Clinical Trials Logo

Clinical Trial Summary

Current projects study veteran patients with chronic ulcers and MRSA colonization and infection, patients with imipenem-resistant P. aeruginosa colonization and infection, the relationships between staffing pattern, severity of illness and nosocomial infections in intensive care units and infection control practices for veteran patients with suspected tuberculosis.


Clinical Trial Description

Nosocomial infections are often caused by antimicrobial-resistant pathogens such as vancomycin resistant enterococci (VRE) and are a major cause increased morbidity, mortality and cost in hospitalized patients. Nosocomial bloodstream infections (BSI) add 7 to 21 days to the length of stay and cost institutions $3,061 to $40,000. The average cost of treating patients with VRE BSI has been estimated as 30% more than vancomycin sensitive enterococcal BSI. In addition, the attributable mortality of VRE BSI has been estimated as 37%. Preventing VRE infection and VRE transmission is clearly important and understanding the risk factors for each is a necessary first step. The goal of this three year study is to identify potentially effective interventions for the prevention of VRE infection and colonization Before testing interventions, we need to identify risk factors for VRE infection which will allow us to (1) identify potentially effective interventions and (2) focus on patients at highest risk for VRE infection. We will study the effect of antibiotic use, particularly vancomycin, and impaired host defenses on VRE infection in a large cohort study of VRE colonized patients. The goal is to develop a statistical model, which will allow us to identify alterable risk factors, which could reduce the risk of VRE infection. Many case-control studies have been performed to study VRE colonization and infection; however, most of these studies were small with insufficient sample sizes for multivariate modeling. Vancomycin-resistant enterococci (VRE) can be transmitted from patient to patient. We propose to model the ecological relationship between the rate of VRE transmission and the pre-existing prevalence of VRE in an ICU to determine whether the relationship is linear or exponential. The objective is to determine at what point the rate of transmission increases significantly that specific interventions should occur (e.g. reverse isolation of all patients, close unit to new admissions). Controlling health care costs is an important part of health care today and is particularly important in the capitated reimbursement system that VHA is adopting. Potential interventions to prevent VRE infections and VRE transmission must be cost-effective to the healthcare system to justify their adoption. The current study will quantify the operational costs associated with VRE colonization and infection in hospitalized patients compared to their non-colonized counterparts. Patients from the intensive care units with and without VRE colonization will be covaried for severity of illness and stratified by Major Diagnostic Category (by primary ICD-9 code) and marginal health care costs compared. This estimate can then be used to examine the potential cost-effectiveness of identified interventions, and to justify the system-wide costs of implementing these interventions. ;


Study Design

Time Perspective: Prospective


Related Conditions & MeSH terms


NCT number NCT00018434
Study type Observational
Source VA Office of Research and Development
Contact
Status Completed
Phase N/A
Start date July 1998
Completion date June 2001

See also
  Status Clinical Trial Phase
Completed NCT04529421 - Assocation Between In-person Instruction and COVID-19 Risk
Recruiting NCT04081792 - Optimal Antibiotics for Operated Diabetic Foot Infections N/A
Completed NCT04332861 - Evaluation of Infection in Obstructing Urolithiasis
Recruiting NCT04674657 - Does Extra-Corporeal Membrane Oxygenation Alter Antiinfectives Therapy Pharmacokinetics in Critically Ill Patients
Enrolling by invitation NCT05052203 - Researching the Effects of Sepsis on Quality Of Life, Vitality, Epigenome and Gene Expression During RecoverY From Sepsis
Recruiting NCT00342589 - New Techniques for Using a Saline Wash as a Diagnostic Tool for Pneumocystis Pneumonia
Completed NCT03295825 - Heparin Binding Protein in Early Sepsis Diagnosis N/A
Completed NCT03296423 - Bacillus Calmette-guérin Vaccination to Prevent Infections of the Elderly Phase 4
Withdrawn NCT04217252 - Clinical Application of High-throughput Sequencing Technology for the Diagnosis of Patients With Severe Infection N/A
Recruiting NCT02905552 - Myelodysplasic Syndromes and Risk Factors for Infection N/A
Recruiting NCT02899143 - Short-course Antimicrobial Therapy in Sepsis Phase 2
Withdrawn NCT02904434 - Gastrointestinal Implications of Voriconazole Exposure
Active, not recruiting NCT02768454 - Antimicrobials Stewardship by Pharmacist N/A
Completed NCT02219776 - Decreasing Infection In Arthroscopic Shoulder Surgery N/A
Completed NCT02210169 - RCT of Continuous Versus Intermittent Infusion of Vancomycin in Neonates N/A
Recruiting NCT02098226 - Evaluation of MALDI Biotyper CA System for Detection of Gram- and Gram+ Bacteria and Yeasts N/A
Completed NCT01846832 - A Study of TMC435 Plus Pegylated Interferon Alfa-2a and Ribavirin in Participants With Chronic HCV Infection Phase 3
Terminated NCT01441206 - Safety and Pharmacokinetics of Single and Multiple Dose Rifampin in Infants Phase 1
Completed NCT01434797 - Value of PET/CT Imaging in the Diagnosis of Permanent Central Venous Catheters Infection
Completed NCT01159834 - Human Papillomavirus (HPV) Vaccination in Barretos (Pio XII Foundation - Barretos Cancer Hospital) N/A