"Functional assessment of migration and adhesion to quantify cancer cell aggression"
https://doi.org/doi:10.1039/d4sm01351d
https://pubmed.ncbi.nlm.nih.gov/40151848/
#Mechanical #Adhesion #Cell
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"Perfect Stabilization of Biomolecular Adhesions under Load"
https://arxiv.org/abs/2503.11510 #Physics.Bio-Ph #Cond-Mat.Soft #Mechanical #Adhesion
arXiv.orgPerfect Stabilization of Biomolecular Adhesions under LoadCells attach to their environment by means of focal adhesions, which are molecular complexes that exhibit the remarkable ability to adapt to mechanical load by changing their size. Drawing from the biomolecular mechanisms underlying this behavior, we present a generic model for mechanically induced adhesion growth where conformational states of molecules already in the adhesion cluster are coupled to the adsorption of further molecules. For sufficiently strong coupling, an instability arises and unbounded system growth ensues in the absence of mechanical load. Unexpectedly, the same type of instability can lead to perfect stability under mechanical load, whereby adhesion clusters adjust their size to withstand arbitrarily large forces without breaking, a phenomenon we term perfect stabilization. We derive state diagrams that characterize adhesion stability under stationary loads and show that perfect stabilization also occurs under dynamic loading on physiologically relevant timescales. Finally, we show that perfect stabilization and related instabilities are generic phenomenona that can be realized in many different ways if internal molecule states are coupled to adsorption in nonequilibrium.
"Adhesion to a common ECM mediates interdependence in tissue morphogenesis in Drosophila"
https://www.biorxiv.org/content/10.1101/2025.03.15.643376v1?rss=1 #Morphogenesis #Mechanical #Adhesion
Anti-Icing Polar Bear Fur
Despite spending their lives in and around frigid water, snow, and ice, polar bears are rarely troubled by ice building up on their fur. This natural anti-icing property is one Inuits have long taken advantage of by using polar bear fur in hunting stools and sandals. In a new study, researchers looked at just how “icephobic” polar bear fur is and what properties make it so.
The key to a polar bear’s anti-icing is sebum — a mixture of cholesterol, diacylglycerols, and fatty acids secreted from glands near each hair’s root. When sebum is present on the hair, the researchers found it takes very little force to remove ice; in contrast, fur that had been washed with a surfactant that stripped away the sebum clung to ice.
The researchers are interested in uncovering which specific chemical components of sebum impart its icephobicity. That information could enable a new generation of anti-icing treatments for aircraft and other human-made technologies; right now, many anti-icing treatments use PFAS, also known as “forever chemicals,” that have major disadvantages to human and environmental health. (Image credit: H. Mager; research credit: J. Carolan et al.; via Physics World)
"Focal adhesion in the tumour metastasis: from molecular mechanisms to therapeutic targets"
https://doi.org/doi:10.1186/s40364-025-00745-7
https://pubmed.ncbi.nlm.nih.gov/40045379/
#Extracellular #Mechanical #Adhesion
BioMed CentralFocal adhesion in the tumour metastasis: from molecular mechanisms to therapeutic targets - Biomarker ResearchThe tumour microenvironment is the “hotbed” of tumour cells, providing abundant extracellular support for growth and metastasis. However, the tumour microenvironment is not static and is constantly remodelled by a variety of cellular components, including tumour cells, through mechanical, biological and chemical means to promote metastasis. Focal adhesion plays an important role in cell-extracellular matrix adhesion. An in-depth exploration of the role of focal adhesion in tumour metastasis, especially their contribution at the biomechanical level, is an important direction of current research. In this review, we first summarize the assembly of focal adhesions and explore their kinetics in tumour cells. Then, we describe in detail the role of focal adhesion in various stages of tumour metastasis, especially its key functions in cell migration, invasion, and matrix remodelling. Finally, we describe the anti-tumour strategies targeting focal adhesion and the current progress in the development of some inhibitors against focal adhesion proteins. In this paper, we summarize for the first time that focal adhesion play a positive feedback role in pro-tumour metastatic matrix remodelling by summarizing the five processes of focal adhesion assembly in a multidimensional way. It is beneficial for researchers to have a deeper understanding of the role of focal adhesion in the biological behaviour of tumour metastasis and the potential of focal adhesion as a therapeutic target, providing new ideas for the prevention and treatment of metastases.
