Rohrbach Daniel, Ito Kazuyo, Lloyd Harriet O, Silverman Ronald H, Yoshida Kenji, Yamaguchi Tadashi, Mamou Jonathan
1 Riverside Research, New York, NY, USA.
2 Chiba University, Chiba, Japan.
Ultrason Imaging. 2017 Sep;39(5):313-325. doi: 10.1177/0161734617713498. Epub 2017 Jul 5.
Quantitative assessment of the material properties of ocular tissues can provide valuable information for investigating several ophthalmic diseases. Quantitative acoustic microscopy (QAM) offers a means of obtaining such information, but few QAM investigations have been conducted on human ocular tissue. We imaged the optic nerve (ON) and iridocorneal angle in 12-µm deparaffinized sections of the human eye using a custom-built acoustic microscope with a 250-MHz transducer (7-µm lateral resolution). The two-dimensional QAM maps of ultrasound attenuation (α), speed of sound ( c), acoustic impedance ( Z), bulk modulus ( K), and mass density (ρ) were generated. Scanned samples were then stained and imaged by light microscopy for comparison with QAM maps. The spatial resolution and contrast of scanning acoustic microscopy (SAM) maps were sufficient to resolve anatomic layers of the retina (Re); anatomic features in SAM maps corresponded to those seen by light microscopy. Significant variations of the acoustic parameters were found. For example, the sclera was 220 MPa stiffer than Re, choroid, and ON tissue. To the authors' knowledge, this is the first systematic study to assess c, Z, K, ρ, and α of human ocular tissue at the high ultrasound frequencies used in this study.
对眼组织材料特性进行定量评估可为研究多种眼科疾病提供有价值的信息。定量声学显微镜(QAM)提供了获取此类信息的一种方法,但对人体眼组织进行的QAM研究较少。我们使用一台配备250兆赫换能器(横向分辨率为7微米)的定制声学显微镜,对人眼12微米厚的脱石蜡切片中的视神经(ON)和虹膜角膜角进行成像。生成了超声衰减(α)、声速(c)、声阻抗(Z)、体积模量(K)和质量密度(ρ)的二维QAM图谱。然后对扫描样本进行染色并通过光学显微镜成像,以便与QAM图谱进行比较。扫描声学显微镜(SAM)图谱的空间分辨率和对比度足以分辨视网膜(Re)的解剖层;SAM图谱中的解剖特征与光学显微镜下所见的特征相对应。发现声学参数存在显著差异。例如,巩膜比视网膜、脉络膜和视神经组织硬220兆帕。据作者所知,这是第一项在本研究使用的高超声频率下评估人体眼组织的c、Z、K、ρ和α的系统性研究。
