Factorial design-based development of measlamine microspheres for colonic delivery

Figures & data

Figure 1. SEM photomicrographs of (A) uncoated microspheres (B) uncoated microspheres in groups (C) enteric-coated microspheres (D) T.S. of enteric-coated microspheres (E) enteric-coated micerospheres after dissolution.

Table 2. Design of experiment

Formulation Code	Drug: Polymer	Surfactant	Stirring Speed	Calcium ion Concentration
F1	-1.00	1.00	1.00	1.00
F2	-1.00	-1.00	1.00	1.00
F3	1.00	1.00	1.00	1.00
F4	-1.00	-1.00	-1.00	-1.00
F5	-1.00	-1.00	1.00	-1.00
F6	-1.00	-1.00	-1.00	1.00
F7	1.00	1.00	-1.00	1.00
F8	-1.00	1.00	-1.00	1.00
F9	-1.00	1.00	1.00	-1.00
F10	1.00	-1.00	1.00	-1.00
F11	1.00	1.00	-1.00	-1.00
F12	1.00	-1.00	-1.00	-1.00
F13	1.00	-1.00	-1.00	1.00
F14	1.00	1.00	1.00	-1.00
F15	-1.00	1.00	-1.00	-1.00
F16	1.00	-1.00	1.00	1.00

Table 3. Characterization of Microspheres

Formulation code	Particles Size (µm)	% Entrapment efficiency	% Water content	% Yield	Overall desirabiliy	% Drug release (8hr)
F1	390.3 ± 2.31	74.2 ± 3.41	62.5 ± 3.12	45.7 ± 4.23	0.000	72.67 ± 1.23
F2	285 ± 2.82	72.5 ± 2.75	58.6 ± 0.23	56.4 ± 4.92	0.605	59.16 ± 0.66
F3	435.2 ± 1.23	86.1 ± 2.92	71.2 ± 0.64	78.6 ± 3.28	0.000	61.25 ± 1.33
F4	130.2 ± 1.62	45.6 ± 3.45	52.4 ± 1.34	43.4 ± 1.49	0.000	65.63 ± 1.57
F5	112.3 ± 0.89	56.4 ± 2.81	49.7 ± 2.66	38.9 ± 4.22	0.000	69.46 ± 0.89
F6	160.3 ± 1.67	53.6 ± 1.34	62.7 ± 3.77	50.4 ± 3.22	0.000	74.01 ± 0.34
F7	223.8 ± 1.82	68.8 ± 2.23	68.5 ± 2.11	60.4 ± 1.53	0.600	68.34 ± 1.04
F8	356.2 ± 0.98	61.2 ± 1.42	54.5 ± 1.75	53.2 ± 2.13	0.000	66.34 ± 1.2
F9	284.2 ± 2.56	66.4 ± 0.64	56.9 ± 3.39	48.9 ± 2.67	0.768	73.70 ± 1.22
F10	250.5 ± 2.34	58.6 ± 2.56	53.2 ± 2.34	51.4 ± 4.67	0.410	68.42 ± 0.453
F11	345.5 ± 1.15	66.8 ± 3.90	58.8 ± 2.21	43.1 ± 4.24	0.000	73.04 ± 0.921
F12	185.5 ± 2.13	54.5 ± 2.31	60.2 ± 4.36	58.5 ± 3.81	0.000	64.14 ± 1.42
F13	230.5 ± 1.92	58.3 ± 2.11	52.1 ± 1.43	48.6 ± 3.67	0.265	61.28 ± 1.75
F14	226 ± 0.86	71.2 ± 0.34	64.9 ± 2.22	70.1 ± 1.78	0.825	78.92 ± 0.97
F15	280.5 ± 2.45	52.4 ± 2.33	48.3 ± 3.13	32.4 ± 3.46	0.000	57.38 ± 0.67
F16	340 ± 3.21	69.4 ± 1.55	61.8 ± 2.26	55.9 ± 2.61	0.000	62.81 ± 1.32

Figure 2. 3D graph of effect of drug polymer ratio and surfactant concentration on % yield.

Figure 3. Interaction graph between drug polymer ratio and surfactant concentration.

Figure 4. 3D graph of effect of drug: polymer ratio, stirring speed and surfactant on particle size

Figure 5. In vitro drug release profile of F14 formulation.

Table 4. Kinetic modeling of drug release of F14 formulation

Curve fitting with model/equation	Coefficients of determinations
	r^2	K
Zero order	0.9683	97.351
	73.420	(Passes)
1st order	0.9522	-1.6929
	10.596	(Passes)
Matrix	0.9983	101.3972
	75.470	(Passes)
Peppas	0.9741	0.6783
	11.166	(Passes)
Hixson-Crowell.	0.9808	-0.4716
	15.076	(Passes)

Table1. Independent variables and levels ⁽¹⁶⁾

Independent Variable	Level
	Low (-1)	High (+1)
A (drug: polymer)	1:3	1:6
B (surfactant %w/v)	0.75	1.50
C (stirring Speed, rpm)	1000	2000
D (calcium conc. %w/v)	10	20