This K01 award will support my development as an independent investigator with a translational research program that specializes in the cognitive and biological basis of neurodegenerative diseases such as frontotemporal lobar degeneration (FTLD). Candidate: My research experience as a cognitive neuroscientist ideally positions me to achieve my career goal of becoming an independent investigator with expertise on the cognitive and biological basis of neurodegenerative disease. I have strong cognitive training with an M.Sc in Psycholinguistics and Ph.D in Psychology from the University of Edinburgh, where I was supported by an NRSA Individual Predoctoral Award. During my postdoctoral IGERT fellowship at the Institute for Research in Cognitive Science at the University of Pennsylvania, I was awarded an NRSA Individual Postdoctoral Fellowship Award to investigate the role of decision-making in language. In this research I have gained experience investigating neurodegenerative disease patients comparatively in order to obtain converging evidence to complement fMRI studies of healthy adults. I have become increasingly interested in translating my research to optimize the diagnosis and treatment of patients with neurodegenerative diseases. I was recently award the Society for the Neurobiology of Language Postdoctoral Merit Award in recognition of my novel research investigating how social limitations in patients contribute to difficulty in discourse. I have committed to four years of clinical research the NIH Loan Repayment Program, and I intend to commit to clinical research for the duration of my career. I have learned that cognitive and neuroimaging studies provide only one perspective on neurodegenerative diseases. In this proposal, I plan to gain the necessary expertise in biological aspects of FTLD and related conditions to complement my past experiences, and thus achieve my goal of becoming a multifaceted independent investigator with expertise in the cognitive and biological basis for neurodegenerative diseases. With the support of this K01, I will develop expertise to conduct investigations of cerebrospinal fluid (CSF), genetic, and neuropathological aspects of neurodegenerative diseases. I will ultimately integrate the biological expertise gained in this proposal with language studies from my cognitive neuroscience research in an effort to identify non-invasive biomarkers that can be used to screen patients for clinical trials and to measure the efficacy of disease-modifying agents. Environment: This award will be conducted at the Perelman School of Medicine at the University of Pennsylvania in the Department of Neurology, the Center for Neurodegenerative Disease Research (CNDR), and the Penn Bioinformatics Center where I have strong institutional support. The proposed institution is an exceptional environment that has expert centers for neuroimaging, cerebrospinal fluid biomarker analysis, a leading genetic research core, expert neuropathology, outstanding biostatisical support, and relevant clinical research laboratories. The University of Pennsylvania is unique in comparison to other institutions in the country because all of the above methods are available in one center. My mentor, Dr. Murray Grossman, and my co-mentor, Dr. John Trojanowksi, have international reputations for neurodegenerative disease research. My career development will also be supported by my co-mentor, Dr. Lyle Ungar, who has extensive expertise in statistical learning algorithms and in the analysis of proteomic and genomics datasets. Together, this mentorship team will facilitate my development as an independent investigator by providing access to existing and future collaborators, laboratory resources, and exceptional training environments. The CNDR is a world- leading center for neurodegenerative disease research with human and animal models of disease and exceptional translational science. Biofluid biomarker experience is extensive, and several national biofluid cores are centered at Penn (e.g. ADNI). There is a wealth of internationally-recognized neuroimaging expertise at the University of Pennsylvania in the Penn Imaging and Computer Science Laboratory, and I will benefit by integrating neuroimaging resources from these facilities with other modalities of biomarker research. Training: I will develop my expertise in the biological basis of neurodegenerative disease with the support of my mentor, Dr. Murray Grossman, and my co-mentors, Dr. John Trojanowski and Dr. Lyle Ungar. Specifically, with Dr. Trojanowksi I will engage in training related to biofluid and genetic biomarkers of FTLD. I will develop advanced neuroimaging skills and cutting-edge biostatistical methods with Dr. Ungar. Each of these training modalities will be supported by complementary formal coursework, participation in seminars, attendance of conferences, and regularly scheduled meetings with mentorship team. Research: FTLD is a neurodegenerative disease affecting approximately 15 out of 100,000 individuals. In recent years detailed neuropathological investigations at autopsy have demonstrated distinct sources of histopathological abnormalities in FTLD, including the presence of tau inclusions (FTLD-tau) and TDP-43 proteinopathies (FTLD-TDP). However, there are currently no in vivo methods for discriminating between FTLD-tau and FTLD-TDP. There is an urgent need to improve the in vivo diagnosis of FTLD to appropriately enter patients into emerging clinical trials, and to develop sensitive and specific endpoints in trials that can quantify response to these treatments. The overall research aim of this proposal is to develop multimodal methods to improve in vivo diagnosis of FTLD.

