Preparation and imaging contrast study of nano-sized ultrasound contrast agents with multiple interfacial reflections
10.3760/cma.j.cn131148-20250225-00099
- VernacularTitle:多界面反射结构纳米超声造影剂的制备及其成像对比研究
- Author:
Yanmei ZHANG
1
;
Zhengjun MA
;
Li FAN
;
Yunyou DUAN
;
Li ZHANG
Author Information
1. 空军军医大学唐都医院超声医学科,西安 710038
- Publication Type:Journal Article
- Keywords:
Nano-ultrasonic contrast agent;
Silicon dioxide;
Contrast-enhanced ultrasound;
Nanobubble;
Reflective interface
- From:
Chinese Journal of Ultrasonography
2025;34(8):654-661
- CountryChina
- Language:Chinese
-
Abstract:
Objective:Multi-facial reflective type of nano-ultrasound contrast agents(UCAs)loaded with hollow self-decomposable silica nanoparticles(SiO 2 NP)of different particle sizes were prepared to investigate the effect of the particle size of SiO 2 NP on the structural and physicochemical characteristics of the nano-UCAs,as well as on the intensity of ultrasound contrast. Methods:Two types of SiO 2 NP with large and small particle sizes(SiO 2 NP L and SiO 2 NP S)were prepared by adjusting the material ratios,and nano-UCAs with different particle sizes of SiO 2 NP S loaded at a concentration of 2 mg/ml were prepared by the thin film hydration method(SiO 2 NP L@NBs and SiO 2 NP S@NBs),and compared with the commercial SonoVue and the prepared nano-bubbles(NBs)for comparing the particle size,zeta potential and stability,scanning electron microscopy to observe the structure,CCK8 method to assess cytotoxicity,and comparison of ultrasonography imaging intensity in in vivo and in vitro experiments. Results:The particle sizes of the two SiO 2 NP(SiO 2 NP L and SiO 2 NP S)were(213.270 ± 16.890)nm and(53.870 ± 8.246)nm,respectively,and the particle size of the synthesized nano-UCA was SiO 2 NP L@NBs(628.40 ± 89.97)nm and SiO 2 NP S@NBs(493.40 ± 36.35)nm respectively,there was no difference in particle size( P>0.05). The scanning electron microscope showed a "fig" structure. The stability of SiO 2 NP S@NBs was better than that of SiO 2 NP L@NBs and SonoVue. Safety tests showed that both SiO 2 NP L@NBs and SiO 2 NP S@NBs were safe and usable. Compared with NBs,the intensity of contrast-enhanced ultrasound contrast in SiO 2 NP@NBs with multiple reflection interfaces was significantly enhanced,and the enhanced intensity of contrast-enhanced ultrasound in vitro and in vivo in the SiO 2 NP L@NBs group was significantly higher than that of the NBs group,the SiO 2 NP S@NBs group,and the SonoVue group(all P<0.05). There was no significant difference in the enhanced intensity of in vitro contrast-enhanced ultrasound between the SiO 2 NP S@NBs group and that of SonoVue( P>0.05),and the enhanced intensity of contrast-enhanced ultrasound in vivo was significantly higher than that in the SonoVue group( P<0.05). Conclusions:The large and small SiO 2 NPs prepared by adjusting the material ratio do not affect the nanoparticle size of UCA.The ultrasonic enhancement ability of nano-UCA with large particle size SiO 2 NP is stronger,but the stability time at room temperature is shorter than that of nano-UCA with small particle size SiO 2 NP.
