Intrinsische Koordination und nervale Modulation der glatten Muskulatur des Gastrointestinaltrakts: vom Organmodell zur klinischen Funktionsstörung

In den hier zusammengefassten Arbeiten wurden die Mechanismen der interzellulären Koordinierung für die Steuerung der Kraft- bzw. Druckentwicklung glattmuskulärer Organe sowie ihre Relevanz im Kontext von Erkrankungen des Nervensystems untersucht. Die erhobenen Befunde belegen, dass Veränderungen der Synchronisation innerhalb des Gewebes drastische Änderungen der Kraftentwicklung auslösen. Die experimentell dargestellte Fragilität der interzellulären Kopplung legt nahe, dass Funktionsstörungen des Nervensystems auch im klinischen Kontext gastrointestinale Funktionen beeinträchtigen können

Funktionelle Relevanz der Stromkomponenten einzelner Myozyten für die elektrische Spike-Aktivität des glatten Muskels der Portalvene

Die glatte Muskulatur der Portalvene der Ratte zeigt eine rhythmische Spontanaktivität, diese wird getriggert durch komplexe Aktionspotenziale mit langsamen Wellen und schnellen Spikes. Die ionalen Grundlagen dieser schnellen Spikes sind unbekannt und wurden in der vorliegenden Arbeit untersucht. Die Ergebnisse bestätigen die physiologische Relevanz der in Patch Clamp Experimenten untersuchten L-Typ Kalziumströme. Die bekannten Auswärtsströme erklären die Repolarisation nicht hinreichend, es ergeben sich Hinweise darauf, dass kalziumabhängige Kaliumströme hierbei wesentliche Rolle spielen.The smooth muscle of rat portal vein shows spontaneous mechanical activity that is triggered by complex action potentials with slow waves and fast spikes. The ionic mechanisms underlying these spikes have not yet been determined and were the object of interest to this study. The results confirmed the physiological role of L-type calcium currents but did also show that known potassium currents insufficiently explain current during repolarization. There is theoretical and experimental evidence to suspect calcium dependent potassium currents to play a key role during this part of the fast spike

Glatiramer Acetate Treatment in Multiple Sclerosis-Associated Fatigue—Beneficial Effects on Self-Assessment Scales But Not on Molecular Markers

Although fatigue is a common symptom in multiple sclerosis (MS), its pathomechanisms are incompletely understood. Glatiramer acetate (GA), an immunomodulatory agent approved for treatment of relapsing-remitting MS (RRMS), possesses unique mechanisms of action and has been shown to exhibit beneficial effects on MS fatigue. The objective of this study was to correlate clinical, neuropsychological, and immunological parameters in RRMS patients with fatigue before and during treatment with GA. In a prospective, open-label, multicenter trial, 30 patients with RRMS and fatigue were treated with GA for 12 months. Inclusion criterion was the presence of fatigue as one of the most frequent and disabling symptoms. Before and during treatment, fatigue was assessed using the Fatigue Severity Scale (FSS), the MS-FSS, and the Modified Fatigue Impact Scale (MFIS). In addition, fatigue and quality of life were assessed using the Visual Analog Scales (VAS). Laboratory assessments included screening of 188 parameters using real-time PCR microarrays followed by further analysis of several cytokines, chemokines, and neurotrophic factors. Fatigue self-assessments were completed in 25 patients. After 12 months of treatment with GA, 13 of these patients improved in all three scales (with the most prominent effects on the MFIS), whereas 5 patients had deteriorated. The remaining 7 patients exhibited inconsistent effects within the three scales. Fatigue and overall quality of life had improved, as assessed via VAS. Laboratory assessments revealed heterogeneous mRNA levels of cytokines, chemokines, and neurotrophic factors. In conclusion, we were not able to correlate clinical and molecular effects of GA in patients with RRMS and fatigue

Canais iônicos de potássio na dinâmica contrátil do músculo liso arterial induzida por Camphenol Plus

