Clinical Trial Details
— Status: Active, not recruiting
Administrative data
| NCT number |
NCT04107402 |
| Other study ID # |
PLACCSEPS |
| Secondary ID |
2018/11DEC/469 |
| Status |
Active, not recruiting |
| Phase |
N/A
|
| First received |
|
| Last updated |
|
| Start date |
March 15, 2019 |
| Est. completion date |
March 15, 2024 |
Study information
| Verified date |
April 2021 |
| Source |
Cliniques universitaires Saint-Luc- Université Catholique de Louvain |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
Knowing the dramatic increase in thrombin generation during sepsis, our research hypothesis
is that AMPK-induced ACC phosphorylation in platelets is increased and that this might
modulate platelets metabolism and more particularly platelets inflammatory mediators content,
coming from AA and lipids.
Description:
Background
Sepsis, a systemic inflammatory reaction occurring in response to an infection, is a major
public health problem and is recognized as the leading cause of death in the intensive care
unit (ICU). This severe inflammatory reaction causes endothelial activation and dysfunction.
This phenomenon is closely associated with the activation of coagulation cascade via exposure
of tissue factor (TF) at endothelial cell surface. TF serves as an anchor for factors of
coagulation VII and X allowing their activation. This results in thrombin (IIa) generation
and fibrin production.
Thrombin is also a potent platelet agonist (activator) resulting in platelet activation and
consumption. The pro-coagulant activity of activated platelets during sepsis enhances the
formation of micro-thrombosis that impair organ perfusion and may lead to death.
Thrombocytopenia is common and is a strong negative prognostic marker in septic shock
patients.
Beyond coagulation, platelets are known to play a key role in inflammation and immune
response. Platelets activation can be initiated by inflamed endothelium or circulatory
inflammatory cytokines, which in turn, modulates the inflammatory and thrombotic response.
Activated platelets interact with immune cells, like neutrophils. Furthermore, platelets can
act as microbial "sensors" by expressing members of Toll-Like Receptors (TLRs) family,
binding ligands from several infectious agents. Recent data highlight the interplay between
platelets and neutrophils extracellular traps (NETs). Platelets facilitate NETs formation
and, inversely, NETS activate platelets. NETs connect platelets, thrombosis, immune response
and inflammation and therefore are of particular interest in the septic context.
Platelets express Acetyl-CoA carboxylase 1 (ACC1), which is the first step enzyme of
lipogenesis. ACC Phosphorylation on Serine 79 by AMP-activated protein kinase (AMPK) leads to
its inhibition and AMPK is activated by thrombin. We demonstrated that AMPK-ACC axis controls
platelets phospholipids content, which influence TXA2 and dense granule release and, in turn,
thrombus formation. TXA2 is generated from phospholipids containing arachidonic acid (AA).
Alternatively, AA can be metabolized by lipooxygenase (LOX) pathway producing lipoxins (LX)
and resolvin, which are rather involved in the resolution of inflammation. The relation
between AMPK-ACC signalling and lipooxygenase pathway has never been investigated.
Research hypothesis
Knowing the dramatic increase in thrombin generation during sepsis, our research hypothesis
is that AMPK-induced ACC phosphorylation in platelets is increased and that this might
modulate platelets metabolism and more particularly platelets inflammatory mediators content,
coming from AA and lipids.
Patients selection
Consecutive patients with septic shock admitted at Cliniques universitaires Saint-Luc,
Brussels, will be included (experimental group)
Control group will correspond to healthy volunteers with matched age and gender, based on
retrospective analysis of patients admitted in ICU for sepsis.
Exploratory control group will correspond to patients admitted in the intensive care unit
without evidence of severe infection and severe systemic inflammatory response. Patients with
neurological disorder and intoxication will be the target population.
Similar exclusion criteria will be the same in control groups than in the experimental group.
Material and methods
Type of study Prospective, monocentric, interventional study.
Blood sampling Blood samples will be collected after venous catheter insertion, within 48
hours after septic shock diagnosis.
