Dynamic perfusion assessment by contrast-enhanced ultrasound in blood-brain barrier disruption

Recently, blood-brain barrier disruption (BBBD) has been performed by focused ultrasound (FUS) combining with microbubbles (MBs). The outcome of BBBD enhances local drug or gene delivery for improving the treatment efficiency of brain diseases. However, over-excitation of FUS may cause brain damage such as shutdown blood flow, intracerebral hemorrhage and brain edema. Therefore, it is essential to develop a an imaging system to assess dynamic perfusion changes during FUS-induced BBBD process. Here, we used the high-frequency destruction/reperfusion contrast-enhanced imaging technique to observe the cerebral perfusion under the cases of with/without hemorrhage in BBBD procedure. The BBB was disrupted by a 2.25 MHz FUS combining with MBs at 0.5-0.7 MPa (pulse repetition frequency: 1 Hz, pulse length: 1 ms, sonication time: 60 s). The results showed that the velocity of blood flow decreased after BBBD induced by FUS sonication. Particularly, the plateau of time-intensity curve was higher than prior to MBs destruction at 20 s after sonication and the blood flow would be obstructed due to the blood coagulates at 60s after sonication. The pattern of hemorrhagic damage caused by FUS can be monitored by the TIC. In addition, the location of blood flow velocity decrease was consistent with the areas of BBBD and the variation of blood flow depends on the applied acoustic pressure. In conclusion, the blood flow velocity changes have potential as an in vivo tool for quantifying the extent of the FUS-induced BBBD and detecting intracerebral hemorrhage occurrence.