Introduction: Camphenol Plus is a chlorophenolic derivative commonly used as an intra – duct medication for pulporadicular treatments in Dentistry. Scientific reports about the use of this medication on the role of potassium ion channels in the contractile dynamics of induced arterial smooth muscle are low. Objective: to determine the role of potassium ion channels in the contractile dynamics of Camphenol Plus - induced arterial smooth muscle. Method: a preclinical experimental investigation was performed at the "Oscar Langerdorff" Institute of Physiology, Rostock University Medical Center, Rostock, Germany, between October and December 2018. A total of 30 aortic rings obtained from 10 Wistar rats (n=10) were used. The biological preparations were placed in an organ bath and preactivated with Krebs solution concentrated in potassium ions, afterwards it was recorded the tension developed by the vascular smooth muscle after applying the Camphenol Plus solutions in different time intervals. The Mann-Whitney U test and Wilcoxon test were applied.Results: the 31.4% of vascular smooth muscle was relaxed by the effect of Camphenol Plus after preactivation with Krebs solution concentrated in potassium ions. The greatest decrease in vascular tone occurred between the first and third minutes after the use of the drug solutions prepared at 7 %. Conclusions: the in vitro vasorelaxant effect produced by the Camphenol Plus medication on arterial smooth muscle is mediated by the potassium ion channels sensitive to voltage, calcium and the adenosine triphosphate of the vascular endothelium and sarcolemma.Introducción: el Camphenol Plus es un derivado clorofenólico empleado como medicación intraconducto durante los tratamientos pulporradiculares en Estomatología. Son escasos los reportes científicos sobre el papel de los canales de iones potasio en la dinámica contráctil del músculo liso arterial inducida por dicho medicamento.Objetivo: determinar el papel de los canales de iones potasio en la dinámica contráctil del músculo liso arterial inducida por Camphenol Plus.Método: se realizó una investigación experimental preclínica en el Instituto de Fisiología “Oscar Langerdorff”, Facultad de Medicina, Universidad de Rostock, Alemania, entre octubre y diciembre de 2018, con el empleo de 30 anillos de aorta obtenidos de 10 ratas Wistar (n=10). Las preparaciones biológicas se colocaron en baño de órganos y se preactivaron con solución Krebs concentrada en iones potasio, registrándose luego la tensión desarrollada por el músculo liso vascular tras la adición de soluciones de Camphenol Plus durante diferentes intervalos de tiempo. Se utilizaron las pruebas de Wilcoxon y U de Mann-Whitney.Resultados: el 31,4 % de la musculatura lisa vascular se relajó por acción del Camphenol Plus tras la preactivación con solución Krebs concentrada en iones potasio. El mayor descenso del tono vascular se produjo con el uso de soluciones del medicamento al 7 % entre el primer y tercer minutos.  Conclusiones: el efecto vasorrelajante in vitro producido por Camphenol Plus sobre el músculo liso arterial está mediado por canales de iones potasio sensibles a voltaje, a calcio y a trifosfato de adenosina del endotelio vascular y el sarcolema.Introdução: Camphenol Plus é um derivado clorofenólico utilizado como medicação intracanal durante tratamentos pulporradiculares em Estomatologia. Existem poucos relatos científicos sobre o papel dos canais iônicos de potássio na dinâmica contrátil do músculo liso arterial induzida pela referida droga.Objetivo: determinar o papel dos canais iônicos de potássio na dinâmica contrátil do músculo liso arterial induzida por Camphenol Plus. Método: uma investigação experimental pré-clínica foi realizada no Instituto de Fisiologia "Oscar Langerdorff" da Faculdade de Medicina da Universidade de Rostock, Alemanha, entre outubro e dezembro de 2018, utilizando 30 anéis aórticos obtidos de 10 ratos Wistar (n=10). As preparações biológicas foram colocadas em banho de órgãos e pré-ativadas com solução de Krebs concentrada em íons potássio, registrando-se então a tensão desenvolvida pelo músculo liso vascular após a adição de soluções de Camphenol Plus em diferentes intervalos de tempo. Foram utilizados os testes U de Wilcoxon e Mann-Whitney.Resultados: 31,4% da musculatura lisa vascular relaxada pela ação do Camphenol Plus após pré-ativação com solução de Krebs concentrada em íons potássio. A maior diminuição do tônus vascular ocorreu com o uso de soluções medicamentosas a 7% entre o primeiro e o terceiro minutos.Conclusões: o efeito vasorrelaxante in vitro produzido pelo Camphenol Plus no músculo liso arterial é mediado por canais de íons de potássio sensíveis à voltagem, trifosfato de cálcio e adenosina do endotélio vascular e do sarcolema

