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Asrafi Rizki Gatam

Luaran klinis dan radiologis dari fusi interkorpus lumbal transforaminal menggunakan kombinasi hydroxiapatit dan demineralized bone matrix dibandingkan dengan autograft pada kasus spondilosis lumbal = Clinical and radiological outcome of transforaminal lumbar interbody fusion using combination of hydroxyapatite and demineralized bone matrix compared with autograft on lumbar spondylosis cases / Asrafi Rizki Gatam

"ABSTRAK

Pendahuluan. Penggunaan autograft dalam fusi interkorpus tulang belakang

masih menjadi pilihan utama, tetapi jumlah yang terbatas dan morbiditas pada

tempat donor mendorong penggunaan substitusi tulang. Kombinasi HA dan DBM

menjadi pilihan utama selain autograft dalam fusi interkorpus, namun hasil yang ada menunjukan variasi diantara jenis DBM. Tujuan penelitian ini untuk

mengevaluasi luaran klinis dan radiologis fusi interkorpus lumbal menggunakan

kombinasi DBM dan HA.

Metode Penelitian. Penelitian ini merupakan prospektif cohort pada 35 pasien

yang terbagi atas 18 pasien kelompok autograft dan 17 pasien kelompok

kombinasi HA dan DBM. Pasien merupakan pasien spondilosis lumbal yang

diindikasikan untuk tindakan operatif. Evaluasi klinis pada masing-masing

kelompok pasca operasi menggunakan VAS, JOA dan ODI yang dinilai pada

bulan ke-3, 6 dan 12. Evaluasi radiologis pada masing-masing berupa fusi di

evaluasi dengan ct scan pada bulan ke-12. Karakteristik pasien seperti jenis

kelamin, usia, riwayat merokok, level operasi, dan BMI juga dievaluasi.

Temuan Penelitian. Dua orang ahli bedah orthopaedi tulang belakang melakukan operasi stabilisasi posterior dan TLIF. Terdapat 55 pasien (27 kelompok autograft, 28 kelompok kombinasi HA dan DBM) yang masuk ke dalam kriteria, 9 pasien dari masing-masing kelompok di eksklusi karena tidak dapat di follow up sampai 12 bulan. Perbandinagn skor VAS, JOA dan ODI diantara kedua kelompok tidak menunjukan perbedaan yang bermakna dengan nilai p masing-masing 0,599, 0,543 dan 0,780. Perbandingan fusi antara kelompok autograft dan kombinasi HA dan DBM menunjukan nilai p 1,000, sehingga tidak bermakna secara statistik.

Simpulan Hasil luaran klinis dan radiologis pada penggunaan kombinasi HA dan

DBM dalam fusi interkorpus tidak menunjukan inferioritas bila dibandingkan

dengan autograft. Kombinasi HA dan DBM dapat dipertimbangkan sebagai

alternatif bagi pasien spondilosis lumbal yang diindikasikan untuk tindakan

operatif.

ABSTRACT

Introduction The use of autograft still remains a gold standard in lumbar

interbody fusion surgery, but the limited amount and donor site morbidity

encourages the use of bone substitute. Combination of HA and DBM become a

main choice other than autograft in lumbar interbody fusion, however there were variable result between DBM product. These research was aimed to evaluate the clinical and radiological outcome of interbody fusion using combination of DBM and HA.

Methods A cohort prospective research was conducted in 35 patients that were divided into 18 autograft group patients and 17 combination of HA and DBM group patient. All the patients were diagnosed with lumbar spondylosis and indicated for surgery. Clinical evaluation on each group was evaluated using VAS, JOA and ODI on the 3rd, 6th and 12th month post operatively. Radiologic outcome of fusion was evaluated using ct scan on the 12th month. Other patient characteristic such as sex, age, smoking history, level operation dan BMI were also evaluated in this research.

