Ultrasound contrast microbubbles in imaging and therapy: physical principles and engineering

Abstract: Microbubble contrast agents and the associated imaging systems have developed over the past twenty-five years, originating with manually-agitated fluids introduced for intra-coronary injection. Over this period, stabilizing shells and low diffusivity gas materials have been incorporated in microbubbles, extending stability in vitro and in vivo. Simultaneously, the interaction of these small gas bubbles with ultrasonic waves has been extensively studied, resulting in models for oscillation and increasingly soph… Show more

“…Colour and power Doppler are limited by the low sensitivity to low-velocity flow in smaller vessels (<2 mm in diameter). Contrastenhanced ultrasound (CEUS) with microbubble contrast agents [6][7][8] has recently been proposed as a new imaging technique for quantifying tissue perfusion [9,10]. CEUS presents several advantages including low cost, portability, availability, lack of restrictions in performing serial examinations at short intervals, and absence of exposure to radiation or nuclear tracers.…”

Assessment of tissue perfusion by contrast-enhanced ultrasound

“…Colour and power Doppler are limited by the low sensitivity to low-velocity flow in smaller vessels (<2 mm in diameter). Contrastenhanced ultrasound (CEUS) with microbubble contrast agents [6][7][8] has recently been proposed as a new imaging technique for quantifying tissue perfusion [9,10]. CEUS presents several advantages including low cost, portability, availability, lack of restrictions in performing serial examinations at short intervals, and absence of exposure to radiation or nuclear tracers.…”

Assessment of tissue perfusion by contrast-enhanced ultrasound

“…48 Since the 1990s, a number of research groups have designed drugloaded microbubbles. As shown in Figure 2, their advantages include visualization of drug-loaded microbubbles with low acoustic pressures, ie, image-guided drug delivery; protection of biopharmaceuticals, such as proteins and nucleic acids, against being degraded on administration; targeted drug delivery to specific tissue (ie, tissue that is exposed to ultrasound) and thus reducing side effects; and enhanced uptake by cells via the cavitation effect upon exposure to ultrasound.…”

Potential and problems in ultrasound-responsive drug delivery systems

“…In contrast, its influence on the markedly unsteady translation in an ultrasound field has hardly been treated. Emerging applications of contrast agent microbubbles in drug delivery and targeted molecular imaging [8,9,131] demand a deeper understanding of the behavior on the time scale of competing phenomena, for instance the binding to target molecules or the interaction with the blood vessel walls. These applications ultimately require a detailed description of the instantaneous translation of coated microbubbles.…”

Ultrasound contrast agents : dynamics of coated bubbles