In vitro degradation and release characteristics of spin coated thin films of PLGA with a “breath figure” morphology

Ponnusamy, Thiruselvam; Lawson, Louise B.; Freytag, Lucy C.; Blake, Diane A.; Ayyala, Ramesh S.; John, Vijay T.

doi:10.4161/biom.20390

Cited by 45 publications

(35 citation statements)

References 26 publications

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“…58 However, the preparation of BFA films based on these polymers is difficult because the hydrophobic ester group cannot effectively stabilize water droplets. Shimomura et al fabricated BFA films using PLA and PCL.…”

Section: Biodegradable Polymersmentioning

confidence: 99%

Breath Figure: A Nature-Inspired Preparation Method for Ordered Porous Films

2015

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Section: Biodegradable Polymersmentioning

confidence: 99%

Breath Figure: A Nature-Inspired Preparation Method for Ordered Porous Films

2015

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“…Biomaterial BFAs are also used for other biomedical applications besides cell culture. John and co‐workers studied the release characteristics of poly(lactic‐ co ‐glycolic acid) (PLGA) honeycomb films, which showed a higher release rate compared to the unpatterned films 52b. Wan et al.…”

Section: Bfa Applicationsmentioning

confidence: 99%

Breath Figure Arrays: Unconventional Fabrications, Functionalizations, and Applications

Bai¹,

Du²,

Zhang³

et al. 2013

Angew Chem Int Ed

176

142

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A breath figure (BF) is the water droplet array that forms when moisture comes in contact with a cold substrate. This water droplet array has been widely utilized in the past two decades as a versatile soft template for the fabrication of polymeric porous films. Accordingly, the ordered pores on the polymer films formed with such a method are named a breath figure array (BFA).The BF templating technique is undergoing rapid development. Several unconventional BF processes have been established to prepare porous films with unique morphologies or primary materials, and various newly developed functionalization techniques have significantly improved the performance of polymeric films with BFA, leading to novel applications, including templates, biosensors, and separation membranes. These recent achievements will be described in this Minireview.

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“…Biodegradable polymers are used extensively in medical devices. Examples include carriers for controlled drug release and scaffolds for tissue engineering . The ability to integrate fully biodegradable, high‐performance electronics and sensors with these materials could significantly expand the functional capabilities in medicine, with additional implication in areas such as consumer electronics and environmental sensors, where degradability could eliminate waste streams associated with recycling/disposal and practical difficulties in device collection/recovery, respectively.…”

mentioning

confidence: 99%

High‐Performance Biodegradable/Transient Electronics on Biodegradable Polymers

et al. 2014

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Materials and fabrication approaches that allow integration of biodegradable/transient electronics onto diverse classes of biodegradable substrates are presented in this article. By first depositing, patterning, and etching the materials for the electronics and then integrating them on a substrate of interest, it is possible to use nearly any type of biodegradable material for this purpose. Component and system‐level studies of various devices and biodegradable polymers illustrate the capabilities and operational aspects. Dissolution studies and mechanics modeling results highlight different modes for transient behavior.

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In vitro degradation and release characteristics of spin coated thin films of PLGA with a “breath figure” morphology

Cited by 45 publications

References 26 publications

Breath Figure: A Nature-Inspired Preparation Method for Ordered Porous Films

Breath Figure: A Nature-Inspired Preparation Method for Ordered Porous Films

Breath Figure Arrays: Unconventional Fabrications, Functionalizations, and Applications

High‐Performance Biodegradable/Transient Electronics on Biodegradable Polymers

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