Injectable dextran‐fluorenylmethoxycarbonyl phenylalanine composite hydrogels with improved mechanical properties

Low molecular weight hydrogels are recently gaining importance owing to their applications in material sciences and biology. A new class of composite hydrogel was developed using polysaccharides such as dextran and fluorenylmethoxycarbonyl phenylalanine (FmocF) in a phosphate buffer. The molecular w...

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Bibliographic Details
Published inPolymer international Vol. 70; no. 2; pp. 222 - 229
Main Authors Abraham, Jancy N, Joseph, Seena, Trivedi, Rishabh, Karle, Mrunal
Format Journal Article
LanguageEnglish
Published Chichester, UK John Wiley & Sons, Ltd 01.02.2021
Wiley Subscription Services, Inc
Subjects
Buffers (chemistry)
Crosslinking
Crystallography
Dextran
Dextrans
Fibrillation
Fmoc‐Phe
Hydrogels
Hydrogen bonding
Infrared spectra
injectable gels
Low molecular weights
Mechanical properties
Molecular weight
Phenylalanine
Polysaccharides
rheology
Scanning electron microscopy
Sol-gel processes
Storage modulus
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Summary:Low molecular weight hydrogels are recently gaining importance owing to their applications in material sciences and biology. A new class of composite hydrogel was developed using polysaccharides such as dextran and fluorenylmethoxycarbonyl phenylalanine (FmocF) in a phosphate buffer. The molecular weight and concentration of the dextran were varied to obtain rigid but injectable hydrogels without using other crosslinking agents. From the different molecular weights of dextran studied (5k, 40k and 70k), a combination of FmocF (0.6% w/v) and dextran 40k (0.012% w/v) composite gels yielded a maximum value of storage modulus of approximately 1500 Pa, which is 3.5 times higher than the storage modulus of pure FmocF gels. Scanning electron microscopy of FmocF/dextran composite gels revealed highly tangled fibrous structures with dense branches and lower fiber diameter compared to pure FmocF gels. The high‐intensity hydrogen‐bonded N–H peak in the infrared spectra showed enhanced hydrogen bonding in FmocF/dextran composite gels compared to pure FmocF gels. The dextran acts as an impurity in the process of fibrillation, leading to a crystallographic mismatch, and densely packed thin fibers are formed. These gels exhibited gel to sol and sol to gel conversion with temperature or external stress and showed injectable behavior. © 2020 Society of Industrial Chemistry Dextran is incorporated with fluorenylmethoxycarbonyl phenylalanine (FmocF) to form composite hydrogels with enhanced rheological properties showing thixotropic and injectable behavior.
ISSN:0959-8103
1097-0126
DOI:10.1002/pi.6118