共查询到19条相似文献,搜索用时 145 毫秒
1.
利用多元相控技术发展了一体化光声快速成像系统,该成像系统集成了激光传输、光声激发和光声信号探测.多元线性阵列探测器以反射模式接收光声信号,并通过相控聚焦技术快速成像,得到了不同深度的猪油模拟样品的光声像和活体动物不同直径血管的光声像,系统的横向分辨率为0.5 mm,光声采集成像时间为5 s.该一体化光声快速成像系统与现有的光声成像系统相比,具有快速方便等特点. 相似文献
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提出了一种基于聚焦线性阵列探测器的快速光声计算机断层成像技术(光声CT).在光声二维图像重建中,根据阵列探测器机械扫描和电子扫描相结合的组合扫描模式,提出了改进的有限场滤波反投影重建算法.一方面该算法适合多元探测器旋转扫描模式,另一方面探测器的指向性函数作为反投影的权重因子提高了系统的横向分辨率.同时,该成像系统还利用柱面声透镜实现Z轴方向上的聚焦扫描以实现三维层析成像.实验中,这套成像系统空间分辨率达到0.2mm,Z轴方向分辨率为1.5mm,扫描一幅二维图像仅需150s,得到
关键词:
光声CT
有限场滤波反投影算法
声透镜聚焦
乳腺肿瘤检测 相似文献
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研究了多元线性阵列探测器的主频、阵元个数和阵元间距对探测器方向性的影响.实验结果表明,采用主频为2~5 MHz,阵元数为5~15,阵元间距为0.3~0.9 mm的多元线性阵列探测器,其方向性好,将有利于光声信号的探测与成像. 相似文献
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声透镜对多层样品的光声层析成像 总被引:1,自引:0,他引:1
由于光声效应产生光声压分布图像,所以当强散射介质中的模拟吸光组织在受到短脉冲激光照射时,该声压分布会经声透镜成像在像平面上。在像平面上利用线性超声探测器阵列获取光声信号并传递给高速数据采集卡进行数据采集,可由程序重构出光声图像。设计的光声层析成像系统可以采集记录一定深度的数据,成像时只要在所采集到的数据中选取不同列数即可同时获得强散射介质多层样品不同层面的光声图像。实验成功地获得了强散射介质内多层样品不同层面的光声层析图像。该成像方法无需进行复杂的算法重建,且可以同时实现多层样品不同切面的光声成像。 相似文献
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为了实现单元探测器高质量的快速光声图像重建,提出了不同旋转扫描次数对光声层析成像的影响方案。实验采用的光源为YAG激光器,波长为1 064 nm,重复频率为20 Hz,脉宽为7 ns,探测器为针状的PVDF膜水听器,接收直径为1 mm,得到了26个字母、12根头发丝、树叶骨架和模拟血管的光声重建图像。由仿真和实验结果表明,在不牺牲光声重建图像质量的前提下,单元探测器环形扫描一圈,均匀采集100个位置的信号,图像重建时间为5.903 s。该研究结果对于单元探测器的快速旋转扫描成像和环形阵列探测器阵元数的设计具有一定的指导意义。 相似文献
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光声成像是采用“光激发-超声波成像”的新型成像技术,它是检测强散射介质内部光吸收分布的一种有效医学影像技术.用短脉冲激光照射强散射介质(如生物组织),强散射介质由于光声效应产生超声信号,使用具有成像能力的声透镜把声压分布成像于像面上,然后利用具有空间分辨能力的阵列光声传感器,把同一像面上的光声信号强度记录下来,最后根据光声信号强度的空间分布进行图像重组.根据成像系统物像共轭原理,同一物平面的光声信号到达像面的时延相等,而不同物面的光声信号到达同一个探测器平面的时延各不相同,因此,利用BOXCAR的门控积分
关键词:
光声层析成像
声透镜
光声信号 相似文献
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光声层析成像是一种发展迅速的成像技术,其可提供生物组织的结构和功能信息,结合了光学成像高光学对比度与声学成像高穿透深度的优点.然而,由于现有的反投影成像算法通常将围绕目标扫描的超声换能器等效为一个点探测器,导致非中心成像区域图像的切向模糊,严重影响了图像质量.本文提出一种新的光声层析成像算法,其采用聚焦声场等效模型,可以快速有效地克服换能器孔径效应所造成的声场畸变,恢复非中心成像区域的切向分辨率.仿真结果表明,该方法对直径5 mm,距离旋转中心6 mm的目标,切向分辨率提升至少达2倍.实验结果表明,该方法可以有效地恢复边缘图像的切向模糊,使得复杂目标的微小结构能被清晰探测.这种新方法为传统的反投影方法提供了一种有价值的替代选择,对基于圆/球扫描的光声层析成像系统的设计具有重要的指导作用. 相似文献
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超声/光声双模态成像技术因其同时兼具超声的高分辨率结构成像和光声的高对比度功能成像优势,极大地推动了光声成像技术的临床应用推广.传统超声/光声双模态成像技术多基于超声成像所用阵列探头同时收集光声信号,系统结构紧凑且无需图像配准,操作便捷.但该类设备使用阵列探头和多通道数据采集,使得其成本较高;且成像结果易受通道一致性差异影响.本文提出了一种基于声学扫描振镜的超声/光声双模态成像技术,该技术采用单个超声换能器结合一维声学扫描振镜进行快速声束扫描,实现超声/光声双模态成像,是一种小型化、低成本的双模态快速成像技术.本文开展了系列仿体和活体成像研究,实验结果表明:系统有效成像范围为15.6 mm,超声和光声成像B扫描速度分别为1.0 s–1和0.1 s–1 (光声成像速度主要受制于脉冲激光器重复频率).基于本文所提技术研究,有助于进一步推动超声/光声双模态成像技术的临床转化和普及;也为基于超声信号检测的多模态成像技术提供了一种低成本、小型化和快速声信号检测的参考方案. 相似文献
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利用一束单频探测超声穿过由脉冲激光照射产生的光声激发区域,使之与光致声场产生相互作用,光声信号将耦合到探测束上,再解调探测超声来重建光吸收区域的图像,可以得到丰富的组织信息.该信息不仅反映了组织中光吸收的特性,也反映了组织的声学特性.实验中,通过旋转超声探测器进行数据采集,并利用滤波反投影算法重建图像,可得到高信噪比的光声层析图像.由于激光的窄光谱线宽,其吸收是特征分子选择性的,所以此方法既是一种无损伤的结构层析成像方法,也可用于组织的功能成像. 相似文献
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A technique is developed to simultaneously acquire ultrasound and photoacoustic (PA) images based on a linear transducer array. The system uses conventional ultrasound for rapid identification of potential targets. After a target is identified, the ultrasound echo and PA signals can be simultaneously obtained with optimized excitation and a signal collection sequence. The corresponding ultrasound impedance and optical absorption images are reconstructed with a phase-controlled algorithm. The approach can effectively reduce the artifacts associated with a conventional filter backprojection algorithm used in PA imaging by linear scanning. The technique provides a new approach for practical applications. 相似文献
