2014: "Remote" ultrasound scalpel for noninvasive surgery

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Physicists from Lomonosov Moscow State Univ. (group of Assoc. Prof. Vera Khokhlova, Chair of Acoustics) in collaboration with scientists from University of the Washington (Seattle, USA) recently demonstrated feasibility of the clinical use of high intensity focused ultrasound (HIFU) therapy for noninvasive tissue ablation.

In HIFU, ultrasound energy from an extracorporeal source is focused within the body to ablate tissue at the focus while leaving the surrounding organs and tissues unaffected. Most HIFU therapies are designed to use heating effects resulting from the absorption of ultrasound by tissue to create a thermally coagulated treatment volume. Although this approach is often successful, it has its limitations, such as the heat sink effect caused by the presence of a large blood vessel near the treatment area or heating of the ribs in the transcostal applications. HIFU-induced bubbles provide an alternative means to destroy the target tissue by mechanical disruption or, at its extreme, local fractionation of tissue within the focal region. Here, we demonstrate the feasibility of a recently developed approach of HIFU-induced ultrasound-guided tissue fractionation in an in vivo pig model. In this approach, termed boiling histotripsy, a millimeter-sized boiling bubble is generated by ultrasound and further interacts with the ultrasound field to fractionate porcine liver tissue into subcellular debris without inducing further thermal effects. Tissue selectivity, demonstrated by boiling histotripsy, allows for the treatment of tissue immediately adjacent to major blood vessels and other connective tissue structures. Furthermore, boiling histotripsy would benefit the clinical applications, in which it is important to accelerate resorption or passage of the ablated tissue volume, diminish pressure on the surrounding organs that causes dis- comfort, or insert openings between tissues.

The results of this work has been published in T.D.Khokhlova, Y.-N. Wang, J.C.Simon, B.W.Cunitz, F.Starr, M.Paun, L.A.Crum, M.R.Bailey, and V.A.Khokhlova, "Ultrasound-guided tissue fractionation by high intensity focused ultrasound in an in vivo porcine liver model", Proc. of the National Academy of Sciences, 111(22), 8161-8166 (2014).