Purpose: The etiology of pain in osteoarthritis (OA) is complex andmultifactorial. A growing number of studies suggest that modificationof pain-transmission in the peripheral and central nervous system,leading to sensitization, plays a role in OA pain. Sensitization seems tobe associated with neuropathic pain-like symptoms and assessment ofthese symptoms can help to identify patients who could benefit fromadditional treatment options. Several questionnaires are available todistinguish neuropathic from nociceptive pain symptoms. The modifiedpainDETECT questionnaire (mPDQ) is a self-reported questionnairedeveloped to discriminate between nociceptive- and possible/likelyneuropathic pain in knee OA patients. Recently the mPDQ was translatedinto Dutch and adjusted to also fit hip OA patients. The aim of thisstudy was to assess the validity of the mPDQ-NL in patients with hip orknee OA.Methods: Primary hip and knee OA patients were recruited from threeDutch hospitals. Based on previous research, confirmatory factor analysisfor two principal components was performed to assess structuralvalidity. Construct validity (both convergent and divergent) wasassessed using hypothesis testing. Predefined hypotheses were formulatedconcerning the correlation between the mPDQ-NL and theSelf-reported Leeds Assessment of Neuropathic Symptoms and Signs (SLANSS),subscales of the Knee injury and Osteoarthritis Outcome score/Hip disability and Osteoarthritis Outcome Score (KOOS/HOOS), VisualAnalogue Scale for pain (VAS pain), and subscales of the RAND-36health survey (RAND-36). According to the COSMIN criteria, constructvalidity of a questionnaire is sufficient if 75% of predefined hypothesesare met. Additionally, convergent validity was assessed with blunt PainPressure Thresholds (PPTs) in a subsample of participants. A reducedPPT is a somatosensory abnormality that is considered an indication ofsensitization in OA. Therefore it was expected that reduction of PPTswas associated with higher mPDQ scores.Results: 168 participants were included. PPT measurements wereperformed in a sample of 46 participants. Factor analysis confirmed twoprincipal components. The items that loaded on the first componentcould be described as “evoked neuropathic sensations”, the items thatloaded on the second component as “spontaneous neuropathic sensations”.However there were two items that substantially loaded on bothcomponents. The item regarding pain pattern did not load on anycomponent. Considering construct analysis, 80% of the predefinedhypotheses concerning the correlation between mPDQ and self-reportedquestionnaires were met. Considering the correlation with PPTmeasurements, 50% of the predefined hypotheses were met.Conclusions: The mPDQ-NL seems to adequately reflect neuropathicpain-like symptoms experienced by hip and knee OA patients. Concerningstructural validity, two determinative components seem to bepresent, in line with previous research. However, one particular itemregarding pain pattern might not reflect the construct of neuropathicpain-like symptoms in hip or knee OA. Therefore, when using the mPDQin hip or knee OA patients, it might be considered to skip this particularitem. Construct validity can be considered sufficient, with over 75% ofthe predefined hypotheses regarding correlation between the mPDQNLand other questionnaires were met. However, only 50% of the hypotheses concerning PPT measurements were met, probably due toheterogeneity and limited sample size of this subgroup. To ourknowledge, this study is the first to assess the structural validity of themPDQ knee and hip by using factor analysis and to assess constructvalidity using elaborate hypothesis testing as proposed by the COSMINguidelines.
Chronic widespread pain is highly present in patients with the Ehlers-Danlos syndrome hypermobility type (EDS-HT), but up to now, evidence for generalized hyperalgesia is lacking. The aim of this study is to investigate whether pressure pain thresholds (PPTs) at both symptomatic and asymptomatic body areas differ in EDS-HT patients compared to healthy subjects. Twenty-three women with EDS-HT and 23 gender- and age-matched healthy controls participated. All subjects marked on Margolis Pain Diagram where they felt pain lasting longer than 24 h in the past 4 weeks. Then, they completed several questionnaires assessing pain cognitions, fatigue, disability, and general health status, in order to take the possible influence of these factors on PPTs into account. Patients also completed a form concerning the type of pain they experienced. Thereupon, a blinded researcher assessed PPTs at 14 body locations on the trunk and extremities. PPTs were compared for the two complete groups. In addition, PPTs of patients and controls who did not report pain in a respective zone were compared. PPTs of the patients were significantly lower compared to those of the control group, also when pain-free samples per zone were compared. The mean (SD) PPT was 2.9 (1.62) kg/cm(2) in the EDS-HT patients and 5.2 (1.88) kg/cm(2) in the controls (P < 0.001). No confounding factors responsible for the observed differences could be revealed. In half of the patient group, a predominantly neuropathic pain component was likely present. This study provides evidence for the existence of hyperalgesia even in asymptomatic areas (generalized secondary hyperalgesia). The generalized hyperalgesia may represent the involvement of a sensitized central nervous system, which inquires an adapted pain management for this patient group.
When firefighting, the combination of exposition to high temperatures, high physical demands and wearing (heavy and insulated) personal protective equipment lead to increased risk of heat stress and exhaustion in firefighters. Heat stress can easily evolve into a life-threatening heat stroke. Once heat stress occurred, the chance of getting another heat stroke during deployment gets higher. Moreover, intermittent exposure to heat stress over several years, is a risk factor for heart diseases. Similarly, exhausted during a deployment, a firefighter needs more time to rehabilitate before he can safely be deployed again. Heat stress and exhaustion can lead to line-of-duty cardiovascular events. Therefore preventing heat stress and exhaustion during deployment is beneficial for health, functioning and employability of firefighters. Since currently available measurement of the core temperature, such as thermometer pill or neck patch thermometer, are not reliable or practical for firefighters, an alternative approach may be used, namely, estimation of the core temperature based on non-invasive observation of the heart rate. Exhaustion is estimated using the training impulse model based on the heart rate reserve. Our achievement is a MoSeS health monitor system (as a smartphone application) that can real time analyze the health status of a firefighter and predict exhaustion and heat stress during deployment. The system is cheap (only a heart rate sensor and a smartphone application is needed), easy to use (intuitive “traffic light” signal), and objective (the health status is determined based on measurements of the heart rate). The only restriction is that the developed model is strongly dependent on personal maximum and minimum heart rate which need to be established behforehand. Moses Health Monitoring system for Firefighters CC BY-NC-ND Conference Proceedings 17th international e-SOCIETY 2019 IADIS
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