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Cisplatin plays an essential role in the treatment of various cancers. Cisplatin exhibits high efficacy, but it often leads to severe neurotoxic side effects, such as chemotherapy-induced polyneuropathy (CIPN). The pathophysiology of CIPN is not fully understood. There is increasing evidence for damage to satellite glial cells (SGC) and dorsal root ganglion (DRG) neurons. We investigated the influence of cisplatin on the function of SGCs and the direct influence on DRGs. Satellite glial cells were isolated from DRG and exposed to 0.1, 1, 10, or 100 μM cisplatin for 2 h, 4 h, and 24 h. Using immunocytochemical staining and Western blot analysis, the expression of the glial fibrillary acid protein (GFAP), reactive oxygen species (ROS), and inward rectifier potassium channel 4.1 (K) was determined. An increase in the immune reactivity (IR) and protein levels of GFAP and ROS was measured, and a reduction of IR and protein level of K was detected. A decrease in these channels' current density was observed using the whole-cell patch-clamp recording. The interleukin-6 (IL-6) and tumor necrosis factor α (TNFα) release of SGCs increased after cisplatin exposure as measured using ELISA, and interleukin-1β (IL-1β) decreased. The SGC-secreted factors in the supernatant after cisplatin treatment led to a modulation of cultured DRG neurons' excitability. Taken together, the modulation and function of different SGC proteins could be linked to a direct impact of cisplatin. Further, SGC-secreted factors influenced the excitability of sensory neurons. Overall, SGCs could be a potential target in preventing and treating chemotherapy-induced neuropathic pain.
Learn More >To explore small fiber somatosensory and sympathetic function in PD and MSA.
Learn More >Itch is a complex symptom that is both common and burdensome in atopic dermatitis (AD). Yet, little is known about the longitudinal course of itch in AD. A prospective, dermatology practice-based study was performed of adults with AD (n = 463). Patients were assessed at baseline and approximately 6, 12, 18 and 24 months. Itch was assessed using Numeric Rating Scale (NRS) average and worst-itch scores, and frequency of itch in the past week. Repeated-measures regression models were constructed to examine itch over time. Overall, 31.5% and 22.5% had moderate (4-6) or severe (7-10) NRS average-itch scores; 27.4% and 36.4% had moderate (4-6) or severe (7-10) NRS worst-itch scores; 12.7% and 62.0% had itch from eczema 3-4 and ≥ 5 days in the past week; 27.4% and 45.1% reported sometimes and often/almost always having itch, respectively. Among patients with baseline moderate (4-6) or severe (7-10) NRS average-itch scores, 21.2% and 16.3% continued to have moderate or severe scores at ≥ 1 follow-up visits. In repeated-measures regression models, persistent NRS average-itch scores were associated with baseline NRS average-itch [adjusted β (95% CI): 0.75 (0.68, 0.82)] and food allergy [- 0.45 (- 0.84, – 0.07)]. Persistent NRS worst-itch was associated with baseline worst-itch NRS [0.73 (0.66, 0.80)] and Medicaid insurance [1.06 (0.17, 1.94)]. AD patients had a heterogeneous longitudinal course with fluctuating and complex overlapping patterns of average- and worst-itch intensity, and frequency.
Learn More >Early life experience can cause long-term alterations in the nociceptive processes underlying chronic pain, but the consequences of early life arthritic joint inflammation upon the sensory innervation of the joint is not known. Here, we measure pain sensitivity and sensory innervation in a young, juvenile and adult rodent model of arthritic joints and test the consequences of joint inflammation in young animals upon adult arthritic pain and joint innervation.
Learn More >Low back pain (LBP) is a common reason for adults to seek medical care and is associated with important functional limitation and patient burden. Yet, heterogeneity in the causes and presentation of LBP and a lack of standardization in its management impede effective prevention and treatment.
Learn More >To assess whether body pain was associated with different trauma histories (physical injury vs. interpersonal injury [IPI]) within Australian women, along with body pain and trauma history associations with biological and psychological (biopsycho) confounders.
Learn More >The bidirectional relationship between pain and working memory (WM) deficits is well-documented but poorly understood. Pain catastrophizing – exaggerated, negative cognitive and emotional responses toward pain – may contribute to WM deficits by occupying finite, shared cognitive resources. The present study assessed the role of pain catastrophizing as both a state-level process and trait-level disposition in the link between acute pain and WM. Healthy, young adults were randomized to an experimentally-induced ischemic pain or control task, during which they completed verbal and non-verbal WM tests. Participants also completed measures of state- and trait-level pain catastrophizing. Simple mediation analyses indicated that participants in the pain group (vs. control) engaged in more state-level catastrophizing about pain, which led to worse verbal and non-verbal WM. Moderated mediation analyses indicated that the indirect (mediation) effect of state-level pain catastrophizing was moderated by trait-level pain catastrophizing for both verbal and non-verbal WM. Participants in the pain group who reported a greater trait-level tendency to catastrophize about pain experienced greater state-level catastrophizing about pain during the ischemic task, which led to worse verbal and non-verbal WM performance. These results provide evidence for pain catastrophizing as an important mechanism and moderating factor of WM deficits in acute pain. Future research should replicate these results in chronic pain samples, investigate other potential mechanisms (e.g., sleep disturbances), and determine if interventions that target pain catastrophizing directly can ameliorate cognitive deficits in people with pain. PERSPECTIVE: This article presents a laboratory study examining the relationships among pain, pain catastrophizing, and working memory in healthy participants. The results shed new light on these relationships and raise the possibility that interventions that reduce catastrophizing may lead to improved cognitive function among people with pain.
Learn More >Widespread or ectopic sensitization is a hallmark symptom of chronic pain, characterized by aberrantly enhanced pain sensitivity in multiple body regions remote from the site of original injury or inflammation. The central mechanism underlying widespread sensitization remains unidentified. The central nucleus of the amygdala (also called the central amygdala, CeA) is well situated for this role because it receives nociceptive information from diverse body sites and modulates pain sensitivity in various body regions. In this study, we examined the role of the CeA in a novel model of ectopic sensitization of rats. Injection of formalin into the left upper lip resulted in latent bilateral sensitization in the hind paw lasting >13 days in male Wistar rats. Chemogenetic inhibition of gamma-aminobutyric acid-ergic neurons or blockade of calcitonin gene-related peptide receptors in the right CeA, but not in the left, significantly attenuated this sensitization. Furthermore, chemogenetic excitation of gamma-aminobutyric acid-ergic neurons in the right CeA induced de novo bilateral hind paw sensitization in the rats without inflammation. These results indicate that the CeA neuronal activity determines hind paw tactile sensitivity in rats with remote inflammatory pain. They also suggest that the hind paw sensitization used in a large number of preclinical studies might not be simply a sign of the pain at the site of injury but rather a representation of the augmented CeA activity resulting from inflammation/pain in any part of the body or from activities of other brain regions, which has an active role of promoting defensive/protective behaviors to avoid further bodily damage.
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