8 research outputs found
New Computer-Aided Diagnosis of Dementia Using Positron Emission Tomography: Brain Regional Sensitivity-Mapping Method
Purpose: We devised a new computer-aided diagnosis method to segregate dementia using one estimated index (Total Z
score) derived from the Brodmann area (BA) sensitivity map on the stereotaxic brain atlas. The purpose of this study is to
investigate its accuracy to differentiate patients with Alzheimer’s disease (AD) or mild cognitive impairment (MCI) from
normal adults (NL).
Methods: We studied 101 adults (NL: 40, AD: 37, MCI: 24) who underwent 18FDG positron emission tomography (PET)
measurement. We divided NL and AD groups into two categories: a training group with (Category A) and a test group
without (Category B) clinical information. In Category A, we estimated sensitivity by comparing the standard uptake value
per BA (SUVR) between NL and AD groups. Then, we calculated a summated index (Total Z score) by utilizing the sensitivitydistribution
maps and each BA z-score to segregate AD patterns. To confirm the validity of this method, we examined the
accuracy in Category B. Finally, we applied this method to MCI patients.
Results: In Category A, we found that the sensitivity and specificity of differentiation between NL and AD were all 100%. In
Category B, those were 100% and 95%, respectively. Furthermore, we found this method attained 88% to differentiate ADconverters
from non-converters in MCI group.
Conclusions: The present automated computer-aided evaluation method based on a single estimated index provided good
accuracy for differential diagnosis of AD and MCI. This good differentiation power suggests its usefulness not only for
dementia diagnosis but also in a longitudinal study.浜松医科大学学位論文 医博第695号(平成27年3月16日
Correlation Index-Based Responsible-Enzyme Gene Screening (CIRES), a Novel DNA Microarray-Based Method for Enzyme Gene Involved in Glycan Biosynthesis
BACKGROUND: Glycan biosynthesis occurs though a multi-step process that requires a variety of enzymes ranging from glycosyltransferases to those involved in cytosolic sugar metabolism. In many cases, glycan biosynthesis follows a glycan-specific, linear pathway. As glycosyltransferases are generally regulated at the level of transcription, assessing the overall transcriptional profile for glycan biosynthesis genes seems warranted. However, a systematic approach for assessing the correlation between glycan expression and glycan-related gene expression has not been reported previously. METHODOLOGY: To facilitate genetic analysis of glycan biosynthesis, we sought to correlate the expression of genes involved in cell-surface glycan formation with the expression of the glycans, as detected by glycan-recognizing probes. We performed cross-sample comparisons of gene expression profiles using a newly developed, glycan-focused cDNA microarray. Cell-surface glycan expression profiles were obtained using flow cytometry of cells stained with plant lectins. Pearson's correlation coefficients were calculated for these profiles and were used to identify enzyme genes correlated with glycan biosynthesis. CONCLUSIONS: This method, designated correlation index-based responsible-enzyme gene screening (CIRES), successfully identified genes already known to be involved in the biosynthesis of certain glycans. Our evaluation of CIRES indicates that it is useful for identifying genes involved in the biosynthesis of glycan chains that can be probed with lectins using flow cytometry
Nucleic acid-based fluorescent probes and their analytical potential
It is well known that nucleic acids play an essential role in living organisms because they store and transmit genetic information and use that information to direct the synthesis of proteins. However, less is known about the ability of nucleic acids to bind specific ligands and the application of oligonucleotides as molecular probes or biosensors. Oligonucleotide probes are single-stranded nucleic acid fragments that can be tailored to have high specificity and affinity for different targets including nucleic acids, proteins, small molecules, and ions. One can divide oligonucleotide-based probes into two main categories: hybridization probes that are based on the formation of complementary base-pairs, and aptamer probes that exploit selective recognition of nonnucleic acid analytes and may be compared with immunosensors. Design and construction of hybridization and aptamer probes are similar. Typically, oligonucleotide (DNA, RNA) with predefined base sequence and length is modified by covalent attachment of reporter groups (one or more fluorophores in fluorescence-based probes). The fluorescent labels act as transducers that transform biorecognition (hybridization, ligand binding) into a fluorescence signal. Fluorescent labels have several advantages, for example high sensitivity and multiple transduction approaches (fluorescence quenching or enhancement, fluorescence anisotropy, fluorescence lifetime, fluorescence resonance energy transfer (FRET), and excimer-monomer light switching). These multiple signaling options combined with the design flexibility of the recognition element (DNA, RNA, PNA, LNA) and various labeling strategies contribute to development of numerous selective and sensitive bioassays. This review covers fundamentals of the design and engineering of oligonucleotide probes, describes typical construction approaches, and discusses examples of probes used both in hybridization studies and in aptamer-based assays
Functional arterial stiffness assessed by changes in pulse wave velocity after exercise reflects the severity of atherosclerosis in hypertensive patients with or without type 2 diabetes mellitus
Objective: The purpose of this study was to determine whether or not functional arterial stiffness, as assessed by changes in brachial-ankle pulse wave velocity (ba-PWV) after exercise, reflects the severity of atherosclerosis in hypertensive patients with or without type 2 diabetes mellitus (DM). Methods: Treated hypertensive patients were divided into hypertension (HT) (n = 102, 62 ± 10 yr) and HT + DM (n = 76, 62 ± 9 yr) groups. Changes in ba-PWV before and after the cycle ergometer exercise at moderate intensity were calculated as an indicator of functional arterial stiffness (⊿PWV). We further divided patients into two subgroups based on ⊿PWV (⊿PWV [-] and ⊿PWV[+] subgroups) and compared their carotid intima-media thickness (cIMT). Stepwise regression analysis was performed with cIMT as a dependent variable, and clinical characteristics, functional arterial stiffness, vascular endothelial function, and autonomic nervous activity as independent variables. Results: cIMT was significantly thicker in the ⊿PWV(+) subgroup than in the ⊿PWV(-) subgroup in both the HT and the HT + DM groups (P < 0.05 and P < 0.05, respectively). Stepwise regression analysis revealed that age, ⊿PWV, and high-density lipoprotein cholesterol (HDL-C) were significant independent limiting factors for cIMT (age: β = 0.314, P < 0.001; ⊿PWV: β = 0.257, P < 0.001; HDL-C: β = -0.205, P < 0.01) (R 2 = 0.21, P < 0.001). Conclusion: Functional arterial stiffness reflects the severity of atherosclerosis in HT patients with or without type 2 DM
Conjugated polyelectrolyte amplified fluorescent assays with probe functionalized silica nanoparticles for chemical and biological sensing
10.1007/s11458-009-0101-0Frontiers of Chemistry in China44325-33