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Photoacoustic (PA) imaging is a new imaging modality, which converts pressure signals received by a scanning detector to a local distribution of electromagnetic absorption density. In this paper an experiment result of a photoacoustic tomography to depths of ~7 mm for a real tissue is presented, using a 532-nm pulse YAG laser. The time-resolved stress detection technique was used for PA signal detection with a high temporal resolution. A phase-controlled focus algorithm was used for image reconstruction. Images of different depth profiles in tissue were obtained. The depth resolution was 30 μm and could be up to 10 μm using a wide-band tranducer. 相似文献
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1 Introduction Opticaltomographyofscatteringmediasuchasbiologicaltissuesisanincreasinglyactivefieldbecauseofitsadvantagesinnoninvasion ,nonionizationandopticalcontrastwhenitisusedforbiomedicaldiagnosis[1] .Themechanismofopticalimagingisbasedonthediffere… 相似文献
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T A Whittingham 《Ultrasonics》1976,14(1):29-33
This paper describes the design and construction of a simple multi-element transducer array capable of converting an A-scan unit to a real-time, hand-held section scanner. Elements are connected in groups of four to give a finer stepping interval than is possible with discrete transducers. Application of the array as an inexpensive alternative to conventional B-scanners is discussed, in addition to its more obvious application as a non-invasive method of imaging the moving heart. 相似文献
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颞叶癫痫、阿尔兹海默症等神经系统疾病与大脑海马的异常放电相关。近年兴起的经颅超声刺激治疗脑疾病具有无创、能深入脑组织和可调控海马神经元放电的特点。该文基于128阵元相控阵换能器、人头颅CT数据、水体建立超声经颅刺激海马数值仿真模型,数值仿真优选适应于海马刺激的换能器结构参数,并结合电容模型,探究超声声学参数对海马神经元放电的影响。结果表明曲率半径90 mm、开口半径56 mm、阵元半径2.0 mm、频率0.9 MHz的128阵元相控超声换能器可形成适应于刺激人脑海马大小的焦域;且在超声频率为0.9 MHz时对海马神经元放电有较好的抑制作用;在较小的占空比和较低的空间峰值时间平均声强条件下对神经元放电有较好的抑制作用。 相似文献
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Nonlinear contrast imaging modes such as second harmonic imaging (HI) and subharmonic imaging (SHI) are increasingly important for clinical applications. However, the performance of currently available transducers for HI and SHI is significantly constrained by their limited bandwidth. To bypass this constraint, a novel transducer concept termed multi-frequency harmonic transducer arrays (MFHA's) has been designed and a preliminary evaluation has been conducted. The MFHA may ultimately be used for broadband contrast enhanced HI and SHI with high dynamic range and consists of three multi-element piezo-composite sub-arrays (A-C) constructed so the center frequencies are 4f(A) = 2f(B) = f(C) (specifically 2.5/5.0/10.0 MHz and 1.75/3.5/7.0 MHz). In principle this enables SHI by transmitting on sub-array C receiving on B and, similarly, from B to A as well as HI by transmitting on A receiving on B and, likewise, from B to C. Initially transmit and receive pressure levels of the arrays were measured with the elements of each sub-array wired in parallel. Following contrast