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"Focal adhesion dynamics-mediated cell migration and proliferation on silica bead arrays"
https://doi.org/doi:10.1039/d4bm01659a
https://pubmed.ncbi.nlm.nih.gov/40012335/
#Extracellular #Mechanical #Adhesion #Dynamics
"A highly sensitive, self-adhesive, biocompatible DLP 3D printed organohydrogel for flexible sensors and wearable devices"
https://arxiv.org/abs/2502.17208 #Cond-Mat.Mtrl-Sci #Physics.App-Ph #Mechanical #Adhesion
arXiv.orgA highly sensitive, self-adhesive, biocompatible DLP 3D printed organohydrogel for flexible sensors and wearable devicesWith the increasing demand for personalized health monitoring, wearable sensors have gained attention in medical diagnostics and physiological tracking. Hydrogels, known for their mechanical properties and similarity to biological tissues, are ideal for flexible sensing. However, conventional hydrogels face challenges in stability, biocompatibility, adhesion, and long-term comfort, especially in dynamic conditions.This study presents a highly sensitive, self-adhesive, and biocompatible organohydrogel fabricated via DLP 3D printing. By integrating an entanglement-dominated crosslinking mechanism with chemical and physical crosslinking, the hydrogel achieves high elasticity, mechanical strength, and durability. Methacrylic anhydride-grafted \k{appa}-carrageenan serves as the primary network, with optimized grafting rates enhancing tensile properties and strain modulation. The copolymer network of MA-kappa-CA and ACMO benefits from steric hindrance effects, improving swelling integrity and long-term stability.Experimental results confirm sustained adhesion and structural integrity under prolonged skin exposure, making it suitable for extended wear. The hydrogel exhibits excellent tensile resilience, flexibility, and strain-sensing capabilities. In vitro studies validate its biocompatibility, supporting its biomedical potential. Furthermore, its integration into wearable smart devices demonstrates promise for cervical spine monitoring and sports rehabilitation. A CNN-based system enables real-time, multi-channel analysis of cervical motion, proving its viability as a high-sensitivity flexible sensor for health monitoring and injury prevention.The proposed DLP 3D-printed hydrogel offers significant applications in flexible electronics, wearable sensors, and biomedical technologies, paving the way for next-generation health-monitoring systems.
#Volodymyr #Zelensky prêt à quitter la présidence "immédiatement" en échange d’une #adhésion de l’ #Ukraine à l’ #Otan
L'Express · Ukraine : Volodymyr Zelensky prêt à quitter la présidence en échange d’une adhésion à l’Otan
"Physical properties, microbial adhesion, and biocompatibility of additively manufactured ceramic-reinforced resin: Effect of zwitterionic polymer content"
https://doi.org/doi:10.1016/j.prosdent.2025.02.005
https://pubmed.ncbi.nlm.nih.gov/39984406/
#Mechanical #Adhesion
"Advanced 3D-Printed Multiphasic Scaffold with Optimal PRP Dosage for Chondrogenesis of BM-MSCs in Osteochondral Tissue Engineering"
https://arxiv.org/abs/2502.11130 #Mechanical #Q-Bio.To #Adhesion
arXiv.orgAdvanced 3D-Printed Multiphasic Scaffold with Optimal PRP Dosage for Chondrogenesis of BM-MSCs in Osteochondral Tissue EngineeringIn osteochondral tissue engineering (OCTE), simultaneously regenerating subchondral bone and cartilage tissue presents a significant challenge. Multiphasic scaffolds were created and manufactured using 3D printing to address this issue. Excellent interfacial mechanical properties and biocompatibility enhance the growth and chondrogenic differentiation of bone marrow mesenchymal stem cells (BM-MSCs). The subchondral bone bottom layer is mimicked by incorporating varying concentrations of graphene oxide (GO) (0%, 1%, and 2% w/v) into a bioink composed of alginate (Alg) and gelatin (Gel). Based on evaluations of mechanical and biocompatibility properties, 1% GO is selected for further studies. Subsequently, the GO concentration is kept constant while varying the platelet-rich plasma (PRP) dosage in the multiphasic scaffolds. Different PRP dosages (0%, 1%, 2%, and 3% w/v) are integrated into the Alg-Gel bioink to simulate cartilage tissues. Results indicate that 3D-printed scaffolds containing 1% or 2% PRP exhibit favorable biomechanical properties, with no significant differences observed. However, BM-MSCs exposed to 2% PRP demonstrate enhanced adhesion, growth, and viability. Additionally, real-time PCR and Alcian blue staining confirm increased chondrogenic expression and glycosaminoglycans (GAGs) synthesis. This work highlights the promising potential of 3D-printed multiphasic frameworks in the development of OCTE.
