The magnitude of mechanical allodynia in a rodent model of lumbar radiculopathy is dependent on strain and sex.

Study Design: This study examined the differences in tactile hypersensitivity across 6 different strains of male mice, and between male and female rats of 3 different strains in a rodent model of low back pain associated with lumbar radiculopathy.

Objective: We investigated the possibility that differences in tactile allodynia following the same nerve root injury are affected by genotype and sex in rodents.

Summary Of Background Data: Low back pain associated with radiculopathy affects countless people throughout the world, encompassing a wide range of individual pain susceptibility.

Anti-hyperalgesic and morphine-sparing actions of propentofylline following peripheral nerve injury in rats: mechanistic implications of spinal glia and proinflammatory cytokines.

Injury to peripheral nerves often produces non-physiological, long-lasting spontaneous pain, hyperalgesia and allodynia that are refractory to standard treatment and often insensitive to opioids, such as morphine. Recent studies demonstrate spinal glial activation and increased proinflammatory cytokines in animal models of neuropathic pain. When these data are considered together, a unifying hypothesis emerges which implicates a role of central neuroimmune processes in the etiology of neuronal and behavioral hypersensitivity.

The Role of Cytokines in the Initiation and Maintenance of Chronic Pain.

Recent advancements in the pain field have identified a central nervous system (CNS) neuroimmune response that may act as the driving force for neuronal hypersensitivity, the pathological correlate to chronic pain following peripheral nerve injury. Neuroimmune activation involves the activation of nonneuronal cells such as endothelial and glial cells, which when stimulated leads to enhanced production of a host of inflammatory mediators, such as cytokines. The central production of proinflammatory cytokines, such as interleukin-1beta (IL-1beta), IL-6 and tumor necrosis factor have been found to play a key role in the propagation of persistent pain states.

Focal peripheral nerve injury induces leukocyte trafficking into the central nervous system: potential relationship to neuropathic pain.

The present study was undertaken to determine whether leukocytes are recruited into the spinal cord following a peripheral L5 spinal nerve transection that results in mechanical allodynia (increased tactile sensitivity behavior correlates with neuropathic pain). In rats subjected to bone marrow irradiation, donor-specific major histocompatibility complex (MHC) class I (I1-69) positive peripheral immune cells trafficked to the L5 spinal cord in response to an L5 spinal nerve injury. The number of I1-69 positive cell profiles increased over time and correlated with increased mechanical allodynia.

The role of spinal neuroimmune activation in morphine tolerance/hyperalgesia in neuropathic and sham-operated rats.

Hypersensitivity resulting from nerve injury or morphine tolerance/hyperalgesia is predicted to involve similar cellular and molecular mechanisms. One expected but incompletely explored mechanism is the activation of central neuroimmune responses associated with these conditions. To begin to address this, we undertook three separate studies: First, we determined the acute antinociceptive action of morphine, the rate of development of opioid tolerance, and withdrawal-induced hyperalgesia/allodynia in nerve-injured and sham-operated rats using noxious (thermal and mechanical) and non-noxious (mechanical allodynia) behavioral paradigms.

Lumbar nerve root injury induces central nervous system neuroimmune activation and neuroinflammation in the rat: relationship to painful radiculopathy.

Study Design: These studies were designed to examine the role of central neuroimmune activation and neuroinflammation in a rat model of lumbar radiculopathy.

Objectives: In the present study the authors investigated the role of neuroimmune activation using immunocytochemistry to detect expression of major histocompatibility complex Class II, cluster determinant 4, intracellular adhesion molecule-1 (ICAM-1), and platelet endothelial cellular adhesion molecule-1 (PECAM-1). The role of central neuroinflammation was investigated using radiation bone marrow chimeric rats.

Central administration of methotrexate reduces mechanical allodynia in an animal model of radiculopathy/sciatica.

We have recently reported that injury to a lumbar root in a rat model of radiculopathy produces spinal glial activation associated with elevated proinflammatory cytokines. Based on our hypothesis that central neuroinflammatory processes may manifest clinically as radicular pain, we undertook pharmacological intervention using the immunosuppressive agent methotrexate (MTX). The L5 lumbar spinal root (central to the dorsal root ganglia) was exposed unilaterally and loosely constricted with chromic gut.