[1] Ning Y L, Zhou Y G. Shock tubes and blast injury modeling[J]. Chinese Journal of Traumatology, 18, 187-193(2015).

[2] DePalma R G, Burris D G, Champion H R et al. Blast injuries[J]. New England Journal of Medicine, 352, 1335-1342(2005).

[3] Rutter B, Song H L. DePalma R G, et al. Shock wave physics as related to primary non-impact blast-induced traumatic brain injury[J]. Military Medicine, 186, 601-609(2021).

[4] Yu S, Kaneko Y, Bae E et al. Severity of controlled cortical impact traumatic brain injury in rats and mice dictates degree of behavioral deficits[J]. Brain Research, 1287, 157-163(2009).

[5] Weiss N, Galanaud D, Carpentier A et al. Clinical review: prognostic value of magnetic resonance imaging in acute brain injury and coma[J]. Critical Care, 11, 230(2007).

[6] Mac Donald C L, Johnson A M, Cooper D et al. Detection of blast-related traumatic brain injury in US military personnel[J]. The New England Journal of Medicine, 364, 2091-2100(2011).

[7] Jorge R E, Acion L, White T et al. White matter abnormalities in veterans with mild traumatic brain injury[J]. American Journal of Psychiatry, 169, 1284-1291(2012).

[8] Badea A, Kamnaksh A, Anderson R J et al. Repeated mild blast exposure in young adult rats results in dynamic and persistent microstructural changes in the brain[J]. NeuroImage: Clinical, 18, 60-73(2018).

[9] Wang K K, Yang Z H, Zhu T et al. An update on diagnostic and prognostic biomarkers for traumatic brain injury[J]. Expert Review of Molecular Diagnostics, 18, 165-180(2018).

[10] Mondello S, Muller U, Jeromin A et al. Blood-based diagnostics of traumatic brain injuries[J]. Expert Review of Molecular Diagnostics, 11, 65-78(2011).

[11] Gyorgy A, Ling G, Wingo D et al. Time-dependent changes in serum biomarker levels after blast traumatic brain injury[J]. Journal of Neurotrauma, 28, 1121-1126(2011).

[12] Fu Z L, Li R Z, Li H Y et al. Progress in biomedical imaging based on terahertz quantum cascade lasers[J]. Chinese Journal of Lasers, 47, 0207014(2020).

[13] Wang Y Y, Jiang B Z, Xu D G et al. Continuous terahertz wave biological tissue imaging technology based on focal plane array[J]. Acta Optica Sinica, 41, 0711001(2021).

[14] Peng Y, Shi C J, Wu X et al. Terahertz imaging and spectroscopy in cancer diagnostics: a technical review[J]. BME Frontiers, 2020, 1-11(2020).

[15] Joseph C S, Patel R, Neel V A et al. Imaging of ex vivo nonmelanoma skin cancers in the optical and terahertz spectral regions optical and terahertz skin cancers imaging[J]. Journal of Biophotonics, 7, 295-303(2014).

[16] Wu L M, Liao B, Xu D G et al. Study of in-vivo breast cancer in a subcutaneous xenograft mouse model using terahertz imaging[J]. Journal of Infrared and Millimeter Waves, 39, 553-560(2020).

[17] Sim Y C, Park J Y, Ahn K M et al. Terahertz imaging of excised oral cancer at frozen temperature[J]. Biomedical Optics Express, 4, 1413-1421(2013).

[18] Xu D G, Wang Y Y, Hu C H et al. Optical terahertz radiation sources and terahertz application in traumatic brain injury[J]. Chinese Journal of Lasers, 48, 1914002(2021).

[19] Darmo J, Tamosiunas V, Fasching G et al. Imaging with a terahertz quantum cascade laser[J]. Optics Express, 12, 1879-1884(2004).

[20] Wu L M, Xu D G, Wang Y Y et al. Study of in vivo brain glioma in a mouse model using continuous-wave terahertz reflection imaging[J]. Biomedical Optics Express, 10, 3953-3962(2019).

[21] Wang Y Y, Wang G Q, Xu D G et al. Terahertz spectroscopic diagnosis of early blast-induced traumatic brain injury in rats[J]. Biomedical Optics Express, 11, 4085-4098(2020).

[22] Wang Y Y, Sun Z C, Xu D G et al. Detection of cerebral ischemia based on terahertz time-domain spectroscopy[J]. Acta Optica Sinica, 40, 0430001(2020).

[23] Zhao H L, Wang Y Y, Chen L Y et al. High-sensitivity terahertz imaging of traumatic brain injury in a rat model[J]. Journal of Biomedical Optics, 23, 036015(2018).

[24] Wang Y Y, Chen L Y, Xu D G et al. Three-dimensional reconstruction of rat brain trauma based on terahertz imaging[J]. Acta Optica Sinica, 39, 0317002(2019).

[25] Shi J, Wang Y Y, Chen T N et al. Automatic evaluation of traumatic brain injury based on terahertz imaging with machine learning[J]. Optics Express, 26, 6371-6381(2018).

[26] Wang Y F, Wang Y Y, Xu D G et al. Interference elimination based on the inversion method for continuous-wave terahertz reflection imaging[J]. Optics Express, 28, 21926-21939(2020).

[27] Liu H X, Wang Y Y, Xu D G et al. High-sensitivity attenuated total internal reflection continuous-wave terahertz imaging[J]. Journal of Physics D: Applied Physics, 50, 375103(2017).

[28] Wu L M, Xu D G, Wang Y Y et al. Common path continuous terahertz reflection and attenuated total reflection imaging[J]. Acta Physica Sinica, 70, 118701(2021).

[29] Yuan D F, Yang A, Ma C et al. Dose-effect relationship between shock wave intensity and blast lung injury in juvenile rats[J]. Chinese Journal of Medical Physics, 38, 780-784(2021).