Involvement of Reorganization of Cerebral Functional Connectivity in the Process of Transition to Postherpetic Neuralgia

Postherpetic neuralgia(PHN) is a chronic neuropathic pain syndrome which persists more than 3 months after the resolution of the acute shingles episode. PHN is the most common complication of herpes zoster in the pain clinic and it was reported that 2%-35% patients who suffer from herpes zoster may continue to suffer from PHN. Along with the coming of aging population, advanced age is one of the risk factors and about 20.6% patients aged 50 years and over may translate into PHN from acute herpes zoster . Besides, the proportion may increase with age which not only seriously impacts the quality of patients' life but also causes huge personal and social healthcare burden.

PHN is a complicated neuropathic pain that results from the sustained peripheral injury by herpes zoster and its pathological mechanism in skin and spine has been reported. But the cerebral mechanism is still unclear. In the recent several years, fMRI is widely used in the cerebral mechanism in several diseases due to its no trauma and accurate positioning about brain regions. The existing fMRI research about PHN discovered that the alteration of brain activity and reorganization of cerebral functional connectivity in PHN compared with healthy subjects. Liu,et al. investigated the effects of PHN on resting-state brain activity utilizing arterial spin labeling (ASL) techniques and found that regional cerebral blood flow in left caudate, left insula, left S1, and right thalamus was highly correlated with the pain intensity, and meanwhile, the four brain regions exist functional connectivity with other regions in different degrees. Liang,et al. explored the difference of cerebral activity between acute herpes zoster and PHN and found PHN showed higher regional homogeneity in bilateral thalamus, right cerebellum, right hippocampus, right fusiform gyrus, right insula. They speculated tha the thalamus, cerebellum, insula may be associated with hyperalgesia and hippocampus may be associated with pain memory in PHN patients.

In conclusion, fMRI showed that insula, thalamus, hippocampus, striatum and so on are connected with PHN. And then the investigators are curious about the cerebral alteration before the patient is definitely diagnosed as PHN. Meanwhile it's commonly presented in clinic that why some patients who suffer from herpes zoster can heal without PHN while someone are suffering from PHN in a long time. The investigators assume that cerebral alteration and its functional connectivity are associated with the transition to PHN. That is to say, it's a study of mechanism about the transition from acute herpes zoster pain to PHN. Some studies have shown that the reorganization of neural network, especially the function connectivity between cortex and limbic system, is involved in the transition to chronic back pain and affects the sense, emotion, cognition, movement of pain. Apkarian ,et al. used fMRI to identify intrinsic and extrinsic hippocampal functional connectivity, comparing subacute back pain (SBP, back pain 1-4 mo) and chronic back pain (CBP, back pain﹥1 yr) patients to control subjects. Both groups showed more extensive hippocampal connectivity than CON subjects. They then examined the evolution of hippocampal connectivity longitudinally in SBP patients who recovered (SBPr, back pain decreased﹥20% in 1 yr) and those with persistent pain (SBPp) and found that SBPp and SBPr subjects have distinct changes in hippocampal-cortical connectivity over 1 yr. Specifically, SBPp subjects showed large decreases in hippocampal connectivity with medial prefrontal cortex. These results demonstrated that the reorganization of hippocampal functional connectivity is associated with the transition to chronic back pain. They also found that nucleus accumbens(NAc)-medial prefrontal cortex(mPFC) functional connectivity is also involved in the transition to chronic back pain.

So the investigators hypothesize that the process from acute herpetic pain (AHP) to PHN is also accompanied with the reorganization of functional connectivity.

With the development of technology, 7 Tesla fMRI is coming into our sight. Andreas, et al. showed that 7 Tesla-fMRI with the increased field strength offers marked improvement for the localization of activation foci with high spatial specificity when comparing neural response to painful electrical stimulation with 3 Tesla. In our study, the investigators intend to use 7 Tesla fMRI to observe the difference of brain activity and functional connectivity between acute herpetic pain and PHN. Meanwhile, the investigators examine the evolution of functional connectivity longitudinally in patients who is suffering from acute pain, so as to explore the central mechanism of transition to PHN.