Hadiel Zamzam,Amani Moussa,Maged Zohdy et al.
Hadiel Zamzam et al.
Objective: The aim of this in vitro study was to analyze the fatigue behavior of occlusal veneers made of three different Computer-Aided Design/Computer-Aided Manufacturing (CAD/CAM) restorative materials using accelerate...
Elastic moduli and strain-dependent lateral strain to axial strain ratio in semi-dilute polyacrylamide hydrogels [0.03%]
半稀释聚丙烯酰胺水凝胶的弹性模量及应变相关的横向应变与轴向应变比
Satya Pal,Thomas E Angelini,Abir Bhattacharyya
Satya Pal
Regulating elastic modulus of basic synthetic hydrogels, such as polyacrylamide, is crucial for their application in various fields of biotechnology. However, the measurement of elastic modulus and stress-strain response under different def...
The biomechanical properties of porcine intervertebral disc tissue treated with different fixation solutions [0.03%]
不同固定液处理后猪椎间盘组织的生物力学性能
Noah Chow,Sabrina I Sinopoli,Mitchel C Whittal et al.
Noah Chow et al.
Human cadavers used for teaching are often preserved through arterial embalming. The intervertebral disc is naturally avascular, therefore it is unknown if the fixative reaches the disc and alters its biomechanical properties. The current s...
Developing models to predict mechanical behavior of PCL/PHBV composites for tissue Engineering: A response surface methodology study [0.03%]
用于组织工程的PCL/PHBV复合材料机械行为预测模型的发展:响应面法研究
Javad Esmaeili,Maryam Hosseini,Ehsan Niknejad et al.
Javad Esmaeili et al.
A combination of Poly (3-hydroxybutyrate-co-3-hydroxyvalerate) (PHBV) and Polycaprolactone (PCL) has always been recommended for bone tissue engineering; however, different polymer ratios and porosities exhibit distinct physicochemical and ...
Modelling of mechanical performance by finite element analysis of compressive bone staples made of superelastic NiTi and Ti-Zr-Nb-Sn alloys [0.03%]
超弹性镍钛和钛锆铌锡合金压缩骨夹的有限元分析性能建模
Tianyu Jia,Lionel Leotoing,Dominique Guines et al.
Tianyu Jia et al.
Superelastic NiTi bone staples have become increasingly favoured for internal fixators by surgeons in clinical practice due to their high ability to maintain bone compression. They can adapt dynamically to structural changes and preserve bo...
Preparation of chitosan quaternary ammonium salt-sodium alginate/poly acrylic acid hydrogel and its application in flexible sensing [0.03%]
用于柔性传感的壳聚糖季铵盐-海藻酸钠/聚丙烯酸水凝胶的制备及应用研究
Junxiao Wang,Amatjan Sawut,Mailidan Wumaer et al.
Junxiao Wang et al.
Flexible strain sensors have become key devices in the field of emerging technologies due to their excellent stretchability, conformal contact with substrates, and stable electrical response under dynamic deformation. The core to improving ...
Comparative evaluation of the mechanical properties of amniotic membranes for corneal grafting: Effects of cryopreservation, lyophilization, and dehydration [0.03%]
评估用于角膜移植的胎盘羊膜力学性能:冷冻、冻干和脱水的影响
B Fantaci,B Calvo,A M Mesa et al.
B Fantaci et al.
In both human and veterinary ophthalmology, stromal to full-thickness corneal defects can be treated using several techniques that involve various biomaterials, which support healing while preserving vision. Among these, the amniotic membra...
4D-printed smart hydrogels in oral medicine: Current applications and future perspectives [0.03%]
4D打印智能水凝胶在口腔医学中的应用及发展前景
Yaping Yin,Ziming Wei,Bingxu Lu et al.
Yaping Yin et al.
Objective: To systematically review 4D-printed hydrogels printing platforms, stimuli-responsive modalities, and applications across oral medicine subspecialties, and to identify key translational solutions for progression...
Segmental asymmetry and multiplanar motion of the lumbar spine: Cadaveric insights into spinal pathologies [0.03%]
腰椎节段性不对称和多平面运动:来自尸体解剖的脊柱病理学见解
Asghar Rezaei,Alexander Hooke,Babak Dashtdar et al.
Asghar Rezaei et al.
The lumbar spine plays a critical role in supporting multiplanar motion and distributing loads during daily activities. While global spinal symmetry is often assumed in biomechanical assessments, segmental asymmetries may exist and contribu...
Bethany B Smith,Anurag Roy,Robert O Ritchie et al.
Bethany B Smith et al.
Ultra-high-molecular-weight-polyethylene (UHMWPE) has been the material of choice for bearings in total joint replacements (TJRs) for decades as a result of its excellent wear resistance, chemical inertness, energetic toughness, low frictio...