SIDE BY SIDE CELL pump spectrophotometer computer Magnetic engine

SIDE BY SIDE CELL pump spectrophotometer computer Magnetic engine
surge chamber spectrophotometer computer Magnetic engine Donor Receiver Teflon adapter solid drug membrane stirrer Thermostatic unit jacket

2 - DRUG DIFFUSION MEASUREMENT
TEFLON ADAPTER DONOR CHAMBER RECEIVER CHAMBER THERMOSTATIC JACKET MAGNETIC STIRRERS

DRUG CONCENTRATION INCREASE
2 - MODELING DONOR RECEIVER POWDER DISSOLUTION DRUG PERMEATION jacket jacket DRUG CONCENTRATION INCREASE STIRRER

MATHEMATICALL MODELING

SOLID SURFACE VARIATION: MONODISPERSED PARTICLES SYSTEM
SOLID DRUG Particles initial surface area

FICK LAW 1st stagnant layer membrane 2nd stagnant layer

BOUNDARY CONDITIONS

SIMULATION: NO DISSOLUTION
Vr = Vd H = Stagnant layer thickness *hm Dm = 5.3*10-6 cm2/s *hm *hm D1 = 8.8*10-6 cm2/s *hm D1 = D2 Kp = 0.8 hm = 100 mm S = 10 cm2

SIMULATION: PROFILE CONCENTRATION
S = 10 cm2 Vr = Vd Dm = 5.3*10-6 cm2/s D1 = 8.8*10-6 cm2/s D1 = D2 Kp = 0.8 hm = 100 mm h1 = h2 = 0.5*hm

SIMULATION: DISSOLUTION
Vd = 100 cm3 Vr = 800 cm3 h1 = h2 = hm=100mm Kp = 0.8 Dm = 5.3*10-6 cm2/s D1 = 8.8*10-6 cm2/s D1 = D2 Kd = 10-6cm/s A = 5000 g/cm2 Cs = mg/cm3 S = 10 cm2

SIMULATION: STEADY STATE APPROXIMATION
Cd = Cd0 (constant drug concentration in the donor) Cr = 0 (sink conditions in the receiver) FICK eq. solution (only membrane) is: For t ∞ Membrane Permeability

For a trilaminate system the solution is:
For t ∞ For a trilaminate system the solution is:

SIMULATION: LINEAR PROFILES (THIN MEMBRANES)

SIMULATION: LINEAR PROFILES (THIN MEMBRANES)
EMPIRICAL APPROACH

3 - DRUG DIFFUSION COEFFICIENT MEASUREMENT REQUIRES THE DETERMINATION OF:
1 DRUG SOLUBILITY CS IN THE RELEASE ENVIRONMEMT 2 DRUG DIFFUSION COEFFICIENT DW IN THE RELEASE ENVIRONMEMT 3 DRUG POWDER DISSOLUTION CONSTANT KDP 4 DRUG PARTITION COEFFICIENT Kp (MEMBRANE/RELEASE ENVIRONMENT) 5 THICKNESS OF STAGNANT LAYERS SANDWICHING THE MEMBRANE

CASE STUDY: THEOPHYLLINE AND ALGINATES
THEOPHYLLINE MONOHYDRATED - Carlo Erba , Milano - (C7H8N4O2*H2O); MW 198, WHITE CRYSTALLINE POWDER - DENSITY 1.49 ± 01 g/ cm3 (Helium picnometer) - SURFACE AREA = 2941 cm2/g (mercury porosimeter) - U.V. PEAK ABSORBANCE 271 nm ALGINATE: - Protanal LF 20/ 60, Pronova Biopolymer, Drammen, Norway - THEY ARE EXTRACTED FROM BROWN SEAWEED - SEQUENCE OF GULURONATE AND MANNURONATE (LF 20/60: 70% GULURONATE) - THEY FORM STRONG PHYSICAL GELS IN PRESENCE OF DIVALENT IONS (TYPICALLY Ca++)

Ca++ EGG BOX CONFIGURATION Ca++

DW = (8.2 ± 0.6)*10-6 cm2/s (DISTILLED WATER 37°C)
DRUG SOLUBILITY CS IN THE RELEASE ENVIRONMEMT Cs = ± 104 mg/cm3 (DISTILLED WATER 37°C) 2 DRUG DIFFUSION COEFFICIENT DW IN THE RELEASE ENVIRONMEMT Kd = 0.62*DW2/3 w1/2 *n-1/6 DW = (8.2 ± 0.6)*10-6 cm2/s (DISTILLED WATER 37°C) IDR

3 DRUG POWDER DISSOLUTION CONSTANT KDP SEALING TAPE Donor jacket
Magnetic engine Donor solid drug jacket SEALING TAPE

t = 0 t > 0 DISSOLUTION Rp Rp0 - SINK CONDITIONS
- Np MONOSIZED SPHERICAL PARTICLES (Rp0 INITIAL RADIUS) t = 0 Rp0 t > 0 Rp DISSOLUTION PARTICLES SURFACE Md = drug amount in the donor (soluble) Mp = solid particle mass

A = Particles initial surface area
Mp0 = initial particles mass

KDP = 1.2*10-3 cm/s

4 24 h C∞ M0 = V*C∞+Vg* Cg∞ Kp = Cg∞ /C∞
DRUG PARTITION COEFFICIENT Kp (MEMBRANE/RELEASE ENVIRONMENT) Cylindrical gel V IDR Vg (DISTILLED WATER 37°C) C0 = 20 mg/cm3 24 h C∞ M0 = V*C∞+Vg* Cg∞ Kp = Cg∞ /C∞

MEMBRANE STAGNANT LAYER STAGNANT LAYER
5 THICKNESS OF STAGNANT LAYERS SANDWICHING THE MEMBRANE MEMBRANE Donor Receiver STAGNANT LAYER STAGNANT LAYER jacket jacket stirrer stirrer

Donor DRUG jacket stirrer hss = 60.7 mm STAGNANT LAYER

4 - RESULTS Vd = 100 cm3 Dm = (5.1± 0.64)*10-6 cm2/s Vr = 100 cm3
S = 10 cm2 %P = 4 - Model - Linear approximation Experimental data

T = 25°C 2% 4% 1%

T = 37°C 2% 4% 1%

MEMBRANES CHARACTERISTICS

DIFFUSION COEFFICIENTS

SIDE BY SIDE CELL pump spectrophotometer computer Magnetic engine

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