seminar presentation
TRANSCRIPT
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Nicotine transdermal patches using polymeric natural rubber as the
matrix controlling system : Effect of polymer and plasticizer blends
Wiwat Pichayakorn, Jirapornchai Suksaeree, Prapaporn Boonme, Thanaporn Amnuaikit, Wirach Taweepreda, Garnpimol C. Ritthidej
Department of Pharmaceutical Technology, Faculty of Pharmaceutical Science, Prince of Songkhla University,
Songkhla 90112, Thailand
Department of Material Science and Technology, Faculty of Science, Prince of Songkhla University, Songkhla 90112, Thailand
Department of Pharmaceutical and industrial Pharmacy, Faculty of Pharmaceutical Science, Chulalongkorn University, Bangkok 10330, Thailand
Present byMiss Nada Khattiyos 09520063
Faculty of Engineering and Industrial Technology
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Ou
tlin
eIntroduction
Objective
Materials and Methods
Results and Discussion
Conclusion
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Introduction
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Objective
This research is focused on the use of
deproteinized natural rubber latex (DNRL) as a major polymer for preparing NCT transdermal patches.
Safe polymer blends, i.e. sodium carboxymethyl cellulose (SCMC), methyl cellulose (MC), or polyvinyl alcohol (PVA) were used to improve the adhesive properties. Either glycerin (GLY) or dibutylphthalate (DBP) is added as a plasticizer to provide satisfactory patches for
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Materials
Deproteinized Natural Rubber Latex
Nicotine (>99%)
Sodium Carboxymethyl Cellulose (SCMC)
Methyl Cellulose (MC)
Polyvinyl alcohol (PVA)
Glycerin (GLY)
Dibutylphathalate (DBP) 5
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Preparation of patches+ DNRL
At 70±2°C for 4 hours.
Store at 5°C overnight.
++ DNRL + DBP
+ DNRL + GLY
Nicotine
SCMS MC PVA
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Mechanical Properties
Young’s modulus
Ultimate tensile strength
Elongation at break
peel strength (ASTM D1876)
tack adhesion (ASTM D6195)
The adhesiveness.
The tensile strength
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Moister uptake
Silica gel
saturated NaCl, 75%RH.
weigh specimens every week until their weight
are constantCalculate
%moisture uptake.
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swelling ratio and erosion studies
at 60±2°C overnight
At room temperature 48 hours
at 60±2°C overnight
Calculate %swelling ratio and %erosion.
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Compatibility
Fourier Transform Infrared (FT-IR) Spectroscopy.
Differntial Scanning Calorimetry (DSC).
X-ray Diffractometry (XRD).
Microscopic morphology
Scanning Electron Microscope (SEM) -- the surface and cross section morphologies of the patches.
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Porosity Determination
• After the membrane is equilibrated– Calculate %porosity
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Dilute with distilled water.
Determination of the NCT content
5 mL of distilled water
sonication for 30 minCollect 0.5 mL
Measure spectrometry
Compare with the validated calibration curve
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An in vitro NCT release study
The modified Franz diffusion cell
Fill 12 mL PBS, pH 7.4
Stir constantly 100 rpm , at 37±0.5°C
Withdraw 1 mL
The NCT concentrations -- HPLC
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Newborn pig skin preparation
Pig skin
Stored at 4°C overnight.
Soak in PBS
Fill 12 mL PBS, pH 7.4
Stir constantly 600 rpm , at 37±0.5°C
Withdraw 1 mL
The NCT concentrations -- HPLC
An in vitro skin permeation study
The modified Franz diffusion cell 14
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Stability study
Store DNRL blend patches in a well closed container
4 °C
Ambient temperature
45 °C
5 mL of distilled water
UV analysis 15
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Results and Discussion
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Table 1The mechanical properties, moisture uptake, and swelling ratio of DNRL and its blended patches.
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Table 1The mechanical properties, moisture uptake, and swelling ratio of DNRL and its blended patches(Cont.).
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Figure1. FT-IR spectra of DNRL, PVA, NCT, DBP, GLY, and their blended patches.
C=H
-OH
-OH
-OH
C=C
C=O C=C
C=N C=H pyridine
C=O
C-O
Aromatic ring bending band
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Figure2. DSC thermograms of DNRL, PVA, NCT, and their blended patches
-88.206°C
-64.794°C
-64.937°C
-70.896°C
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Figure3. XRD diffractograms of DNRL, PVA, NCT, and their blended patches
19.69°
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Figure4. SEM micrographs of (A)DNRL, (B)DNRL/PVA/DBP, and (C)DNRL/PVA/GLY patches (a:surface of patches, b and c: cross section of a before and after the release study, respectively) 22
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Figure5. (A)Water flux (B)percentage of porosity of various blended nicotine patches (n=3).
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Figure5. (A)Water flux (B)percentage of porosity of various blended nicotine patches (n=3).
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Figure6. NCT release from DNRL alone and (A)DNRL/SCMC, (B)DNRL/MC and (C)DNRL/PVA patches without and with DBP or GLY compared with Nicotinell TTS-20 (n=6)
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Table2. The entrapment efficiency and in vitro release kinetics of NCT from DNRL/polymer blended patches
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Table2. The entrapment efficiency and in vitro release kinetics of NCT from DNRL/polymer blended patches(Cont.)
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Table3. The in vitro skin permeation kinetics of NCT from DNRL/polymer blended patches.
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Table3. The in vitro skin permeation kinetics of NCT from DNRL/polymer blended patches(Cont.).
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Figure7. NCT permeation from DNRL/PVA patches with DBP or GLY compared with Nicotinell TTS-20(n=3) 30
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Figure8. The percentage of NCT remaining in the DNRL/PVA matrix patches after storage in different conditions(n=6)
4°C 45°CAmbient Temperature
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Conclusions
• DNRL blended with PVA provided the best patch for delivery of the NCT to the skin.
• Moreover, the in vitro release and skin permeation study of the release of NCT are mainly affected by hydrophilicilty of the patches.
• The polymeric patches composed of DNRL/PVA blends with either DBP or GLY are siutable for developing NCT
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Thank you for your attention