PROFILING THE BINDING AND RELEASE OF IMMOBILIZED INSULIN ON THE BIOSILICA OF CYCLOTELLA STRIATA FROM TANJUNG BIDADARI INDONESIA
Cyclotella striata TBI, a marine diatom, possesses a porous silica shell. This porous biosilica has potential as a drug delivery matrix for medications, such as Indomethacin and Gentamicin. However, research on biosilica as a drug delivery system has primarily focused on simple organic compoun...
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| Format: | Final Project |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/87416 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Cyclotella striata TBI, a marine diatom, possesses a porous silica shell. This porous biosilica
has potential as a drug delivery matrix for medications, such as Indomethacin and Gentamicin.
However, research on biosilica as a drug delivery system has primarily focused on simple
organic compounds, leaving more complex drugs, like peptide insulin, unexplored. Insulin, a
hormone regulating blood sugar levels, is typically administered subcutaneously to diabetic
patients. This method can lead to adverse effects like hypoglycemia. Consequently, alternative
delivery methods, such as oral administration, are being explored. A significant challenge in
oral insulin delivery is developing a system that preserves insulin's bioavailability within the
digestive tract. This study aimed to evaluate the adsorption and release capabilities of
Cyclotella striata TBI biosilica for insulin in simulated intestinal fluid. The research steps
include culturing Cyclotella striata TBI, isolating its biosilica, and investigating insulin
binding using adsorption and incipient wetness impregnation methods. The release of insulin
in simulated intestinal fluid was also studied. Biosilica was characterized using Fourier
Transform Infrared Spectroscopy (FTIR), X-Ray Fluorescence (XRF), and Scanning Electron
Microscopy (SEM). The binding and release profiles of insulin were determined using UV
Vis, Circular Dichroism (CD), and fluorescence spectroscopy. Results indicated a biomass
productivity of 194.42 mg L?¹ day?¹ for Cyclotella striata and a biosilica productivity of 2.82
mg L?¹ day?¹. The XRF characterization result confirmed a 100% SiO? content in the biosilica
based on XRF analysis. In addition, the FTIR spectrum demonstrated characteristic Si-O-Si
peaks at 462, 808, and 1082 cm?¹. Insulin adsorption onto biosilica followed the Sips isotherm
model with a maximum adsorption capacity of 0.103 mg insulin g?¹ SiO?. The release of insulin
in simulated intestinal fluid adhered to a pseudo-second-order kinetic model. The desorbed
insulin exhibited an emission peak at 562 nm, suggesting the formation of insulin fibrils. CD
spectra further supported this showing an increased percentage of beta-sheet secondary
structures in the desorbed insulin. |
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