Results 41 to 50 of about 5,066 (148)

Cartilage and bone regeneration: how close are we to bedside? [PDF]

, 2016
The treatment/regeneration of bone and cartilage diseases or defects, whether induced by rheumatism, joint dysplasia, trauma, or surgery presents great challenges that have not been fully solved by the current therapies.
Canadas, Raphael Faustino, Marques, A. P., Oliveira, Joaquim M., Pina, S., Reis, R. L.   +4 more
core   +1 more source

Oligodendrocyte: Development, Plasticity, Biological Functions, Diseases, and Therapeutic Targets

MedComm, Volume 7, Issue 2, February 2026.
The oligodendrocyte lineage and its roles in development, plasticity, and CNS homeostasis have been shown to have the potential to treat neurological diseases. However, the main obstacles to clinical translation, particularly in terms of BBB challenges and precise delivery.
Qiong Xiang, Ruo‐Lan Shi, You‐Xia Huang, Li‐Ni Liu, Jia‐Sheng Tao, Xian‐Hui Li, Xiao‐Da Li   +6 more
wiley   +1 more source

Natural-origin polymers as carriers and scaffolds for biomolecules and cell delivery in tissue engineering applications [PDF]

, 2007
The present paper intends to overview a wide range of natural–origin polymers with special focus on proteins and polysaccharides (the systems more inspired on the extracellular matrix) that are being used in research, or might be potentially useful as ...
Malafaya, P. B., Reis, R. L., Silva, G. A.   +2 more
core   +1 more source

Advanced Materials in Responsible Electronics: Innovations for Sustainability, Health, and Circularity

Advanced Materials Technologies, Volume 10, Issue 23, December 3, 2025.
Contemporary electronic devices produce significant waste, harming ecosystems. Innovation in design, consumption, materials, and end‐of‐life management is crucial. This review explores advanced materials for sustainable and responsible electronics, highlighting their potential to reduce environmental and health hazards while improving device ...
Rawan Omar, Jiawei Yang, Tan‐Phat Huynh, Kiran Gulia, Sooyun Caroline Tavolacci, Weiwei Wu, Yan Wang, Hossam Haick   +7 more
wiley   +1 more source

Effects of 3D-printed polycaprolactone/��-tricalcium phosphate membranes on guided bone regeneration [PDF]

, 2019
This study was conducted to compare 3D-printed polycaprolactone (PCL) and polycaprolactone/ -tricalcium phosphate (PCL/ -TCP) membranes with a conventional commercial collagen membrane in terms of their abilities to facilitate guided bone regeneration (
Ahn, G., Bae, E.-B., Bae, J.-H., Cho, D.-W., Huh, J.-B., Jeong, C.-M., Kim, C.-H., Lim, D.-H., Park, J.-H., Shim, J.-H., Won, J.-Y., Yun, W.-S.   +11 more
core   +1 more source

Innovative transdermal drug delivery systems: Benefits, challenges, and emerging application

BMEMat, Volume 3, Issue 4, December 2025.
The graphical abstract illustrates the diverse nanostructures employed in transdermal drug delivery systems, highlighting their unique mechanisms to penetrate the intricate layers of skin. It provides a detailed representation of the skin's complex anatomy, emphasizing the challenges posed by its barrier properties.
Syed Waqas Ali Shah, Xingxing Li, Hao Yuan, Huiling Shen, Shaohao Quan, Guifang Pan, Muhammad Ishfaq, Abid Ullah Shah, Hanhan Xie, Jundong Shao   +9 more
wiley   +1 more source

Electrospun Thymosin Beta-4 Loaded PLGA/PLA Nanofiber/ Microfiber Hybrid Yarns for Tendon Tissue Engineering Application [PDF]

, 2020
Microfiber yarns (MY) have been widely employed to construct tendon tissue grafts. However, suboptimal ultrastructure and inappropriate environments for cell interactions limit their clinical application.
Chen, Shaojuan, Duan, Bin, Streubel, Philipp N., Wu, Shaohua, Zhou, Fang, Zhou, Rong   +5 more
core   +1 more source

The use of mesenchymal stem cells for cartilage repair and regeneration: a systematic review. [PDF]

