Development of a biocompatible film enabling stimuli-responsive bioactive agent delivery has a high practical value for food and pharmaceutical applications. In this study, we generate a composite film, using the solution casting approach, from carboxymethyl chitosan (CMC) and magnetite nanoparticles (MNPs). The structures and properties of CMC, MNPs, and the generated film are characterized by using various characterization techniques, including Fourier-transform infrared spectroscopy, differential scanning calorimetry, thermogravimetric analysis, x-ray diffraction spectroscopy, and scanning electron microscopy. With the use of doxorubicin (DOX) as a model agent, the percentage of cumulative release of DOX from the agent-loaded film is found to be increased from 55% to 62% when the pH of the surrounding medium changes from 7.4 to 5.0. Our film warrants further development and optimization as a carrier to mediate pH-responsive bioactive agent release.

1.
J.
Chi
,
Z.
Jiang
,
J.
Qiao
,
Y.
Peng
,
W.
Liu
, and
B.
Han
,
Carbohydr. Polym.
214
,
80
(
2019
).
2.
D.
Zhao
,
J.
Huang
,
S.
Hu
,
J.
Mao
, and
L.
Mei
,
Carbohydr. Polym.
85
,
832
(
2011
).
3.
L.
Upadhyaya
,
J.
Singh
,
V.
Agarwal
, and
R. P.
Tewari
,
Carbohydr. Polym.
91
,
452
(
2013
).
4.
L. C.
Wang
,
X. G.
Chen
,
D. Y.
Zhong
, and
Q. C.
Xu
,
J. Mater. Sci. Mater. Med.
18
,
1125
(
2007
).
5.
R.
Suriyatem
,
R. A.
Auras
,
C.
Rachtanapun
, and
P.
Rachtanapun
,
Polymers
10
,
954
(
2018
).
6.
A.
Sirivat
and
N.
Paradee
,
Mater. Des.
181
,
107942
(
2019
).
7.
J.
Chomoucka
,
J.
Drbohlavova
,
D.
Huska
,
V.
Adam
,
R.
Kizek
, and
J.
Hubalek
,
Pharmacol. Res.
62
,
144
(
2010
).
8.
T.
Vangijzegem
,
D.
Stanicki
, and
S.
Laurent
,
Expert Opin. Drug Delivery
16
,
69
(
2019
).
9.
A.
Bhattacharjee
,
S.
Gumma
, and
M. K.
Purkait
,
Microporous Mesoporous Mater.
259
,
203
(
2018
).
10.
A.
Rescek
,
Z.
Katancic
,
L. K.
Krehula
,
M.
Scetar
,
Z.
Hrnjak-Murgic
, and
K.
Galic
,
Adv. Polym. Technol.
37
,
837
842
(
2018
).
11.
A.
Rescek
,
M.
Scetar
,
Z.
Hrnjak-Murgic
,
N.
Dimitrov
, and
K.
Galic
,
Polym. Plast. Technol. Eng.
55
,
1450
(
2016
).
12.
S.
Nigam
,
K. C.
Barick
, and
D.
Bahadur
,
J. Magn. Magn. Mater.
323
,
237
(
2011
).
13.
A.
Amani
,
J. M.
Begdelo
,
H.
Yaghoubi
, and
S.
Motallebinia
,
J. Drug Delivery Sci. Technol.
49
,
534
(
2019
).
14.
T.
Sağir
,
M.
Huysal
,
Z.
Durmus
,
B. Z.
Kurt
,
M.
Senel
, and
S.
Isık
,
Biomed. Pharmacother.
77
,
182
(
2016
).
15.
R.
Farazi
,
M. R.
Vaezi
,
M. J.
Molaei
,
M.
Saeidifar
, and
A. A.
Behnam-Ghader
,
Mater. Today Proc.
5
,
15726
(
2018
).
16.
A.
Anitha
,
S.
Maya
,
N.
Deepa
,
K. P.
Chennazhi
,
S. V.
Nair
, and
R.
Jayakumar
,
J. Biomater. Sci. Polym. Ed.
23
,
1381
(
2012
).
17.
A.
Abbaszad Rafi
and
M.
Mahkam
,
Int. J. Polym. Mater. Polym. Biomater.
64
,
214
(
2015
).
18.
D.
Mukherjee
and
S.
Bharath
,
ISRN Pharm.
2013
,
604690
(
2013
).
19.
R.
Katz-Brull
,
R.
Margalit
,
P.
Bendel
, and
H.
Degani
,
Magn. Reson. Mater. Phys.
6
,
44
(
1998
).
20.
R.
Gouda
,
H.
Baishya
, and
Z.
Qing
,
J. Dev. Drugs
6
,
1000171
(
2017
).
21.
S.
Dash
,
P. N.
Murthy
,
L.
Nath
, and
P.
Chowdhury
,
Acta Pol. Pharm.
67
,
217
(
2010
).
22.
P.
Costa
and
J. M.
Sousa Lobo
,
Eur. J. Pharm. Sci.
13
,
123
(
2001
).
23.
X.-G.
Chen
and
H.-J.
Park
,
Carbohydr. Polym.
53
,
355
(
2003
).
24.
N.
Lori
,
P.
Eydokia
,
Z.
Vassilis
,
P.
Anna
,
H.
Eleana
, and
N. P.
Christos
,
Curr. Nanosci.
12
,
455
(
2016
).
25.
P.
Kanmani
and
J.-W.
Rhim
,
Food Chem.
148
,
162
(
2014
).
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