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Background: Cannabis proofed to be effective in pain relief, but one major side effect is its influence on memory in humans. Therefore, the role of memory on central processing of nociceptive information was investigated in healthy volunteers.
Methods: In a placebo-controlled cross-over study including 22 healthy subjects, the effect of 20 mg oral Δ9-tetrahydrocannabinol (THC) on memory involving nociceptive sensations was studied, using a delayed stimulus discrimination task (DSDT). To control for nociceptive specificity, a similar DSDT-based study was performed in a subgroup of thirteen subjects, using visual stimuli.
Results: For each nociceptive stimulus pair, the second stimulus was associated with stronger and more extended brain activations than the first stimulus. These differences disappeared after THC administration. The THC effects were mainly located in two clusters comprising the insula and inferior frontal cortex in the right hemisphere, and the caudate nucleus and putamen bilaterally. These cerebral effects were accompanied in the DSDT by a significant reduction of correct ratings from 41.61% to 37.05% after THC administration (rm-ANOVA interaction "drug" by "measurement": F (1,21) = 4.685, p = 0.042). Rating performance was also reduced for the visual DSDT (69.87% to 54.35%; rm-ANOVA interaction of "drug" by "measurement": F (1,12) = 13.478, p = 0.003) and reflected in a reduction of stimulus-related brain deactivations in the bilateral angular gyrus.
Conclusions: Results suggest that part of the effect of THC on pain may be related to memory effects. THC reduced the performance in DSDT of nociceptive and visual stimuli, which was accompanied by significant effects on brain activations. However, a pain specificity of these effects cannot be deduced from the data presented.
Cyclic GMP-dependent protein kinase 1 (PKG1) mediates presynaptic nociceptive long-term potentiation (LTP) in the spinal cord and contributes to inflammatory pain in rodents but the present study revealed opposite effects in the context of neuropathic pain. We used a set of loss-of-function models for in vivo and in vitro studies to address this controversy: peripheral neuron specific deletion (SNS-PKG1-/-), inducible deletion in subsets of neurons (SLICK-PKG1-/-) and redox-dead PKG1 mutants. In contrast to inflammatory pain, SNS-PKG1-/- mice developed stronger neuropathic hyperalgesia associated with an impairment of nerve regeneration, suggesting specific repair functions of PKG1. Although PKG1 accumulated at the site of injury, its activity was lost in the proximal nerve due to a reduction of oxidation-dependent dimerization, which was a consequence of mitochondrial damage in injured axons. In vitro, PKG1 deficiency or its redox-insensitivity resulted in enhanced outgrowth and reduction of growth cone collapse in response to redox signals, which presented as oxidative hotspots in growing cones. At the molecular level, PKG1 deficiency caused a depletion of phosphorylated cofilin, which is essential for growth cone collapse and guidance. Hence, redox-mediated guidance required PKG1 and consequently, its deficiency in vivo resulted in defective repair and enhanced neuropathic pain after nerve injury. PKG1-dependent repair functions will outweigh its signaling functions in spinal nociceptive LTP, so that inhibition of PKG1 is no option for neuropathic pain.
Childbirth-related post-traumatic stress disorder (CB-PTSD) occurs in 3–7% of all pregnancies and about 35% of women after preterm birth (PTB) meet the criteria for acute stress reaction. Known risk factors are trait anxiety and pain intensity, whereas planned delivery mode, medical support, and positive childbirth experience are protective factors. It has not yet been investigated whether the effects of anxiety and delivery mode are mediated by other factors, and whether a PTB-risk alters these relationships. 284 women were investigated antepartum and six weeks postpartum (risk-group with preterm birth (RG-PB) N = 95, risk-group with term birth (RG-TB) N = 99, and control group (CG) N = 90). CB-PTSD symptoms and anxiety were measured using standardized psychological questionnaires. Pain intensity, medical support, and childbirth experience were assessed by single items. Delivery modes were subdivided into planned vs. unplanned delivery modes. Group differences were examined using MANOVA. To examine direct and indirect effects on CB-PTSD symptoms, a multi-sample path analysis was performed. Rates of PTS were highest in the RG-PB = 11.58% (RG-TB = 7.01%, CG = 1.1%). MANOVA revealed higher values of CB-PTSD symptoms and pain intensity in RG-PB compared to RG-TB and CG. Women with planned delivery mode reported a more positive birth experience. Path modeling revealed a good model fit. Explained variance was highest in RG-PB (R2 = 44.7%). Direct enhancing effects of trait anxiety and indirect reducing effects of planned delivery mode on CB-PTSD symptoms were observed in all groups. In both risk groups, CB-PTSD symptoms were indirectly reduced via support by medical staff and positive childbirth experience, while trait anxiety indirectly enhanced CB-PTSD symptoms via pain intensity in the CG. Especially in the RG-PB, a positive birth experience serves as protective factor against CB-PTSD symptoms. Therefore, our data highlights the importance of involving patients in the decision process even under stressful birth conditions and the need for psychological support antepartum, mainly in patients with PTB-risk and anxious traits.