Dinâmica contrátil induzida por cânfora-clorofenol em anéis aórticos de ratos Wistar

Introduction: camphorated p-chlorophenol is a chlorophenolic derivative commonly used as an intra-oral medication in endodontics. Scientific reports on its effects in arterial vascular smooth muscle and local blood flow regulation are scarce.Objective: to determine the effect of camphorated p-chlorophenol on the contractile dynamics of arterial vascular smooth muscle. Method: an experimental and preclinical research was conducted with the use of 14 aortic rings of Wistar rats. The rings were placed in an organ bath and preactivated with noradrenaline, and the tension developed by the vascular smooth muscle at different time intervals was recorded after induction of camphorated p-chlorophenol. Results: most of the vascular smooth muscle (51.4%) relaxed with the use of camphorated p-chlorophenol. The greatest decrease in vascular tone occurred between the third and fifth minute after use the drug. Wilcoxon rank tests showed significant differences between tension observed at baseline and those recorded at the different time intervals studied. Conclusions: camphorated p-chlorophenol, induces in vitro, relax the arterial smooth muscle through a pharmacomechanical excitation-contraction link, which increases according to the time.Introducción: el p-clorofenol alcanforado es un derivado clorofenólico de uso común como medicación intraconducto en Endodoncia. Son escasos los reportes científicos sobre sus efectos en la musculatura lisa vascular arterial y la regulación del flujo sanguíneo local.Objetivo: determinar el efecto del p-clorofenol alcanforado sobre la dinámica contráctil del músculo liso vascular arterial en el tiempo.Método: se realizó una investigación experimental preclínica utilizando 14 anillos de aorta obtenidos de ratas Wistar. Los anillos se colocaron en baño de órganos y se preactivaron con noradrenalina, registrándose luego la tensión desarrollada por el músculo liso vascular tras la adición de p-clorofenol alcanforado durante diferentes intervalos de tiempo. Resultados: el 51,4 % de la musculatura lisa vascular se relajó por la acción del p-clorofenol alcanforado. El mayor descenso del tono vascular se produjo entre el tercer y quinto minuto de añadido el medicamento. Las pruebas de Wilcoxon de los rangos con signos evidenciaron diferencias significativas entre la tensión base inicial y la registrada en los diferentes intervalos de tiempo estudiados. Conclusiones: el p-clorofenol alcanforado, induce in vitro, relajación del músculo liso arterial a través de un acoplamiento excitación-contracción de tipo farmacomecánico, la cual se incrementa en función del tiempo.Introdução: o cânfora-clorofenol é um derivado clorofenólico comumente utilizado como medicamento intracanal em Endodontia. Relatórios científicos sobre seus efeitos no músculo liso vascular arterial e na regulação do fluxo sanguíneo local são escassos. Objetivo: determinar o efeito da cânfora-clorofenol na dinâmica contrátil do músculo liso vascular arterial ao longo do tempo. Método: foi realizada investigação experimental pré-clínica com 14 anéis aórticos obtidos de ratos Wistar. Os anéis foram colocados em banho de órgãos e pré-ativados com norepinefrina, em seguida, a tensão desenvolvida pela musculatura lisa vascular foi registrada após a adição de cânfora-clorofenol em diferentes intervalos de tempo. Resultados: 51,4% dos músculos lisos vasculares estavam relaxados pela ação do cânfora-clorofenol. A maior diminuição do tônus vascular ocorreu entre o terceiro e o quinto minuto após a adição do medicamento. Os testes de Wilcoxon das faixas com sinais mostraram diferenças significativas entre a tensão base inicial e a registrada nos diferentes intervalos de tempo estudados.Conclusões: o cânfora-clorofenol induz, in vitro, relaxamento da musculatura lisa arterial por meio de um acoplamento excitação-contração do tipo farmacomecânico, que aumenta em função do tempo

