Maya Baranes-Zeevi scite author profile

We achieved continuous, noncontact wide-field imaging and characterization of drug release from a polymeric device in vitro by uniquely using off-axis interferometric imaging. Unlike the current gold-standard methods in this field, which are usually based on chromatography and spectroscopy, our method requires no user intervention during the experiment and involves less lab consumable instruments. Using a simplified interferometric imaging system, we experimentally demonstrate the characterization of anesthetic drug release (Bupivacaine) from a soy-based protein matrix, which is used as a skin substitute for wound dressing. Our results demonstrate the potential of interferometric imaging as an inexpensive and easy-to-use alternative for characterization of drug release in vitro.

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Novel drug‐eluting soy‐protein structures for wound healing applications

Baranes-Zeevi

Goder

Zilberman

2019

Polymers for Advanced Techs

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Naturally derived materials are becoming widely used in the biomedical field. Soy protein has advantages over the various types of natural proteins employed for biomedical applications due to its low price, nonanimal origin, and relatively long storage time and stability. In the current study, novel drug‐eluting soy‐protein films for wound healing applications were developed and studied. The films were prepared using the solvent casting technique. The analgesic drug bupivacaine and two types of wide range antibiotics (gentamicin and clindamycin) were incorporated into the soy‐protein films. The effect of drug incorporation and plasticizers content on the films' mechanical properties, drug release profiles, and cell viability was studied. Drug incorporation had a softening effect of the films, lowering mechanical strength and increasing ductility. Release profiles of bupivacaine and clindamycin exhibited high burst release of 80% to 90% of encapsulated drug within 6 hours, followed by continuous release in a decreasing rate for a period of 2 to 4 days. Gentamicin release was prolonged, probably due to interaction between the gentamicin and the polymer chains. Hybrid soy‐protein/poly (Dl‐lactic‐co‐glycolic acid) (PDLGA) microspheres structure showed potential for long and sustained release of bupivacaine. Films with no drugs and films loaded with gentamicin were found to be noncytotoxic for human fibroblasts, while bupivacaine and clindamycin were found to have some effect on cell growth. In conclusion, our new drug‐loaded soy‐protein films combine good mechanical properties and biocompatibility, with desired drug release profiles, and can therefore be potentially very useful as burn and ulcer dressings.

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Non-invasive continuous imaging of drug release from soy-based skin equivalent using wide-field interferometry

Gabai

Baranes-Zeevi

Zilberman

et al. 2013

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We propose an off-axis interferometric imaging system as a simple and unique modality for continuous, non-contact and non-invasive wide-field imaging and characterization of drug release from its polymeric device used in biomedicine. In contrast to the current gold-standard methods in this field, usually based on chromatographic and spectroscopic techniques, our method requires no user intervention during the experiment, and only one test-tube is prepared. We experimentally demonstrate imaging and characterization of drug release from soy-based protein matrix, used as skin equivalent for wound dressing with controlled anesthetic, Bupivacaine drug release. Our preliminary results demonstrate the high potential of our method as a simple and low-cost modality for wide-field imaging and characterization of drug release from drug delivery devices.

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