流变学
稀释
流变仪
材料科学
连续稀释
生物医学工程
稀释剂
化学工程
化学
复合材料
医学
核化学
热力学
替代医学
病理
工程类
物理
作者
Alec McCarthy,Danny J. Soares,Akash Chandawarkar,Radia El‐Banna,Nadine Hagedorn
摘要
These findings offer a continuum for tailoring the product's rheological profile to match specific tissue requirements. Customizable rheology allows CaHA-CMC to be tuned for either filling and contouring or optimal regenerative effects. Importantly, safety implications related to vascular occlusion suggest that dilutional rheomodulation decreases the risk of vascular events. In conclusion, this study highlights the significant impact of aqueous dilution on the rheological properties of CaHA-CMC and its carrier gel. The findings support the clinical application of tailored dilutions to achieve desired outcomes, providing versatility and safety for aesthetic applications.
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