Nanyin Zhang PHD
Title Assistant Professor
Institution University of Massachusetts Medical School
Department Psychiatry
Address University of Massachusetts Medical School
 303 Belmont Street
 Worcester MA 01605
Telephone 508-856-6452
Email
Other Positions
Institution UMMS - Graduate School of Biomedical Sciences
Department Neuroscience
Narrative

 

Education

2005      Ph.D.           University of Minnesota, USA (Biomedical Engineering)
2000      B.Eng.         Zhejiang University, China (Biomedical Engineering)

 

Academic appointments

2009~present        Assistant Professor        University of Massachusetts
2008~2009            Research Assistant Professor      University of Minnesota
2006~2008            Research Associate         University of Minnesota
2005~2006            Postdoctoral Associate    University of Minnesota

 

Functional Magnetic Resonance Imaging

Functional Magnetic Resonance Imaging (fMRI) is a technique that can noninvasively map brain activation with a very high spatial resolution and a large field of view. This technique, which has been widely used for investigating various brain functions, is based on locally coupled neuronal activity and hemodynamic changes (also called neurovascular coupling). At activated brain regions, cerebral blood flow increases overcompensate oxygen consumption rate increases in response to a higher demand of energy, resulting in a local oxygenation level change which can be detected in MR images.  Therefore, the signal source of fMRI is termed the blood-oxygenation-level dependent (BOLD) signal.

The research in our lab encompasses both the mechanism of fMRI and fMRI applications. Specifically, our research is designed to quantitatively bridge the gap between the BOLD signal and the underlying neuronal activity by using simultaneous multi-modal (EEG and fMRI) acquisition. We also study the mechanism and spatiotemporal characteristics of the BOLD signal. We have the ability of obtaining high-resolution fMRI on a submillimeter scale so that we can map elementary functional structures (e.g. columns) in the brain. By designing novel paradigms, we are developing approaches to extract fast temporal information (in tens to hundreds of milliseconds) of neural interaction using the slow BOLD signal.

 

Resting State and psychiatric disorders

Normal brain consists of numerous neural networks coordinately working together. For the brain to function properly, the activities of these neural networks need to harmonize sequentially or concurrently while electrophysiological signals propagate along different neuronal groups. As a result, investigating the functions of neural networks and their relationships plays a fundamental role in neuroscience. This task is conventionally explored with studies of the brain responses to carefully controlled sensory, cognitive and motor events. Nevertheless, a series of recent studies demonstrate patterned activities exist within various brain networks during resting and passive task states. Distributed brain regions spontaneously increase and decrease their activity together within functional-anatomic networks, even under anesthesia. These studies led to a hypothesis that the human brain is intrinsically organized into dynamic, anti-correlated functional networks.

In our lab, we use fMRI to investigate resting state functional connectivity in several animal models. Our research is designed to examine whether connectivity among various brain regions will change in different psychiatric disease models.
Publications
1. Klosky JL, Hum AM, Zhang N, Ali KS, Srivastava DK, Klesges RC, Emmons KM, Ness KK, Stovall M, Robison LL, Hudson MM. Smokeless and dual tobacco use among males surviving childhood cancer: a report from the childhood cancer survivor study. Cancer Epidemiol Biomarkers Prev. 2013 Jun; 22(6):1025-9.
  View in: PubMed
 
2. He Z, Deng W, Li M, Chen Z, Jiang L, Wang Q, Huang C, Collier DA, Gong Q, Ma X, Zhang N, Li T. Aberrant intrinsic brain activity and cognitive deficit in first-episode treatment-naive patients with schizophrenia. Psychol Med. 2012 Aug 10; 1-12.
  View in: PubMed
 
3. Liang Z, King J, Zhang N. Intrinsic organization of the anesthetized brain. J Neurosci. 2012 Jul 25; 32(30):10183-91.
  View in: PubMed
 
