Sepsis Clinical Trial
Official title:
Granzyme A in Patients With E. Coli Bacteremic Urinary Tract Infections
Background: Survival in Granzyme A gene (gzmA) knocked-out mice was significantly longer than
in wild-type mice in a murine peritonitis model (cecal ligation puncture).
Hypothesis: GZM A has a pathogenic role in sepsis in humans and gzmA polymorphisms can help
to predict the risk of sepsis among patients with systemic infections (E. coli bacteremic
urinary tract infections).
Objectives:
1. To assess the correlation between GZM A serum levels and systemic inflammatory response
in a human model of infection/sepsis (E. coli bacteremic UTI)
2. To characterize gzmA polymorphisms among patients with E. coli bacteremic UTI
3. To determine GZM A serum kinetics among patients with E. coli bacteremic UTI
4. To characterize E. coli strains causing bacteremic UTI: antimicrobial phenotype and
virulence factors ("virulome").
Methods:
- Design and setting: Prospective nested case-control study
- Study population: consecutive adult patients with bacteremic urinary tract infections
(UTIs) caused by E. coli
- Exclusion criteria: Patients with conditions that significantly compromise immune status
or patients exposed to urologic procedures
- Estimated sample size: 50 patients with a sepsis/ non sepsis 1:1 ratio. Septic and non
septic patients will be matched on gender, age (+/- 10 years), comorbidity (Charlson
score +/-1), time symptom onset to blood culture (+/- 24h)
- Measurements: GZM A serum levels will be determined on day 0, day 2-3, day 30. GZM A
kinetics, gzmA polymorphisms (whole exome sequencing).Whole genome sequencing of E. coli
isolates retrieved from blood cultures will be performed.
- Analysis: Association between GZM A levels and gzmA polymorphisms and sepsis will be
analyzed adjusting for patient, infection and microorganism-related factors
(multivariate analysis).
1. Research hypothesis
The research team has explored the role of GZM A
1. Conceptual hypothesis:
- Granzyme A is a pathogenic sepsis mediator.
- Granzyme A gene polymorphisms determine the serum concentration of GZM A in
patients with systemic infections.
- Granzyme A gene polymorphisms determine the risk of sepsis among patients with
systemic infections.
2. Operational hypothesis:
- Among patients with bacteremic (E. coli) urinary tract infections (UTIs), GZM A
levels are significantly higher in those patients who develop sepsis as compared
with those who do not develop sepsis.
- There are significant differences in the GZM A gene polymorphism profile of
patients with bacteremic (E. coli) UTIs who develop sepsis as compared with those
who do not develop sepsis.
2. Aims and objectives
- Aims
1. To assess the pathogenic role of GZM A in sepsis in patients with bacteremic
(E. coli) UTIs.
2. To explore the capability of GZM A polymorphisms to anticipate the risk of
developing sepsis in patients with bacteremic (E. coli) UTIs.
3. To evaluate the potential usefulness of GZM A as a diagnostic biomarker of
sepsis in patients with bacteremic (E. coli) UTIs.
4. To characterize E. coli "virulome" among circulating uropathogenic strains.
- Objectives
1. To evaluate the correlation between serum levels of GZM A and systemic
inflammatory response in patients with bacteremic (E. coli) UTIs.
2. To characterize GZM A gene polymorphisms among patients with bacteremic (E.
coli) UTIs
3. To assess GZM A serum kinetics among patients with bacteremic (E. coli) UTIs
4. To phenotypically and molecularly characterize E. coli strains causing
bacteremic UTIs, including their virulence factors ("virulome").
3. Expected outcomes.
- Characterization of the pathogenic role of GZM A in sepsis in patients with
systemic infections
- Characterization of GZM A as a sepsis biomarker in a human model of
infection-sepsis.
- Phenotypical and molecular characterization of uropathogenic E. coli causing
bloodstream infections.
4. Methods
4.1. Design and project scope
- Prospective, exploratory nested case-control study to be conducted at one academic
hospital (Hospital Clínico Universitario Lozano Blesa) affiliated with the Instituto de
Investigación Sanitaria Aragón (IIS Aragón).
4.2. Study period: June 2019 - December 2020.
4.3. Patients and sample size
Inclusion criteria (To meet all):
- Age >= 18 years old.