Results Two orthopaedic spine surgeon conducted the posterior stabilization and TLIF procedure. There were 55 patients (27 autograft group patients, 28

combination of HA and DBM group patients) that was included according to the criteria, 9 patients on each group were excluded due to loss of follow up below 12 months. Comparison of VAS, JOA and ODI score between the two group did not show any difference that significant statiscally with the p value was 0.599, 0.543, and 0.780 each. Comparison of fusion rate between the two groups showed p value of 1.000 which was not significant statiscally.

Conclusions Clinical and radiological outcome of combination of HA and DBM

in lumbar interbody fusion did not show inferiority compared with autograft.

Combination of HA and DBM can be considered as an alternative in lumbar

spondylosis patient that need operative procedure"

2016

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Desain Water Treatment Plant PLTG PLN Haltim Antam 111 MW = Design of Water Treatment Plant PLTG PLN Haltim Antam 111 MW

"Praktik keinsinyuran ini tentang desain Water Treatment Plant untuk PLTG PLN Antam Haltim yang memiliki kapasitas pembangkit 3x17 MW dan 2x30 MW. Sumber Raw Water diambil dari air tanah yang memiliki Total Dissolved Solids (TDS) sebesar 276 mg/l dan Total Suspended Solids (TSS) sebesar 302 mg/l. Pada Pembangkit Listrik Pembangkit Gas dibutuhkan kualitas air untuk air besih dan demineralisasi sehingga untuk kebutuhan air bersih tersebut diperlukan proses pre-treatment plant dengan menggunakan Multi Media Filter (MMF) kemudian air tersebut disimpan di Tank dengan kapasitas 870 m3 untuk kebutuhan service water dan Proses Demineralized Plant membutuhkan proses reverse osmosis dan Ion Exchange kemudian air dari demineralized plant di simpan di tank demin dengan kapasitas sebesar 240 m3. Kebutuhan service water untuk PLTG Hatim ini sebesar 2,5 m3/h untuk memenuhi kebutuhan Fire Fighting, Sevice water untuk semua bangunan, Potable water, Dosing WTP dan Dosing WWTP sedangkan untuk kebutuhan deminerazed Plant memiliki memilik kapasitas sebesar 10 m3/h untuk memenuhi kebutuhan 3 unit Tubine Gas kapasitas 17 MW dan 2 unit Turbine Gas Kapasitas 30 MW. Desain water treatment plant harus memenuhi aspek Keselamatan dan Kesehatan kerja, Profesionalisme dan Kode Etik Insinyur.

......This engineering practice concerns the design of the Water Treatment Plant for PLTG PLN Antam Haltim which has a generating capacity of 3x17 MW and 2x30 MW. Raw Water sources are taken from deep well which has Total Dissolved Solids (TDS) of 276 mg/l and Total Suspended Solids (TSS) of 302 mg/l. In Generating Gas Power Plants, water quality is needed for clean water and demineralization so that for clean water needs a pre-treatment plant process using a Multi Media Filter (MMF) then the water is stored in a tank with a capacity of 870 m3 for service water needs and The Demineralized Plant process requires a reverse osmosis and ion exchange process, then the water from the demineralized plant is stored in demineralized tanks with a capacity of 240 m3. The service water requirement for PLTG Hatim is 2.5 m3/h to meet the needs of Fire Fighting, Service water for all buildings, Potable water, Dosing WTP and Dosing WWTP while for deminerazed Plant needs it has a capacity of 10 m3/h to meet the needs of 3 Tubine units Gas capacity of 17 MW and 2 Gas Turbine units with capacity of 30 MW. The water treatment plant design must meet the aspects of Occupational Safety and Health, Professionalism and the Engineer's Code of Ethics."

