Location:Home>Scientist>Faculty and Staff
Kong Yazhuo
Mailing Address:  16 Lincui Road, Chaoyang District, Beijing 100101, China
Email:  kongyz@psych.ac.cn
Website:  http://linip.psych.ac.cn
Research Interests:
Community service:
Selected Publications:

1. Chen X. *, Li H. *, Zhang Q., Wang J., Zhang W., Liu J., Li B., Xin Z., Liu J., Yin H., Chen J. #, Kong Y.#, Luo W. #, 2019. Combined fractional anisotropy and subcortical volumetric abnormalities in healthy immigrants to high altitude: A longitudinal study. Hum. Brain Mapp. 23, 3855. doi:10.1002/hbm.24696  

2. Kong Y, Okoruwa H, Revis J, Leite M, Lee M, Tracey I, Palace P. (2016) Pain in patients with transverse myelitis and its relationship to aquaporin 4 antibody status. Pain. Journal of the Neurological Sciences 368, 84-88.  

3. Eippert F*, Kong Y*, Beckmann C, Andersson J, Finsterbusch J, Bu?chel C, Brooks JCW, Tracey I. (2017) Investigating resting-state functional connectivity in the cervical spinal cord at 3T. NeuroImage. 147, 589–601.  

4. Tseng TM, Kong Y, Eippert F and Tracey I. (2017) Determining the neural substrate for encoding a memory of human pain and the influence of anxiety. Journal of Neuroscience. 2 November 2017, 0750-17 

5. Kong Y*, Eippert F*, Beckmann C, Andersson J, Finsterbusch J, Bu?chel C, Tracey I, Brooks JCW (2014) “Resting State Networks of the Human Cervical Spinal Cord”, Proc Natl Acad Sci. vol. 111 no. 50, 18067-18072  

6. Kong, Y., Jenkinson, M., Andersson, J., Tracey, I., & Brooks, J. C. W. (2012) Assessment of physiological noise modelling methods for functional imaging of the spinal cord. NeuroImage, 60(2), 1538–1549 

7. Kong Y, Mukherjee T, McKie S, Deakin J and Williams S. (2009) Analysis of connectivity in the resting state of the default mode of brain function: a major role for the cerebellum? International Journal of Modelling, Identification and Control Vol. 9, No.3, pp. 236 – 246.  

8. Kong Y, Zheng Y, Johnston D, Martindale J, Jones M, Billings S, Mayhew J (2004). A model of the dynamic relationship between blood flow and volume changes during brain activation. J Cereb Blood Flow Metab 24, 1382-1392.