Public Health Relevance

Frontotemporal lobar degeneration (FTLD) affects approximately 15 out of 100,000 adults. Detailed neuropathological investigations at autopsy have identified two distinct sources of histopathological changes that contribute to FTLD. However, there are currently no in vivo methods for diagnosing pathological subtypes of FTLD. There is an urgent need to identify in vivo diagnosis methods to facilitate the identification of appropriate patients to enter into emerging disease-modifying drug treatment trials. The overall aim of this project is to identify multimodal biomarkers of FTLD.

Agency
National Institute of Health (NIH)
Institute
National Institute on Aging (NIA)
Type
Research Scientist Development Award - Research & Training (K01)
Project #
5K01AG043503-03
Application #
8849803
Study Section
Neuroscience of Aging Review Committee (NIA)
Program Officer
Hsiao, John
Project Start
2013-08-01
Project End
2016-05-31
Budget Start
2015-06-01
Budget End
2016-05-31
Support Year
3
Fiscal Year
2015
Total Cost
Indirect Cost
Name
University of Pennsylvania
Department
Neurology
Type
Schools of Medicine
DUNS #
042250712
City
Philadelphia
State
PA
Country
United States
Zip Code
19104
Lleó, Alberto; Irwin, David J; Illán-Gala, Ignacio et al. (2018) A 2-Step Cerebrospinal Algorithm for the Selection of Frontotemporal Lobar Degeneration Subtypes. JAMA Neurol 75:738-745
Irwin, David J; Xie, Sharon X; Coughlin, David et al. (2018) CSF tau and ?-amyloid predict cerebral synucleinopathy in autopsied Lewy body disorders. Neurology 90:e1038-e1046
Massimo, Lauren; Xie, Sharon X; Rennert, Lior et al. (2018) Occupational attainment influences longitudinal decline in behavioral variant frontotemporal degeneration. Brain Imaging Behav :
Alcolea, Daniel; Irwin, David J; Illán-Gala, Ignacio et al. (2018) Elevated YKL-40 and low sAPP?:YKL-40 ratio in antemortem cerebrospinal fluid of patients with pathologically confirmed FTLD. J Neurol Neurosurg Psychiatry :
McMillan, Corey T; Lee, Edward B; Jefferson-George, Kyra et al. (2018) Alzheimer's genetic risk is reduced in primary age-related tauopathy: a potential model of resistance? Ann Clin Transl Neurol 5:927-934
Phillips, Jeffrey S; Das, Sandhitsu R; McMillan, Corey T et al. (2018) Tau PET imaging predicts cognition in atypical variants of Alzheimer's disease. Hum Brain Mapp 39:691-708
Robinson, John L; Lee, Edward B; Xie, Sharon X et al. (2018) Neurodegenerative disease concomitant proteinopathies are prevalent, age-related and APOE4-associated. Brain 141:2181-2193
Olm, Christopher A; McMillan, Corey T; Irwin, David J et al. (2018) Longitudinal structural gray matter and white matter MRI changes in presymptomatic progranulin mutation carriers. Neuroimage Clin 19:497-506
Ferraro, Pilar M; Jester, Charles; Olm, Christopher A et al. (2018) Perfusion alterations converge with patterns of pathological spread in transactive response DNA-binding protein 43 proteinopathies. Neurobiol Aging 68:85-92
Nasrallah, Ilya M; Chen, Yin Jie; Hsieh, Meng-Kang et al. (2018) 18F-Flortaucipir PET/MRI Correlations in Nonamnestic and Amnestic Variants of Alzheimer Disease. J Nucl Med 59:299-306

Showing the most recent 10 out of 56 publications