Depok: Fakultas Teknik Universitas Indonesia, 2023

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Norma Avanti

Proses polymer-induced liquid precursor (PILP) dengan asam poliaspartik pada remineralisasi intrafibrilar dentin (analisis micro CT) = Polymer-induced liquid precursor (PILP) process with polyaspartic acid on intrafibrillar dentine remineralization (micro CT analysis)

Latar Belakang: Perawatan karies dengan minimal intervensi, yaitu dengan membuang infected dentin, dan meninggalkan affected dentin, kemudian dilakukan remineralisasi pada affected dentin. Pada affected dentin masih terdapat ikatan silang kolagen. Remineralisasi dentin lebih kompleks karena pada karies dentin sudah tidak ada sisa kristal mineral. Untuk terjadinya remineralisasi ekstrafibrilar dan intrafibrilar pada dentin, maka dibutuhkan dentin matrix protein 1 (DMP 1) yang merupakan protein non-kolagen. Proses polymer-induced liquid precursor (PILP) merupakan metode Guided Tissue Remineralization yang bertujuan untuk remineralisasi dentin secara intrafibrilar dan ekstrafibrilar dengan penambahan polimer sebagai analog DMP1. Salah satu material analog protein non kolagen adalah asam poliaspartik.

Tujuan: Mengevaluasi remineralisasi dentin pada permukaan demineralized dentin setelah perendaman dengan larutan remineralisasi yang mengandung asam poliaspartik sebagai analog protein non kolagen.

Metode: Empat kelompok dilakukan demineralisasi buatan. Setelah itu, tiga kelompok dilakukan perendaman dengan larutan remineralisasi yang mengandung asam poliaspartik, sedaangkan satu kelompok tidak dilakukan perendaman larutan remineralisasi asam poliaspartik. Evaluasi remineralisasi dengan Micro-CT.

Hasil: Terlihat remineralisasi pada permukaan demineralized dentin yang ditandai dengan penurunan kedalaman lesi demineralized dentin yang ditandai dengan peningkatan grey scale index setelah dilakukan perendaman dengan larutan remineralisasi asam poliaspartik. Perbandingan rerata empat kelompok menunjukkan perbedaan bermakna.

Kesimpulan: Asam poliaspartik memiliki potensi untuk meremineralisasi demineralized dentin.

Background: Caries treatment with minimal intervention, namely by removing infected dentine, and leaving affected dentine, then remineralization of affected dentine. In the affected dentine there are still have collagen cross bonds. Dentin remineralization is more complex because there is no residual mineral crystals in dentinal caries. For extrafibrillary and intrafibrillary remineralization in dentine, dentin matrix protein 1 (DMP 1) is a non-collagen protein. The polymer-induced liquid precursor (PILP) process is a Guided Tissue Remineralization method which aims to remineralize intrafibrilar and extafibrilar dentine by adding polymers as analogous to DMP1. One of the non collagen protein analog material is polyacpartic acid.

Objective: To evaluate remineralization of dentine on the demineralized dentin surface after immersion with remineralization solutions containing polyacpartic acid as a non-collagen protein analog.

Method: Four groups carried out artificial demineralization. After that, three groups were immersed with remineralization solution containing polypartic acid, while one group was not immersed in polyacpartic acid remineralization solution. Remineralization evaluation with Micro-CT.

Results: It appears remineralization on the demineralized dentin surface which is characterized by a decrease in the depth of demineralized dentin lesions which is characterized by an increase in gray scale index after immersion with polyacpartic acid remineralization solution. The comparison of the mean of the four groups showed significant differences.

Conclusion: Polyacpartic acid has the potential to remineralize for demineralized dentine.

Depok: Fakultas Kedokteran Gigi Universitas Indonesia, 2019

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Rosdiana Nurul Annisa

Potensi Carboxymethyl Chitosan/Amorphous Calcium Phosphate (CMC/ACP) pada remineralisasi intrafibrillar kolagen dentin = Potency of Carboxymethyl Chitosan/Amorphous Calcium Phosphate (CMC/ACP) on intrafibrillar of collagen dentin

Tujuan: Mengevaluasi terjadinya remineralisasi intrafibrillar pada permukaan demineralized dentin setelah aplikasi material analog protein non-kolagen CMC/ACP.

