Emerging Perspectives in Scaffold for Tissue Engineering in Oral Surgery by Gabriele Ceccarelli, Rossella Presta, Laura Benedetti, Maria Gabriella Cusella De Angelis, Saturnino Marco Lupi, Ruggero Rodriguez y Baena

“…Our review would be of particular interest to medical and surgical researchers at the interface of cell biology, materials science, and tissue engineering, as well as industry-related manufacturers and researchers in healthcare, prosthetics, and 3D printing, too.…”
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Biofunctionalized patterned platform as microarray biochip to supervise delivery and expression of pDNA nanolipoplexes in stem cells via mechanotransduction by Mingkui Shen, Yan Hou, Shihui Xu, Jun Tan, Honggang Zhou, Qi Miao, Wanheng Zhang, Yazhou Chen, Nana Wang, Yongtao Wang

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Gender Variations in the Oral Microbiomes of Elderly Patients with Initial Periodontitis by Jie Zhao, Ying-Hui Zhou, Ya-Qiong Zhao, Yao Feng, Fei Yan, Zheng-Rong Gao, Qin Ye, Yun Chen, Qiong Liu, Li Tan, Shao-Hui Zhang, Jing Hu, Marie Aimee Dusenge, Yun-Zhi Feng, Yue Guo

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Development of a Cost-effective Adsorption Dryer for High-quality Aerosol Sampling by Simonas Kecorius, Leizel Madueño, Susanne Sues, Josef Cyrys, Mario Lovrić, Mira Pöhlker, Kristina Plauškaitė, Lina Davulienė, Agnė Minderytė, Steigvilė Byčenkienė

“…By using readily available materials and 3D printing, we were able to manufacture a high-quality, cost-effective DD that can be used in various measurement scenarios (e.g., long-term measurements, intensive field campaigns, laboratory studies, and applications with low-cost sensors). …”
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Flexible electro-hydraulic power chips by Chao Zhang, Jionghao Chen, Changyi Xu, Tairan He, Xiaolong Zhang, Junhui Zhang, Ximing Sun, Bing Xu, Yi Zhu, Huayong Yang

“…These electro-hydraulic power chips could be arbitrarily programmed through “line-plane-body” combinations of electro-hydraulic power “diode” or “triode” modules with high output density of 10.77 kPa/g and 2.15 L/min/g, and freely fabricated into the desired shapes and functions via multi-material 3D printing technique. Demonstrations of multi-circuit mass transfer, five-finger selective cooling, bird’s multiple actuation, jellyfish’s fast swimming show electro-hydraulic power chips’ portable, powerful, and multi-circuit independent attributes. …”
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3D Modeling and Printing in Physics Education: The Importance of STEM Technology for Interpreting Physics Concepts by Indira Usembayeva, Bakitzhan Kurbanbekov, Sherzod Ramankulov, Aknur Batyrbekova, Kazhymukan Kelesbayev, Asem Akhanova

“…If the experimental textbooks in the physics classroom are old, unusable, or there are no physics overloads, it is necessary that the teacher can consider a way to solve this problem and quickly make a decision using modern technologies (for example, 3D printing) to eliminate or alleviate the problem. …”
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Development of Extrudable Hydrogels Based on Carboxymethyl Cellulose–Gelatin Complex Coacervates by Hamid Gharanjig, Hossein Najaf Zadeh, Campbell Stevens, Pram Abhayawardhana, Tim Huber, Ali Reza Nazmi

“…Our research highlights the promise of the CMC–gelatin coacervate system for 3D printing applications, particularly in areas that demand precise material deposition and adjustable properties.…”
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Methods of Additive Manufacturing for Dental Co-Cr Alloys: Systematic Review by Evan Hussain Alwan, Sabiha Mahdi Kanaan

“…By using computer-aided design (CAD) technology, recent developments in digital dentistry have changed dental offices and dental laboratories, by utilizing 3D printing because precise metal framework fitting and technique faster. …”
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USABILITY OF PROGRAM INTERFACES FOR TEACHING 3D GRAPHICS IN A SCHOOL COURSE OF INFORMATICS by Oleksandr O. Mosiiuk, Yaroslava B. Sikora, Olena Yu. Usata

“…This is a consequence of the fact that in today's world it is impossible to imagine a sphere of human activity where 3D modeling and 3D printing technologies are not used. At the same time, issues related to the study of this field of information technology at school are unfortunately not sufficiently outlined. …”
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Bioprinted hydrogels in bone regeneration: a bibliometric analysis by Huijie Zhang, Xiaoyu Li, Zhenyu Jia, Kun Jiao, Kun Jiao, Chen Liu, Chen Liu, Zixiang Deng, Yushu Bai, Xianzhao Wei, Xiaoyi Zhou

