Interaction with Leukocytes: Phospholipid-stabilized versus Albumin-Shell Microbubbles
2004; Radiological Society of North America; Volume: 230; Issue: 3 Linguagem: Inglês
10.1148/radiol.2303020897
ISSN1527-1315
AutoresHiroto Takeuchi, Koji Ohmori, Isao Kondô, Kaori Shinomiya, Akira Oshita, Yuichiro Takagi, Junji Yoshida, Katsufumi Mizushige, Masakazu Kohno,
Tópico(s)Trauma, Hemostasis, Coagulopathy, Resuscitation
ResumoPURPOSE: To confirm that BR14 microbubbles (MBs) can be phagocytosed by activated leukocytes, to determine their stability after phagocytosis, and to evaluate how such characteristics influence the fate of neutrophils containing MBs after insonation. MATERIALS AND METHODS: BR14 and human albumin MBs (2 × 107/mL) were incubated with activated human neutrophils (2 × 106/mL) to allow phagocytosis. Deflation rate of the phagocytosed MBs after pulsed insonation (one burst per second for 5 seconds) at 1.8 MHz with peak negative pressure of −540 kPa or −1,340 kPa, lactate dehydrogenase (LDH) leakage, and terminal deoxynucleotidyl transferase–mediated dUTP nick end-labeling stain–positive cell count after insonation were compared between the two agents. RESULTS: At −540 kPa, phagocytosed MBs remained nearly unchanged for both agents after insonation. At −1,340 kPa, although human albumin MBs were disrupted on the first or second burst, BR14 MBs remained undisrupted. After −540-kPa insonation, a similar number of apoptotic cells appeared in neutrophils containing human albumin and BR14 MBs. At −540 kPa, LDH leakage was limited in human albumin MBs and BR14 MBs. At −1,340 kPa, LDH leakage was significantly increased in human albumin MBs and BR14 MBs (P < .01, both vs −540 kPa). Apoptotic cells were significantly decreased in human albumin MBs and BR14 MBs (P < .01, both vs −540 kPa). LDH leakage was lower and apoptotic cell count was greater in BR14 MB–containing neutrophils than in human albumin MB–containing neutrophils (both P < .01). CONCLUSION: Compared with human albumin MBs, BR14 MBs were more stable after phagocytosis with insonation. This stability is associated with less disruption and greater induction of apoptosis in leukocytes after relatively high-pressure insonation in the range for diagnostic use. © RSNA, 2004
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