- E. coli bloodstream infection
- Urinary source. Urinary source should be considered if (any) of the following:
1. Urinary source is clinically suspected and both E. coli isolates (in blood and
in urine culture) share the same phenotype (antibiogram).
2. Urinary source/origin is clinically suspected, and the urine culture is
negative, but the patient had received at least one dose of any systemic
antibiotic with antimicrobial activity against the E. coli strain causing the
BSI before blood cultures were obtained.
3. Both isolates (in blood and in urine culture) share the same phenotype
(antibiogram) and there is no alternative source.
Exclusion criteria:
1. Use of systemic antibiotics for >48h in the two months preeeding the episode.
2. Immunocompromised hosts - Patients receiving systemic steroid use (>10 mg
prednisone/day during 10 or more days in the previous 2 months).
- Patients receiving biological therapy (previous 2 months).
- Active solid or hematological cancer.
- HIV +.
- Neutropenia < 500 PMN/microl.
3. Basal urinary tract abnormalities or locally modified vesical microbiome (any):
- Ureteroileostomy, ureterosigmoidostomy, ureterostomy (Bricker) or nephrostomy.
- Indwelling urinary catheter (in the last two months)
- Urological surgery (in the last two months).
- Intravesical chemotherapy (in the last two months).
- Intravesical BCG instillation (in the last two months).
Potential candidates will be detected daily by the microbiologists on the research
team. Inclusion criteria will be verified in the multidisciplinary meeting that
antimicrobial stewardship teams (AST) conduct on a daily basis at the participating
hospital.
Estimated size of the study population. Matching:
- 50 patients with a sepsis/ non sepsis 1:1 ratio will be included.
- Septic and non-septic patients will be matched on gender, age (+/- 10 years),
comorbidity (Charlson score +/-1), time symptom onset to blood culture (+/- 24h)
4.4. Definitions
Cases (sepsis / septic shock):
- Sepsis or shock septic are defined as life-threatening organ dysfunction caused
by a dysregulated host response to infection according to the 2001
SCCM/ESICM/ACCP/ATS/SIS International Sepsis Definition Conference.
Controls:
- Absence of sepsis or septic shock according to the 2001 SCCM/ESICM/ACCP/ATS/SIS
International Sepsis Definition Conference.
4.5. Variables
4.5.1. Patient-related variables:
- Demographical: gender, age.
- Comorbidity: Modified Charlson Index
- Baseline serum creatinine.
4.5.2. Infection-related variables. - Time from the onset of symptoms to the start
of antimicrobial treatment.
- Time from the onset of symptoms to the start of appropriate antimicrobial
treatment.
- Time form the onset of symptoms to the surgical therapy (if needed).
- Clinical severity at time 0 (blood culture), and day 2- 3 and day 30: sepsis
score.
4.5.3. Inflammation, sepsis mediators and biomarkers. - The following biomarkers
will be determined during patient enrollment:
- White blood cell count and differential.
- Platelet count.
- Fibrinogen.
- Prothrombin activity.
- C reactive protein.
- Procalcitonin.
- GZM A.
GZM A serum levels will be obtained in all patients during the enrollment visit,
the 2-3 day and the 30 day visits (GZM A kinetics). GZM A levels will be determined
by an ELISA commercial assay (Human Granzyme A ELISA development kit{HRP];
Mabtech).
GzmA gene polymorphisms, as well as other potentially associated mutations, will be
screened by Whole Exome Sequencing (WES). To this aim, we will use DNA isolated
from peripheral blood cells and the AmpliSeq technology kit on the Ion Torrent
platform following the manufacturer's instructions. This platform is available at
the Genomics Central Research Unit (CRU) at CIBA from University of Zaragoza/IIS
Aragon. All kits for isolating and analyzing DNA samples are commercially available
and optimized by Thermo Scientific. Bioninformatic analysis will be performed by an
agreement established between Genomics CRU and Micromics SL led by Pedro Gonzalez
at CRG in Barcelona.
4.5.4. Microbiological variables
- Minimum inhibitory concentrations (MIC) of the E. coli isolates retrieved from
urine and blood cultures will be determined through automated microdilution
panels as routinely performed by the Microbiology Laboratory of participating
hospitals.
- Whole genome sequencing (WGS) of the E. coli strains isolated in blood and
urine cultures. The presence of E. coli known virulence factors will be
analyzed and a virulence score for each strain will be calculated (Mora-Rillo
et al., 2015).
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