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Plasma Inducible Nitric Oxide Synthase (iNOS) Assay and Sepsis Study — PliNOSa® Test

Sepsis Clinical Trial

Official title:
Evaluation of the PliNOSa® Test as an Aid in the Risk Assessment for the Onset of Sepsis

Clinical Trial Summary

The primary objective is to demonstrate that the plasma inducible nitric oxide synthase (iNOS) assay (PliNOSa® test) has an acceptable relative risk ratio for predicting the onset of sepsis within 72 hours of testing when performed on the first day a patient is admitted or transferred to the intensive care unit (ICU) and is considered to be at risk of becoming septic. The PliNOSa® test measures inducible nitric oxide synthase (iNOS) in plasma and uses a pre-determined iNOS cut-off value to identify patients at risk for the onset of the sepsis pathology.

Clinical Trial Description

At present, an accurate and definitive clinical test to predict early the onset of the sepsis pathology does not exist. At least 7 million people per year enter into the early stages of the sepsis pathology, which will lead to more than 250,000 deaths per year in the USA and more than 750,000 worldwide. An early, accurate, and reliable test that can assess an intensive care unit (ICU) patient's risk of becoming septic would be a major medical breakthrough. A large unmet clinical laboratory need exists for a test that can aid physicians in assessing their patient's risk for the onset of the sepsis pathology. The current culture procedures suffer from a number of problems. (1) They are slow. The first answer is obtained only after 24 hours of culture, and an absolute answer requires a minimum of 48 hours of culture. (2) Blood culture only yields positive results (i.e. sepsis is present) in approximately 28% of patients who become septic, thus over 70% of the patients do not yield positive blood cultures. Everyone in the sepsis field agrees that better IVD tests for the sepsis pathology are desperately needed. Our PliNOSa IVD test based upon the presence of iNOS in plasma should identify those patients as being at risk for developing sepsis since our assay is not dependent upon the culturing of live bacteria or other micro-organisms. Sepsis develops from a variety of bacterial and fungal sources stemming from the patient's inability to fight infection, and is commonly acquired while recovering from severe injuries and surgery in hospitals. An early, accurate, and reliable clinical diagnostics test for the onset of sepsis currently does not exist, but an enormous clinical laboratory need does exist. In January 2008, Levenson reviewed the current status of the clinical diagnosis of sepsis and concluded [1] that none of the currently FDA cleared risk-assessment tests work well and [2] that new biomarkers specific for the sepsis pathology would be a major medical breakthrough. In 2000, the Institute of Medicine of the National Academy of Science estimated the cost to the US healthcare system to be $17 - 29 billion annually. The presence in plasma of a normally intracellular protein, inducible nitric oxide synthase (iNOS), has been found to be an early and accurate biomarker for the onset of the sepsis pathology. Data gathered using our in vitro diagnostic (IVD) test to analyze more than 1,200 blood samples collected during our clinical studies on 350 study subjects (295 ICU patients and 55 healthy volunteers) demonstrated that iNOS is present only in plasma samples obtained from people suffering from the onset of sepsis. In our three clinical studies, the latter two of which were partially funded by the NIH, our candidate IVD test for plasma iNOS was found to predict the onset of sepsis 24 - 72 hours before the appearance of the physiological symptoms of the pathology. The superiority of plasma iNOS as compared to other potential biochemical markers of SIRS (pre-sepsis) and sepsis was assessed using the data from our third clinical study. Four cohorts from this study were analyzed for the plasma levels for four potential biomarkers of the sepsis pathology: iNOS, procalcitonin (PCT), interleukin-6 (IL-6), and tumor necrosis factor-alpha (TNFα). The four cohorts are (1) 36 normal healthy individuals as Group A; (2) critically injured patients who remained SIRS and septic negative throughout the entire study period as Group B; (3) critically ill patients who became septic during the study period, with their plasma levels 24 hours before the symptoms of sepsis were recognized by the attending doctors as Group C; and (4) confirmed septic patients who were enrolled in our study and had not received antibiotics prior to their enrollment as Group D. Only plasma iNOS was found to differentiate between non-septic critically ill patients (Group B) and the critically ill patients who were developing sepsis (Group C) or were already septic (Group D). The plasma level of procalcitonin, one of the FDA cleared IVD tests, was not specific for sepsis since a number of normal healthy volunteers and many of the non-SIRS and non-septic patients had elevated plasma levels of procalcitonin (PCT). To summarize, infections in intensive care units and other hospital settings can be caused by different types of organisms, such as bacteria and fungi. These infections annually cause more than 7,000,000 cases of SIRS (pre-sepsis) that can deteriorate to sepsis, severe sepsis with organ dysfunction, and septic shock with multiple organ failure. To date, three clinical studies have been conducted on this project in which 295 ICU patients and 55 healthy volunteers have been enrolled and studied. The data obtained during these prior clinical studies clearly demonstrate that a measurable increase in the plasma level of iNOS occurs during the onset of the sepsis pathology. The main focus of this research proposal is to gather the data needed to obtain FDA clearance to market our new PliNOSa® test by demonstrating in a statistically significant number of critically ill ICU patients that the presence of iNOS in plasma is a reliable early biomarker as a risk assessment aid for the onset of sepsis. ;

Study Design

Related Conditions & MeSH terms

Clinical Trial Details
NCT number NCT01371929
Study type Observational
Source Research & Diagnostic Antibodies
Contact
Status Terminated
Phase
Start date February 4, 2013
Completion date September 30, 2015
View Details
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