In Situ Regulation of Macrophage Polarization to Enhance Osseointegration Under Diabetic Conditions Using Injectable Silk/Sitagliptin Gel Scaffolds
Abstract As a chronic inflammatory disease, diabetes mellitus creates a proinflammatory microenvironment around implants, resulting in a high rate of implant loosening or failure in osteological therapies. In this study, macroporous silk gel scaffolds are injected at the bone–implant interface for i...
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| Format: | Article |
| Language: | English |
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Wiley
2021-02-01
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| Series: | Advanced Science |
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| Online Access: | https://doi.org/10.1002/advs.202002328 |
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doaj-f05a245686b24bd3b48287317443ebeb2021-02-03T12:50:59ZengWileyAdvanced Science2198-38442021-02-0183n/an/a10.1002/advs.202002328In Situ Regulation of Macrophage Polarization to Enhance Osseointegration Under Diabetic Conditions Using Injectable Silk/Sitagliptin Gel ScaffoldsGeng Xiang0Keyin Liu1Tianji Wang2Xiaofan Hu3Jing Wang4Zhiheng Gao5Wei Lei6Yafei Feng7Tiger H. Tao8Department of Orthopedics Xijing Hospital The Fourth Military Medical University Xi'an 710032 ChinaState Key Laboratory of Transducer Technology Shanghai Institute of Microsystem and Information Technology Chinese Academy of Sciences Shanghai 200050 ChinaDepartment of Orthopedics Xijing Hospital The Fourth Military Medical University Xi'an 710032 ChinaDepartment of Orthopedics Xijing Hospital The Fourth Military Medical University Xi'an 710032 ChinaDepartment of Orthopedics Xijing Hospital The Fourth Military Medical University Xi'an 710032 ChinaState Key Laboratory of Transducer Technology Shanghai Institute of Microsystem and Information Technology Chinese Academy of Sciences Shanghai 200050 ChinaDepartment of Orthopedics Xijing Hospital The Fourth Military Medical University Xi'an 710032 ChinaDepartment of Orthopedics Xijing Hospital The Fourth Military Medical University Xi'an 710032 ChinaState Key Laboratory of Transducer Technology Shanghai Institute of Microsystem and Information Technology Chinese Academy of Sciences Shanghai 200050 ChinaAbstract As a chronic inflammatory disease, diabetes mellitus creates a proinflammatory microenvironment around implants, resulting in a high rate of implant loosening or failure in osteological therapies. In this study, macroporous silk gel scaffolds are injected at the bone–implant interface for in situ release of sitagliptin that can regulate macrophage response to create a prohealing microenvironment in diabetes mellitus disease. Notably, it is discovered that sitagliptin induces macrophage polarization to the M2 phenotype and alleviates the impaired behaviors of osteoblasts on titanium (Ti) implants under diabetic conditions in a dose‐dependent manner. The silk gel scaffolds loaded with sitagliptin elicite a stronger recruitment of M2 macrophages to the sites of Ti implants and a significant promotion of osteointegration, as compared to oral sitagliptin administration. The results suggest that injectable silk/sitagliptin gel scaffolds can be utilized to modulate the immune responses at the bone–implant interface, thus enhancing bone regeneration required for successful implantation of orthopedic and dental devices in diabetic patients.https://doi.org/10.1002/advs.202002328diabetes mellitusinjectable silk gel scaffoldmacrophage polarizationosseointegration promotion |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Geng Xiang Keyin Liu Tianji Wang Xiaofan Hu Jing Wang Zhiheng Gao Wei Lei Yafei Feng Tiger H. Tao |
| spellingShingle |
Geng Xiang Keyin Liu Tianji Wang Xiaofan Hu Jing Wang Zhiheng Gao Wei Lei Yafei Feng Tiger H. Tao In Situ Regulation of Macrophage Polarization to Enhance Osseointegration Under Diabetic Conditions Using Injectable Silk/Sitagliptin Gel Scaffolds Advanced Science diabetes mellitus injectable silk gel scaffold macrophage polarization osseointegration promotion |
| author_facet |
Geng Xiang Keyin Liu Tianji Wang Xiaofan Hu Jing Wang Zhiheng Gao Wei Lei Yafei Feng Tiger H. Tao |
| author_sort |
Geng Xiang |
| title |
In Situ Regulation of Macrophage Polarization to Enhance Osseointegration Under Diabetic Conditions Using Injectable Silk/Sitagliptin Gel Scaffolds |
| title_short |
In Situ Regulation of Macrophage Polarization to Enhance Osseointegration Under Diabetic Conditions Using Injectable Silk/Sitagliptin Gel Scaffolds |
| title_full |
In Situ Regulation of Macrophage Polarization to Enhance Osseointegration Under Diabetic Conditions Using Injectable Silk/Sitagliptin Gel Scaffolds |
| title_fullStr |
In Situ Regulation of Macrophage Polarization to Enhance Osseointegration Under Diabetic Conditions Using Injectable Silk/Sitagliptin Gel Scaffolds |
| title_full_unstemmed |
In Situ Regulation of Macrophage Polarization to Enhance Osseointegration Under Diabetic Conditions Using Injectable Silk/Sitagliptin Gel Scaffolds |
| title_sort |
in situ regulation of macrophage polarization to enhance osseointegration under diabetic conditions using injectable silk/sitagliptin gel scaffolds |
| publisher |
Wiley |
| series |
Advanced Science |
| issn |
2198-3844 |
| publishDate |
2021-02-01 |
| description |
Abstract As a chronic inflammatory disease, diabetes mellitus creates a proinflammatory microenvironment around implants, resulting in a high rate of implant loosening or failure in osteological therapies. In this study, macroporous silk gel scaffolds are injected at the bone–implant interface for in situ release of sitagliptin that can regulate macrophage response to create a prohealing microenvironment in diabetes mellitus disease. Notably, it is discovered that sitagliptin induces macrophage polarization to the M2 phenotype and alleviates the impaired behaviors of osteoblasts on titanium (Ti) implants under diabetic conditions in a dose‐dependent manner. The silk gel scaffolds loaded with sitagliptin elicite a stronger recruitment of M2 macrophages to the sites of Ti implants and a significant promotion of osteointegration, as compared to oral sitagliptin administration. The results suggest that injectable silk/sitagliptin gel scaffolds can be utilized to modulate the immune responses at the bone–implant interface, thus enhancing bone regeneration required for successful implantation of orthopedic and dental devices in diabetic patients. |
| topic |
diabetes mellitus injectable silk gel scaffold macrophage polarization osseointegration promotion |
| url |
https://doi.org/10.1002/advs.202002328 |
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