“…The number of research papers in this field is increasing annually, and the main research hotspots include bone regeneration, 3D printing, scaffolds, and hydrogels. Future research directions may focus on gelatin, additive manufacturing, and growth factors. …”
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Additive manufacturing of ceramic composite cellular structures by spontaneous infiltration of copper oxide in alumina by Ameer Hamza, Muhammad Umar Azam, Aikifa Raza, Samuel Mao, Khalid Askar, TieJun Zhang

“…However, several challenges, such as a limited selection of printable materials, low 3D printing resolution and a lack of multifunctionality hinder its widespread use. …”
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Self-Emulsifying Drug Delivery Systems (SEDDS): Transition from Liquid to Solid—A Comprehensive Review of Formulation, Characterization, Applications, and Future Trends by Prateek Uttreja, Indrajeet Karnik, Ahmed Adel Ali Youssef, Nagarjuna Narala, Rasha M. Elkanayati, Srikanth Baisa, Nouf D. Alshammari, Srikanth Banda, Sateesh Kumar Vemula, Michael A. Repka

“…Additionally, emerging trends, including 3D printing, hybrid systems, and supersaturable SEDDS (Su-SEDDS), are explored. …”
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Current challenges, and potential solutions to increase acceptance and long-term consumption of cultured meat and edible insects – A review by Jia Wen Xanthe Lin, Narmatha Maran, Amanda JiaYing Lim, Siew Bee Ng, Pey Sze Teo

“…To overcome product-related barriers, various solutions have been proposed, including 3D-printing technology and fermentation. Similarly, non-product barriers can be mitigated through policies, education, and framing theory. …”
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Enhanced biomechanical and biological performance of titanium scaffolds with gradient in pore sizes by Ara Jung, Jinju Jang, Hun Yeong Ban, Hee Jin Kim, Bomi Gweon, Dohyung Lim

“…With the rapid advancement of metal 3D printing technologies, porous metal implants are increasingly explored for regenerative medicine. …”
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Polycaprolactone for Hard Tissue Regeneration: Scaffold Design and In Vivo Implications by Fernanda Ramírez-Ruiz, Israel Núñez-Tapia, María Cristina Piña-Barba, Marco Antonio Alvarez-Pérez, Vincenzo Guarino, Janeth Serrano-Bello

“…., freeze casting, thermally induced phase separation, gas foaming, solvent casting, and particle leaching—to more recent approaches, such as 3D additive manufacturing (i.e., 3D printing/bioprinting, electrofluid dynamics/electrospinning), as well as integrated techniques. …”
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Advancements, Trends and Future Prospects of Lower Limb Prosthesis by Muhammad Asif, Mohsin Islam Tiwana, Umar Shahbaz Khan, Waqar Shahid Qureshi, Javaid Iqbal, Nasir Rashid, Noman Naseer

“…Design & development section illustrates design mechanisms, the categories of passive, active, & semi-active prostheses, an overview of a subset of commercially available prosthetic devices, and 3D printing of the accessories. The control section provides information about control techniques, sensors used, machine learning algorithms, and their key outcomes. …”
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Imaging Diagnostics, Biomarkers, and Emerging Trends in Orthopedic Research and Treatment by Gabriela Oliwia Trestka, Wiktoria Domino, Urszula Zelik, Maria Przygoda, Joanna Śnieżna, Kamila Stępień, Sabina Adamczyk, Wojciech Florczak, Jagienka Włodyka, Jakub Dziewic, Karol Dzwonnik

“…Finally, emerging technologies like artificial intelligence, smartphones, 4DCT, and 3D printing of implants are poised to revolutionize orthopedic diagnostics and treatment. …”
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Direct‐Print 3D Electrodes for Large‐Scale, High‐Density, and Customizable Neural Interfaces by Pingyu Wang, Eric G. Wu, Hasan Uluşan, Eric Tianjiao Zhao, A.J. Phillips, Alexandra Kling, Madeline Rose Hays, Praful Krishna Vasireddy, Sasidhar Madugula, Ramandeep Vilkhu, Andreas Hierlemann, Guosong Hong, E.J. Chichilnisky, Nicholas A. Melosh

“…A method for fabricating tissue‐penetrating 3D microelectrodes directly onto planar microelectronics using high‐resolution 3D printing via 2‐photon polymerization and scalable microfabrication technologies are presented. …”
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Design of Conformal Cooling of an Additively Printed Aluminium Die-Casting Mold Component by J. Sviželová, L. Socha, A. Mohamed, M. Pinta, K. Koza, T. Sellner, K. Gryc, M. Dvořák, M. Roh

“…Shape modifications were made by topology optimization to reduce the volume of the insert and achieve material savings. 3D printing was chosen as the production technology due to the wider possibilities regarding the variability of the shape of the internal cooling channels. …”
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Sinking Skin Flap Syndrome following Posttraumatic Hydrocephalus by Ashish Chugh, Prashant Punia, Sarang Gotecha

“…The PMMA bone flap was made intraoperatively after measuring the defect size accurately after exposure of defect. 3D printing option was not availed by any patient considering the high cost and patients’ poor socioeconomic status. …”
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