Metode: Empat kelompok dilakukan demineralisasi buatan, dalam satu gigi terdapat dua kavitas, salah satu kavitas diaplikasikan material CMC/ACP, sedangkan kavitas lainnya tidak diaplikasikan CMC/ACP. Sampel diperiksa pada hari ke-7 dan ke-14 dengan Transmission Electron Microscope TEM.

Hasil: Terlihat peningkatan kadar kalsium dan fosfat setelah aplikasi CMC/ACP pada hari ke-7 dan ke-14.

Kesimpulan: CMC/ACP memiliki potensi untuk meremineralisasi demineralized dentin.

......Affected dentin is a layer which can be remineralized due to the presence of cross linked collagen and a living odontoblastic process a key to remineralization. There are two methods of remineralization convensional and guided tissue remineralization GTR. In conventional methods, only extrafibrillar remineralization occurs. GTR resulting intrafibrillar and extrafibrillar remineralization. Intrafibrillar remineralization improves physical properties of dentin. GTR is a method of collagen dentin remineralization using non collagen protein, Dentin Matrix Protein 1 DMP 1. DMP 1 is damaged due to caries process. Carboxymethyl Chitosan Amorphous Calcium Phosphate CMC ACP has similar function with DMP 1.

Aim: To evaluate intrafibrillar remineralization on demineralized dentin after application non collagen protein analog CMC ACP.

Method: Four groups performed artificial demineralization two of which applied CMC ACP material. Whereas, the other group was not applied CMC ACP. Evaluation of intrafibrillar remineralization with Transmission electron Microscope TEM.

Result: After 7 days and 14 days CMC ACP application, intrafibrillar remineralization was observed in the gap zone.

Conclusion CMC ACP has a potential for intrafibrillar remineralization on demineralized dentin. "

Jakarta: Fakultas Kedokteran Gigi Universitas Indonesia, 2017

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Rivanti Irmadela Devina

Efek Asam Poliaspartik Sebagai Analog Protein Non Kolagen Dalam Proses Polymer-Induced Liquid Precursor (PILP) Terhadap Remineralisasi Intrafibrilar Dentin (Analisis SEM dan EDX) = Remineralization Effect of Poliaspartic Acid as Analog Protein Non Collagenous in Polymer-Induced Liquid Precursor (PILP) on Intrafibrillar Dentin (SEM and EDX)

"Latar Belakang: Remineralisasi pada dentin affected dapat terjadi secara guided tissue remineralization (GTR). Remineralisasi ini terjadi pada matriks intrafibrilar kolagen dentin karena peran protein non kolagen yaitu Dentin Matriks Protein 1 (DMP1) yang dapat rusak saat proses demineralisasi. Dibutuhkan material analog pengganti DMP1 untuk proses remineralisasi, salah satunya adalah asam poliaspartik dalam proses Polymer-Induced Liquid Precursor (PILP). Tujuan: Menganalisis remineralisasi yang terjadi pada demineralized dentin setelah diinduksi oleh asam poliaspartik dalam proses PILP. Metode: Sampel berupa dentin blok direndam pada larutan demineralisasi lalu dibagi menjadi empat kelompok, yaitu kelompok demineralized dentin tanpa perendaman larutan asam poliaspartik dan kelompok dengan perendaman larutan asam poliaspastik selama 3, 7, dan 14 hari. Sampel di evaluasi dengan uji SEM dan EDX. Hasil: Terdapat perbedaan signifikan antara kelompok demineralized dentin dengan kelompok remineralisasi asam poliaspartik pada hari ke 3, 7, dan 14. Remineralisasi yang terjadi berupa deposit ion kalsium dan fosfat. Kesimpulan: Asam poliaspartik dalam proses PILP memiliki potensi untuk meremineralisasi demineralized dentin.

