Hydroxyapatite [Ca10(PO)4(OH)2] is a biomaterial used in bone implants to repair damaged tissue bones. Hydroxyapatite has biocompatible and osteoconductive properties. Hydroxyapatite synthesis is carried out by reacting Ca and P with a mole ratio of 1,67. One source of calcium precursors is conch shell with a CaCO3 content of 48,02%. The addition of porogen breadfruit starch serves to form pores so that it can accelerate the process of nutrient infiltration in bone. The study began with the calcination of conch shells at 900oC for 4 hours, to obtain calcium oxide (CaO) compounds. Calcium and phosphate reactions were carried out at 60oC and the stirring time was 3 hours. The hydroxyapatite produced was sintered at 900oC for 4 hours and analyzed using FTIR, AAS, UV-VIS, SEM, XRD, and compressive strength. The analysis solid and porous hydroxyapatite showed a comparison of calcium and phosphorus respectively 1.677 and 1.673, so that hydroxyapatite was close to the hydroxyapatite standard. Hydroxyapatite dense has a particle size of 0.396 μm, while porous hydroxyapatite has a particle size of 0.9135 μm and a pore of 0.655 μm. Hydroxyapatite dense and porous compressive strength are 19.61 MPa and 9,807 MPa respectively, so porous hydroxyapatite is more effective in nutrient infiltration to repair bone damage.

Biomaterial;Buah Sukun;Hidroksiapatit;Pori;Cangkang

Al-Sokanee ZN, AAK Toabi, MJ Al-Assadi, EA Al-Assadi. 2009, The drug release study of cefi riaxone from porous hydroxyapatite scaff olds, AAPS pharmacy Science Technology. Vol 10(5): 772-779.

Athawai, Aldhi. 2013, Sintesis Hidroksiapatit Berpori dari Cangkang Keong Sawah (Bellamya Javanica) dengan Penambahan Pati Singkong sebagai Porogen. Bogor : FMIPA Institut Pertanian Bogor.

Cahyati, Cucu, 2014, Observasi Morfologi dan Komposisi Hidroksiapatit yang Terbuat dari Cangkang Telur Ayam Kampung dan Ayam Ras. Bogor: FMIPA Institut Pertanian Bogor. Dewi, Setia Utami, 2009, Pembuatan Komposit Kalsium Fosfat – Kitosan dengan Metode Sonikasi, Tesis Sekolah Pascasarjana Institut Pertanian Bogor.

Fitri, Desy Kusuma, 2014, Sintesis Hidroksiapatit dari Cangkang Keong Sawah (Bellamya javanica) dengan Metode Basaha dan Modifikasi dengan Kitosan.Institut Pertanian Bogor, Bogor.

Hong Sun Kim, Jong Tae Kim, Young Jin Jung, 2007, Preparation of a porous chitosan /fibrola-hydroxyapatite composite matrix for tissue engineering, Macromolecular Research 15(1): 65- 73.

Pudjiastuti, Lestari, 2015, Sintesis Hidroksiapatit dari Cangkang Keong Sawah (Bellamya javanica) dengan Metode Simultan Presipitasi Pengadukan Berganda.Bogor : FMIPA Institut Pertanian Bogor.

Purwasasmita, Bambang S., Gultom, dan Ramous S. Sintesis dan Karakterisasi Serbuk Hidroksiapatit Skala Sub Mikron Menggunakan Metode Presipitasi, Jurnal Bionatura, 2008.10 (2): 155-167.

Romawarni, A. 2011, Sintesis dan Uji In Vitro Hidroksiapatit Berporogen Kitosan Dengan Metode Sol Gel. Skripsi. Institut Pertanian Bogor, BogorSadat-shojai M, Khorasani MT, Dinpanah-Khosdagri E, Jamsidi A. Synthesis methods for nanosized hydroxyapatite with diverse structures. Acta Biomer 2013; 9(8):7591-621.

Sadjadi MS, Meskinfam M, Jazdarreh H. 2010. Hydroxyapatite-starch nano biocomposites synthesis and characterization. Int Nano Dimens. 1(1):57-63.

Siregar R., Endang Sulistyawati, 2018. Sintesis Biomaterial Hidroksiapatit Porous dengan Prekursor Cangkang Keong Mas dan Porogen Pati Sukun (Artocarpusaltilis), Prosiding Seminar Nasional Teknik Kimia Eco-SMART, UNS Surakarta

Sopyan I, Mel M, Ramesh S, Khalid KA., 2007, Porous hidroxyapatite for artificial bone application, Science and Technology of Advanced Materials 8:116-123.

Widyawan, Fajar dkk., 2017, Sintesis Biomaterial Hidroksiapatit dense dan Porous Menggunakan Metode Sol Gel.. Jurusan Teknik kimia Universitas Pembangunan Naisonal “Veteran”. Yogyakarta.