Enhancing Structural Stability of Oil-Shell Microbubbles via Incorporation of a Gold Nanoparticle Protective Shell for Theranostic Applications

IF 2.5 Q3 CHEMISTRY, PHYSICAL

Colloids and Interfaces Pub Date : 2023-04-23 DOI:10.3390/colloids7020034

Marzieh Ataei, Hsiu‐Ping Yi, Aida Zahra Taravatfard, Ken Y Lin, Abraham P. Lee

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Abstract

Phospholipid-stabilized microbubbles are utilized as contrast agents in medical ultrasound imaging, and researchers are currently investigating their potential as theranostic agents. Due to the inadequate water solubility and poor stability of numerous new therapeutics, the development of stable microbubbles with the capacity to encapsulate hydrophobic therapeutics is necessary. Herein, we proposed a flow-focusing microfluidic device to generate highly monodispersed, phospholipid-stabilized dual-layer microbubbles for theranostic applications. The stability and microstructural evolution of these microbubbles were investigated by microscopy and machine-learning-assisted segmentation techniques at different phospholipid and gold nanoparticle concentrations. The double-emulsion microbubbles, formed with the combination of phospholipids and gold nanoparticles, developed a protective gold nanoparticle shell that not only acted as a steric barrier against gas diffusion and microbubble coalescence but also alleviated the progressive dewetting instability and the subsequent cascade of coalescence events.

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通过加入金纳米颗粒保护壳来增强油壳微泡的结构稳定性

磷脂稳定的微泡被用作医学超声成像中的造影剂，研究人员目前正在研究它们作为治疗剂的潜力。由于许多新疗法的水溶性不足和稳定性差，开发具有封装疏水疗法能力的稳定微泡是必要的。在此，我们提出了一种流动聚焦微流控装置，用于产生高度单分散、磷脂稳定的双层微泡。利用显微镜和机器学习辅助分割技术研究了这些微泡在不同磷脂和金纳米颗粒浓度下的稳定性和微观结构演变。磷脂与金纳米粒子结合形成的双乳微泡形成了一个保护性的金纳米粒子壳，它不仅对气体扩散和微泡聚并起到了空间屏障的作用，而且还缓解了逐渐的脱湿不稳定性和随后的级联聚并事件。

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来源期刊

Colloids and Interfaces CHEMISTRY, PHYSICAL-

CiteScore

3.90

自引率

4.20%

发文量

审稿时长

10 weeks