Delivery of CD151 by Ultrasound Microbubbles in Rabbit Myocardial Infarction.

OBJECTIVES: We aimed to evaluate whether ultrasound (US) and microbubble-mediated delivery of Cluster of Differentiation 151 (CD151) could enhance the therapeutic effects of CD151 on myocardial infarction (MI). METHODS: A rabbit model of MI was established by a modified Fujita method. Then, 50 MI rabbits were randomly divided into 5 groups, including G1 (CD151 plasmid and physiological saline in the presence of US); G2 (CD151 and Sonovue in the presence of US); G3 (CD151 and Sonovue in the absence of US); G4 (Sonovue in the absence of US), and a control group (physiological saline in the absence of US). After 14 days of treatment, the expression of CD151 was detected by Western blot. Besides, vessel density of peri-infarcted myocardium was measured by immunohistochemistry, and cardiac function was analyzed by echocardiography. RESULTS: The rabbit model of MI was established successfully. CD151 injection increased the expression of CD151 and microvessel density in the myocardium of MI rabbits. Heart function was significantly improved by CD151, which exhibited increased left ventricular ejection fraction, left ventricular fractional shortening and a reduced Tei index. Besides, US Sonovue significantly increased the expression efficiency of CD151. CONCLUSION: US microbubble was an effective vector for CD151 delivery. CD151 might be an effective therapeutic target for MI.

Combined low-frequency ultrasound and microbubble contrast agent for the treatment of benign prostatic hyperplasia.

BACKGROUND AND PURPOSE: Benign prostatic hyperplasia is one of the most common conditions in middle-aged and elderly men. The aim of the study was to investigate the treatment effects of low-frequency ultrasound combined with a microbubbles agent on benign prostatic hyperplasia. METHODS: Eighteen 7-year-old male beagles with prostatic hyperplasia were randomly divided into six groups (n=3): Control group, 21 kHz ultrasound group, 21 kHz ultrasound and microbubble contrast agent group, 1 MHz ultrasound group, 1 MHz ultrasound and microbubble contrast agent group, and microbubble contrast agent group. The histopathologic damage to prostate cells was assessed via transmission electron microscopy and optical microscopy. The protein expressions of prostate-specific antigen (PSA), inducible nitric oxide synthase (iNOS), and super oxidase dimutase (SOD) were detected by enzyme-linked immunosorbent assay. Levels of aspartate aminotransferase (AST), alanine aminotransferase (ALT), blood urea nitrogen (BUN), and creatinine (Cr) were detected by the Biochemistry Automatic Analyzer. RESULTS: Significant tissue injury, mitochondria injury, and cell apoptosis were observed in 21 kHz ultrasound and the microbubble contrast agent group. Compared with the control and microbubbles contrast agent groups, the decrease in levels of PSA or increase in levels of iNOs and SOD in the other four groups were statistically significant (P<0.05). The lowest level of PSA and the highest levels of iNOs and SOD were observed in the 21 kHz ultrasound and microbubbles contrast agent group. No significant changes in levels of AST, ALT, BUN, and Cr were observed between the six groups. CONCLUSIONS: Our results suggest that lower frequency ultrasound may have a better effect on benign prostatic hyperplasia, and microbubble contrast agent application further strengthens this biological effect.