The Effects of Oral Dipyridamole Treatment on the Innate Immune Response During Human Endotoxemia

The Effects of Oral Dipyridamole Treatment on the Innate Immune Response During Human Endotoxemia.

Status

Completed

Phases

Phase 4

Study type

Interventional

Source

ClinicalTrials.gov

Registry ID

NCT01091571

Enrollment

Registered

2010-03-24

Start date

2010-03-31

Completion date

2010-10-31

Last updated

2010-11-05

For informational purposes only — not medical advice. Sourced from public registries and may not reflect the latest updates. Terms

Conditions

Endotoxemia

Keywords

Adenosine, Endotoxin, Innate Immunity, Dipyridamole

Brief summary

During sepsis and septic shock the immune response can be overwhelming leading to excessive tissue damage, organ failure and death. Ideally, the inflammatory response is modulated leading to both adequate protection to invading pathogens as well as limitation of an exuberant immune response. In the last few years adenosine is proposed to have a central role in the modulation of inflammation. In unfavorable conditions such as hypoxia, ischemia or inflammation adenosine is quickly up-regulated; with concentrations up to tenfold in septic patients. Many animal studies have shown that adenosine is able to attenuate the inflammatory response and decrease mortality rates. Therefore, pharmacological elevation of the adenosine concentration is an potential target to attenuate inflammation and limit organ injury. Dipyridamole, an adenosine re-uptake inhibitor is able to increase the adenosine concentration and limit ischemia-reperfusion injury. In order to study the effects of dipyridamole on the inflammatory response we aim to use the so called human endotoxemia model. This model permits elucidation of key players in the immune response to a gram negative stimulus in vivo, therefore serving as a useful tool to investigate potential novel therapeutic strategies in a standardized setting.

Interventions

DRUGDipyridamole

Oral treatment with dipyridamole 200 mg twice daily during seven consecutive days

DRUGPlacebo

Placebo twice daily during seven consecutive days

OTHERLPS

The LPS derived from E. coli O:113 2ng/kg iv will be injected in 1 minute at a dosage of 2 ng/kg body weight.

Study design

Allocation

RANDOMIZED

Intervention model

PARALLEL

Primary purpose

PREVENTION

Masking

TRIPLE (Subject, Caregiver, Investigator)

Eligibility

Sex/Gender

MALE

Age

18 Years to 35 Years

Healthy volunteers

Yes

Inclusion criteria

* Age ≥ 18 and ≤ 35 years * Male * Healthy

Exclusion criteria

* Use of any medication. * History of allergic reaction to dipyridamole * Bleeding disorder. * Smoking. * Previous spontaneous vagal collapse. * History, signs or symptoms of cardiovascular disease. * Cardiac conduction abnormalities on the ECG consisting of a 2nd degree atrioventricular block or a complex bundle branch block. * Hypertension (defined as RR systolic \> 160 or RR diastolic \> 90). * Hypotension (defined as RR systolic \< 100 or RR diastolic \< 50). * Renal impairment (defined as plasma creatinin \>120 μmol/l). * Liver enzyme abnormalities or positive hepatitis serology. * Positive HIV serology or any other obvious disease associated with immune deficiency. * Febrile illness in the week before the LPS challenge. * Participation in another drug trial or donation of blood 3 months prior to the planned LPS challenge.

Design outcomes

Primary

Measure	Time frame	Description
Circulating cytokines	24 hours after LPS administration	TNFx, IL6, IL10, IL1RA

Secondary

Measure	Time frame	Description
Sensitivity to norepinephrine	24 hrs after LPS administration	Venous occlusion plethysmography
Endothelial-dependent and independent vasorelaxation	24 hours after LPS administration	Venous occlusion plethysmography
Markers of endothelial damage and circulating endothelial cells	24 hrs after LPS administration	circulating adhesion molecules (ICAM, VCAM, E-selectin, P-selectin) circulating endothelial cells
Hemodynamics	24 hours after LPS administration	Continious heart rate and blood pressure measurement
Adenosine and related nucleotide concentrations	24 hrs after LPS administration	—
Additional blood samples will be drawn for genetic testing and measurement of: mRNA and proteins part of the adenosine metabolism	24 hours after LPS administration	—
Oxydative stress	24 hours after LPS administration	Thiols, neutrophilic burst, calcium release of neuthrophils, TBARS, Carbonyls, FRAP, Myeloperoxidase, catalase, Griess assay
Urinary excretion of markers of renal injury	24 hrs after LPS administration	GSTAlpha1-1 and GSTPi1-1

Countries

Netherlands

Outcome results

None listed

Source: ClinicalTrials.gov · Data processed: Mar 27, 2026