Osteogenic differentiation of mesenchymal stem cells in cell-laden culture of self-assembling peptide hydrogels by Faye Fouladgar, Robert Powell, Vishalakshi Irukuvarjula, Akhila Joy, Xiao Li, Neda Habibi

“…These findings suggest that self-assembled Fmoc-FF peptide hydrogels, is a promising platform for bone tissue engineering applications.…”
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Advancements in Bone Replacement Techniques–Potential Uses After Maxillary and Mandibular Resections Due to Medication-Related Osteonecrosis of the Jaw (MRONJ) by Judit Bovari-Biri, Judith A Miskei, Zsanett Kover, Alexandra Steinerbrunner-Nagy, Kinga Kardos, Peter Maroti, Judit E Pongracz

“…The purpose of this manuscript is to emphasize the role of biotechnology and tissue engineering technologies in therapy. By using scaffold materials and biofactors in combination with autologous cells, innovative solutions are explored for the repair of damaged facial bones. …”
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Gingival fibroblast suppress the osteogenesis process mediated by bone substitute materials via WNT/β-catenin signaling pathway in vitro and in vivo by Guanqi Liu, Jiahui Lin, Xiaoyan Chen, Runheng Liu

“…These findings highlight the importance of considering the cellular microenvironment in tissue engineering and regenerative medicine and suggest potential targets for modulating MMSCs behavior to enhance bone regeneration.…”
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Research Status and Trends in Periodontal Ligament Stem Cells: A Bibliometric Analysis over the Past Two Decades by Zhengyang Li, Jinyi Li, Shanshan Dai, Ruirui Liu, Qingyu Guo, Fei Liu

“…Research topics mainly included mechanism of periodontal diseases, tissue engineering and regeneration, biological characteristics of PDLSCs, and comparison with other stem cells. …”
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Platelet-rich fibrin membrane associated with the coronal replacement flap three years later by Lázaro Sarduy Bermúdez, Olga Lidia Véliz Concepción, Felisa Veitia Cabarrocas, Manuel Antonio Arce González, Eligio Eduardo Barreto Fiu, Marysol Rodríguez Felipe

“…<p><strong>Foundation</strong>: the association of the platelet-rich fibrin membrane with the coronal replacement flap constitutes a modality of tissue engineering that provides regenerative elements to the tissue repair process.…”
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Human Urine-Derived Stem Cells: Potential for Cell-Based Therapy of Cartilage Defects by Long Chen, Lang Li, Fei Xing, Jing Peng, Kun Peng, Yuanzheng Wang, Zhou Xiang

“…Recently, human urine-derived stem cells (hUSCs), which are isolated from the urine, are studied as a promising candidate for many tissue engineering therapies due to their multipotency and sufficient proliferation activities. …”
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Prominosomes - a particular class of extracellular vesicles containing prominin-1/CD133? by Jana Karbanová, Kristina Thamm, Christine A. Fargeas, Ilker A. Deniz, Aurelio Lorico, Denis Corbeil

“…., as biomarkers in liquid biopsies or as native (or bioengineered) biological nanocarriers in tissue engineering, regenerative medicine and cancer therapy. …”
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Sacrificing Alginate in Decellularized Extracellular Matrix Scaffolds for Implantable Artificial Livers by Chanh-Trung Nguyen, Van Phu Le, Thi Huong Le, Jeong Sook Kim, Sung Hoon Back, Kyo-in Koo

“…Vascularization remains a critical challenge in liver tissue engineering, as replicating the liver’s intricate vascular network is essential for sustaining cellular function and viability. …”
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Integration of Rabbit Adipose Derived Mesenchymal Stem Cells to Hydroxyapatite Burr Hole Button Device for Bone Interface Regeneration by Viswanathan Gayathri, Varma Harikrishnan, Parayanthala Valappil Mohanan

“…Adipose Derived Mesenchymal Stem Cells, multipotent stem cells isolated from adipose tissue, present close resemblance to the natural in vivo milieu and microenvironment of bone tissue and hence widely used for in bone tissue engineering applications. The present study evaluates the compatibility of tissue engineered hydroxyapatite burr hole button device (HAP-BHB) seeded with Rabbit Adipose Derived Mesenchymal Stem Cells (ADMSCs). …”
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Genetic Manipulation of Calcium Release-Activated Calcium Channel 1 Modulates the Multipotency of Human Cartilage-Derived Mesenchymal Stem Cells by Shuang Liu, Minae Takahashi, Takeshi Kiyoi, Kensuke Toyama, Masaki Mogi

