Ma Y, Zhu LZ, Pan YX. Tuberculosis. Beijing: People’s Medical Publishing House,2006:1.

Gao YG, Cai YQ, Cai ZL. Magnetic Resonance Imaging Diagnosis. Beijing: People's Military Medical Press,2005:185-186.

Dastur DK. Manghani DK, Udani PM. Pathogenic mechanisms in neurotuberculosis. Radiol Clin North Am, 1995,33(4):733.

Gupta RK, Gupta S, Singh D, et al. MR imaging and angiography in tuberculous meningitis. Neuroradiology, 1994,36:87.

Wang LJ, Yuan SG, Wang JP, et al. MRI diagnosis of tuberculous meningitis. J Pract Radiol, 2009,25(3):443-445.

Garg RK. Tuberculosis of the central nervous system. Postgrad Med, 1999, 75: 133.

Meng YF, Li KC, Zhang NC. MRI diagnosis of intracranial tuberculomas. Chin J Radiol, 1999,33(10):680-683.

Li WF, Ma LG, Bao HH, et al. MR imaging of brain tuberculoma. J Clin Radiol, 2001,20(12):905-907.

Chen WW, Chen H, Qi JP, et al. MR diagnosis of intracranial multituberculoma. Radiol Pract, 2003,18(9):632-634.

Tae Kyoung K, Kee Hyun C, Chong Jai K, et al. Tuberculoma: comparison of MR with pathologic findings. AJNR Am J Neuroradiol, 1995, 16: 1903.

Peng RC, Shen XZ, Gao HF, et al. MRI study of cerebral miliary tuberculosis, Chin J Radiol, 2006,40(12):1254-1255.

Saxena S, Prakash M, Kumar S, et al. Comparative evaluation of magnetization transfer contrast and fluid attenuated inversion recovery sequences in brain tuberculoma. Clin Radiol, 2005,60(7):787-793.

Gupta RK, Kathuria MK, Pradhan S. Magnetization transfer MR imaging in CNS tuberculosis. AJNR Am J Neuroradiol, 1999,20(5):867-875.

Pui MH, Ahmad MN. Magnetization transfer imaging diagnosis of intracranial tuberculomas. Neuroradiology, 2002,44(3):210-205.

Li ZF, Tian W, Li YC, et al. Role of DWI and 1H-MRS in the differential diagnosis of ring-enhancedenhanced intracranial cystic lesions. Chin J Radiol,2006,40(5):462-466.

Gupta RK, Husain M, Vatsal DK, et al. Comparative evaluation of magnetization transfer MR imaging and in-vivo proton MR spectroscopy in brain tuberculomas. Magn Reson Imaging, 2002, 20(5):375-381.

Peng J, Luo TY, Lv FJ, et al. Value of 1H-MR spectroscopy in differentiating diagnosis of intra-axial tuberculoma,high-grade glioma,and metastatic brain tumor. Acta Academiae Medicinae Militaris Tertiae,2009,31(12):1213-1216.

Kaminogo M, Ishimaru H, Morikawa M, et al. Proton MR spectroscopy and diffusion-weighted MR imaging for the diagnosis of intracranial tuberculomas. Report of two cases. Neurol Res, 2002, 24(6):537-543.

Gupta RK, Prakash M, Mishra AM, et al. Role of diffusion weighted imaging in differentiation of intracranial tuberculoma and tuberculous abscess from cysticercus granulomas-a report of more than 100 lesions. Eur J Radiol, 2005, 55(3):384-392.

Peng J, Luo TY, Lv FJ, et al. The value of diffusion weighted imaging in differentiating intracranial tuberculomas from high-grade astrocytomas and metastases. Chin J Radiol, 2007,41(9):926-930.

Vasudev MK, Jayakumar PN, Srikanth SG, et al. Quantitative magnetic resonance techniques in the evaluation of intracranial tuberculomas. Acta Radiologica, 2007,48(2):200-206.

Gupta RK, Haris M, Husain N, et al. Relative cerebral blood volume is a measure of angiogenesis in brain tuberculoma. Comput Assist Tomogr, 2007,31(3):335-341.

Haris M, Gupta RK, Husain M, et al. Assessment of therapeutic response in brain tuberculomas using serial dynamic contrast-enhanced MRI. Clin Radiol, 2008,63(5):562-574.

Rivera-Marrero CA, Schuyler W, Roser S, et al. Tuberculosis induction of matrix metalloproteinase-9: The role of mannose and receptor mediated mechanisms. Am J Physiol Cell Mol Physiol, 2002,282(3):546-555.

Haris M, Husain N, Singh A, et al. Dynamic contrast-enhanced (DCE) derived transfer coefficient(Ktrans) is a surrogate marker of matrix metalloproteinase 9 (MMP-9) expression in brain tuberculomas. Magn Reson Imaging, 2008, 28(3):588-597.