Microglia and astrocytes are activated following tissue injury or inflammation and have been reported to be both necessary
and sufficient for enhanced nociception. Blood-borne monocytes/macrophages can infiltrate the central nervous system (CNS) and differentiate into microglia resulting in hypersensitivity and chronic pain. The primary aim of this study was to evaluate the proportion of the proinflammatory CD14+CD16+ monocytes as well as plasma cytokine levels in blood from CRPS Selleck Poziotinib patients compared to age- and gender-matched healthy control individuals. Forty-six subjects (25 CRPS, 21 controls) were recruited for this study. The percentage of monocytes, T, B or natural killer (NK) cells did not differ between CRPS and controls. However, buy Ceritinib the percentage of the CD14+CD16+ monocyte/macrophage subgroup was elevated significantly (P < 0·01) in CRPS compared to controls. Individuals with high percentage of CD14+CD16+ demonstrated significantly lower (P < 0·05) plasma levels on the anti-inflammatory cytokine interleukin (IL)-10. Our data cannot determine whether CD14+CD16+ monocytes became elevated prior
to or after developing CRPS. In either case, the elevation of blood proinflammatoty monocytes prior to the initiating event may predispose individuals for developing the syndrome whereas the elevation of blood proinflammatory monocytes following the development of CRPS may be relevant for its maintenance. Further evaluation of the role the immune system plays in the pathogenesis of CRPS may aid in elucidating disease mechanisms as well as the development of novel therapies for its treatment. Complex regional pain syndrome (CRPS) is a severe chronic pain disorder that often follows an injury to peripheral nerves [1,2]. CRPS demonstrates a 3:1 female to male preponderance and is characterized by pain that is out of proportion to the initial injury and does not respect a nerve or root distribution [3,4]. The signs and symptoms of CRPS cluster into four categories: (1) abnormalities in pain processing; (2) skin colour and temperature
changes; (3) sudomotor abnormalities and oedema; and (4) motor dysfunction and trophic changes [5,6]. Although the pathophysiology of CRPS is not completely understood, there is evidence demonstrating that neurogenic inflammation plays a significant role [7,8]. Fossariinae Furthermore, neuroinflammation and neuroimmune activation have been shown to act in concert in persistent pain states [9]. Following injury, mast cells, neutrophils and macrophages are recruited to the involved area and can invade the nerve through a disrupted blood–nerve barrier [10,11]. These cells produce a variety of proinflammatory cytokines that have been implicated in the generation of neuropathic pain either by direct sensitization of nociceptors or indirectly by stimulating the release of agents that act on neurones and glia [12,13].