Incorporating Bone-Derived ECM into Macroporous Microribbon Scaffolds to Accelerate Bone Regeneration

Medicine, Orthopedics, Life Sciences, Cell Biology, Bioengineering, Immunology,
bone regeneration   macroporous scaffolds   extracellular matrix   tissue engineering   immunomodulation  

Incorporating Bone-Derived Extracellular Matrix (Bone-Derived ECM) into Macroporous Microribbon Scaffolds Accelerates Bone Regeneration Research Report With the continuous progress in the biomedical field, the application of tissue engineering and regenerative medicine in various tissue repairs has become increasingly important. However, research o...

New Advances in Periodontal Functional Materials Based on Antibacterial, Anti-inflammatory, and Tissue Regeneration Strategies

Chemistry, Nanoscience, Polymer Chemistry, Medicinal Chemistry, Medicine, Oral Sciences, Life Sciences, Biochemistry, Bioengineering, Immunology, Microbiology,
periodontitis   antibacterial materials   anti-inflammatory therapy   tissue regeneration   multifunctional materials   biomaterials   innovative treatment  

A Review on Novel Periodontal Functional Materials: Comprehensive Exploration of Antibacterial, Anti-inflammatory, and Tissue Regeneration Strategies Academic Background and Research Significance With the accelerating trend of global population aging, the concern for oral health issues is increasing. Periodontitis, as a common bacterial infectious ...

Enhancing Immunomodulation and Osseointegration of Bone Implants via Thrombin-Activated Platelet-Rich Plasma Self-Assembly

Chemistry, Medicinal Chemistry, Medicine, Orthopedics, Life Sciences, Biochemistry, Bioengineering, Immunology,
bone implants   thrombin   platelet-rich plasma   immunomodulation   osseointegration   self-assembly   tissue repair  

Enhancing Immunomodulation and Osseointegration of Bone Implants: A Detailed Overview of Thrombin-Activated Platelet-Rich Plasma (PRP) Self-Assembly Technology Background Introduction To address the challenge of bone defect repair, bone implants play a critical role in modern medicine. However, existing bone implant materials like Polyetheretherket...

Biosensors and Biomarkers for the Detection of Motion Sickness

Chemistry, Nanoscience, Information Science, Artificial Intelligence, Medicine, Medical Laboratory Science, Neurology, Sports Medicine, Life Sciences, Biochemistry, Bioengineering, Biophysics,
motion sickness   biomarkers   biosensors   non-invasive detection   real-time monitoring  

Exploring Biomarkers and Biosensors for Motion Sickness: Innovative Approaches to Diagnostic Challenges Motion sickness (MS) is a common syndrome experienced by humans, triggered by unnatural motions such as those encountered during transportation or virtual reality (VR). It manifests through symptoms like headaches, nausea, vomiting, cold sweats, ...

Enhanced Antigen Capture via Cholinephosphate-Mediated Cell Membrane Interactions to Improve In Situ Tumor Vaccines

Enhanced Antigen Capture via Cholinephosphate-Mediated Cell Membrane Interactions to Improve In Situ Tumor Vaccines

Chemistry, Nanoscience, Medicine, Basic Medical Sciences, Oncology, Life Sciences, Bioengineering, Immunology,
cholinephosphate   cell membrane interactions   antigen capture   tumor vaccines   immunotherapy   photothermal effect   immune suppression alleviation  

Choline Phosphate-Based Antigen Capture Strategy Boosts In Situ Tumor Vaccine Research: A Novel Immunotherapy Approach In the field of cancer immunotherapy, in situ tumor vaccines have garnered significant attention for their ability to harness a patient’s immune system to target tumors. However, challenges remain in their clinical application. To ...

Bioprinting Perfusable and Vascularized Skeletal Muscle Flaps for the Treatment of Volumetric Muscle Loss

Medicine, Basic Medical Sciences, Cardiovascular System, Life Sciences, Cell Biology, Biochemistry, Bioengineering, Immunology,
bioprinting   vascularization   skeletal muscle flaps   volumetric muscle loss   tissue engineering   perfusion   transplantation  

Academic Report on “Bioprinting Perfusable and Vascularized Skeletal Muscle Flaps for the Treatment of Volumetric Muscle Loss” Background Muscle tissues constitute a significant portion of human cellular mass and are a complex, highly vascularized, and dynamic tissue. However, traumatic or surgical Volumetric Muscle Loss (VML)—defined as the loss o...