Controlled release of fibroblast growth factor-2 from an injectable 6-O-desulfated heparin hydrogel and subsequent effect on in vivo vascularization |
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Authors: | Nakamura Shingo Ishihara Masayuki Obara Kiyohaya Masuoka Kazunori Ishizuka Takamitsu Kanatani Yasuhiro Takase Bonpei Matsui Takemi Hattori Hidemi Sato Tomoya Kariya Yutaka Maehara Tadaaki |
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Affiliation: | Department of Surgery II, National Defense Medical College, 3-2 Namiki, Tokorozawa, Saitama 359-8513, Japan. snaka@me.ndmc.ac.jp |
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Abstract: | We prepared a 6-O-desulfated (DS-) heparin (Hep) hydrogel as an excellent carrier for the controlled release of Hep-binding growth factors, such as fibroblast growth factor (FGF)-2. This material, which is partially derived from photoreactive groups, such as cinnamate, is easily crosslinked upon ultraviolet light (UV)-irradiation, resulting in a water-insoluble, viscous, and injectable hydrogel. In the present study, we examined the capacity of 6-O-DS-Hep hydrogel to immobilize FGF-2, as well as the controlled release of FGF-2 molecules from this hydrogel in vitro and in vivo. Only 10% of FGF-2 was gradually released from the FGF-2-containing 6-O-DS-Hep hydrogel (photocrosslinked 6-O-DS-Hep (4%; w/w) hydrogel containing 50 microg/mL FGF-2) into PBS (phosphate-buffered saline) within first 7 days. The 6-O-DS-Hep hydrogel in vitro maintained the original form through 1 weeks incubation in PBS, but it was gradually fragmented and could not maintain the original form by 2-3 week-washing. When the FGF-2-containing 6-O-DS-Hep hydrogel was subcutaneously injected into the back of rats, significant neovascularization and fibrous tissue formation were induced near the injected site from day 3 after the injection. And, the hydrogel had been biodegraded and completely disappeared from the injected sites in vivo within about 15-20 days after the injection. These findings indicate a controlled release of biologically active FGF-2 molecules together with fragmentation and biodegradation of 6-O-DS-Hep hydrogel and the subsequent induction of neovascularization in vivo. |
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