Print Email Facebook Twitter Single pulse frequency compounding protocol for superharmonic imaging Title Single pulse frequency compounding protocol for superharmonic imaging Author Danilouchkine, M.G. Van Neer, P.L.M.J. Matte, G.M. Verwey, M.D. De Jong, N. Faculty Applied Sciences Date 2011-03-24 Abstract Second harmonic imaging is currently adopted as standard in commercial echographic systems. A new imaging technique, coined as superharmonic imaging (SHI), combines the 3rd till the 5th harmonics, arising during nonlinear sound propagation. It could further enhance resolution and quality of echographic images. To meet the bandwidth requirement for SHI a dedicated phased array has been developed: a low frequency subarray, intended for transmission, interleaved with a high frequency subarray, used in reception. As the bandwidth of the elements is limited, the spectral gaps in between the harmonics cause multiple reflection artifacts. Recently, we introduce a dual-pulse frequency compounding (DPFC) method to suppress those artifacts at price of a reduced frame rate. In this study we investigate the feasibility of performing the frequency compounding protocol within a single transmission. The traditional DPFC method constructs each trace in a post-processing stage by summing echoes from two emitted pulses, the second slightly frequency-shifted compared to the first. In the newly proposed method, the transmit aperture is divided into two parts: the first half is used to send a pulse at the lower center frequency, while the other half simultaneously transmits at the higher center frequency. The suitability of the protocol for medical imaging applications in terms of the steering capabilities was performed in a simulation study using the FIELD II toolkit. Moreover, an experimental study was performed to deduce the optimal parametric set for implementation of the clinical imaging protocol. The latter was subsequently used to obtain the images of a tissue mimicking phantom containing strongly reflecting wires. For in-vitro acquisitions the SHI probe with interleaved phased array (44 odd elements at 1MHz and 44 even elements at 3.7MHz elements, optimized for echocardiography) was connected to a fully programmable ultrasound system. The results of the Field II simulations demonstrated that the angle between the main and grating lobe amounted to 90?. The difference in the fundamental pressure level between those lobes was equal to ?26.8 dB. Those results suggest that the superharmonic content in the grating lobe was acceptably low. A considerable improvement in the axial resolution of the SHI componen (0.73 mm) at ?6 dB in comparison with the 3rd harmonic (2.23 mm) was observed. A similar comparison in terms of the lateral resolution slightly favored the superharmonic component by 0.2 mm. Additionally, the images of the tissue mimicking phantom exhibited an absence of the multiple reflection artifacts in the focal and post-focal regions. The new method is equally effective in eliminating the ripple artifacts associated with SHI as the dual pulse technique, while the full frame rate is maintained. To reference this document use: http://resolver.tudelft.nl/uuid:e3abe270-b3d4-4548-b346-1fdb2b3ab5f9 DOI https://doi.org/10.1117/12.877699 Publisher SPIE ISSN 0277-786X Source https://doi.org/10.1117/12.877699 Source Proceedings of SPIE, 2011 vol. 7968 Part of collection Institutional Repository Document type conference paper Rights (c)2011 The Authors Files PDF 2011-7968.Danilouchkine.pdf 2.5 MB Close viewer /islandora/object/uuid:e3abe270-b3d4-4548-b346-1fdb2b3ab5f9/datastream/OBJ/view