Pengaruh nano kitosan dan nano kalsium xylotrupes gideon terhadap demineralisasi gigi in vitro

DETAIL KOLEKSI

Pengaruh nano kitosan dan nano kalsium xylotrupes gideon terhadap demineralisasi gigi in vitro

3.0

Oleh : Vikri Sandya Dhika

Info Katalog

Nomor Panggil : 611.018 VIK p

Penerbit : FKG - Usakti

Kota Terbit : Jakarta

Tahun Terbit : 2017

Pembimbing 1 : Ade Komariah

Subyek : Dentistry;Histology

Kata Kunci : nano-chitosan, nano-calcium, demineralization, remineralization, acidic, carbonated beverages, tooth

Status Posting : Published

Status : Lengkap

File Repositori

No.	Nama File	Hal.
1.	2017_TA_KG_040001300192_Halaman-judul.pdf	24
2.	2017_TA_KG_040001300192_Lembar-pengesahan.pdf
3.	2017_TA_KG_040001300192_Bab-1-Pendahuluan.pdf	6
4.	2017_TA_KG_040001300192_Bab-2-Tinjauan-pustaka.pdf
5.	2017_TA_KG_040001300192_Bab-3-Kerangka-teori,-konsep,-dan-hipotesis.pdf
6.	2017_TA_KG_040001300192_Bab-4-Metode-penelitian.pdf
7.	2017_TA_KG_040001300192_Bab-5-Hasil-penelitian.pdf
8.	2017_TA_KG_040001300192_Bab-6-Pembahasan.pdf
9.	2017_TA_KG_040001300192_Bab-7-Kesimpulan-dan-saran.pdf
10.	2017_TA_KG_040001300192_Daftar-pustaka.pdf
11.	2017_TA_KG_040001300192_Lampiran.pdf

Abstrak
Abstract

K Kitosan merupakan biopolimer alam, berbentuk polisakarida linier yang tersusun atas B-(l-4)-Iinked Dglucosamine dan N-acetyl-D-glucosamine Banyak literatur menyatakan bahwa kitosan dapat menghambat laju pemecahan asam hidroksiapatit melalui adsorpsi cepat. Cross-linking kitosan dan saliva dengan adsorpsi fisik kitosan ke saliva mencegah erosi asam permukaan hidroksiapatit. Kalsium dapat meningkatkan remineralisasi pada gigi. Partikel nano diharapkan dapat meningkatkan adsorpsi pada email. Kitosan dan kalsium berasal dan cangkang hewan laut, jamur, dan serangga seperti kumbang. Salah satu kumbang yang merugikan manusia adalah kimibang tanduk Xylotrupes gideon. Ion-ion mineral menghilang pada email karena larut sehingga menyebabkan kerusakan permukaan email dan penurunan kekerasan gigi dapat disebabkan asam hasil akumulasi sisa makanan, minuman berkarbonat, dan aplikasi pemutih gigi Oleh karena itu, penelitian ini menyelidiki pengaruh nanokitosan dan nano kalsium terhadap demineralisasi dengan melakukan preireutment nano kitosan, nano kitosan kalsium pada simulasi demineralisasi asam, minuman berkarbonat. dan aplikasi pemutih gigi

C Chitosan is a natural biopolymer, linear polysaccharide formed composed of B-(l- 4)-linked D glucosamine and N-acetyl-D-glucosamine. Many literature suggests that chitosan can inhibit the hydroxyapatite acid dissolution rate through fast adsorption. Cross-linking of chitosan and saliva chitosan by chitosan physical adsorption into saliva prevent hydroxyapatite acid surface to erosion. Calcium may increase remineralization of the tooth. Nanoparticles are expected to increase adsorption on enamel. Chitosan and calcium derived from the shells of marine animals, fungi, and insects such as beetles. One of the harmful beetle to human is a fighting beetle Xylotrupes guieon. Mineral ions disappear in the enamel because it dissolves, causing damage to the enamel surface of teeth and reduced hardness of the teeth could be due to acid results from leftover food, carbonated beverages accumulation and tooth whitening applications. Therefore, this study investigated the influence of nano-chitosan and nano-calcium to demineralization by doing nano chitosan, nano chitosan calcium pretreatment in simulation of acid demineralization, carbonated beverages and tooth whitening applications.