AND ABSTRACT Patent foramen ovale (PFO), a residual tunnel between the right and left atria, is associated with more than 150,000 strokes per year in the US alone. PFOs facilitate paradoxical embolism by allowing venous clots to travel directly to the brain. But only a small portion (10-17%) of PFO stroke patients have a known tendency to form venous clots: we propose to explore PFO physiology as a contributor to prothrombotic condition in the 80- 90% of patients without known hypercoagulable state. Since PFOs are common in the general population (25- 30% of adults), and recent clinical trials excluded 80% high risk individuals, there is a dire need to understand the mechanism of PFO stroke better to individualize treatment. The original ESI R01 project hypothesized that the PFO physiology may create a procoagulable condition. And with a combined translational approach we examined intra-atrial blood before and after endovascular PFO closure and have identified circulating factors indicative of the degree of PFO-related shunting, an important recurrent risk marker. In this renewal, we aim to: 1) Construct and validate a panel of biomarkers to measure the PFO-related shunting state from baseline venous blood. The panel will be tested in a prospectively enrolled cohort of PFO stroke patients, and compared to shunting as reported by echocardiogram, with non-PFO stroke controls. 2) Assess the effect of novel PFO-related clinical risk factors in predicting stroke recurrence, both independently and in combination with the biomarker panel. 3) Explore the functional effect of homocysteine (Hcy) on human brain endothelium in cell culture. Hcy is the marker most affected by PFO closure, and has been implicated in white matter disease and blood-brain-barrier injury. It is hypothesized to participate in multiple pathways relevant to the PFO shunting circulatory state which this study aims to explore. In this resubmission for the first R01 renewal, we are deeply grateful for the reviewers? overall enthusiasm and constructive comments. We have revised this resubmission extensively in response to all the reviewers? critiques including: 1) addition of new detailed statistical analysis and power analysis for each aim; 2) addition of new senior biostatistician; 3) providing new data as requested; 4) re-designing the study to avoid selection bias with plan for multi-center collaboration; 5) including new non-PFO stroke control arm; 6) providing feasibility of recruitment and methods in new publications. Ultimately, the project aims to investigate mechanisms of PFO physiology and validate markers that individualize clinical decision-making with novel PFO-specific risk factors, by providing clinicians with practical means, such as a blood test, to assess individual patients? risk of PFO-related stroke or neurovascular injury.

Public Health Relevance

Patent foramen ovale (PFO) is common in the general population (25-30% of adults) and causes more than 150,000 strokes per year. Recent clinical trials suggest a benefit of endovascular PFO closure in some cases, but the lack of understanding of underlying pathophysiology leaves clinicians without clear guidance on treatment for individual patients. Using a combined translational clinical and cell biology approach, we examine the PFO state as a chronic circulatory condition characterized by inappropriate heart-brain signaling that increases risk of neurovascular injury; this knowledge may eventually lead to a simple blood test capable of gauging a patient's risk of PFO-related stroke.

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
2R01NS067139-06A1
Application #
9740652
Study Section
Acute Neural Injury and Epilepsy Study Section (ANIE)
Program Officer
Koenig, James I
Project Start
2010-07-01
Project End
2024-03-31
Budget Start
2019-04-01
Budget End
2020-03-31
Support Year
6
Fiscal Year
2019
Total Cost
Indirect Cost
Name
Massachusetts General Hospital
Department
Type
DUNS #
073130411
City
Boston
State
MA
Country
United States
Zip Code
02114
Deng, Wenjun; Cao, Jing; Chen, Lei et al. (2018) Plasma Glycoproteomic Study of Therapeutic Hypothermia Reveals Novel Markers Predicting Neurologic Outcome Post-cardiac Arrest. Transl Stroke Res 9:64-73
Chen, Lei; Deng, Wenjun; Palacios, Igor et al. (2016) Patent foramen ovale (PFO), stroke and pregnancy. J Investig Med 64:992-1000
Lopez, Mary F; Krastins, Bryan; Sarracino, David A et al. (2015) Proteomic signatures of serum albumin-bound proteins from stroke patients with and without endovascular closure of PFO are significantly different and suggest a novel mechanism for cholesterol efflux. Clin Proteomics 12:2
Meng, Ran; Wang, Xiaoying; Hussain, Mohammed et al. (2014) Evaluation of plasma D-dimer plus fibrinogen in predicting acute CVST. Int J Stroke 9:166-73
Ning, M M; Lopez, M; Sarracino, D et al. (2013) Pharmaco-proteomics opportunities for individualizing neurovascular treatment. Neurol Res 35:448-56
Ning, Mingming; Lo, Eng H; Ning, Pei-Chen et al. (2013) The brain's heart - therapeutic opportunities for patent foramen ovale (PFO) and neurovascular disease. Pharmacol Ther 139:111-23
Cao, Jing; Guo, Shuzhen; Arai, Ken et al. (2013) Studying extracellular signaling utilizing a glycoproteomic approach: lectin blot surveys, a first and important step. Methods Mol Biol 1013:227-33
Fan, Xiang; Ning, Mingming; Lo, Eng H et al. (2013) Early insulin glycemic control combined with tPA thrombolysis reduces acute brain tissue damages in a focal embolic stroke model of diabetic rats. Stroke 44:255-9
Lopez, Mary F; Sarracino, David A; Prakash, Amol et al. (2012) Discrimination of ischemic and hemorrhagic strokes using a multiplexed, mass spectrometry-based assay for serum apolipoproteins coupled to multi-marker ROC algorithm. Proteomics Clin Appl 6:190-200
Meng, Ran; Yan, Wu; Wang, Xiaoying et al. (2012) CVST, distinguished from nonthrombotic CVSS before treatment - a MUST. Int J Stroke 7:274

Showing the most recent 10 out of 28 publications