Publications by authors named "Yueyi Tian"
Schizophrenic copolymers are one type of the popular smart polymers that show invertible colloidal structures in response to temperature stimulus. However, the lack of principles to predict the phase transition temperature of a schizophrenic copolymer from its corresponding parent thermo-responsive polymers limits their development. Additionally, studies on their applications remain scarce.
View Article and Find Full Text PDFPoly(-acryloyl glycinamide) (PNAGA) can form high-strength hydrogen bonds (H-bonds) through the dual amide motifs in the side chain, allowing the polymer to exhibit gelation behavior and an upper critical solution temperature (UCST) property. These features make PNAGA a candidate platform for biomedical devices. However, most applications focused on PNAGA hydrogels, while few focused on PNAGA nanoparticles.
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- - This review explores various applications of minimally invasive surgery for rejuvenating facial appearance, reflecting the growing trend of aesthetic treatments aimed at combating facial aging.
- - It discusses the underlying causes of facial aging and highlights injectable treatments (like botulinum toxin and various fillers) and technologies (such as thread lifts and radiofrequency rhytidectomy) that contribute to anti-aging efforts.
- - The review concludes that different techniques can effectively target signs of aging, and that combining these treatments can offer patients tailored solutions for better results.
Polymer-protein hybrids have been extensively used in biomedical fields. Polymers with upper critical solution temperature (UCST) behaviors can form a hydrated coacervate phase below the cloud point (), providing themselves the opportunity to directly capture hydrophilic proteins and form hybrids in aqueous solutions. However, it is always a challenge to obtain a UCST polymer that could aggregate at a high temperature at a relatively low concentration and also efficiently bind with proteins.
View Article and Find Full Text PDFThree-dimensional (3D) printing technologies are advanced manufacturing technologies based on computer-aided design digital models to create personalized 3D objects automatically. They have been widely used in the industry, design, engineering, and manufacturing fields for nearly 30 years. Three-dimensional printing has many advantages in process engineering, with applications in dentistry ranging from the field of prosthodontics, oral and maxillofacial surgery, and oral implantology to orthodontics, endodontics, and periodontology.
View Article and Find Full Text PDFThis study was aimed at determining the three-dimensional differences in the mandible morphology between skeletal class I and II patients, at exploring the pathogenic mechanisms and morphological characteristics of skeletal class II, and at providing clinical references. The subjects were assigned to two groups according to the size of ANB angle: skeletal class I (2° < ANB angle < 5°) and skeletal class II (5° < ANB angle < 8°). After cone-beam computed tomography (CBCT) scanning, 31 landmarks and 25 measurement items were determined by In Vivo Dental 5.
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- Intraoral scanners are crucial in dentistry, with accuracy measured in terms of trueness and precision, and existing models are complex.
- A new integration model was designed to compare the accuracy of two intraoral scanners (CEREC and TRIOS) and one extraoral scanner (SHINING) using data measured by a coordinate measuring machine as a gold standard.
- Results indicated that the TRIOS scanner outperformed both CEREC and SHINING in accuracy, with the proposed integration model showing promise as a reliable standard reference for evaluating intraoral scanners.