Karakteristik dan Aktivitas Antibakteri Scaffold Membran Cangkang Telur yang Diaktivasi Karbonat Apatit
Mirantini Aprilisna(1*), Catur Aditya Ramadhany(2), Bambang Sunendar(3), Haris Budi Widodo(4)
(1) Kedokteran Gigi Universitas Jenderal Soedirman, Purwokerto, Jawa Tengah, Indonesia
(2) Kedokteran Gigi Universitas Jenderal Soedirman, Purwokerto, Jawa Tengah, Indonesia
(3) Fakultas Teknik Industri, Institut Teknologi Bandung, Jawa Barat, Indonesia
(4) Kedokteran Gigi Universitas Jenderal Soedirman, Purwokerto, Jawa Tengah, Indonesia
(*) Corresponding Author
Abstract
Struktur tulang yang hilang akibat penyakit periodontal dan trauma dapat ditanggulangi dengan pemasangan graft. Pemasangan graft rentan akan adanya invasi bakteri sehingga alternatifnya dibuat scaffold dengan aktivitas antibakteri. Teknik jaringan berupa pembuatan scaffold harus memiliki sifat biokompatibel, biodegradasi, dan bioaktif. Penelitian ini
menggunakan membran cangkang telur, larutan alginat dan kitosan, karbonat apatit dan larutan SBF Kokubo. Penelitian ini bertujuan mengetahui karakteristik dan aktivitas antibakteri scaffold membran cangkang telur yang diaktivasi karbonat apatit. Penelitian ini menggunakan metode eksperimental laboratoris dengan jumlah kelompok sampel sebanyak lima kelompok, yaitu sampel A membran cangkang telur, sampel B membran cangkang telur + karbonat apatit, sampel C
membran cangkang telur + karbonat apatit + SBF selama 7 hari, sampel D membran cangkang telur + karbonat apatit + SBF selama 14 hari, dan sampel E membran cangkang telur + karbonat apatit + SBF selama 21 hari. Uji sampel yaitu karakterisasi menggunakan ATR FTIR dan SEM, serta uji aktivitas antibakteri menggunakan metode difusi. Hasil karakterisasi SEM menunjukkan pori-pori serat 10-20μm pada semua sampel, ATR FTIR sampel B, C, D, E menunjukkan peningkatan gugus apatit dibanding sampel A. Pengujian antibakteri terhadap Staphylococcus aureus menunjukkan zona bening pada setiap sampel. Perhitungan jumlah koloni setiap sampel yaitu terbanyak koloninya sampel A ±78x105 CFU/ml, dan paling sedikit koloninya sampel B ±14x105 CFU/ml. Kesimpulan penelitian ini yaitu karakteristik dan aktivitas antibakteri scaffold membran cangkang telur yang diaktivasi karbonat apatit mengandung bahan bioaktif, bersifat biodegradasi dan menunjukkan aktivitas antibakteri.
Characteristic And Antibacterial Activity Of Egg-Shell Membrane Scaffold Activated By Carbonate Apatite. The loss of bone structure that can be caused by periodontal disease and trauma can be treated by installation of graft. The installation of graft is vulnerable to bacterial invasion, so that the alternative is to make a scaffold with antibacterial activity. Scaffold manufacturing in engineering system must have biocompatible, biodegradable, and bioactive properties. This research used egg-shell membrane (ESM) as scaffold template, alginate, chitosan, carbonate apatite, and SBF solution. The purpose of this research is to know the characteristics, and antibacterial activity of eggshell membrane scaffold which is activated by carbonate apatite. This research used laboratory experimental method by dividing the samples into five groups that were ESM as sample A, ESM with carbonate apatite as sample B, ESM with carbonate apatite soaked in SBF sol for 7days as sample C, ESM with carbonate apatite soaked in SBF sol for 14 days as sample D, and ESM with carbonate apatite soaked in SBF sol for 21days as sample E. Then the testing on each sample was conducted: the test for characteristics used ATR FTIR and SEM, while the antibacterial activity test used diffusion method. The results of SEM charaterization from all samples show that the size of pores is 10-20μm. ATR FTIR results of sample B, C, D and E show an increase in functional groups of apatite compared to sample A. Antibacterial testing on Staphylococcus aureus shows inhibition zone. Based on the calculation of colony number the highest number is sample A (±78x105 CFU/ml), and the least is sample E ±14x105 CFU/ml. The conclusion of this research is that the characteristic and antibacterial activity test of egg-shell membrane scaffold activated by carbonate apatite have bioactive and biodegradable material, and show antibacterial activities.
