The oral biomaterial research platform of Alta Stomatology is equipped with advanced laboratory equipment and experienced researchers dedicated to evaluating the performance of various oral materials. This includes materials for oral filling, repair, orthodontics, implants, and other auxiliary materials required for restorative treatments. Our team utilizes cutting-edge technology and rigorous experimental methods to conduct comprehensive performance testing and analysis of these materials, ensuring their safety, durability, and effectiveness. Through precise experimentation and professional research, we aim to provide reliable material assessments and technical support for the dental field, ensuring robust protection for patients' oral health.
Delving into the fundamental properties and characteristics of oral biomaterials, our basic research endeavors unravel the intricate molecular structures, mechanical properties, and biocompatibility profiles of various materials used in dentistry.
Exploring the diverse applications of oral biomaterials, we investigate novel approaches for restorative dentistry, implantology, prosthodontics, and tissue engineering. Through translational research efforts, we aim to translate scientific discoveries into clinically relevant solutions that enhance patient outcomes.
Developing robust methodologies for assessing the performance and durability of oral biomaterials is paramount to ensuring their efficacy and safety in clinical settings. Our research endeavors focus on advancing testing protocols, analytical techniques, and computational modeling approaches to comprehensively evaluate the mechanical, chemical, and biological properties of dental materials.
Investigating the dynamic interplay between oral biomaterials and the biological environment is essential for understanding their biocompatibility, host response, and long-term clinical performance. Through interdisciplinary research endeavors, we explore the complex interactions occurring at the biomaterial-tissue interface, shedding light on immune responses, inflammatory reactions, and tissue regeneration processes.
Assessing the biocompatibility and safety of oral biomaterials necessitates rigorous biological evaluation methodologies that encompass cytotoxicity assays, biocompatibility testing, and histological analyses. Our research initiatives focus on refining and standardizing these evaluation methods to ensure the reliability, reproducibility, and regulatory compliance of dental materials.
Harnessing the power of nanotechnology, Alta Stomatology explores novel drug delivery systems for targeted and sustained release of therapeutic agents in the oral cavity. By encapsulating drugs within biocompatible carriers, we aim to optimize drug efficacy while minimizing adverse effects on surrounding tissues.
Pyrogen Test | Biodegradation Test | In Vitro Cytotoxicity Test |
Delayed-Type Hypersensitivity Test | Stimulation Test | Systemic Toxicity Test |
Post-Implantation Local Reaction Test | Bioactive Materials Development | Material Evaluation and Analysis |
Universal Mechanical Testing Machine | Thermal Expansion Tester | Lightfastness Stability Tester |
Rockwell Hardness Tester | Magnetic Field Strength Tester | Curing Time Meter |
Scanning Electron Microscope | Precision Tool Microscope | Gas Chromatograph |
Ultraviolet Spectrophotometer | Acidometer | Viscometer |
X-Ray Diffractometer (XRD) | Rheometer | Cell Culture Facility |
Fourier-transform Infrared Spectrometer (FTIR) | Others |