Pain
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Meta Analysis
Quantitative sensory testing in patients with migraine: a systematic review and meta-analysis.
Quantitative sensory testing (QST) is widely used to assess somatosensory function by application of controlled stimuli across a variety of modalities. The aim of the present meta-analysis is to synthesize QST results across a wide array of studies of patients with migraine to identify the QST parameters that are reliably different between patients with migraine and healthy controls. In addition, we aimed to determine whether such differences vary according to stimulus location. ⋯ In addition, patients with migraine had higher pain ratings to cold suprathreshold stimuli for combined and nonlocal areas, and higher pain ratings to electrical suprathreshold stimuli for nonlocal areas. This meta-analysis indicates that the alterations in nociceptive processing of patients with migraine may be modality, measure, and location specific. These results provide researchers and clinicians the evidence to choose QST parameters optimally suited for differentiating patients with migraine and healthy controls.
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Itch and pain share numerous mechanistic similarities. Patients with chronic itch conditions (for instance atopic dermatitis or neuropathic itch) often experience symptoms such as mechanical alloknesis and hyperknesis. These dysesthesias are analogous to the pain-associated phenomena allodynia and hyperalgesia, which are often observed, for example, in neuropathic pain conditions. ⋯ This review outlines current assessment techniques, knowledge on the mechanisms of mechanical alloknesis and hyperknesis, and presents the diverse results derived from clinical studies exploring the presence of itch dysesthesias in chronic itch patients. A key role of quantitative sensory testing and neuronal sensitization in patients with chronic pain is accepted and used in clinical assessments. However, the precise mechanisms and potential clinical implications of itch sensitization in chronic itch patients remain to be evaluated.