......Background: Remineralization on affected dentin can be occurred by guided tissue remineralization (GTR) method. The remineralization process took place in intrafibilar matrix dentin collagen which regulated by a non collagenous protein, Dentin Matrix Protein (DMP 1) which can be destroyed during demineralization process. Remineralization process requires non collagenous protein analog material, one in particular is poliaspartic acid in Polymer-Induced Liquid Precursor (PILP) process. Objective: To analyze remineralization process that occured on demineralized dentin after application polyaspartic acid in PILP process. Method: Dentin block sample was soaked in demineralized solution. The sample then divided into four groups which are demineralized dentin without application of poliasparticacid solution, and demineralized dentin soaked in polyaspartic acid solution in the period of 3 ,7 and 14 days. The samples were evaluated by using SEM and EDX. Result: A statistically significant result between demineralized dentin group and remineralization with poliaspartic acid group within 3, 7, 14 days. Remineralization occurred by calcium and phosphate ions deposition. Conclusion: Polyaspartic acid in PILP process has the capability of remineralizing demineralized dentin."

Jakarta: Fakultas Kedokteran Gigi Universitas Indonesia, 2019

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Atria Mya Kelani

Efek Remineralisasi Menggunakan Analog Protein Non Kolagen Carboxymethyl Chitosan/Amorphous Calcium Phosphate Pada Demineralized Dentin (Eksperimental Laboratorik) = Remineralization Effect of Non Collagen Protein Carboxymethyl Chitosan/Amorphous Calcium Phosphate on Demineralized Dentin (In Vitro)

"Latar Belakang: Affected dentin merupakan lapisan yang ditinggalkan pada perawatan karies secara minimal invasif karena dapat diremineralisasi. Lapisan ini masih terdapat ikatan silang kolagen yang intak meskipun, mineral apatit telah hilang. Remineralisasi dentin diregulasi oleh protein non kolagen Dentin Matriks Protein 1 (DMP1). Remineralisasi yang dihasilkan berupa remineralisasi intrafibrilar dan ekstrafibrilar. Remineralisasi intrafibrilar meningkatkan sifat fisik dentin. Guided Tissue Remineralization (GTR) merupakan metode remineralisasi dentin secara intrafibrilar dan ekstrafibrilar menggunakan material analog protein non kolagen. Material ini memiliki fungsi menyerupai DMP1. Salah satu material analog protein non kolagen adalah Carboxymethyl Chitosan/ Amorphous Calcium Phosphate (CMC/ACP). Tujuan: Mengevaluasi remineralisasi dentin pada permukaan demineralized dentin setelah aplikasi material analog protein non kolagen CMC/ACP. Metode: Dua kelompok dilakukan demineralisasi buatan, salah satunya diaplikasikan material CMC/ACP sedangkan, kelompok lainnya tidak diaplikasikan CMC/ACP. Evaluasi remineralisasi dengan SEM dan EDX. Hasil: Terlihat remineralisasi pada permukaan demineralized dentin dan peningkatan kadar kalsium dan fosfat setelah aplikasi CMC/ACP pada hari ke-7. Perbandingan rerata dua kelompok tidak menunjukkan perbedaan bermakna. Kesimpulan: CMC/ACP memiliki potensi untuk meremineralisasi demineralized dentin.

......

Background: Affected dentin is a layer has been left during non invasive caries treatment as it can be remineralized. Collagen crosslinking remains intact in this layer, however the apatite minerals have been lost. Dentin remineralization is regulated by a non collagenous protein, Dentin Matrix Protein 1 (DMP1) and resulting intra- and extrafibrillar remineralization. Intrafibrillar remineralization improves physical properties of dentin. Guided Tissue Remineralization (GTR) is a method of collagen dentin remineralization using non collagen protein analog, resulting in intra- and extrafibrillar remineralization. This material has similar function with DMP1. Carboxymethyl Chitosan/ Amorphous Calcium Phosphate (CMC/ACP) is one of non collagen protein analog.Aim: To evaluate demineralized dentin remineralization after application non collagen protein analog CMC/ACP. Method: Two groups performed artificial demineralization, one of which applied CMC / ACP material whereas, the other group was not applied CMC / ACP. Remineralization was evalutated using SEM and EDX. Result: After 7 days CMC/ACP application, remineralization was observed on the surface of demineralized dentin, which showed a white irregularities surrounding the dentin tubuli. In addition, increasing calcium and phosphate level has been showed experimentally although, the comparison of both group is insignificant. Conclusion: CMC/ACP has a potential for demineralized dentin remineralization."

