INT177600

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Context Info
Confidence 0.52
First Reported 2004
Last Reported 2010
Negated 0
Speculated 0
Reported most in Body
Documents 21
Total Number 21
Disease Relevance 7.10
Pain Relevance 6.92

This is a graph with borders and nodes. Maybe there is an Imagemap used so the nodes may be linking to some Pages.

cytoplasm (C7orf49)
Anatomy Link Frequency
thalamus 1
Cortex 1
C7orf49 (Homo sapiens)
Pain Link Frequency Relevance Heat
Pain 532 100.00 Very High Very High Very High
imagery 322 100.00 Very High Very High Very High
Analgesic 87 99.88 Very High Very High Very High
Fibrositis 101 99.84 Very High Very High Very High
analgesia 45 99.40 Very High Very High Very High
Central nervous system 18 98.52 Very High Very High Very High
Acupuncture 143 97.48 Very High Very High Very High
addiction 177 96.28 Very High Very High Very High
depression 89 95.44 Very High Very High Very High
Anterior cingulate 15 93.20 High High
Disease Link Frequency Relevance Heat
Pain 689 100.00 Very High Very High Very High
Fibromyalgia 80 99.84 Very High Very High Very High
Cognitive Disorder 109 99.68 Very High Very High Very High
Adverse Drug Reaction 2 98.36 Very High Very High Very High
Disease 29 96.76 Very High Very High Very High
Peripheral Arterial Disease 7 96.56 Very High Very High Very High
Depression 111 95.44 Very High Very High Very High
Anxiety Disorder 56 93.00 High High
Neuropathic Pain 37 92.56 High High
Attention Deficit Hyperactivity Disorder 7 89.92 High High

Sentences Mentioned In

Key: Protein Mutation Event Anatomy Negation Speculation Pain term Disease term
Advancing our Understanding of CNS Mechanisms in Acute and Chronic Pain through fMRI
Gene_expression (Advancing) of fMRI associated with pain
1) Confidence 0.52 Published 2006 Journal Mol Pain Section Body Doc Link PMC1592305 Disease Relevance 1.39 Pain Relevance 1.54
fMRI studies of Endogenous Analgesia
Gene_expression (studies) of fMRI associated with analgesia
2) Confidence 0.52 Published 2006 Journal Mol Pain Section Body Doc Link PMC1592305 Disease Relevance 0.97 Pain Relevance 1.15
Several new fMRI approaches will aid this effort including techniques that allow definition of large scale systems organization [22]; techniques that define circuits/functional connectivity [23]; and automated parcellation of brain structures [24,25] including the thalamus [26].
Gene_expression (approaches) of fMRI in thalamus associated with thalamus
3) Confidence 0.52 Published 2006 Journal Mol Pain Section Body Doc Link PMC1592305 Disease Relevance 0.85 Pain Relevance 1.16
First, the more extensive anatomical and neurophysiological data in these species [

1, 3, 16– 21] can identify the source of localized fMRI activity.

