Successful co-encapsulation of benzoyl peroxide and chloramphenicol in liposomes by a novel manufacturing method - dual asymmetric centrifugation
Permanent lenke
https://hdl.handle.net/10037/10872Dato
2017-11-16Type
Journal articleTidsskriftartikkel
Peer reviewed
Forfatter
Ingebrigtsen, Sveinung Gaarden; Skalko-Basnet, Natasa; Cavalcanti Jacobsen, Cristiane de Albuquerque; Holsæter, Ann MariSammendrag
Encapsulation of more than one active pharmaceutical ingredient into nanocarriers such
as
liposomes is an attractive approach to achieve a synergic drug effect and less complicated dosing
schedules in multi-drug treatment regimes. Liposomal drug delivery in acne treatment may improve
drug efficiency by targeted delivery to pilosebaceous units, reduce adverse effects and improve
patient compliance. We therefore aimed to co-encapsulate benzoyl peroxide (BPO) and chloramphenicol
(CAM) into liposomes using the novel liposome processing method – dual asymmetric centrifugation
(DAC). Liposomes were formed from soybean lecithin, propylene glycol and distilled water (2:1:2
w/v/v ratio), forming a viscous liposome dispersion. Liposomes containing both drugs (BPO-CAM-Lip),
single-drug (BPO-Lip and CAM-Lip), and empty liposomes were prepared. Drug entrapment of BPO and
CAM was determined by a newly developed HPLC method for simultaneous detection and quantification
of both drugs. Encapsulation of around 50% for BPO and 60% for CAM respectively was obtained in
both single- drug encapsulated formulations (BPO-Lip and CAM-Lip) and co-encapsulated formulations
(BPO- CAM-Lip). Liposome sizes were comparable for all liposome formulations, ranging from 130 to
150 nm mean diameter, with a polydispersity index < 0.2 for all formulations. CAM exhibited a
sustained release from all liposomal formulations, whereas BPO appeared retained within the
liposomes. BPO retention could be attributed to its poor solubility. However, HaCaT cell toxicity
was found dependent on BPO released from the liposomes. In the higher concentration range (4% v/v),
liposomal formulations were less cytotoxic than the corresponding drug solutions used as reference.
We have demonstrated that DAC is a fast, easy, suitable method for encapsulation of
more than one drug within the same liposomes.
Beskrivelse
Accepted manuscript version. Published version available at http://dx.doi.org/10.1016/j.ejps.2016.11.017