Critical Illness Clinical Trial
Official title:
Pilot Observation of the Impact of Human Blood Serum From Critically Ill Patients With or Without Critical-illness-polyneuropathy on Intramural Neuronal Networks of Human Colon Samples
Critical illness in the ICU setting has high medical and socioeconomic importance. Critically
ill patients frequently develop severe neurologic impairment during their course of disease,
typically presenting as critical-illness-polyneuropathy (CIP), which is associated with an
increased mortality rate. To date neither strategies are available to predict nor to
specifically treat CIP.
Diagnostic tests to determine CIP during the course of critical illness are available through
nerve conduction studies. Further research is needed to find diagnostic tools to identify
patients who are on high risk to develop CIP, which could encourage the evolution of new
therapeutic strategies for CIP patients.
The aims of the study are:
1. An early detection of changes in intramural neuronal networks of human colon samples
induced by human blood serum from critically ill patients in order to predict the
development of CIP
2. The comparison of different diagnostic tests to diagnose and monitor CIP during the
course of critical illness (neurologic examination versus nerve conduction study versus
neuromyosonography)
All patients with critical illness and fulfilling the inclusion criteria should be screened
for the study on two surgical ICUs at the university hospital of Rostock, Germany.
The inclusion of patients will be started if written informed consent was obtained from all
participants or their representatives (if direct consent could not be obtained).
The aim of the study is a prediction or an earlier detection of CIP in critically ill
patients before nerve conduction studies are able to diagnose CIP. We hypothesize that
upregulated circulating neurotoxic factors in human serum of critically ill patients cause
neuronal damage and play an important role in the pathogenesis of CIP. Time from upregulation
of neurotoxic factors to the clinical appearance of neuronal damage (CIP) is unknown.
An experimental part of the study aims at establishing enteric neuronal networks as
functional bioassays for the qualitative detection of neurotoxic humoral factors. Human colon
samples will be exposed to the serum of critically ill patients with and without CIP in an
organ bath (100% serum) under standardized physiologic conditions. Alterations to neuronal
functions (contractions, spontaneous activity) will be studied between serum from patients
with CIP, without CIP and serum probes from healthy volunteers (without critical illness).
In a clinical part of the study critically ill patients with and without CIP (detected by
nerve conduction studies as the gold standard for the diagnosis of CIP) will be examined by
neurologic examination, nerve conduction study and neuromyosonography of peripheral nerves.
The incidence, the extent and the time from the beginning of critical illness to the clinical
appearance of nerval alterations will be compared between the 3 diagnostic tests.
From all patients basic demographic data, illness severity scores (APACHE-II, SOFA)
laboratory results, pre-morbidity data and clinical outcome for the study cohort will be
recorded. At day 3 and 10 patients will be examined by neurologic examination, nerve
conduction study, neuromyosonography and laboratory tests (inflammation, coagulation, organ
function, blood parameters including TNF-alpha, IL-6, S100b, oxidative stress markers,
neurofilaments, C-type natriuretic peptide).
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