PREPARATION AND CHARACTERIZATION OF STARCHâ?TOCOPHEROLS INCLUSION COMPLEXES AS SLOWLY DIGESTIBLE STARCH
Diabetes is a metabolic disease caused by the body’s inability to control blood sugar. Carbohydrates are the main component of food that is digested into a source of energy and glucose in the body. The control of blood sugar in diabetes patient can be achieved by consuming slowly digestible st...
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| Format: | Theses |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/75450 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Diabetes is a metabolic disease caused by the body’s inability to control blood
sugar. Carbohydrates are the main component of food that is digested into a source
of energy and glucose in the body. The control of blood sugar in diabetes patient
can be achieved by consuming slowly digestible starch. Slowly digestible starch can
be formed drom inclusion complex compound consisting of starch as host molecule
and other substances as guest molecules. In this study, the lelected guest molecule
is ?-tocopherol because it is hydrophobic and has bioactivity, such as anti-aging,
anti-tumor, free radical scavenging, and cardiovascular disease prevention. In this
study, the formed inclusion complex is expected to inhibit starch digestion while
also having the bioactivity of ?-tocopherol. The research steps include isolation of
cassava, complex formation, and enzymatic degradation testing of starch and
starch complex. The starch –?-tocopherol complex is formed using conventional
heating and microwave methods. The complex was prepared using the conventional
method bya dissolving starch (6% w/v aqua dm) in aqua dm for 30 minutes at 90
?, then adding ?-tocopherol and complexing it for 2 hours. While making the
complex using a microwave by dissolving starch (6% w/v aqua dm) in aqua dm for
13 minutes with power 200 W, then adding ?-tocopherol and complexing it for 1
hour.Optimization of starch–?-tocopherol complex by varying the content of ?tocopherol to the starch weight in complex formation (1, 3, 5, 7, 10, 15, and 20%).
Starch–?-tocopherol complex tested for empty amylose channels and characterized
using UV-VIS solution, FTIR, XRD, and PSA. Enzymatic degradation testing is
conducted with various incubation times (3, 15, 30, 60, 120, 180, and 240 minutes).
The isolates cassava starch obtained 450,3 g (15% starch) with moisture content
7,6% and an amylose content 15,55% which has same characteristics as
conventional starch by spectrum FTIR exhibit peak at 3263 cm-1
, 2918 cm-1, 1635
cm-1
, 1418 cm-1
, 1150 cm-1 and 1000 cm-1
.The inclusion complexe of starch–?tocopherol is successfully formed using both conventional heating and microwave
methods. Based on iodine test, ?-tocopherol can reduces the amount of empty
amylose channels to 50-20%. The FTIR spectra of the starch–?-tocopherol complex
show the same profile as the starch spectra, indicating that ?-tocopherol enter the
amylose channels of starch. The X-ray diffractogram of the complex exhibit a peak
at 2? = 20°. The formation of the starch –?-tocopherol complex is further confirmed
iv
by UV spectroscopy, which show new peak at 296 nm. The difference properties
between the complex formed by conventional heating and microwave methods is
evident from the particle size analyzers result and morphology of complex from
SEM. The starch –?-tocopherol complex formed by microwave method has smaller
particle size distribution. The result of complex morphological characterization
show that starch–?-tocopherol complex using conventional method has lamellar
and tube, while the starch–?-tocopherol using the microwave method has lamellar
and spherical shape. The starch–?-tocopherol complex formed by both
conventional heating and microwave methods can decrease the starch digestion
from 12,21%-39,30% and 8,26-35,60%. This indicate that the starch –?-tocopherol
complex has been successfully formed using both methods and has the potential to
be slowly digestible starch. |
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