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Steiner A, Yuan L, Dai S. Preparation of Well-Dispersed Superparamagnetic Iron Oxide Nanoparticles in Aqueous
Solution with Biocompatible N-Succinyl-O-carboxymethylchitosan. Journal Phisico Chemistry. 2008; 112: 5432-5438.
Gaetti-Jardim Jr. E, Fardin AC, Gaetti-Jardim EC, de Castro AL, Schweitzer CM, Avila-Campos MJ. Microbiota Associated with Chronic Osteomyelitis of The jaw.Journal of Microbiology. 2010; 41:1056-1064.
Indrani DJ. Preparasi Nanokristalin Hidroksiapatit untuk Scaffold Rekayasa Jaringan Tulang.Jurnal Sains Material Indonesia. 2012; 4: 36-39.
Lee Seung-Mo, Grass G, Kim Gyeong-Man, Dresbach C, Zhang L, Goseleand U, Knez M. Low-temperature ZnO Anatomic Layer
Deposition on Biomembrane Supports: Flexible Photocatalytic ZnO Structures from Eggshell Membranes, Phys. Chem. Chem.
Phys. 2009; 11: 3608-3614.
Ikaningsih MA. Sintesis Membran Hidroksiapatit Menggunakan Egg-Shell Membrane sebagai Membrane Support dengan Metode Self Assembly. Banudung: Institut Teknologi Bandung.Tesis. 2011.
Shepherd JH, Shepherd DV, Best SM. Substituted Hydroxyapatites for Bone Repair, Journal Material Science: Material Medical. 2012; 23(10): 2335-2347.
Aruoma OI, Cuppett SL. Antioxidant Methodology: In Vivo and in vitro Concepts. USA: AOCS Press. 2000
Ohtsuki C. How to Prepare The Simulated Body Fluid (SBF) and Its Related Solutions [internet]. 2012. http://mswebs.naist.jp/LABs/
tanihara/ohtsuki/SBF/index.html. Diakses pada tanggal 27 Juli 2014.
Rohaeti E. Pengaruh Variasi Berat Molekul Poli Etilen Glikol terhadap Sifat Mekanik Poliuretan. Jurnal Matematika dan Sains.
; 8: 2.
Tan Q, Fabrication of Pourous Scaffold with a Cintrollable Microstructure and Mechanical Propertiesby Porogen Fusion Technique. International Journal Science. 2011; 12: 890-904
Meyer U, Meyer T, Handschel J, Wiesmann HP. Fundamentals of Tissue Engineering and Regenerative Medicine. Berlin: Springer-
Velag Berlin Heidelberg. 2009
Ardhananeswari D. Pengaruh Variasi Konsentrasi Kitosan terhadap Struktur Pori, Kekuatan Tekan dan Sifat Bioaktif pada Scaffold Hasil Sintesis. Purwokerto: Universitas Jenderal Soedirman. Skripsi. 2013.
Silalahi J, Yademetripermata, Putra EDL. Antibacterial Activity of Hydrolyzed Virgin Coconut Oil. Asian Journal Pharmacy Clinic
Research. 2014; 7; 90-94.
Venigalla BS, Prasad KL, Singh VT, Jyotsna SV, Ghatole K. Comparison of Antibacterial Efficacy of Calsium Hydroxide with and
without Addition of Herbal Medicament against Enterococcus Faecalis. 2014; 27: 38-41.
Tin-Oo MM, Gopalakrishnan V, Samsuddin AR, Al-Salihi KA, Shamsuria O. Antibacterial Property of Locally Produced Hydroxyapatite. Archives of Orofacial Sciences.2007; 2: 41-44.
Walton RE, Holton IF Jr., Michelich R. Calcium Hydroxide as an Intracanal Medication: Effect on Treatment Pain. Journal Endodontic. 2003; 29: 627-629.
Voet D, Voet JG.Biochemistry. 3 ed. New York: John Wiley & Sons, Inc. 2004.
DOI: https://doi.org/10.22146/majkedgiind.8993
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