Background: Persistent pain in breast cancer survivors is common. Psychological and sleep-related factors modulate perception, interpretation and coping with pain and may contribute to the clinical phenotype. The present analysis pursued the hypothesis that breast cancer survivors form subgroups, based on psychological and sleep-related parameters that are relevant to the impact of pain on the patients’ life.
Methods: We analysed 337 women treated for breast cancer, in whom psychological and sleep-related parameters as well as parameters related to pain intensity and interference had been acquired. Data were analysed by using supervised and unsupervised machine-learning techniques (i) to detect patient subgroups based on the pattern of psychological or sleep-related parameters, (ii) to interpret the detected cluster structure and (iii) to relate this data structure to pain interference and impact on life.
Results: Artificial intelligence-based detection of data structure, implemented as self-organizing neuronal maps, identified two different clusters of patients. A smaller cluster (11.5% of the patients) had comparatively lower resilience, more depressive symptoms and lower extraversion than the other patients. In these patients, life-satisfaction, mood, and life in general were comparatively more impeded by persistent pain.
Conclusions: The results support the initial hypothesis that psychological and sleep-related parameter patterns are meaningful for subgrouping patients with respect to how persistent pain after breast cancer treatments interferes with their life. This indicates that management of pain should address more complex features than just pain intensity. Artificial intelligence is a useful tool in the identification of subgroups of patients based on psychological factors.
Background: With increasing life expectancy the number of people affected by multimorbidity rises. Knowledge of factors associated with health-related quality of life in multimorbid people is scarce. We aimed to identify the factors that are associated with self-rated health (SRH) in aged multimorbid primary care patients.
Methods: Cross-sectional study with 3,189 multimorbid primary care patients aged from 65 to 85 years recruited in 158 general practices in 8 study centers in Germany. Information about morbidity, risk factors, resources, functional status and socio-economic data were collected in face-to-face interviews. Factors associated with SRH were identified by multivariable regression analyses.
Results: Depression, somatization, pain, limitations of instrumental activities (iADL), age, distress and Body Mass Index (BMI) were inversely related with SRH. Higher levels of physical activity, income and self-efficacy expectation had a positive association with SRH. The only chronic diseases remaining in the final model were Parkinson's disease and neuropathies. The final model accounted for 35% variance of SRH. Separate analyses for men and women detected some similarities; however, gender specific variation existed for several factors.
Conclusion: In multimorbid patients symptoms and consequences of diseases such as pain and activity limitations, as well as depression, seem to be far stronger associated with SRH than the diseases themselves. High income and self-efficacy expectation are independently associated with better SRH and high BMI and age with low SRH.
I-kappaB-Kinase epsilon - ein neues Zielprotein für die Pharmakotherapie bei Schmerz und Entzündung?
(2010)
Der Transkriptionsfaktor NF-kappaB spielt eine wichtige Rolle bei der Regulation von Immunantworten, Apoptose und Entzündungen sowie bei der Entstehung und Verarbeitung von Schmerzen. Ein pharmakologischer Eingriff in die NF-kappaB-Aktivierungskaskade könnte daher eine Schmerzhemmung bewirken und so Ansätze für die Entwicklung neuer Therapien für pathophysiologische Schmerzen liefern. Die NF-kappaB-Signalübertragungskaskade bietet verschiedene Angriffspunkte für Pharmaka, wobei zurzeit IkappaB Kinasen (IKK) als hoffnungsvolle Zielmoleküle im Fokus der Untersuchungen stehen. Verschiedene IKKs regulieren die Aktivität von NF-kappaB über die Phosphorylierung des inhibitorischen Proteins IkappaB oder über die direkte Phosphorylierung von NF-kappaB. In der vorliegenden Arbeit wurde die Rolle der neu entdeckten IKK epsilon bei der Schmerzentstehung und -verarbeitung sowie deren Eignung als neues Zielmolekül für die Schmerztherapie näher untersucht. Es konnte gezeigt werden, dass IKK epsilon konstitutiv in Geweben der Maus, welche an der Entstehung und Verarbeitung von Schmerzen beteiligt sind, exprimiert ist. Im Rückenmark konnte