Jakarta: Fakultas Kedokteran Gigi Universitas Indonesia, 2018

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Rosdiana Nurul Annisa

Potensi carboxymethyl chitosan/amorphous calcium phosphate cmc/acp pada remineralisasi intrafibrillar kolagen dentin = Potency of carboxymethyl chitosan amorphous calcium phosphate cmc acp on intrafibrillar of collagen dentin

"Latar Belakang: Affected dentin merupakan lapisan yang masih dapat terjadi remineralisasi karena masih terdapat ikatan silang kolagen dan prosesus odontoblastik yang masih vital yang merupakan syarat terjadinya remineralisasi. Terdapat dua metode remineralisasi, yaitu metode konvensional dan guided tissue remineralization GTR . Pada metode konvensional hanya dapat terjadi remineralisasi secara ekstrafibrillar. Sedangkan pada metode GTR memiliki keunggulan yaitu dapat terjadi remineralisasi secara ekstrafibrillar dan intrafibrillar. Beberapa penelitian melaporkan bahwa mineralisasi intrafibrillar dapat meningkatkan properti mekanis dari dentin.Pada metode GTR dibutuhkan peran protein non kolagen, yaitu DMP 1. Namun karena proses karies, maka sebagian DMP 1 mengalami kerusakan sehingga dibutuhkan material analog protein non-kolagen, salah satunya adalah Carboxymethyl Chitosan/Amorphous Calcium Phosphate CMC/ACP . Tujuan: Mengevaluasi terjadinya remineralisasi intrafibrillar pada permukaan demineralized dentin setelah aplikasi material analog protein non-kolagen CMC/ACP. Metode: Empat kelompok dilakukan demineralisasi buatan, dalam satu gigi terdapat dua kavitas, salah satu kavitas diaplikasikan material CMC/ACP, sedangkan kavitas lainnya tidak diaplikasikan CMC/ACP. Sampel diperiksa pada hari ke-7 dan ke-14 dengan Transmission Electron Microscope TEM . Hasil: Terlihat peningkatan kadar kalsium dan fosfat setelah aplikasi CMC/ACP pada hari ke-7 dan ke-14.Kesimpulan: CMC/ACP memiliki potensi untuk meremineralisasi demineralized dentin.

......Background Affected dentin is a layer which can be remineralized due to the presence of cross linked collagen and a living odontoblastic process a key to remineralization. There are two methods of remineralization convensional and guided tissue remineralization GTR . In conventional methods, only extrafibrillar remineralization occurs. GTR resulting intrafibrillar and extrafibrillar remineralization. Intrafibrillar remineralization improves physical properties of dentin. GTR is a method of collagen dentin remineralization using non collagen protein, Dentin Matrix Protein 1 DMP 1 . DMP 1 is damaged due to caries process. Carboxymethyl Chitosan Amorphous Calcium Phosphate CMC ACP has similar function with DMP 1. Aim To evaluate intrafibrillar remineralization on demineralized dentin after application non collagen protein analog CMC ACP. Method Four groups performed artificial demineralization two of which applied CMC ACP material. Whereas, the other group was not applied CMC ACP. Evaluation of intrafibrillar remineralization with Transmission electron Microscope TEM . Result After 7 days and 14 days CMC ACP application, intrafibrillar remineralization was observed in the gap zone. Conclusion CMC ACP has a potential for intrafibrillar remineralization on demineralized dentin."

