View clinical trials related to ITCH.
Filter by:With this experiment, the experimenter wish evaluate the role of TRPA1 on non-histaminergic itch induced by BAM8-22
With this experiment, the experimenter wish evaluate the role of TRPA1 on non-histaminergic itch induced by BAM8-22
With this experiment, we want to use to investigate whether repeated application of EMLA cream as a tool to modulate non-histaminergic itching, which is produced using small needles from the plant mucuna pruriens (it is known that antihistamine does not attenuate this form of itch) and we want to compare the effect of short (1 hour) and prolonged (3 hours) application of EMLA. The sub-project takes place in 3 sessions over a period of 3 consecutive days (24 hours apart). All sessions will be identical.
This third sub-project aims to evaluate the interaction between the TRPM8 receptor and pruritus by studying the anti-pruritic effect of TPRM8-agonist L-menthol on histaminergic and non-histaminergic itch induced using three different pruritogens: histamine, cowhage and papain.
The aim of our 2nd sub-project is to clarify if the capsaicin receptor TRPV1 is implicated in the mechanism of morphine-induced mast cell degranulation. Moreover, we also aim to clarify if the mechanism of opioid-induced itch relay on the histaminergic pathway by using the antihistamine (diphenhydramine) to suppress the release of histamine from peripheral mast cells.
In this study the investigators wish to investigate whether halophyte-based cream applied to the skin can reduce itch applied by means of small needles from the plant mucuna pruriens (also called cowhage) or by histamine (an itch-evoking substance formed in the human body). Further, the investigators wishes to investigate whether long-term application of halophyte-based cream has a pain-relieving effect on heat/cold and pinprick stimulations.
With this experiment, the experimenter wish to asses if substance BAM8-22 (Bovine Adrenal Medulla) induce non-histaminergic itch.
In this experiment the investigators would like to assess if papain induces an itch sensation comparable to the itch sensation induced by cowhage and to confirm that the mechanism of action of papain follows the non-histaminergic pathway.
In this experiment the investigators would like to test a new new human itch model based on papain, and to characterize the sensory quality and temporary aspects of papain skin prick test (SPT) in comparison to the inactivated-cowhage delivery system.
Placebo and nocebo effects are defined as the positive and negative effects occurring after the (supposed) administration of an inert treatment, which, through a given learning process, is believed to have positive or negative effects. The objective of this study is to summarize the available knowledge on experimental inductions of placebo and nocebo effects on somatosensory sensations, specifically pain and itch. The aim isto investigate the extent to which learning processes (such as conditioning and verbal suggestions) induce placebo and nocebo effects on pain and itch in healthy humans. The researchers intent to examine expectancy induction methods for placebo and nocebo effects on somatosensory sensations, describe methodological attributes of the research and propose practical and theoretical implications as well as future directions for research investigating placebo and nocebo effects on somatosensory sensations.