Development and characterization of chitosan/polyvinyl alcohol polymer material with elastolytic and collagenolytic activities.

The biologically active polymeric material with entrapped peptidase Bacillus thuringiensis var. israelensis with caseinolytic, collagenase and elastase activities was developed as a promising product for medical use. We have evaluated and reported here the following physical-chemical and biochemical characteristics of entrapped enzyme: peptidase/polymer interaction and morphology analyses, film thickness, water content, time of dissolution in water and physiological saline, kinetic of casein hydrolysis and pH- and thermoprofiles of proteolytic activity. Scanning electron microscopy images shows the relative uniformity of the film surface with entrapped peptidase. The released peptidase was characterized by increased proteolytic activity in the acidic (14%-35%) and alkaline (7%-32%) regions. After nine months of storage, peptidase in chitosan/polyvinyl alcohol films retains more than 95% of its initial proteolytic activity. We consider this film as a perspective biotechnological agent in medicine.

Gelatin/carboxymethyl cellulose mucoadhesive films with lysozyme: Development and characterization.

The goal of our study is to develop and characterize mucoadhesive films with entrapped lysozyme based on gelatin/sodium carboxymethyl cellulose as perspective antimicrobial preparation. Lysozyme in mucoadhesive films retains more than 95% of its initial activity for 3 years of storage. Different physical-chemical and biochemical characteristics of entrapped enzyme were evaluated, such as film thickness, weight, time of dissolution in water, bioadhesive force, in vitro lysozyme release, pH- and thermoprofiles of hydrolytic activity, effect of γ-sterilization, etc. We have shown that gelatin/sodium carboxymethyl cellulose films have adhesive force on the level of 4380Pa. Scanning electron microscopy images shows the relative uniformity of the gelatin surface with entrapped lysozyme. Mucoadhesive films with lysozyme have 100% bactericidal effect on the test strain, Staphylococcus aureus ATCC 25923 F-49 and thus could be considered as a perspective antimicrobial preparation.