David Lafargue scite author profile

Therapeutic biologics (i.e., proteins) have been widely recognized for the treatment, prevention, and cure of a variety of human diseases and syndromes. However, design of novel protein-delivery systems to achieve a nontoxic, constant, and efficient delivery with minimal doses of therapeutic biologics is still challenging. Here, recombinant spider silk-based materials are employed as a delivery system for the administration of therapeutic biologicals. Hydrogels made of the recombinant spider silk protein eADF4(C16) were used to encapsulate the model biologicals BSA, HRP, and LYS by direct loading or through diffusion, and their release was studied. Release of model biologicals from eADF4(C16) hydrogels is in part dependent on the electrostatic interaction between the biological and the recombinant spider silk protein variant used. In addition, tailoring the pore sizes of eADF4(C16) hydrogels strongly influenced the release kinetics. In a second approach, a particles-in-hydrogel system was used, showing a prolonged release in comparison with that of plain hydrogels (from days to week). The particle-enforced spider silk hydrogels are injectable and can be 3D printed. These initial studies indicate the potential of recombinant spider silk proteins to design novel injectable hydrogels that are suitable for delivering therapeutic biologics.

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Structure and Mechanical Properties of Hydroxypropylated Starch Films

Lafargue

Pontoire

Buléon

et al. 2007

Biomacromolecules

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Films of acid-hydrolyzed hydroxypropylated pea starch with average molecular weight M w ranging from 3.3 x 10 (4) g/mol to 1.6 x 10 (6) g/mol were prepared from 25% (w/w) solution by casting. The structure of the films was investigated by means X-ray diffraction and calorimetry, evidencing a B-type crystalline structure. In similar drying conditions, 25 degrees C and 40% of relative humidity, the crystallinity varied from 24% for the low molecular weight (A5) to almost none for the highest molecular weight (A160). The influence of the drying temperature was also investigated. A reduction of the crystallinity from 16% to almost none was found when increasing temperature from 25 to 65 degrees C. The glass transition temperature ( T g) at different water contents was determined. The difference of T g between the first and the second scan was interpreted by changes in the water distribution between phases into the B-type crystalline structure. Mechanical properties of the films determined by tensile tests and by DMTA in the glassy state showed no effect of the average molecular weight or of crystallinity. In contrast, thermomechanical experiments by DMTA showed that the average molecular weight of the sample influenced the mechanical relaxation and the moduli in the rubbery state.

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Performance of magnetic chitosan–alginate core–shell beads for increasing the bioavailability of a low permeable drug

Seth

Lafargue

Poirier

et al. 2014

European Journal of Pharmaceutics and Biopharmaceutics

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David Lafargue

Film-forming properties of a modified starch/κ-carrageenan mixture in relation to its rheological behaviour

Recombinant Spider Silk Hydrogels for Sustained Release of Biologicals

Structure and Mechanical Properties of Hydroxypropylated Starch Films

Performance of magnetic chitosan–alginate core–shell beads for increasing the bioavailability of a low permeable drug

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