4. Fulwiler CE, King JA, Zhang N. Amygdala-orbitofrontal resting-state functional connectivity is associated with trait anger. Neuroreport. 2012 Jul 11; 23(10):606-10.
  View in: PubMed
 
5. Wakai T, Vanderheyden V, Yoon SY, Cheon B, Zhang N, Parys JB, Fissore RA. Regulation of inositol 1,4,5-trisphosphate receptor function during mouse oocyte maturation. J Cell Physiol. 2012 Feb; 227(2):705-17.
  View in: PubMed
 
6. Zhang N, Wakai T, Fissore RA. Caffeine alleviates the deterioration of Ca(2+) release mechanisms and fragmentation of in vitro-aged mouse eggs. Mol Reprod Dev. 2011 Sep; 78(9):684-701.
  View in: PubMed
 
7. Liang Z, King J, Zhang N. Anticorrelated resting-state functional connectivity in awake rat brain. Neuroimage. 2012 Jan 16; 59(2):1190-9.
  View in: PubMed
 
8. Liang Z, King J, Zhang N. Uncovering intrinsic connectional architecture of functional networks in awake rat brain. J Neurosci. 2011 Mar 9; 31(10):3776-83.
  View in: PubMed
 
9. Huang W, Heffernan ME, Li Z, Zhang N, Overstreet DH, King JA. Fear induced neuronal alterations in a genetic model of depression: An fMRI study on awake animals. Neurosci Lett. 2011 Feb 4; 489(2):74-8.
  View in: PubMed
 
10. Zhang N, Zhu XH, Yacoub E, Ugurbil K, Chen W. Functional MRI mapping neuronal inhibition and excitation at columnar level in human visual cortex. Exp Brain Res. 2010 Aug; 204(4):515-24.
  View in: PubMed
 
11. Zhang N, Rane P, Huang W, Liang Z, Kennedy D, Frazier JA, King J. Mapping resting-state brain networks in conscious animals. J Neurosci Methods. 2010 Jun 15; 189(2):186-96.
  View in: PubMed
 
12. Zhang N, Zhu XH, Zhang Y, Park JK, Chen W. High-resolution fMRI mapping of ocular dominance layers in cat lateral geniculate nucleus. Neuroimage. 2010 May 1; 50(4):1456-63.
  View in: PubMed
 
13. Liu Z, Rios C, Zhang N, Yang L, Chen W, He B. Linear and nonlinear relationships between visual stimuli, EEG and BOLD fMRI signals. Neuroimage. 2010 Apr 15; 50(3):1054-66.
  View in: PubMed
 
14. Zhang N, Yacoub E, Zhu XH, Ugurbil K, Chen W. Linearity of blood-oxygenation-level dependent signal at microvasculature. Neuroimage. 2009 Nov 1; 48(2):313-8.
  View in: PubMed
 
15. Ding L, Zhang N, Chen W, He B. Three-dimensional imaging of complex neural activation in humans from EEG. IEEE Trans Biomed Eng. 2009 Aug; 56(8):1980-8.
  View in: PubMed
 
16. Liu Z, Zhang N, Chen W, He B. Mapping the bilateral visual integration by EEG and fMRI. Neuroimage. 2009 Jul 15; 46(4):989-97.
  View in: PubMed
 
17. Bai X, Liu Z, Zhang N, Chen W, He B. Three-dimensional source imaging from simultaneously recorded ERP and BOLD-fMRI. IEEE Trans Neural Syst Rehabil Eng. 2009 Apr; 17(2):101-6.
  View in: PubMed
 
18. Zhu XH, Zhang N, Zhang Y, Ugurbil K, Chen W. New insights into central roles of cerebral oxygen metabolism in the resting and stimulus-evoked brain. J Cereb Blood Flow Metab. 2009 Jan; 29(1):10-8.
  View in: PubMed
 
