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Personalized Optimization of Antibiotic Therapy in Pulmonary Sepsis Critically Ill Patients Through Application of Rapid Microbiological Diagnostic Technologies and Pharmacokinetic/Pharmacodynamic Modelling

NCT06956053 · Status: NOT_YET_RECRUITING · Phase: NA · Type: INTERVENTIONAL · Enrollment: 658

Last updated 2025-05-02

No results posted yet for this study

Summary

Severe community-acquired and nosocomial pneumonia are associated with substantial morbidity and mortality. Early and appropriate antimicrobial therapy (AAT) is consistently the most effective intervention for reducing mortality. Cure is most likely when pharmacokinetic (PK) / pharmacodynamics (PD) targets associated with maximum antibiotic (ABX) activity are achieved. However, the process of optimizing antibiotic therapy for critically ill patients remains a complicated challenge.

A key issue is pathogen identification (ID) with subsequent antibiotic susceptibility testing (AST) results which allow for selection of AAT. Standard laboratory procedures typically require 2-3 days to provide ID and AST results. Optimal ABX dosing/dosing intervals depend in large part on PK properties in individual patients, and antibacterial effects on the infecting bacteria (PD). Alterations in the primary PK parameters, namely volume of distribution (Vd) and clearance (CL), are commonly observed, and are the most influential parameters in determining ABX dosing and exposure. ABX dosing/dosing intervals that do not account for these features are likely to lead to suboptimal ABX exposure and therapeutic failures. Because of 48-72-hours delays in ID/AST, initial treatment is frequently inappropriate in coverage, unnecessarily broad in spectrum, and/or suboptimal in dosing.

Methods for rapid bacterial growth, ID, AST and minimum inhibitory concentration (MIC) identification were developed and are capable of quantitative ID in 1-2 hours and major AST in 6-8 hours using clinical specimens. Rapid ID of the infecting pathogen and its individual AST could significantly impact the early selection of AAT and, combined with therapeutic drug monitoring data, could be used to calculate optimized dosing regimens that are personalized for the patient in order to achieve appropriate PK/PD targets.

Hypothesis: Application of these rapid ID/AST systems, together with prospective PK/PD monitoring of antibiotic plasma concentrations, will significantly shorten time from "sample to answer" for pathogen ID/AST, enhance personalized prescribing of antibiotics, optimize the time to targeted effective and AAT, and result in decreased treatment failure.

Conditions

  • Pulmonary Sepsis

Interventions

DIAGNOSTIC_TEST

Rapid ID/AST method

1. BioFire® Film Array® Blood Culture Identification 2 BCID2 panel, bioMérieux/BioFire Diagnostics, CE marked (FDA cleared) 2. BioFire® FilmArray® Pneumonia Panels, CE marked (FDA cleared) 3. SPECIFIC REVEAL® Rapid Antimicrobial Susceptibility test (AST) System, bioMérieux/Specific Diagnostics, CE-IVD and -IVDR marked

DIAGNOSTIC_TEST

Conventional biological methods

Usual care

Sponsors & Collaborators

  • Assistance Publique - Hôpitaux de Paris

    lead OTHER

Study Design

Allocation
RANDOMIZED
Purpose
DIAGNOSTIC
Masking
NONE
Model
PARALLEL

Eligibility

Min Age
18 Years
Sex
ALL
Healthy Volunteers
No

Timeline & Regulatory

Start
2025-05-30
Primary Completion
2028-05-30
Completion
2028-11-30

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Read the full study record

This page highlights key information. For complete eligibility criteria, study locations, investigator contacts, and the full protocol, visit the original record on ClinicalTrials.gov.

View NCT06956053 on ClinicalTrials.gov