#VonDerLeyen @vonderleyen.ec.europa.eu promete #acelerar la #adhesión de los #Balcanes a la #UE
euronews · Vídeo. Von der Leyen promete acelerar la adhesión de los Balcanes a la UEVídeo. El proceso en seis países de la región se ha paralizado tras la invasión de Rusia a Ucrania; la presidenta de la Comisión reafirma su compromiso con su integración en la UE.
"Restrictive Heterointerfacial Delamination in Flexible Perovskite Photovoltaics Using a Bifacial Linker"
https://doi.org/doi:10.1002/adma.202419329
https://pubmed.ncbi.nlm.nih.gov/39945046/
#Mechanical #Adhesion
"Mechanism of Bushen Huoxue Formula in regulating endometrial oxidative stress and fibrosis"
https://doi.org/doi:10.19540/j.cnki.cjcmm.20240712.711
https://pubmed.ncbi.nlm.nih.gov/39929663/
#Mechanical #Adhesion
"A thiol-ene click-based strategy to customize injectable polymer-nanoparticle hydrogel properties for therapeutic delivery"
https://doi.org/doi:10.1039/d4bm01315h
https://pubmed.ncbi.nlm.nih.gov/39898598/
#Mechanical #Adhesion
[SOUTIEN] 
Soutenez l'association du Festival des Sortilèges afin de vous proposer encore plus d'inédits pour 2025 ! Bonne année !
Adhésion : https://www.helloasso.com/associations/festival-des-sortileges/adhesions/adhesion-2025-cotisation
Don : https://www.helloasso.com/associations/festival-des-sortileges/formulaires/1
Boutique : https://www.helloasso.com/associations/festival-des-sortileges/boutiques/fds-2025-1
#festival #association #soutien #adhésion #don #boutique @followers
Tous les premiers lundis du mois #tibillet tient une permanence pour présenter cette solution de billetterie, adhésions et caisse et tout plein d'autres choses.
Avec un fraîchement arrivé sur Mastodon @jonas 
C'est en ligne et ouvert à toutes et tous.
https://lescommuns.tiers-lieux.org/
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#adhesion : the action of sticking
- French: adhésion
- German: die Adhäsion
- Italian: aderenza
- Portuguese: adesão
- Spanish: adhesión
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"Optimising beta-Ti21S Alloy Lattice Structures for Enhanced Femoral Implants: A Study on Mechanical and Biological Performance"
https://doi.org/doi:10.3390/ma18010170
https://pubmed.ncbi.nlm.nih.gov/39795817/
#Mechanical #Adhesion
MDPIOptimising β-Ti21S Alloy Lattice Structures for Enhanced Femoral Implants: A Study on Mechanical and Biological PerformanceThe metastable β-Ti21S alloy exhibits a lower elastic modulus than Ti-6Al-4V ELI while maintaining high mechanical strength and ductility. To address stress shielding, this study explores the integration of lattice structures within prosthetics, which is made possible through additive manufacturing. Continuous adhesion between the implant and bone is essential; therefore, auxetic bow-tie structures with a negative Poisson’s ratio are proposed for regions under tensile stress, while Triply Periodic Minimal Surface (TPMS) structures with a positive Poisson’s ratio are recommended for areas under compressive stress. This research examines the manufacturability and quasi-static mechanical behaviour of two auxetic bow-tie (AUX 2.5 and AUX 3.5) and two TPMS structures (TPMS 2.5 and TPMS 1.5) in β-Ti21S alloy produced via laser powder bed fusion. Micro-CT reveals printability issues in TPMS 1.5, affecting pore size and reducing fatigue resistance compared to TPMS 2.5. AUX 3.5’s low stiffness matches cancellous bone but shows insufficient yield strength and fatigue resistance for femoral implants. Biological tests confirm non-toxicity and enhanced cell activity in β-Ti21S structures. The study concludes that the β-Ti21S alloy, especially with TPMS 2.5 structures, demonstrates promising mechanical and biological properties for femoral implants. However, challenges like poor printability in TPMS 1.5 are acknowledged and should be addressed in future research.