19. Zhang N, Zhu XH, Chen W. Investigating the source of BOLD nonlinearity in human visual cortex in response to paired visual stimuli. Neuroimage. 2008 Nov 1; 43(2):204-12.
  View in: PubMed
 
20. Zhang N, Zhu XH, Zhang Y, Chen W. An fMRI study of neural interaction in large-scale cortico-thalamic visual network. Neuroimage. 2008 Sep 1; 42(3):1110-7.
  View in: PubMed
 
21. Du F, Zhu XH, Zhang Y, Friedman M, Zhang N, Ugurbil K, Chen W. Tightly coupled brain activity and cerebral ATP metabolic rate. Proc Natl Acad Sci U S A. 2008 Apr 29; 105(17):6409-14.
  View in: PubMed
 
22. Zhang N, Liu Z, He B, Chen W. Noninvasive study of neurovascular coupling during graded neuronal suppression. J Cereb Blood Flow Metab. 2008 Feb; 28(2):280-90.
  View in: PubMed
 
23. Zhu XH, Zhang Y, Zhang N, Ugurbil K, Chen W. Noninvasive and three-dimensional imaging of CMRO(2) in rats at 9.4 T: reproducibility test and normothermia/hypothermia comparison study. J Cereb Blood Flow Metab. 2007 Jun; 27(6):1225-34.
  View in: PubMed
 
24. Im CH, Gururajan A, Zhang N, Chen W, He B. Spatial resolution of EEG cortical source imaging revealed by localization of retinotopic organization in human primary visual cortex. J Neurosci Methods. 2007 Mar 30; 161(1):142-54.
  View in: PubMed
 
25. Im CH, Liu Z, Zhang N, Chen W, He B. Functional cortical source imaging from simultaneously recorded ERP and fMRI. J Neurosci Methods. 2006 Oct 15; 157(1):118-23.
  View in: PubMed
 
26. Zhang N, Chen W. A dynamic fMRI study of illusory double-flash effect on human visual cortex. Exp Brain Res. 2006 Jun; 172(1):57-66.
  View in: PubMed
 
27. Zhang N, Zhu XH, Chen W. Influence of gradient acoustic noise on fMRI response in the human visual cortex. Magn Reson Med. 2005 Aug; 54(2):258-63.
  View in: PubMed
 
28. Zhu XH, Zhang N, Zhang Y, Zhang X, Ugurbil K, Chen W. In vivo 17O NMR approaches for brain study at high field. NMR Biomed. 2005 Apr; 18(2):83-103.
  View in: PubMed
 
29. Zhang N, Zhu XH, Lei H, Ugurbil K, Chen W. Simplified methods for calculating cerebral metabolic rate of oxygen based on 17O magnetic resonance spectroscopic imaging measurement during a short 17O2 inhalation. J Cereb Blood Flow Metab. 2004 Aug; 24(8):840-8.
  View in: PubMed
 
30. Zhu XH, Zhang Y, Tian RX, Lei H, Zhang N, Zhang X, Merkle H, Ugurbil K, Chen W. Development of (17)O NMR approach for fast imaging of cerebral metabolic rate of oxygen in rat brain at high field. Proc Natl Acad Sci U S A. 2002 Oct 1; 99(20):13194-9.
  View in: PubMed
 
For assistance with using Profiles, please refer to the online tutorials or contact UMMS Help Desk or call 508-856-8643.
 
Keyword
Last Name
Institution
    
 
 
 
Co-Authors  
Frazier, Jean
Fulwiler, Carl
Kennedy, David
King, Jean
See all (4) people
Physical Neighbors  
Moore, Constance
King, Jean
Gardner, Paul
Zhao-Shea, Rubing
Akbarian, Schahram

UMMS Home

Intranet

This is an official Page/Publication of the University of Massachusetts Worcester Campus
Office of the Vice Provost for Research, 55 Lake Ave North, Worcester, Massachusetts 01655
Questions or Comments? Email: publicaffairs@umassmed.edu Phone: 508-856-1572