DEVELOPMENT OF NANOSTRUCTURED LIPID CARRIER CINCHONINE DELIVERY SYSTEM FOR ACCELERATING HAIR GROWTH
Background: Androgenetic alopecia (androgenic alopecia) is a disturbance of the hair growth and regeneration cycle due to the sensitivity of the hair follicle and dermal papilla to high levels of dihydrotestosterone. Cinchonine has activity to accelerate hair growth through telangiectasia mech...
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| Format: | Dissertations |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/75709 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Background: Androgenetic alopecia (androgenic alopecia) is a disturbance of the
hair growth and regeneration cycle due to the sensitivity of the hair follicle and
dermal papilla to high levels of dihydrotestosterone. Cinchonine has activity to
accelerate hair growth through telangiectasia mechanisms and activation of the
wnt/?-catenin gene. In order to optimize its activity, cinchonine must be able to
penetrate and reach the site of action of the hair follicle and dermal papilla.
Cinchonine is practically insoluble in water, resulting in low penetration into the
hair follicle and dermal papilla. The low cinchonine penetration is exacerbated by
the presence of a hair follicle barrier. To overcome the characteristics of
cinchonine and hair follicle barrier, we need a delivery system that can increase
the penetration of cinchonine, namely Nanostructured Lipid Carriers (NLC).
Objective: To develop an NLC delivery system to increase cinchonine penetration
into hair follicles and dermal papillae. Methodology: The study began with the
confirmation and validation of the HPLC method for determining cinchonine levels
in the NLC delivery system development process, which included maximum
wavelength, linearity (r2
), sensitivity (LoD and LoQ), precision (intraday and inter
days), accuracy, and selectivity. Formula development begins with lipid screening,
optimizing the ratio of lipids, surfactants and cosurfactants. NLC was prepared
using microemulsification and ultrasonification methods with an effective dose of
0.18% cinchonine. Characterization of optimum NLC-CN was carried out by
determining particle size, polydispersity index (PDI), zeta potential using PSA,
particle morphology using TEM, melting point analysis using DSC, entrapment
efficiency and cinchonine release test using HPLC. The main parameter of the
optimum NLC-cinchonine (NLC-CN) has a particle size in the range of 300 – 640
nm with the smallest PDI. After that, it was continued with optimization of
preservatives for the manufacture of NLC-CN serum. NLC-CN serum were
analyzed for particle size, PDI, viscosity, pH, and entrapment efficiency. After that,
it was continued with stability tests at 3 storage conditions (40oC, room temperature
and 4oC). In vitro analysis was carried out by determining localization of NLC with
the nile red marker compound and male Swiss Webster mice using a Confocal Laser
Scanning Microscope and diffusion using Franz Diffusion Cell with the skin of male
Swiss Webster mice in active and inactive follicle conditions. In vivo analysis was
carried out by determining skin and eye irritation tests using male New Zealand
rabbits. Parameters observed in the dermal irritation test were erythema and
edema indices, while parameters observed in the eye irritation test were the degree
of irritation/corrosion of the conjunctiva, cornea, and iris. The activity test for
accelerating hair growth was carried out using male Swiss Webster mice strain
(androgenetic alopecia model was induced using testosterone, subcutaneously
injected at a dose of 10 mg/kg BW/day for 21 days) with parameters observing
baldness (excessive loss), hair texture become shorter and thinner. The data
obtained were analyzed using statistics including diffusion data and the effect of
NLC-CN serum on hair length. Results: Cinchonine has a maximum wavelength of
289 nm; with the validation parameters of the analytical method including linearity
with a correlation coefficient (r2
) of 0.9998; LoD of 1.2016 µg/mL; LoQ of 4.0054
µg/mL; high precision with SD and KV values of < 2%; high accuracy with percent
recovery of 99 – 101% and high selectivity with RF of 4±0.3 minutes and TF of 1.
Optimum NLC-CN formula with composition (in % w/v) cinchonine 0.18; stearic
acid 1,8; oleic acid 0.2; tween 80 3.5; glycerin 2.5; aquadion up to 100. The
optimum NLC-CN has characteristics including a particle size of 567.6 ± 15.4 nm;
PDI of 0.343 ± 0.045; zeta potential of -36.70 mV; the morphology of the NLC-CN
particles is spherical with a size of 500 nm; melting point of 61.50oC; entrapment
efficiency of 94.85 ± 1.92%; with a release of 10.20 ± 0.49% at 180 minutes.
Optimum NLC-CN serum was obtained by adding 0.2% DMDM hydantoin. The
optimum NLC-CN serum has characteristics including a particle size of 575.6 ±
23.36 nm; PDI of 0.289 ± 0.011; viscosity of 1.22 ± 0.04 cP; and entrapment
efficiency of 92.55 ± 6.19%. NLC-CN serum is stable under storage conditions in
refrigerator (4
oC) for 12 months. NLC-CN serum was able to localize in hair
follicles and was able to increase cinchonine penetration (p<0.05) from the
diffusion data of serum NLC-CN opened hair follicles at 8 hours (17.64 ± 1.35
mg/cm2
) higher than serum follicular NLC-CN was closed hair follicles (11.33 ±
0.29 mg/cm2
) and follicular CN solution was opened hair follicles (4.81 ± 1.18
mg/cm2
). In vivo analysis for skin and eye irritation tests showed that NLC-CN
serum was non-irritant with a primary irritation index of 0.0. The hair growth
accelerating activity test showed a significantly different increase in hair length
(p<0.5) on day 21 in the NLC-CN serum test group of 0.69 ± 0.03 cm compared to
the positive control of 0.34 ± 0 .01 cm (increased by 106.75%). Skin histology
showed that at each point of organoleptic observation there was an increase in the
size and number of hair follicles, and also dermal papillae. Conclusion:
Cinchonine can be formulated in NLC delivery system. The system is able to
accommodate an effective dose of cinchonine (0.18%), increase the stability, skin
penetration, and hair growth accelerating activity with a good safety profile.
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