Jakarta: Fakultas Kedokteran Gigi Universitas Indonesia, 2018

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Marissa Dwi Bestari

Pengaruh penambahan carboxymethyl chitosan pada mineral trioxide aggregate terhadap perubahan karakteristik kristal hidroksiapatit dan kekerasan mikro dentin terdemineralisasi = The effect of carboxymethyl chitosan modified mineral trioxide aggregate on hydroxyapatite crystal characteristic and microhardness of demineralized dentin

"Latar Belakang: Aplikasi Mineral Trioxide Aggregate (MTA) sebagai material bioaktif yang umum digunakan dalam upaya remineralisasi affected dentin memiliki peranan penting dalam preservasi jaringan gigi pada perawatan terapi pulpa vital, namun diketahui tidak dapat menghasilkan dentin dengan sifat mekanis menyerupai dentin sehat karena hanya menghasilkan remineralisasi ekstrafilbrillar. Carboxymethyl Chitosan (CMC) merupakan biomaterial alami yang dikembangkan sebagai analog protein non-kolagen pada dentin untuk menghambat laju presipitasi kalsium fosfat yang dihasilkan oleh interaksi antara material bioaktif dengan jaringan sehingga dapat memasuki ruang intrafibrillar kolagen.

Tujuan: Mengetahui pengaruh penambahan CMC pada semen MTA terhadap perubahan karakteristik kristal hidroksiapatit dan kekerasan mikro dentin terdemineralisasi, yang diobservasi selama 14 hari periode remineralisasi.

Metode: Remineralisasi dilakukan melalui aplikasi material MTA, MTA-CMC 5%, dan MTA-CMC 10% pada dasar kavitas sampel dentin terdemineralisasi. Akar gigi direndam selama 14 hari dalam cairan phosphate-buffered saline. Observasi karakteristik kristal hidroksiapatit dilakukan dengan alat uji X-ray Diffractomete dan perubahan kekerasan mikro dianalisis secara kuantitatif melalui uji Vickers Hardness.

Hasil: Pembentukan kristal hidroksiapatit ditemukan pada sampel MTA dan MTA-CMC dengan derajat kristalinitas hidroksiapatit paling tinggi pada sampel MTA-CMC 10%. Kekerasan mikro dentin meningkat pada kelompok MTA-CMC 5% dan MTA-CMC 10% dibandingkan pada kelompok MTA.

Kesimpulan: Aplikasi modifikasi material Mineral Trioxide Aggregate dengan Carboxymethyl Chitosan selama 14 hari menginisasi terbentuknya fase mineral hidroksiapatit dan meningkatkan derajat kristalinitas hidroksiapatit pada dentin terdemineralisasi serta meningkatkan kekerasan mikro dentin terdemineralisasi.

......Background: Application of Mineral Trioxide Aggregate (MTA) as remineralization agent of affected dentin which holds a vital role in the preservation of tooth structure has been widely used in clinical practice, however it’s only capable of generating extrafibrillar remineralization resulting in the inability to produce dentin with mechanical properties resembling sound dentin. Carboxymethyl Chitosan (CMC) is a natural biomaterial developed as analogue of dentin non-collagenous proteins to inhibit the spontaneous precipitation of calcium-phosphate produced by the interaction of dentin with remineralization agent so that intrafibrillar remineralization can be accomplished.

Objective: To evaluate hydroxyapatite crystals characteristic and assess the microhardness of demineralized dentin after 14 days application of CMC-modified MTA.

Method: Remineralization was performed by the application of MTA, MTA-CMC 5%, and MTA-CMC 10% on demineralized dentin samples. During the remineralization process, root canals of tooth models were immersed in phosphate-buffered saline solution. Hydroxyapatite crystals’ characteristic was observed by X-ray Diffractometer, while dentin microhardness score was assessed by Vickers Hardness test.

Result: Formation of hydroxyapatite crystals was identified in MTA and MTA-CMC samples. Highest degree of crystallinity was found in MTA-CMC10% sample. Microhardness score of demineralized dentins in MTA-CMC 5% group and MTA-CMC 10% group was significantly higher than those in MTA group.

Conclusion: CMC-modified MTA application on demineralized dentin in 14 days was found effective in initiating hydroxyapatite formation with higher degree of crystallinity and increasing the microhardness of demineralized dentin."

Jakarta: Fakultas Kedokteran Gigi Universitas Indonesia, 2022

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