Gross E J, Cetas T C, Stauffer P R, Liu R L, Lumori M L
University of Arizona, Department of Radiation Oncology, Tucson 85724.
Int J Hyperthermia. 1990 Mar-Apr;6(2):453-74. doi: 10.3109/02656739009141151.
An investigation of phased-array microwave systems (PAMS) for non-invasively inducing hyperthermia, primarily in neck lesions, has been done with implications for applications at other sites such as lung and pelvis. Our general approach was to combine numerical and analytical approaches with parallel experimental studies. In this paper we will concentrate only on the experimental aspects. The object, such as a homogeneous cylindrical phantom or a neck phantom, was encircled with several standard applicators driven by a single source, but with relative phase and amplitude control over each applicator. The relative phases of the applicators were adjusted by using an implanted monopole antenna connected to an HP network analyser. Power was applied and the specific absorption rate (SAR) was determined by using split phantoms and thermography or by measuring temperature transients dT/dt, recorded by implanted thermometer probes. We found that at 915 MHz for our applicators (SMA Co.) the centre of an 11 cm diameter muscle-like phantom heated to about 33% of the value at the surface in front of the applicator. Similarly, we were able to show significant SAR at the centre of realistically sized neck phantoms using four phased apertures of 915 MHz. Furthermore, substantial improvement was observed if the frequency was lowered to about 400 MHz.
已对主要用于颈部病变的非侵入性诱导热疗的相控阵微波系统(PAMS)进行了研究,其对肺和骨盆等其他部位的应用也有启示。我们的总体方法是将数值和分析方法与并行实验研究相结合。在本文中,我们将仅专注于实验方面。诸如均匀圆柱形体模或颈部体模之类的物体,由单个源驱动的几个标准施加器环绕,但对每个施加器具有相对相位和幅度控制。通过使用连接到惠普网络分析仪的植入式单极天线来调整施加器的相对相位。施加功率,并通过使用分体式体模和热成像法,或通过测量由植入式温度计探头记录的温度瞬变dT/dt来确定比吸收率(SAR)。我们发现,对于我们的施加器(SMA公司),在915MHz时,直径11cm的肌肉样体模的中心加热到施加器前方表面处值的约33%。同样,我们能够使用四个915MHz的相控孔径在实际尺寸的颈部体模中心显示出显著的SAR。此外,如果将频率降低到约400MHz,会观察到实质性的改善。
