Pharmacological modulation of pain-related brain activity during normal and central sensitization states in humans

Iannetti, Gian Domenico; Zambreanu, L.; Wise, Richard G.; Buchanan, Tim; Huggins, John P.; Smart, Trevor S.; Vennart, W.; Tracey, Irene

doi:10.1073/pnas.0506624102

Cited by 248 publications

(217 citation statements)

References 71 publications

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“…In anesthetized rats, gabapentin modulates the BOLD signal in several areas involved in nociceptive processing, for example, by increasing activity in thalamus and periaqueductal gray matter and decreasing it in amygdala (38). In humans, even a single dose of gabapentin can modulate brain responses to noxious mechanical stimuli (39). Moreover, half of our patients used tricyclic antidepressants (amitriptylin or nortriptylin), often administered in low doses to treat chronic pain.…”

Section: Discussionmentioning

confidence: 99%

Aberrant temporal and spatial brain activity during rest in patients with chronic pain

Malinen

Vartiainen²,

Hlushchuk³

et al. 2010

Proc. Natl. Acad. Sci. U.S.A.

165

169

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In the absence of external stimuli, human hemodynamic brain activity displays slow intrinsic variations. To find out whether such fluctuations would be altered by persistent pain, we asked 10 patients with unrelenting chronic pain of different etiologies and 10 sex-and agematched control subjects to rest with eyes open during 3-T functional MRI. Independent component analysis was used to identify functionally coupled brain networks. Time courses of an independent component comprising the insular cortices of both hemispheres showed stronger spectral power at 0.12 to 0.25 Hz in patients than in control subjects, with the largest difference at 0.16 Hz. A similar but weaker effect was seen in the anterior cingulate cortex, whereas activity of the precuneus and early visual cortex, used as a control site, did not differ between the groups. In the patient group, seed pointbased correlation analysis revealed altered spatial connectivity between insulae and anterior cingulate cortex. The results imply both temporally and spatially aberrant activity of the affective painprocessing areas in patients suffering from chronic pain. The accentuated 0.12-to 0.25-Hz fluctuations in the patient group might be related to altered activity of the autonomic nervous system. functional MRI | insula | resting state | autonomic nervous system | human A cute pain has an important protective function and is supported by a well-known brain network comprising the insular cortex, anterior cingulate cortex (ACC), primary and secondary somatosensory cortex, and thalamus (1). When pain becomes chronic, its physiological protective function is lost. Chronic pain decreases the quality of life and interferes with the cognitive, affective, and physical functioning. Although one-fifth of the Western population suffers from chronic pain (2), the underlying brain activity is poorly understood.Extensive meta-analyses (1, 3, 4) indicate that the brain areas related to chronic and acute pain differ to some extent, but no single brain-activity pattern is specific to chronic pain. Morphometric analyses suggest gray-matter loss in many chronic pain conditions, indicating that chronic pain may alter brain structure (5), but in a reversible manner (6).Previous studies on the brain basis of chronic pain have concentrated on abnormal activation sites and strengths following external stimulation. Studies of resting-state brain activity by means of functional magnetic resonance imaging (fMRI) have shown that the connectivity within the default-mode network (7) is altered in chronic pain, together with reduced task-related deactivation within this network (8, 9). Recently, the spectra of the default-mode network were shown to contain more power at 0.05 to 0.1 Hz in patients suffering from diabetic neuropathic pain than in healthy control subjects (9).In the present study, we focused on the resting-state fluctuations and functional connectivity of the affective pain-processing areas, the insula and ACC, in chronic pain. Specifically, we recorded spontaneous fMRI sig...

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Section: Discussionmentioning

confidence: 99%

Aberrant temporal and spatial brain activity during rest in patients with chronic pain

Malinen

Vartiainen²,

Hlushchuk³

et al. 2010

Proc. Natl. Acad. Sci. U.S.A.

165

169

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“…Pharmacological fMRI is an ideal noninvasive tool that can be used to determine the effects of drugs on brain activation. An fMRI study in humans by Iannetti et al [69] demonstrated the complex effects of the neuromodulating drug gabapentin on brain activation. The most pronounced effect was a reduction in stimulus-induced brain deactivation following central sensitization.…”

Section: Introductionmentioning

confidence: 99%

An update and systematic review on drug therapies for the treatment of refractory chronic cough

Ryan

Vertigan

Birring

2018

Expert Opinion on Pharmacotherapy

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Introduction: Chronic Cough (CC) is common and often associated with significant comorbidity and decreased quality of life. In up to 50% of cases, the cough is refractory despite extensive investigation and treatment trials. It is likely that the key abnormality in refractory CC is dysfunctional, hypersensitive sensory nerves, similar to conditions such as laryngeal hypersensitivity and neuropathic pain.Areas covered: The aim of this systematic review is to assess drug therapies for refractory CC. The authors review the current management of CC and provide discussion of the similarities between neuropathic pain and refractory CC. They review repurposed and new pharmacological treatments. Several meta-analyses were performed to compare the efficacy of treatments where possible.Expert opinion: Repurposed pain medications such as gabapentin and pregabalin reduce the frequency of cough and improve quality of life. Along with speech pathology, they are important and alternate treatments for refractory CC. However, more treatments are needed and the P2X3 ion channel receptor antagonists show the most promise. With a better understanding of neuronal activation and sensitisation and their signal processing in the brain, improved animal models of cough, and the use of validated cough measurement tools, more effective treatments will develop.

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“…The presence of low-frequency noise in the BOLD fMRI signal renders it poorly sensitive to changes occurring over periods longer than minutes (Zarahn et al, 1997); thus baseline functional "states" are difficult to reliably address with BOLD, though some studies have attempted to do so (Small et al, 2000, Rombouts et al, 2007 and biophysical models of resting BOLD contrast continue to be developed (He and Yablonskiy, 2007). BOLD fMRI time series data acquired at rest can also be used to assess functional connectivity (Biswal and Ulmer, 1999), default mode networks (Raichle et al, 2001, Greicius et al, 2003, Greicius et al, 2004, or functional state variation within prior regions of interest (ROIs) (Iannetti et al, 2005). …”

Section: Introductionmentioning

confidence: 99%

Assessment of functional development in normal infant brain using arterial spin labeled perfusion MRI

et al. 2008

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Arterial spin labeled (ASL) perfusion MRI provides a noninvasive approach for longitudinal imaging of regional brain function in infants. In the present study, continuous ASL (CASL) perfusion MRI was carried out in normally developing 7-and 13-month old infants while asleep without sedation. The 13-month infant group showed an increase (P<0.05) of relative CBF in frontal regions as compared to the 7-month group using a region of interest based analysis. Using a machine-learning algorithm to automatically classify the relative CBF maps of the two infant groups, a significant (P<0.05, permutation testing) regional CBF increase was found in the hippocampi, anterior cingulate, amygdalae, occipital lobes, and auditory cortex in the 13-month old infants. These results are consistent with current understanding of infant brain development and demonstrate the feasibility of using perfusion MRI to noninvasively monitor developing brain function.

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Pharmacological modulation of pain-related brain activity during normal and central sensitization states in humans

Cited by 248 publications

References 71 publications

Aberrant temporal and spatial brain activity during rest in patients with chronic pain

Aberrant temporal and spatial brain activity during rest in patients with chronic pain

An update and systematic review on drug therapies for the treatment of refractory chronic cough

Assessment of functional development in normal infant brain using arterial spin labeled perfusion MRI

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