viability test showed that the scaffolds with the addition of carbon showed poor cell viability, did not induce cell adhesion and proliferation, although cells tended to migrate and approach the scaffold. Differentiation test showed that the scaffolds with addition of carbon failed to induce osteogenic cell differentiation. Differentiated cells were only found in the HAp/F scaffold.

Abstrak :
Fraktur tulang merupakan kondisi kerusakan pada sebagian atau seluruh kontinuitas tulang yang dapat menyebabkan beberapa komplikasi seperti infeksi, pendarahan, kerusakan pada saraf dan pembuluh darah, dan defek. graphine oxide/hidroksiapatit/fibrin, functionalized graphite/hidroksiapatit/fibrin, functionalized multiwalled carbon nanotubes/hidroksiapatit/fibrin, dan hidroksiapatit/fibrin perancah HAp/F memiliki ukuran pori 0,5 – 4,1 μm, GO/HAp/F 2,6 – 6,1 μm, fG/HAp/F 0,7 – 14,1 μm dan fMWCNT/HAp/F 1,5 – 11,1 μm. Terdapat gugus PO43- , O-H, C-H, C-O alifatik, dan amida I pada setiap kelompok perancah. Dengan penambahan gugus fungsi C=O pada perancah dengan penambahan material karbon. Nilai kekuatan tekan pada perancah GO/HAp/F, fG/HAp/F, dan fMWCNT/HAp/F sesuai dengan kekuatan tekan cancellous bone. Persentase porositas paling besar padaperancah GO/HAp/F sebesar 9,99 ± 2,85%. Perancah GO/HAp/F memiliki persentase swelling yang paling tinggi dan laju degradasi yang paling lambat. Sedangkan retensi yang paling baik ditunjukkan oleh perancah fG/HAp/F dengan persentase 8,27%. Berdasarkan keseluruhan hasil, perancah HAp/F dengan penambahan material GO mempunyai karakteristik fisika-kimia yang lebih baik pada penelitian ini dibandingkan dengan perancah fMWCNT atau fG. ......A fracture is a condition when the continuity of the bone is broken causing several complications such as infection, bleeding, damage to nerves and blood vessels, and disability. In this research, the solution offered is to fabricate a scaffold with a combination of biomaterials or composites in the form of graphine oxide/hydroxyapatite/fibrin, functionalized graphite/hydroxyapatite/fibrin, functionalized multiwalled carbon nanotubes/hydroxyapatite/fibrin, and hydroxyapatite/fibrin. Scaffolds were synthesized using the freeze-drying method. This study aims to determine the physico-chemical characteristics of the four groups of scaffolds. Based on the results of SEM-EDS, the HAp/F scaffold has a pore size of 0.5 – 4.1 μm, GO/HAp/F has 2.6 – 6.1 μm, fG/HAp/F has 0.7 – 14.1 μm and fMWCNT/HAp/F has 1.5 – 11.1 μm. There were PO43- , O-H, C-H, aliphatic C-O and amide I groups in each scaffold. Additionally the C=O functional group on the scaffold with the addition of carbon material. The compressive strength values of GO/HAp/F, fG/HAp/F, and fMWCNT/HAp/F scaffolds correspond to the compressive strength of the cancellous bone. The highest percentage of porosity is GO/HAp/F scaffolds with 9.99 ± 2.85%. GO/HAp/F scaffolds had the highest swelling percentage and the slowest degradation rate. Meanwhile, the best retention was shown by fG/HAp/F scaffold with a percentage of 8.27%. Based on the overall results, the HAp/F scaffold with the addition of GO material had better physico-chemical characteristics in this study than fMWCNT or fG scaffolds.

Abstrak :
This book that addresses the modern aspects of bone healing and repair. Recent breakthroughs in understanding the regulatory aspects of bone formation and resorption, in both research and clinical arenas offer new modalities to induce, enhances and guide repair processes in bone for the benefit of millions of patients with conditions such as nonunion fractures, critical size defects, orthodontic tooth movement, periodontal bone loss, intraosseous implants and deformed bones.

Abstrak :
This volume presents a new contribution for the field of Tissue Engineering with a focus on the development of mathematical and computational methods that are relevant to understand human tissues, as well to model, design, and fabricate optimized and smart scaffolds.