CI

At a glance

ClinicalIndex Comparison Record
Early Ph 1Completed· 42 enrolled
Drug / intervention
Synthetic interstitial fluid (SIF) / SIF neutral pH +9 moredrug
Likely dose
Not stated in record
Structured eligibility isn't available for this trial yet — see the full criteria in the Eligibility tab below.

Standardized by ClinicalIndex from the ClinicalTrials.gov record · verify against the source.

Search/NCT07092215
NCT07092215Early Ph 1Completed

Mechanisms of Pain Hypersensitivity in a Human Skin Inflammation Model - A Double-blind, Randomized, Placebo-controlled Crossover Study

Stefan Heber·interventional·Posted Jul 29, 2025·Updated Jul 29, 2025

In Brief

A Early Phase 1 clinical trial evaluating Synthetic interstitial fluid (SIF) / SIF neutral pH, Synthetic interstitial fluid (SIF) / SIF acidic pH, and 8 other interventions for Pain. Completed, enrolled 42 participants across 1 site.

Detailed Summary

The main goal of this double-blind, randomized, placebo-controlled crossover study is to understand the molecular mechanisms of inflammation-induced increased pain sensitivity (hyperalgesia). These mechanisms are studied using a recently established human model of skin inflammation that mimics aspects of skin infection. A localized inflammatory response in the skin of healthy volunteers is elicited by locally injecting a small, safe dose of Lipopolysaccharide (LPS), a major component of gram-negative bacteria. The study addresses three key research questions: * Role of RAGE: To investigate if certain inflammatory effects of LPS, which contribute to hyperalgesia, are mediated by a signaling pathway involving the RAGE receptor. * Pain Sensitization: To examine how skin inflammation affects pain caused by acidic stimuli, and to differentiate this from purely mechanical pain. * Role of TRPV1: To determine if the contribution of the TRPV1 ion channel to acid-induced pain is different in inflamed skin. Participants will undergo an experimental session 4.5 hours after LPS injection to measure skin blood flow (using laser speckle imaging), mechanical pain sensitivity (using specialized tweezers), and pain induced by injecting a solution, of which the pH is gradually decreasing (acid-induced pain). The study has minimal risks due to the small, safe doses of substances used ('microdosing') and aims to lay the groundwork for developing new treatments for inflammatory pain conditions.

Study Details

Study Typeinterventional
Allocation--
Masking--
Primary Purpose--
ConditionsPain
CountriesAustria
Collaborators--

Timeline

Early Ph 1CompletedFinished
2026
First PostedJul 29, 2025
Enrollment StartJun 17, 2025
Primary CompletionJul 11, 2025
TodayJul 2, 2026
Enrollment to primary: 24 daysPosted 11 months ago

Interventions

Synthetic interstitial fluid (SIF) / SIF neutral pHdrug

Intradermal injection of SIF at time point -4.5h, followed by laser speckle imaging, mechanical stimulation and intradermal injection of SIF with neutral pH (pH 7.4)

Synthetic interstitial fluid (SIF) / SIF acidic pHdrug

Intradermal injection of SIF at time point -4.5h, followed by laser speckle imaging, mechanical stimulation and intradermal injection of SIF with acidic pH (pH 7.4 to pH 5.7)

Synthetic interstitial fluid (SIF) / SIF acidic pH + BCTC 1 µMdrug

Intradermal injection of SIF at time point -4.5h, followed by laser speckle imaging, mechanical stimulation and intradermal injection of SIF with acidic pH (pH 7.4 to pH 5.7), containing BCTC 1 µM

LPS 5 ng / SIF neutral pHdrug

Intradermal injection of LPS 5 ng at time point -4.5h, followed by laser speckle imaging, mechanical stimulation and intradermal injection of SIF with neutral pH (pH 7.4)

LPS 5 ng / SIF acidic pHdrug

Intradermal injection of LPS 5 ng at time point -4.5h, followed by laser speckle imaging, mechanical stimulation and intradermal injection of SIF with acidic pH (pH 7.4 to pH 5.7)

LPS 5 ng / SIF acidic pH + BCTC 1 µMdrug

Intradermal injection of LPS 5 ng at time point -4.5h, followed by laser speckle imaging, mechanical stimulation and intradermal injection of SIF with acidic pH (pH 7.4 to pH 5.7), containing BCTC 1 µM

LPS 5 ng + Azeliragon 100 µM / SIF neutral pHdrug

Intradermal injection of LPS 5 ng + Azeliragon 100 µM at time point -4.5h, followed by laser speckle imaging, mechanical stimulation and intradermal injection of SIF with neutral pH (pH 7.4)

LPS 5 ng + Azeliragon 100 µM / SIF acidic pHdrug

Intradermal injection of LPS 5 ng + Azeliragon 100 µM at time point -4.5h, followed by laser speckle imaging, mechanical stimulation and intradermal injection of SIF with acidic pH (pH 7.4 to 5.7)

LPS 5 ng + Resatorvid 10 µM / SIF neutral pHdrug

Intradermal injection of LPS 5 ng + Resatorvid 10 µM at time point -4.5h, followed by laser speckle imaging, mechanical stimulation and intradermal injection of SIF with neutral pH (pH 7.4)

LPS 5 ng + Resatorvid 10 µM / SIF acidic pHdrug

Intradermal injection of LPS 5 ng + Resatorvid 10 µM at time point -4.5h, followed by laser speckle imaging, mechanical stimulation and intradermal injection of SIF with neutral pH (pH 7.4 to pH 5.7)