Dementia Clinical Trial
Official title:
Research on the Early and Prognosis Diagnosis of Vascular Dementia
Around 10% of stroke survivors develop dementia within 3 months after stroke and over 20%
more stroke patients have dementia in the subsequent 3 years. Previous studies documented a
close relationship between stroke and Alzheimer's disease (AD). There are, however, no
reliable biomarkers to detect cognitive dysfunction and dementia among stroke patients or to
predict the risks of vascular dementia (VD) and AD among patients with stroke. There is a
clear need to identify novel mediators of cognitive dysfunction in stroke patients to
provide insights into the pathogenesis, to tailor clinical care based on risks, and to
develop new therapeutic strategies.
While the expression of messenger RNAs (mRNAs) and microRNAs (miRNAs) account for only ~1%
of all transcribed species, up to 90% of the mammalian genome is transcribed as long
non-coding RNAs (lncRNAs), a heterogeneous group of non-coding transcripts longer than 200
nucleotides. LncRNAs have been shown to be functional and involved in specific physiological
and pathological processes through epigenetic, transcriptional and post-transcriptional
mechanisms. While the roles of lncRNAs in human diseases including cancer and
neurodegenerative disorders are beginning to emerge, it remains unclear how lncRNA
regulation contributes to cognitive dysfunction and dementia in stroke patients.
In this proposal, we seek to apply next-generation sequencing technology to investigate
circulating lncRNA expression, as well as exosomal RNAs in the subjects with and without
cognitive dysfunction or dementia. In addition, we will apply the near-infrared spectroscopy
(NIRS) to evaluate cerebral blood flow, metabolism and oxygenation in these subjects. We
will test the hypothesis that circulating lncRNA/exosomal RNA signature and NIRS imagaing
can reflect the cognitive states in stroke patients. The accuracy, sensitivity and
specificity of the lncRNA-exosomal RNA-NIRS-based cognitive dysfunction scoring system will
then be tested in an independent, large validation cohort. Next, we propose to test the
hypothesis that circulating lncRNAs/exosomal RNA and NIRS imaging can be novel prognostic
biomarkers to predict cognitive dysfunction and dementia in stroke patients. These studies
will also establish a set of novel, lncRNA-based diagnostic and prognostic biomarker in
stroke patients to improve clinical preventive and therapeutic care.
Around 10% of stroke survivors develop dementia within 3 months after stroke and over 20%
more stroke patients have dementia in the subsequent 3 years. Previous studies documented a
close relationship between stroke and Alzheimer's disease (AD). There are, however, no
reliable biomarkers to detect cognitive dysfunction and dementia among stroke patients or to
predict the risks of vascular dementia (VD) and AD among patients with stroke. There is a
clear need to identify novel mediators of cognitive dysfunction in stroke patients to
provide insights into the pathogenesis, to tailor clinical care based on risks, and to
develop new therapeutic strategies.
It has become increasingly clear that the transcription of the eukaryotic genome is far more
pervasive and complex than previously appreciated. While the expression of messenger RNAs
(mRNAs) and microRNAs (miRNAs) account for only ~1% of all transcribed species, up to 90% of
the mammalian genome is transcribed as long non-coding RNAs (lncRNAs), a heterogeneous group
of non-coding transcripts longer than 200 nucleotides. LncRNAs have been shown to be
functional and involved in specific physiological and pathological processes through
epigenetic, transcriptional and post-transcriptional mechanisms. While the roles of lncRNAs
in human diseases including cancer and neurodegenerative disorders are beginning to emerge,
it remains unclear how lncRNA regulation contributes to cognitive dysfunction and dementia
in stroke patients. Exosomes are small vesicles of endocytic origin that are released into
the extracellular environment and may participate in signal transduction between cells.
Exosomes from central nervous system can penetrate blood brain barrier and can be collected
from serum. Recently, exosomes had been shown containing several kinds of important protein
and RNA and played roles in post diseased cell survival and death. Our previous studies
focus on the specific inflammatory responses in neurons receiving ischemic injury. We have
used blood samples in acute stroke patients to verify the relationship between specific
signaling proteins in inflammatory pathways and post stroke functional outcome. Besides, our
ongoing project also found that exosomes released from neurons with oxygen glucose
deprivation may be related to the post stroke inflammation.
NIR spectroscopy is a revolutionary new device allowing the measurement of oxygenated and
de-oxygenated hemoglobin concentrations in tissue. The device works by emitting Near
Infrared (NIR) light into tissue at known diffusion path from a detector. Once the
absorption and scattering are determined, the assumption that hemoglobin is the only
significant absorber is applied and the oxygenated and de-oxygenated hemoglobin
concentrations are calculated. The applications of the NIR spectroscopy include but are not
limited to Peripheral Vascular Disease, Cardiothoracic & Vascular Surgery, and Neurosurgery.
We have also developed a prototype of near-infrared spectroscopy. The preliminary findings
and possible clinical value of this technology has been proven.
In this proposal, we seek to apply next-generation sequencing technology to investigate
circulating lncRNA expression, as well as exosomal RNAs in the subjects with and without
cognitive dysfunction or dementia. In addition, we will apply the near-infrared spectroscopy
(NIRS) to evaluate cerebral blood flow, metabolism and oxygenation in these subjects. We
will test the hypothesis that circulating lncRNA/exosomal RNA signature and NIRS imagaing
can reflect the cognitive states in stroke patients. The accuracy, sensitivity and
specificity of the lncRNA-exosomal RNA-NIRS-based cognitive dysfunction scoring system will
then be tested in an independent, large validation cohort. Next, we propose to test the
hypothesis that circulating lncRNAs/exosomal RNA and NIRS imaging can be novel prognostic
biomarkers to predict cognitive dysfunction and dementia in stroke patients. These studies
will also establish a set of novel, lncRNA-based diagnostic and prognostic biomarker in
stroke patients to improve clinical preventive and therapeutic care.
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