die Lokalisation von IKK epsilon in den schmerzrelevanten Laminae I und II des Dorsalhorns nachgewiesen werden und auch in den Hinterwurzelganglien (Dorsal Root Ganglia (DRG’s)) war IKK epsilon in kleinen, nozizeptiven Neuronen exprimiert. Nach peripherer entzündlich-nozizeptiver Stimulation mit Formalin oder Zymosan kam es im Lumbalmark und den DRG’s zu einem signifikanten Anstieg der IKK epsilon-Expression sowohl auf mRNA- als auch auf Proteinebene. Diese Beobachtungen machten eine Beteiligung von IKK epsilon an der Prozessierung von Schmerz sehr wahrscheinlich. Um die Rolle von IKK epsilon während der Schmerzentstehung und -verarbeitung besser beurteilen zu können wurde das Verhalten von IKK epsilon defizienten Mäusen in akuten und inflammatorischen Schmerzmodellen charakterisiert. Es konnte gezeigt werden, dass der Knockout von IKK epsilon zu einem signifikant verringerten nozizeptiven Verhalten im Formalintest und einer Hemmung der mechanischen Hyperalgesie nach Zymosaninjektion im Vergleich zu Wildtyp-Mäusen führte. Gleichzeitig konnte kein Unterschied im akut nozizeptiven Verhalten festgestellt werden. Der Knockout von IKK epsilon hatte demnach keine Auswirkung auf den akuten physiologischen Nozizeptorschmerz, zeigte jedoch eine Verbesserung bei pathophysiologischen Schmerzen. Das verringerte nozizeptive Verhalten der IKK epsilon defizienten Mäuse im Formalintest ging mit einer Hemmung der NF-kappaB-Aktivierung im Rückenmark einher. Auch konnte eine verringerte mRNA-Expression der NF-kappaB-abhängigen Gene Cyclooxygenase-2 (COX-2), Matrixmetalloprotease-9 (MMP-9) und induzierbare Stickstoffmonoxid-Synthase (iNOS), die an der Regulation von Entzündungsschmerzen beteiligt sind, im Rückenmark und den DRG’s nachgewiesen werden. Da IKK epsilon bisher hauptsächlich mit der Aktivierung des TypI Interferon-Signalweges in Zusammenhang gebracht wurde, wurde außerdem geprüft, ob es nach Injektion mit Formalin zu einer Aktivierung des Trankriptionsfaktors Interferon-regulierender Faktor (IRF)-3 in Wildtyp-Mäusen kommt, was nicht beobachtet werden konnte. Der Knockout von IKK epsilon scheint demnach seine antinozizeptive Wirkung direkt über eine fehlende Aktivierung von NF-kappaB zu entfalten, wonach IKK epsilon eine bedeutendere Rolle als bisher angenommen bei der Aktivierung von NF-kappaB spielt. Dies konnte durch in vitro Daten untermauert werden. Der Knockdown von IKK epsilon in Makrophagen-Zellkultur mit spezifischer siRNA verhinderte die Phosphorylierung von NF-kappaBp65 am Serinrest 536 nach Stimulation mit LPS. Anhand der vorliegenden Daten lässt sich also schlussfolgern, dass IKK epsilon an der Schmerzentstehung und verarbeitung bei Entzündungen beteiligt zu sein scheint. Eine Hemmung dieser Kinase könnte demnach ein neues, lohnendes Ziel für die Entwicklung neuer Medikamente für die Schmerztherapie sein.
Background: Prevention of persistent pain following breast cancer surgery, via early identification of patients at high risk, is a clinical need. Supervised machine-learning was used to identify parameters that predict persistence of significant pain.
Methods: Over 500 demographic, clinical and psychological parameters were acquired up to 6 months after surgery from 1,000 women (aged 28–75 years) who were treated for breast cancer. Pain was assessed using an 11-point numerical rating scale before surgery and at months 1, 6, 12, 24, and 36. The ratings at months 12, 24, and 36 were used to allocate patents to either "persisting pain" or "non-persisting pain" groups. Unsupervised machine learning was applied to map the parameters to these diagnoses.
Results: A symbolic rule-based classifier tool was created that comprised 21 single or aggregated parameters, including demographic features, psychological and pain-related parameters, forming a questionnaire with "yes/no" items (decision rules). If at least 10 of the 21 rules applied, persisting pain was predicted at a cross-validated accuracy of 86% and a negative predictive value of approximately 95%.
Conclusions: The present machine-learned analysis showed that, even with a large set of parameters acquired from a large cohort, early identification of these patients is only partly successful. This indicates that more parameters are needed for accurate prediction of persisting pain. However, with the current parameters it is possible, with a certainty of almost 95%, to exclude the possibility of persistent pain developing in a woman being treated for breast cancer.
Zielsetzung. Diese Pilotstudie untersucht den therapeutischen Effekt des RelaxBogens in Bezug auf Bruxismus und Symptome einer kraniomandibulären Dysfunktion (CMD).