“…To aid in the clinical implementation of tissue engineering strategies for joint regeneration, these data may allow us to identify prospective factors for effective treatments and could maximize the therapeutic potential of MSC-based transplantation.…”
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Nanocomposites of various shapes in trihybrid nanofluid flow past a Riga plate with electroosmotic effects by Muhammad Idrees Afridi, Saima Riasat, Saira Iqbal, S. Bilal, A.A. Alderremy, Emad E. Mahmoud

“…Ternary hybrid nanofluid underscores their pivotal role in numerous thermal management devices for various interventions such as photovoltaic thermal systems, biomedical appliances, heat engines, tissue engineering etc. The present study utilizes the advanced nanocomposites with various shapes outfitted with electrodes and permanent magnets in the vicinity of electric and magnetic field with electro-osmotic effect. …”
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A single-cell 3D dynamic volume control system for chondrocytes by Qiang Zhang, Yiyao Wang, Yanjun Zhang, Xiaochun Wei, Weiyi Chen, Quanyou Zhang

“…Our device for single-cell 3D dynamic culture provides a microphysiological culture system for chondrocytes to explore the mechanisms of cartilage hypertrophy, as well as develops a new paradigm for functional cartilage tissue engineering and regenerative medicine.…”
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Manipulation of Polyhydroxybutyrate Properties through Blending with Ethyl-Cellulose for a Composite Biomaterial by Rodman T. H. Chan, Christopher J. Garvey, Helder Marçal, Robert A. Russell, Peter J. Holden, L. John R. Foster

“…Polyhydroxybutyrate (PHB) is widely used as a biomaterial in medical and tissue-engineering applications, a relatively high crystallinity limits its application. …”
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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

“…Regenerative approaches such as cell therapy provide an increase in endogenous brain structural plasticity but they are not enough to promote a complete recovery. Tissue engineering has recently aroused a major interesting development of biomaterials for use into the central nervous system. …”
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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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Silicate-substituted bovine-derived hydroxyapatite as a bone substitute in regenerative dentistry by Jithendra Ratnayake, Niranjan Ramesh, Maree L Gould, Michael R Mucalo, George J Dias

“…Hydroxyapatite, renowned for its biocompatibility and osteoconductive properties, plays a fundamental role in bone regeneration owing to its resemblance to natural bone mineral, thus offering considerable potential for advancing tissue engineering strategies. In this article, the innovative integration of silicon ions into biogenic (bovine-derived) hydroxyapatite (SiBHA) via a tailored sol-gel process is reported. …”
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Isolation and Characterization of Multipotent Turkey Tendon-Derived Stem Cells by Qian Liu, Yaxi Zhu, Peter C. Amadio, Steven L. Moran, Anne Gingery, Chunfeng Zhao

“…The successful isolation of tendon-derived stem cells from turkey was beneficial for future studies in tendon tissue engineering and would help in the development of new treatment for tendon diseases using this novel animal model.…”
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Synergistic effects of platelet-rich fibrin and photobiomodulation on bone regeneration in MC3T3-E1 Preosteoblasts by Ling-Hung Chou, Tzu-Sen Yang, Pei-Chun Wong, Ying-Chun Chen

“…Conclusions: This study explores the synergistic effects of PRF and PBM, offering new insights into optimizing bone tissue engineering strategies. The findings highlight the potential of this combined approach in enhancing bone regeneration, although further research is needed to refine the optimal conditions for these therapies.…”
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Rat Hippocampal Neural Stem Cell Modulation Using PDGF, VEGF, PDGF/VEGF, and BDNF by Neus Gomila Pelegri, Catherine A. Gorrie, Jerran Santos

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Lithium-doped calcium silicate cement regulates the immune microenvironment and promotes M2 macrophage polarization for enhancing bone regeneration by Yen-Hong Lin, Cheng-Yu Chen, Kun-Hao Chen, Ting-You Kuo, Tsung-Li Lin, Ming-You Shie

“…These findings underscore the dual functional capabilities of the LiCS cement in enhancing osteogenesis and modulating the immune environment, making it a promising material for bone tissue engineering and regeneration.…”
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