administration, preliminary in vitro HI and SHI signal-to-noise ratios of up to 40 dB were obtained. In conclusion, initial design and in vitro characterization of two MFHA's have been performed. They have an overall broad frequency bandwidth of at least two octaves. Due to the special design of the array assembly, the SNR for HI and SHI was comparable to that of regular B-mode and better than commercially available HI systems. However, further research on multi-element MFHA's is required before their potential for in vivo nonlinear contrast imaging can be assessed. 相似文献
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Spatial planar projection techniques propagate field measurements from a single plane in front of a transmitter to arbitrary new planes closer to or further away from the source. A linear wave vector frequency-domain projection algorithm is applied to the acoustic fields measured from several focused transducer arrays designed for ultrasound therapy. A polyvinylidene difluoride hydrophone is first scanned in a water tank over a plane using a three-dimensional positioning system to measure the complex pressure field as a function of position. The field is then projected to a series of new planes using the algorithm. Results of the projected fields are compared with direct measurements taken at corresponding distances. Excellent correlation is found between the projected and measured data. The method is shown to be accurate for use with phase-controlled field patterns, providing a rapid and accurate method for obtaining field information over a large spatial volume. This method can significantly simplify the characterization procedure required for phased-array application used for therapy. Most significantly, the wavefront propagated back to a phased array can be used to predict the field produced by different phase and amplitude settings of the array elements. A field back-projected to the source could be used as an improved source function in acoustic modeling. 相似文献
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Lingvall F Olofsson T Stepinski T 《The Journal of the Acoustical Society of America》2003,114(1):225-234
A method for ultrasonic synthetic aperture imaging using finite-sized transducers is introduced that is based on a compact, linear, discrete model of the ultrasonic measurement system developed using matrix formalism. Using this model a time-domain algorithm for deconvolution of the transducer's spatial impulse responses (SIRs) is developed that is based on a minimum mean square error (MMSE) criterion. The algorithm takes the form of a spatiotemporal filter that compensates for the SIRs associated with a finite-sized transducer at every point of the processed image. A major advantage of the proposed method is that it can be used for any transducer, provided that its associated SIRs are known. This is in contrast to the synthetic aperture focusing technique (SAFT), which treats the transducer as a point source. The performance of the method is evaluated with simulations and experiments, performed in water using a linear phased array. The results obtained using the proposed method are compared to those obtained with a classical time-domain SAFT algorithm. For a finite aperture source, it is clearly shown that the resolution obtained using the proposed method is superior to that obtained using the SAFT algorithm. 相似文献