Polyaminated pullulan, a new biodegradable and cationic pullulan derivative for mucosal drug delivery.

Aim: To prepare new polycationic pullulan derivatives exhibiting highly mucoadhesive and sustained drug release properties.
Methods: Hydroxy groups of pullulan were activated with mesyl chloride followed by conjugation with low-molecular weight polyamines. Pullulan-tris(2-aminoethyl)amine (Pul-TAEA) and pullulan-polyethyleneimine (Pul-PEI) were evaluated regarding swelling behaviour, mucoadhesive properties and potential to control drug release.
Results: Pul-TAEA and Pul-PEI exhibited excellent swelling properties at pH 6.8 showing 240- and 370-fold increase in weight. Compared to unmodified pullulan, Pul-TAEA and Pul-PEI displayed 5- and 13.3-fold increased dynamic viscosity in mucus. Mucoadhesion studies of Pul-TAEA and Pul-PEI on intestinal mucosa showed a 6- and 37.8-fold increase in tensile strength, and a 72- and 120-fold increase in mucoadhesion time compared to unmodified pullulan, respectively. Due to additional ionic interactions between cationic groups on polyaminated pullulans and an anionic model drug, a sustained drug release was achieved.
Conclusions: Polyaminated pullulans are promising novel mucoadhesive excipients for mucosal drug delivery.
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