Gene_expression (source) of fMRI
4) Confidence 0.11 Published 2006 Journal PLoS Biology Section Body Doc Link PMC1479693 Disease Relevance 0 Pain Relevance 0.21
Tonotopy in Auditory Cortex with fMRI: Considering Sound Intensity
Gene_expression (Tonotopy) of fMRI in Cortex
5) Confidence 0.11 Published 2006 Journal PLoS Biology Section Body Doc Link PMC1479693 Disease Relevance 0 Pain Relevance 0.04
Other fMRI studies showing LC activity
Gene_expression (studies) of fMRI
6) Confidence 0.10 Published 2007 Journal Frontiers in Human Neuroscience Section Body Doc Link PMC2525983 Disease Relevance 0.07 Pain Relevance 0.10
fMRI acquisition
Gene_expression (acquisition) of fMRI
7) Confidence 0.08 Published 2008 Journal BMC Anesthesiol Section Body Doc Link PMC2625333 Disease Relevance 0 Pain Relevance 0.04
fMRI protocol
Gene_expression (protocol) of fMRI
8) Confidence 0.08 Published 2008 Journal BMC Anesthesiol Section Body Doc Link PMC2625333 Disease Relevance 0 Pain Relevance 0
The amplitudes for fMRI protocols were 24.87 ± 3.73 ?
Gene_expression (protocols) of fMRI
9) Confidence 0.08 Published 2008 Journal BMC Anesthesiol Section Body Doc Link PMC2625333 Disease Relevance 0 Pain Relevance 0.09
fMRI processing
Gene_expression (processing) of fMRI
10) Confidence 0.08 Published 2008 Journal BMC Anesthesiol Section Body Doc Link PMC2625333 Disease Relevance 0 Pain Relevance 0.09
Limitations and future potential of fMRI in fibromyalgia
Gene_expression (Limitations) of fMRI associated with fibrositis
11) Confidence 0.05 Published 2006 Journal Arthritis Res Ther Section Body Doc Link PMC1794529 Disease Relevance 1.33 Pain Relevance 1.09
High spatial resolution fMRI
Gene_expression (resolution) of fMRI
12) Confidence 0.05 Published 2004 Journal Biomed Eng Online Section Body Doc Link PMC419711 Disease Relevance 0.22 Pain Relevance 0.14
Alternatively, binary 'Markov random fields' (MRF) models for activation patterns suggested the intensity distribution of SPMs and Bayesian modeling of fMRI time-series inferred the hidden psychological states in fMRI experiments using 'likelihoods' of activation probabilities from these SPMs as shown in Figure 14.
Gene_expression (experiments) of fMRI
13) Confidence 0.05 Published 2004 Journal Biomed Eng Online Section Body Doc Link PMC419711 Disease Relevance 0 Pain Relevance 0
Sensitivity of fMRI signal
Gene_expression (signal) of fMRI
14) Confidence 0.05 Published 2004 Journal Biomed Eng Online Section Body Doc Link PMC419711 Disease Relevance 0.13 Pain Relevance 0.11
For high-field fMRI imaging, paramagnetic susceptibility of spin may be related with gyromagnetic ratio (?)
Gene_expression (imaging) of fMRI associated with imagery
15) Confidence 0.05 Published 2004 Journal Biomed Eng Online Section Body Doc Link PMC419711 Disease Relevance 0 Pain Relevance 0.08
Deoxyhemoglobin acts as paramagnetic endogenous contrast agent and alters the T2* weighted magnetic resonance image signal [6-9] and serves as the source of the signal for fMRI.
Gene_expression (source) of fMRI
16) Confidence 0.05 Published 2004 Journal Biomed Eng Online Section Body Doc Link PMC419711 Disease Relevance 0 Pain Relevance 0.03
According to [47], the common characteristics of 'emergence' are [here focussing on fMRI-derived "emergents" of resting state networks (RSNs) including the default mode network (DMN)]:
Gene_expression (focussing) of fMRI
17) Confidence 0.04 Published 2010 Journal Nonlinear Biomed Phys Section Body Doc Link PMC2880806 Disease Relevance 0.12 Pain Relevance 0.03
Unlike the findings of the studies reported above, our deactivation results cannot be interpreted as functional disconnections, and our functional connectivity findings should be interpreted with caution as the resting state data obtained after removal of interleaved task blocks from our fMRI acquisition is significantly shorter than those used in previous resting state studies.
Gene_expression (acquisition) of fMRI
18) Confidence 0.04 Published 2010 Journal BMC Neurol Section Body Doc Link PMC2941677 Disease Relevance 0.12 Pain Relevance 0
Some evidence also indicates that the averaged fMRI activation level of the SII, rather than the SI, is positively correlated with acupuncture-induced analgesic effect across the subjects [10].
Gene_expression (level) of fMRI associated with analgesic and acupuncture
19) Confidence 0.03 Published 2010 Journal Mol Pain Section Body Doc Link PMC2989943 Disease Relevance 0.28 Pain Relevance 0.63
This indicates that fMRI can be more sensitive in detecting clinically significant CNS adverse effects of medication than a written instrument such as the Beck Depression Scale.
Gene_expression (sensitive) of fMRI associated with adverse drug reaction, depression and central nervous system
20) Confidence 0.01 Published 2007 Journal Neuropsychiatric Disease and Treatment Section Body Doc Link PMC2656302 Disease Relevance 1.02 Pain Relevance 0.38

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