The following samples will be taken during the procedure:
- Coagulation including (INR, TCA, TT, PTT, Fibrinogen, DDimers) (1 green TUBE of 3 ml)
- Multiplate analysis (1 orange TUBE of 3 ml)
- Blood sample for platelets protein analysis (including ACC phosphorylation). After
platelets isolation, the remaining plasma will be frozen (2 TUBES CPDA of 8.5 ml).
- Urine sample.
Data collection Data will be collected from Medical Explorer and Q Care, including biological
data that are routinely performed in patients admitted in the ICU as platelets count, CRP
level, coagulation assessment, renal function and liver enzymology. Follow-up will be
performed by at least 3 years and no additional visits will be planned. Events recorded
during the follow-up period will be obtained from Medical Explorer and a phone call will be
done in case of missing data.
Measurements
- Blood cells count including platelets.
- ACC phosphorylation via western blotting, ECLIA.
- Platelets protein extract for protein acetylation.
- Platelet function ex vivo using Multiplate analysis.
- Plasma sampling.
- Platelets lipidomics analysis. ACC phosphorylation analysis
- Plasma-rich-platelet (PRP) will be obtained after centrifugation. Apyrase and Integrilin
are added to limit platelet activation during preparation. PRP will be divided into 3
samples and platelets will be pelleted after centrifugation at 400 g for 10 minutes.
- One of the 3 platelets samples will be lysed with Lemli solution for Western blot
analysis of phosphorylated ACC, ACC1 and phosphorylated protein kinase C substrates. All
samples will then be stocked at -80°c. In order to compare different immunoblotting,
control platelets samples are obtained after thrombin stimulation. Each patient's
platelet sample will be compared to the same control sample. The signal of
phosphorylated ACC for each patient will be quantified by Image J (Rasband, W.S.,
ImageJ, U. S. National Institutes of Health, Bethesda, Maryland, USA,
http://imagej.nih.gov/ij/, 1997-2014) and will be expressed as a fraction of the control
sample signal.
- Level of phosphorylated ACC will be confirmed by electrochemiluminescence (ECLIA, Meso
Scale Discovery) and flow cytometry (FACS).
- Protein extracts will be used for platelets protein analysis using immunoblotting.
Plasma sampling
- Coagulation markers including INR, TCA, TT, PTT, Fibrinogen, D-Dimers, Thrombin
antithrombin complex (TAT).
- Cytokines measurements (TNF-alpha, IL-1b, IL-6, chemokines- CCL 3, 5, and 18, complement
system) as well as inflammatory biomarkers (hypersensitive C-reactive protein).
- Platelets activation biomarkers (sCD62P, sCD40L, CD62P, PF4) (collaboration with Dr C.
Oury, GIGA, Université de Liège, Belgium).
- Fibrinolytic biomarkers (u-PA, t-PA and PAI).
- Lipidomic. Urines Samples of urines will be collected in the same times that blood
sampling to measure TX2B generation.
Lipidomic analyses Lipidome will be analyzed in collaboration with Christine Des Rosiers in
Montréal Heart Insitute. Special attention will be given to metabolites from the COX and LOX
pathways (TXA2 and lipoxins).
Sample size
Based on our preliminary data, we determined that enrollment of minimum 46 patients would
provide a power of 90% at a significance level of 5% to detect a difference of 0.15 in the
phosphorylation of ACC (difference between control group 1 and septic shock population). 20
patients are expected in the exploratory control group.
Covid-19 - Study amendment
Since December 2019, novel Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV- 2)
causing Coronavirus disease 2019 (COVID-19) has evolve from an epidemic outbreak in China
into a pandemic. Severe infection is mainly responsible for bilateral pneumonia but emerging
data indicate that it is a systemic disease involving multiple systems including the
hematopoietic and immune system. Endothelial activation, procoagulant state and
micro-thrombosis has been shown. However, the pathophysiology has not been demonstrated to be
similar to a bacterial sepsis and the above-mentioned metabolic pathway should also be
studied in the subgroup of Covid- 19 patients.
Covid-19 group will correspond to patients admitted in the ICU with ARDS due to SARS-Cov-2
infection and PaO2/FiO2 < 200. Inclusion will be done within 5 days after admission and
patients with bacterial co-infection will be excluded. We planned to enroll 46 patients,
similarly to the control and septic shock group.
