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Background
This study describes a low-cost and time-efficient clinical sensory test (CST) battery and evaluates its concurrent validity as a screening tool to detect somatosensory dysfunction as determined using quantitative sensory testing (QST).
Method
Three patient cohorts with carpal tunnel syndrome (CTS, n = 76), non-specific neck and arm pain (NSNAP, n = 40) and lumbar radicular pain/radiculopathy (LR, n = 26) were included. The CST consisted of 13 tests, each corresponding to a QST parameter and evaluating a broad spectrum of sensory functions using thermal (coins, ice cube, hot test tube) and mechanical (cotton wool, von Frey hairs, tuning fork, toothpicks, thumb and eraser pressure) detection and pain thresholds testing both loss and gain of function. Agreement rate, statistical significance and strength of correlation (phi coefficient) between CST and QST parameters were calculated.
Results
Several CST parameters (cold, warm and mechanical detection thresholds as well as cold and pressure pain thresholds) were significantly correlated with QST, with a majority demonstrating >60% agreement rates and moderate to relatively strong correlations. However, agreement varied among cohorts. Gain of function parameters showed stronger agreement in the CTS and LR cohorts, whereas loss of function parameters had better agreement in the NSNAP cohort. Other CST parameters (16 mN von Frey tests, vibration detection, heat and mechanical pain thresholds, wind-up ratio) did not significantly correlate with QST.
Conclusion
Some of the tests in the CST could help detect somatosensory dysfunction as determined with QST. Parts of the CST could therefore be used as a low-cost screening tool in a clinical setting.
Significance
Quantitative sensory testing, albeit considered the gold standard to evaluate somatosensory dysfunction, requires expensive equipment, specialized examiner training and substantial time commitment which challenges its use in a clinical setting. Our study describes a CST as a low-cost and time-efficient alternative. Some of the CST tools (cold, warm, mechanical detection thresholds; pressure pain thresholds) significantly correlated with the respective QST parameters, suggesting that they may be useful in a clinical setting to detect sensory dysfunction.
Wir kennen neurodynamische Tests und Behandlungsmethoden, nutzen diese alltäglich in der Praxis und gehen auf Kurse, um mehr darüber zu lernen. Aber was verstehen wir tatsächlich darunter? Kommen wir in unserem Verständnis darüber auf einen gemeinsamen Nenner? Dieser Artikel gibt einen Einblick in die Thematik Neurodynamik. Bisherige Überzeugungen stehen dabei auf dem Prüfstand.
Entrapment neuropathies are the most prevalent type of peripheral neuropathy and often a challenge to diagnose and treat. To a large extent, our current knowledge is based on empirical concepts and early (often biomechanical) studies. This Viewpoint will challenge some of the current beliefs with recent advances in both basic and clinical neurosciences.
Entrapment neuropathies such as carpal tunnel syndrome, radiculopathies, or radicular pain are the most common peripheral neuropathies and also the most common cause for neuropathic pain. Despite their high prevalence, they often remain challenging to diagnose and manage in a clinical setting. Summarising the evidence from both preclinical and clinical studies, this review provides an update on the aetiology and pathophysiology of entrapment neuropathies. Potential mechanisms are put in perspective with clinical findings. The contemporary assessment is discussed and diagnostic pitfalls highlighted. The evidence for the noninvasive and surgical management of common entrapment neuropathies is summarised and future areas of research are identified.
Entrapment neuropathies are a heterogenous condition reflecting distinct underlying pathomechanisms. A contemporary assessment aimed at identifying potential mechanisms may help target management for these patients.
Nervenkompressionssyndrome („Engpass-Syndrome“) wie Karpaltunnelsyndrom, Radikulopathien oder radikulärer Schmerz sind die häufigsten peripheren Nervenläsionen und auch die häufigste Ursache für neuropathischen Schmerz. Trotz ihrer hohen Prävalenz stellen sie diagnostisch und therapeutisch weiterhin oft eine klinische Herausforderung dar. Die vorliegende Übersicht bietet aktuelle Informationen zur Ätiologie und Pathophysiologie von Nervenkompressionssyndromen; dafür wird die Evidenz aus präklinischen wie auch klinischen Studien zusammengefasst. Mögliche Mechanismen werden in den Kontext klinischer Befunde gestellt. Das aktuelle diagnostische Vorgehen wird erörtert, diagnostische Fallstricke werden beleuchtet. Zuletzt fasst der Beitrag die Evidenz für die nichtinvasive und chirurgische Therapie häufiger Nervenkompressionssyndrome zusammen und zeigt zukünftige Forschungsbereiche auf.