, 2017
BACKGROUND: The management of articular cartilage defects presents many clinical challenges due to its avascular, aneural and alymphatic nature. Bone marrow stimulation techniques, such as microfracture, are the most frequently used method in clinical ...
A Badri, A Bedi, A Gigante, A Gobbi, A Gobbi, A Heymer, A Ivkovic, A Liberati, A Ma, A Rey-Rico, A Shafiee, A Siclari, A Steinert, A Vega, A Yokoyama, AA Hegewald, AA Shetty, AA Worster, AAM Dhollander, AJ Neumann, AM Bhosale, AM Haleem, AM Lubis, AN Mokbel, Andy Goldberg, AS Levy, AT Mehlhorn, B Dozin, B Grigolo, B Hu, B Marquass, B Marquass, B Qi, B Zhang, BS Bal, BT Estes, C An, C Kasemkijwattana, C Millan, C Miyamoto, C Perka, C Spadaccio, C-H Chang, C-H Lu, C-H Lu, C-Y Charles Huang, C-YC Huang, CH Jo, CK Abrahamsson, CM Capeci, CSD Lee, CT Buckley, CT Lim, CW McIlwraith, D Enea, D Guenther, D Hannouche, D Murata, D Xue, D-H Kim, DA Grande, DG Jones, DJ Dandy, DJ Ogilvie-Harris, DK Bae, DR Diduch, E Kon, E López-Ruiz, EG Meyer, EG Popa, EJ Caterson, F Caro De, F Davatchi, F Hildner, F Li, F Meng, F Shapiro, F Song, G Bentley, G Bentley, G Feng, G Kamei, G Meachim, G Musumeci, G Wu, G Zhou, G-I Im, G-I Im, GI Im, GR Erickson, H Al Faqeh, H Dashtdar, H Diao, H Fan, H Fan, H Huade Li, H Huang, H Kang, H Koga, H Koga, H Koga, H Nejadnik, H Yan, H-J Kim, HY Nam, I Akgun, I Sekiya, I Sekiya, I-S Yoon, IE Erickson, IE Erickson, Insall JN, J Chung, J Frisch, J Gille, J Kim, J Lam, J Leijten, J Pak, J Sun, J Xie, J-C Lee, J-C Lee, J-C Lee, JA Rand, JB Moseley, JC Babister, JH Cui, JI Huang, JJ Wood, JL Dragoo, JL Dragoo, JM Bert, JM Coburn, JM Murphy, JR Steadman, JS Park, JU Yoo, Julian Soans, K Froelich, K Gelse, K Ishihara, K Masuoka, K Mithoefer, K Mithoefer, K Uematsu, K Ye, K Ye, K Zhang, K-Y Saw, K-Y Saw, K-Y Saw, Katrina Mitchell, KBL Lee, KBL Lee, KEM Benders, KL Wong, L Bartha, L Cui, L Girolamo de, L Gong, L Gossec, L Orozco, L Pilgaard, L Zhang, LA Fortier, LA Solchaga, LF Raheja, LL Johnson, Louise Kim, LX Tay, M Betsch, M Brittberg, M Brittberg, M Caminal, M Espinosa, M Jagielski, M Jung, M Kayakabe, M Kim, M Maumus, M Nawata, M Nishimori, M Pei, M Pei, M Petrou, M Sato, M Spoliti, M Tatebe, M Zengerink, M Zscharnack, MB Eslaminejad, MM Wilke, MQ Wickham, MR Steinwachs, MS Ponticiello, N Takata, N-C Cheng, N-C Cheng, NC Keramaris, NJ Castro, P Angele, P Feczkó, P Giannoni, P Leng, P Pastides, P-F Liu, PD Benya, PH Ousema, PN Dang, Q Zhao, R Buda, R Iwai, R Katayama, R Kuroda, R Mhanna, R Narcisi, R Seda Tigli, RA Magnussen, RA Oldershaw, Razi Zaidi, RB Dzioba, RL Dahlin, RM Coleman, RM Schulz, RR Varshney, S Araki, S Bhumiratana, S Focaroli, S Giannini, S Giannini, S Lee, S Løken, S Nathan, S Portron, S Saha, S Suzuki, S Wakitani, S Wakitani, S Wakitani, S Wakitani, S Zhang, S Zhu, SH Woolf, SP Medvedev, STB Ho, T Deng, T Igarashi, T Kobayashi, T Kusano, T Li, T Matsumoto, T Minas, T Minas, T Nakamura, T Vinardell, T Yoshioka, T Zantop, TD Bornes, TM Liu, TY Hui, W Bartlett, W Wan, W Wang, W-C Chen, W-C Chen, W-K Jeong, WD Bugbee, X Chen, X Ding, X Duan, X Ma, X Shao, X Xie, X Yang, X Zhang, XZ Zhou, Y Han, Y Han, Y Jung, Y Liu, Y Matsusue, Y Mifune, Y Oshima, Y Oshima, Y Oshima, Y Park, Y Qi, Y Qi, Y Sato, Y Wei, Y Wei, Y Wei, Y Wei, Y Zhang, Y-G Koh, YG Koh, YS Kim, Z Gong, Z Huang, Z Li, ZJ Wang   +301 more
core   +3 more sources

Integrating Nanotechnology With 3D Printing for Drug Delivery: Bone Regeneration and Beyond

Nano Select, Volume 6, Issue 11, November 2025.
What happens when nanotechnology meets 3D printing? This review explores how their fusion transforms drug delivery and bone regeneration, creating smarter, more adaptable therapies. From nanomaterials to futuristic fabrication methods, the article maps innovations that could redefine personalized medicine and hints at the challenges researchers must ...
Felipe Sousa Siqueira, Anderson de Jesus Gomes, Claure Nain Lunardi   +2 more
wiley   +1 more source

Synthesis and Characterization of Py(PCL), Py(PLLA) Homopolymers and Py(PCL‐b‐PLLA) Copolymer via Ring‐Opening Polymerization: Determination of Structural, Optical, and Biocompatible Properties

Advanced Materials Interfaces, Volume 12, Issue 19, October 6, 2025.
This work investigates by the ROP process the chemical structure, thermal, optical and biocompatibility with living cells of the pyrene‐functionalized Py(PCL), Py(PLLA) homopolymers, and Py(PCL‐b‐PLLA) copolymers. It thoroughly confirms their stability, great fluorescence, and capacity to support MCF‐7 cell growth.
Murat Mısır, Saliha Mutlu, Servin Bagheralmoosavi, Bülend Ortaç, Ali Karatutlu, Gurkan Yesilöz, Sevil Savaskan Yılmaz   +6 more
wiley   +1 more source