Browse by Audience
Many people with HIV (PWH) experience chronic pain that limits daily function and quality of life. PWH with chronic pain have commonly been prescribed opioids, sometimes for many years, and it is unclear if and how the management of these legacy patients should change in light of the current US opioid epidemic. Guidelines, such as the Centers for Disease Control and Prevention Guideline for Prescribing Opioids for Chronic Pain (CDCG), provide recommendations for the management of such patients but have yet to be translated into easily implementable interventions; there is also a lack of strong evidence that adhering to these recommendations improves patient outcomes such as amount of opioid use and pain levels. Herein we describe the development and preliminary testing of a theory-based intervention, called TOWER (ard Saf Opioid Prescribing), designed to support HIV primary care providers in CDCG-adherent opioid prescribing practices with PWH who are already prescribed opioids for chronic pain. TOWER incorporates the content of the CDCG into the theoretical and operational framework of the Information Motivation and Behavioral Skills (IMB) model of health-related behavior. The development process included elicitation research and incorporation of feedback from providers and PWH; testing is being conducted via an adaptive feasibility clinical trial. The results of this process will form the basis of a large, well-powered clinical trial to test the effectiveness of TOWER in promoting CDCG-adherent opioid prescribing practices and improving outcomes for PWH with chronic pain.
Learn More >To evaluate previous results from a questionnaire-based study, we studied objective neuropathy measures to determine sex differences in the prevalence of neuropathy and neuropathic pain in longstanding type 1 diabetes. Despite better neuropathy measures in females compared to males, we confirmed a trend towards higher neuropathic pain in females.
Learn More >Trigeminal neuropathic pain is seen as a huge clinical challenge. Although numerous drugs have been developed to treat the condition, some patients have shown intolerance to the drugs and thus continue to suffer. In the present study, a rat model of trigeminal neuropathic pain was established using incorrectly positioned dental implants, which had various manifestations that were similar to human trigeminal neuropathic pain. Using this model, we investigated the differential regulation of JAK2 and PTEN. Firstly, we examined the expression of JAK2 and PTEN in the medullary dorsal horn. After inhibiting JAK2/PTEN, we evaluated nociception-related behavioral alterations. The rat models were established by replacing the left lower second molar with a mini dental implant. Immunoblot assay and immunofluorescence experiments indicated high expression of JAK2 and PTEN in medullary dorsal horn after the nerve injury, which attained plateau levels on post-operative day (POD) 5-10 and 10-20. Administration of adenovirus-shRNA-JAK2 on POD 1 reduced mechanical allodynia and downstream STAT activation. Meanwhile, the administration of adenovirus-shRNA-PTEN on POD 1 attenuated mechanical allodynia while upregulating AKT. In addition to postoperative JAK2 and PTEN activation, dexmedetomidine treatment (10 mg/kg) also modulated the downstream sensors of these signaling molecules. These data suggest that JAK2 and PTEN are pivotal to the development of trigeminal neuropathic pain, and that JAK2 and PTEN suppression alleviates the neuropathic pain.
Learn More >In well-controlled rheumatoid arthritis (RA) without significant joint damage, a substantial proportion of patients complain of persistent pain. Previous studies have identified different pain phenotypes in RA, in which non-nociceptive pain phenotypes are associated with higher concurrent disease activity scores. In this longitudinal study, we explored associations between pain phenotypes and long-term disease activity outcome in RA patients. Secondly, we explored whether pain phenotype is associated with comorbid conditions.
Learn More >Neuropathic pain is a common, debilitating clinical issue. Here, the weighted gene co-expression network analysis (WGCNA) was used to identify the specific modules and hub genes that are related to neuropathic pain. The microarray data set of a neuropathic rat model induced by tibial nerve transection (TNT), including dorsal root ganglion (DRG) tissues from TNT model (n = 7) and sham (n = 8) rats, was downloaded from the ArrayExpress database (E-MTAB-2260). The co-expression network modules were identified by the WGCNA package. The protein-protein interaction (PPI) network was constructed, and the node with highest level of connectivity in the network were identified as the hub gene. A total of 1,739 genes and seven modules were identified. The most significant module was the brown module, which contained 215 genes that were primarily associated with the biological process of the defense response and molecular function of calcium ion binding. Furthermore, Ccl2, Fos and Timp1 which were identified as the hub genes in the PPI network and two subnetworks separately. The in vivo studies validated that mRNA and protein levels of Ccl2, Fos and Timp1 were upregulated in DRG and spinal cord tissues after TNT. This study offers novel insights into the molecular mechanisms of neuropathic pain in the context of peripheral nerve injury.
Learn More >Post-traumatic stress disorder (PTSD) and chronic pain often co-occur. Understanding the shared mechanisms, signs to identify PTSD, and treatment options is integral in allowing providers to better serve their patients.
Learn More >