Efecto del Camphenol Plus sobre el músculo liso vascular de vena porta en ratas Wistar

Introduction: Camphenol Plus is one of the antiseptics commonly used in Dentistry since the last century and still in use today. There are few scientific reports of its effect on the endothelium and contractile dynamics of vascular smooth muscle, especially in venous tissues such as the hepatic portal vein.Objective: to determine the effect of Camphenol Plus on the vascular smooth muscle of the portal vein.Methods: a preclinical experimental investigation was carried out using 21 portal veins obtained from Wistar rats. The preparations were placed in an organ bath and the tension developed by the vascular smooth muscle was recorded after the addition of ten microliter of Camphenol Plus, at different concentrations and during different time intervals.Results: Camphenol Plus, after the preactivation of the vascular smooth muscle of the portal vein, induced relaxation, which increased throughout the study time and according to the increase in drug concentrations. There were significant differences between the average tension values recorded in the different time intervals with those of the basal spontaneous tension and the initial baseline tension.Conclusions: Camphenol Plus induced "in vitro" relaxation of portal venous smooth muscles through a pharmacomechanical excitation-contraction coupling.Introducción: uno de los antisépticos comúnmente empleado en Estomatología desde el pasado siglo y que mantiene su uso hasta la actualidad, lo constituye el Camphenol Plus. Son escasos los reportes científicos de su efecto sobre el endotelio y la dinámica contráctil del músculo liso vascular, en especial de tejidos venosos como la vena porta hepática.Objetivo: determinar el efecto del Camphenol Plus sobre el músculo liso vascular de la vena porta.Métodos: se realizó una investigación experimental preclínica, con la utilización de 21 venas porta obtenidas de ratas Wistar. Las preparaciones realizadas se colocaron en baño de órganos, se registró la tensión desarrollada por el músculo liso vascular tras la adición de diez microlitros de Camphenol Plus, en diferentes concentraciones y durante diferentes intervalos de tiempo.Resultados: el Camphenol Plus, tras la preactivación del musculo liso vascular de la vena porta, indujo vasorelajación, la que se incrementó durante todo el tiempo de estudio y según el incremento de las concentraciones del medicamento. Existieron diferencias significativas entre los valores de tensión promedios registrados en los diferentes intervalos de tiempo con los de la tensión espontánea basal y la tensión base inicial.Conclusiones: el Camphenol Plus, indujo “in vitro”, relajación de la musculatura lisa de la vena porta a través de un acoplamiento excitación-contracción de tipo farmacomecánico

The neurobiology of interoception in health and disease

Interoception is the sensing of internal bodily sensations. Interoception is an umbrella term that encompasses (1) the afferent (body‐to‐brain) signaling through distinct neural and humoral (including immune and endocrine) channels; (2) the neural encoding, representation, and integration of this information concerning internal bodily state; (3) the influence of such information on other perceptions, cognitions, and behaviors; (4) and the psychological expression of these representations as consciously accessible physical sensations and feelings. Interoceptive mechanisms ensure physiological health through the cerebral coordination of homeostatic reflexes and allostatic responses that include motivational behaviors and associated affective and emotional feelings. Furthermore, the conscious, unitary sense of self in time and space may be grounded in the primacy and lifelong continuity of interoception. Body‐to‐brain interactions influence physical and mental well‐being. Consequently, we show that systematic investigation of how individual differences, and within‐individual changes, in interoceptive processing can contribute to the mechanistic understanding of physical and psychological disorders. We present a neurobiological overview of interoception and describe how interoceptive impairments at different levels relate to specific physical and mental health conditions, including sickness behaviors and fatigue, depression, eating disorders, autism, and anxiety. We frame these findings in an interoceptive predictive processing framework and highlight potential new avenues for treatments