Probanden und Methoden. Untersucht wurde eine Gruppe von 10 Probanden. Auswahlkriterien waren ein vorliegender Bruxismus und erste Symptome einer CMD. Dies wurde durch die Anwendung einer Brux-Checker®-Folie für 2 Nächte und eine Schmerzanamnese verifiziert. Eingangs wurden neben einer ausführlichen zahnärztlichen Anamnese folgende CMDParameter erhoben: SL-NRS-Fragebogen sowie Palpation von 42 Muskeln im Kopf-HalsNacken-Bereich und der 6 Austrittspunkte des N. trigeminus. Nach der Voruntersuchung wurde der RelaxBogen mindestens 10 Wochen getragen. Danach wurden die genannten Parameter erneut erhoben und miteinander verglichen.
Ergebnisse. Die Vor- und Nachuntersuchungen zeigten starke Tendenzen der Reduktion sowohl der allgemeinen Symptomatik als auch der Schmerzempfindung im Kieferbereich. Nach dem Tragen des RelaxBogens konnte eine eindeutige Reduktion des durch Palpation ausgelösten, muskulären Schmerzes beobachtet werden. Ebenfalls deutlich positive Tendenzen ließen sich bei der Verbesserung des allgemeinen Wohlbefindens finden. Die Ergebnisse legen nahe, dass bei einer größeren Stichprobe eine statistische Signifikanz zu erwarten ist.
Schlussfolgerung. Der RelaxBogen führt nach den Ergebnissen dieser Pilotstudie bei Patienten, die unter Bruxismus- und CMD-Symptomen leiden, zu einer deutlichen Reduktion der Schmerzwahrnehmung sowie einer eindeutigen Steigerung des Wohlbefindens. Neben der Verringerung des Schmerzempfindens und einem reduzierten Spannungsgefühl in den großen Kiefermuskeln konnten auch positive Tendenzen im Bereich der Hals-, Nacken- und Schultermuskulatur festgestellt werden.
Development of a multidimensional pain questionnaire in professional dance (MPQDA): a pilot study
(2022)
Background: Pain is part of the everyday life of professional dancers. It can indicate health risks and impair the ability to work. Suitable screening tools can be used to identify pain and its risk potential. A comprehensive, multidimensional, differentiated assessment tool for pain in professional dance does not currently exist.
Methods: An initial questionnaire was developed in German and English and was assessed in a qualitative pretest. In a field study with a cross-sectional design including n = 72 dancers from Germany (n = 36 responses each in the English and German language versions), the questionnaire was optimized by item analysis, its psychometric properties (dimensionality, construct validity, reliability) were examined and the ability of the pain dimensions to classify the subjective ability to work in training was analyzed (ROC analysis).
Results: The developed Multidimensional Pain Questionnaire in Professional Dance (MPQDA) was reduced and optimized in its psychometric properties. Following questions were reduced in their items or answer categories: pain localizations (from 20 to 15 regions), accompanying symptoms (from 6 to 3 items), sensory and affective pain quality (from 20 to 10 items), pain frequency (from 4 to 3 answer categories), and the motives of working with pain (from 14 to 12 items). Regarding the subjective ability to work in training, the variables of the ability to work in rehearsals and in performances, as well as the accompanying symptoms of tension and mobility restrictions, showed a relatively good classification ability (Area under the Curve (AUC) ≥ 0.7 in the 95% confidence interval) and significant, moderate to strong correlations (Somers' D > 0.25, p < 0.05). The classification ability of the other pain dimensions was largely absent or poor.
Conclusion: The MPQDA differentiates various pain dimensions in professional dancers and is available in a compatible manner in German and English. The clinical relevance needs to be explored further in the future.
The E3 ubiquitin ligase MYCBP2 negatively regulates neuronal growth, synaptogenesis, and synaptic strength. More recently it was shown that MYCBP2 is also involved in receptor and ion channel internalization. We found that mice with a MYCBP2-deficiency in peripheral sensory neurons show prolonged thermal hyperalgesia. Loss of MYCBP2 constitutively activated p38 MAPK and increased expression of several proteins involved in receptor trafficking. Surprisingly, loss of MYCBP2 inhibited internalization of transient receptor potential vanilloid receptor 1 (TRPV1) and prevented desensitization of capsaicin-induced calcium increases. Lack of desensitization, TRPV internalization and prolonged hyperalgesia were reversed by inhibition of p38 MAPK. The effects were TRPV-specific, since neither mustard oil-induced desensitization nor behavioral responses to mechanical stimuli were affected. In summary, we show here for the first time that p38 MAPK activation can inhibit activity-induced ion channel internalization and that MYCBP2 regulates internalization of TRPV1 in peripheral sensory neurons as well as duration of thermal hyperalgesia through p38 MAPK.