Biomaterial Applications in Cell-Based Therapy in Experimental Stroke by Ligia S. B. Boisserand, Tomonobu Kodama, Jérémie Papassin, Rachel Auzely, Anaïck Moisan, Claire Rome, Olivier Detante

“…Tissue engineering has recently aroused a major interesting development of biomaterials for use into the central nervous system. …”
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Surface Engineered Polymeric Biomaterials with Improved Biocontact Properties by Todorka G. Vladkova

“…We present many examples of surface engineered polymeric biomaterials with nanosize modified layers, controlled protein adsorption, and cellular interactions potentially applicable for tissue and/or blood contacting devices, scaffolds for cell culture and tissue engineering, biosensors, biological microchips as well as approaches to their preparation.…”
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Gelatin-based biomaterials as a delivery strategy for osteosarcoma treatment by Qifan Yang, Xingpeng Chen, Jing Liu, Yeteng He

“…In this article, we introduce the application of gelatin-based biomaterials in the treatment of osteosarcoma, and summarize and look forward to them.…”
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Biomaterial-based regenerative therapeutic strategies for spinal cord injury by Keyi Chen, Wei Yu, Genjiang Zheng, Zeng Xu, Chen Yang, Yunhao Wang, Zhihao Yue, Weien Yuan, Bo Hu, Huajiang Chen

“…In recent years, with the rapid development of tissue engineering technology, the combination of biomaterials and medicine has provided a new idea for treating SCI. …”
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Development of biomaterials for bone tissue engineering based on bile acids by Yongjun Liu, Xiaojie Liu, Chang Liu, Wenan Zhang, Ting Shi, Guanying Liu

“…These advancements serve as a basis for the advancement of biomaterials derived from BAs, specifically for the purpose of bone reconstruction. …”
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Innovative Biomaterials Based on Collagen-Hydroxyapatite and Doxycycline for Bone Regeneration by Narcisa Mederle, Stefania Marin, Minodora Maria Marin, Elena Danila, Ovidiu Mederle, Madalina Georgiana Albu Kaya, Mihaela Violeta Ghica

“…The biomaterials were obtained by freeze-drying in spongious forms and were characterized by water uptake capacity and microscopy. …”
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Wound repair in rabbits using autologous biomaterials combined with rosuvastatin by Yuri Ferreira Vicentini, Gisele Alborghetti Nai, Rosa Maria Barilli Nogueira, Cecília Laposy Santarém

“…Autologous platelet-rich plasma (aPRP) and autologous platelet-rich fibrin (aPRF) are blood-derived biomaterials that potentially enhance wound healing. …”
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Functional Skin Grafts: Where Biomaterials Meet Stem Cells by Amtoj Kaur, Swati Midha, Shibashish Giri, Sujata Mohanty

“…In addition, with newer biomaterials being adopted for fabricating patient-specific skin substitutes, issues related to escalating processing costs, scalability, and stability of the constructs under in vivo conditions have raised some concerns. …”
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Application of Biomaterials and Inkjet Printing to Develop Bacterial Culture System by Tithimanan Srimongkon, Shusaku Mandai, Toshiharu Enomae

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Use of Vegetation as Biomaterial for Controlling Measures of Human Impact on the Environment by Donatella Termini

“…In a context of a climate change, bioengineering techniques and biomaterials are needed to reduce the human impact on the environment. …”
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Poly(3-hydroxybutyrate): Promising biomaterial for bone tissue engineering by Dariš Barbara, Knez Željko

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Effects of alkali treatment on the bending and fracture behavior of biomaterial bamboo by Xiaohan Chen, Xianke Wang, Shaohua Gu, Aiyue Huang, Haitao Cheng

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Versatility of Chitosan-Based Biomaterials and Their Use as Scaffolds for Tissue Regeneration by José Carlos Viana Ribeiro, Rodrigo Silveira Vieira, Iracema Matos Melo, Vilana Maria Adriano Araújo, Vilma Lima

“…It has aroused great interest as a biomaterial for tissue engineering on account of its biocompatibility and biodegradation and its affinity for biomolecules. …”
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Direct Control of Stem Cell Behavior Using Biomaterials and Genetic Factors by Jeong-Kee Yoon, Mi-Lan Kang, Joo Hyun Park, Kyoung-Mi Lee, Young Min Shin, Jin Woo Lee, Hyun Ok Kim, Hak-Joon Sung

“…Among others, various types of biomaterials and transfection method have been employed as key tools for development of the in vitro settings. …”
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Epitope-imprinted biomaterials with tailor-made molecular targeting for biomedical applications by Youlu Diao, Jia Gao, Yue Ma, Guoqing Pan

“…Thus, epitope imprinting strategy offers promising solutions for the fabrication of smart biomaterials with molecular targeting and exhibits wide applications in various biomedical scenarios. …”
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Structural Insights into Ratite Birds and Crocodile Eggshells for Advanced Biomaterials Design by Nerith R. Elejalde-Cadena, Edilberto Hernández-Juárez, Everardo Tapia-Mendoza, Abel Moreno, Lauro Bucio

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Modulation of Biomaterial‐Associated Fibrosis by Means of Combined Physicochemical Material Properties by Lisa E. Tromp, Torben A.B. van derBoon, Roderick H.J. deHilster, Ruud Bank, Patrick van Rijn

Subjects: “…biomaterial‐associated fibrosis…”
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Cissus quadrangularis: A comprehensive review as an emerging biomaterial for periodontal regeneration by H Nilofer Farjana, G. Mohan Valiathan

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Piezoelectric biomaterials for providing electrical stimulation in bone tissue engineering: Barium titanate by Huagui Huang, Kaizhong Wang, Xiangyan Liu, Xin Liu, Jinzuo Wang, Moran Suo, Hui Wang, Shuang Chen, Xin Chen, Zhonghai Li

“…And it highlights the great potential of BaTiO3 as piezoelectric biomaterials in the field of bone tissue engineering in anticipation of providing new ideas and opportunities for researchers.The translational potential of this article: This review systematically discusses barium titanate, a bioactive material that can mimic the piezoelectric effect of natural bone tissue, which can intervene in the regenerative repair of bone by providing a sustained electrical microenvironment for bone repair scaffolds. …”
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Sulfated and Phosphorylated Agarose as Biomaterials for a Biomimetic Paradigm for FGF-2 Release by Aurelien Forget, V. Prasad Shastri

“…To access injectable biomaterials that can mimic such natural electrostatic interactions between soluble signals and macromolecules and mechanically tunable environments, the backbone of agarose, a thermogelling marine–algae-derived polysaccharide, was modified with sulfate, phosphate, and carboxylic moieties and the interaction and release of FGF-2 from these functionalized hydrogels was assessed by ELISA in vitro and CAM assay in ovo. …”
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