Hydrothermal conversion of Malaysian coral to hydroxyapatite, a bone substitute synthesis, characterization and in-vitro solubility studies / Mimi Rahayu Samsudin
Tujuan kajian ini adalah untuk mensintesis hidroksiapatit, Ca1o(P04)s(OH)2
daripada batu karang Malaysia spesis Porites lutea, untuk digunakan sebagai tulang
gantian dalam perubatan dan pergigian. Batu karang telah dicirikan menggunakan
pembelauan sinar-x (XRD}, jelmaan fourier infra-merah (FT-IR), pendarfluor sinar-x
(XRF}, analisis permeteran gravity haba (TGA) dan mikroskop imbasan elektron
(SEM). Kajian pencirian melibatkan penentuan fasa batu karang, kandungan unsur,
morfologi dan kestabilan terma batu karang yang digunakan dalam kajian ini. Pencirian
telah dilakukan untuk memastikan batu karang yang digunakan dalam kajian ini adalah
bahan mentah yang sesuai. Keputusan pencirian menunjukkan bahawa batu karang
terhasil daripada 97.76% kalsium karbonat dalam fasa aragonit, manakala baki 2.24%
dimiliki oleh unsur-unsur minor dan surih. Analisis terma batu karang menunjukkan
bahawa kira-kira 44% pengurangan berat berlaku pada 791°C yang sama dengan
kalsium karbonat komersil. Batu karang spesis ini memiliki struktur berliang yang
tersaling hubung diseluruh rangka. Ia mempunyai saiz liang yang seragam iaitu kirakira
117 f..Ull. Batu karang telah be~aya ditukarkan kepada hidroksiapatit, melalui tindak
balas hidroterma. Tindak balas hidroterma telah dijalankan di dalam reaktor kelompok
bertekanan tinggi pada suhu di antara 150°C - 250°C dan tekanan 34 atmosfera, yang
cJijanakan oleh wap air. Banyak parameter yang telah dikaji untuk mencari keadaan
:>ptimum pembentukan hidroksiapatit, seperti suhu tindak balas (150°C- 250°C}, masa
;entuh (1 - 42 jam), jumlah DAP (pengurangan dan lebihan daripada nisbah molar
;toikiometri) dan nilai pH (pH 9 - 11) Jarutan awal. Pembentukan fasa tunggal
lidroksiapatit dengan kestabilan terma yang unggul dan kandungan karbonat yang
ninima telah diperolehi pada suhu 250°C, 6 jam masa sentuh, 30% lebihan DAP dan
pH 9 larutan awal. Pada keadaan ini, pembentukan fasa-fasa lain seperti kalsium
hidroksida dan kalsium karbonat tidak dapat dikesan. Kajian kestabilan in-vitro
hidroksiapatit telah dilakukan dalam penimbal air masin berfosfat (PBS) dan air
ternyah-ion pada 37°C untuk menentukan keterlarutannya dalam keadaan fisiologi.
Hidroksiapatit yang dihasilkan pada keadaan optimum adalah yang paling stabil
apabila direndam dalam kedua-dua larutan selepas 55 jam.
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The purpose of this study is to synthesize hydroxyapatite, Ca1o(P04)s(OH)z from
Malaysian coral of species Porites Jutea, to be used as bone substitute in medicine and
dentistry. Coral was characterized using x-ray diffraction (XRD}, fourier transform infrared
(FT-IR), x-ray fluorescence (XRF), thermogravimetric analysis (TGA) and scanning
electron microscope (SEM). The characterization study involves the determination of
coral phases, element content, morphology and thermal stability of coral used in this
study. The characterization was carried out in order to ensure that the coral used in this
study was suitable raw material. Characterization results revealed that coral was made
up of 97.76% calcium carbonate 1n aragonite phase, while the remaining 2.24%
belongs to minor and traces element. Thermal analysis of coral showed that about 44%
weight loss occurred at 791 oc which was identical to that of commercial calcium
carbonate. Coral of this species possessed porous structure with interconnectivity
throughout the skeletal. It has a consistent pore size of around 117,...m. Coral was
successfully converted into hydroxyapatite, through hydrothermal reaction.
Hydrothermal reaction was carried out in a high-pressure batch reactor at temperature
range between 150°C - 250°C and pressure of 34 atmospheres, generated by water
vapor. Many parameters have been studied in order to find the optimum conditions of
hydroxyapatite formation, such as reaction temperature (150°C- 250°C), contact time
(1 - 42 hours}, amount of DAP (less and excess than stoichiometric molar ratio) and
pH value (pH 9 -11) of initial solution. The formation of single phase hydroxyapatite
with excellent thermal stability and minimal carbonate content was obtained at 250°C, 6
hours of contact time, 30% excess of DAP and at pH 9 of the initial solution. At this
operating condition, the formation of other phases such as calcium hydroxide and
calcium carbonate were not detected. The in-vitro stability studies of hydroxyapatite
were performed in phosphate buffer saline (PBS) and de-ionized water at 37°C to
determine its solubility in physiological environment. Hydroxyapatite synthesized at
optimum conditions was the most stable when immersed in both solutions after 55
hours.
Hydrothermal conversion of Malaysian coral to hydroxyapatite, a bone substitute synthesis, characterization and in-vitro solubility studies / Mimi Rahayu Samsudin
Hydrothermal conversion of Malaysian coral to hydroxyapatite, a bone substitute synthesis, characterization and in-vitro solubility studies_Mimi Rahayu Samsudin_K4_2005_MYMY