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Clinical Trial Summary

In patients with clinical symptoms of respiratory infection, rapid identification of cases requiring antibiotic therapy is crucial to avoid development of multiple resistant bacteria. Identification of local acute-phase reactants can help assess the host's response to bacterial infection at the injury site. Here, the investigators developed an affordable, stable, feasible, and accurate diagnostic tool based on a locally produced protein with specific binding affinity to polysaccharides. The investigators further evaluated the ability of the novel test strip to rule out pneumonia.


Clinical Trial Description

A lower respiratory tract infection is a serious situation that can abruptly become complicated by sepsis, respiratory failure, lung tissue necrosis, and multiple organ dysfunction. Hence, empiric antibiotic treatment is commonly initiated as soon as infection is suspected and cultures and/or other diagnostic tests are procured, representing a major reason for antibiotic prescription. Widespread antibiotic overuse and misuse have led to the emergence of multiple resistant bacterial strains, posing a major health threat. There exists a critical need for practical solutions to prevent antibiotic overuse, especially in communities where antibiotics are available without prescription.

Pathophysiologic studies show that infection does not result from bacterial or viral overgrowth alone, but rather from the microorganisms' penetration beyond the host immune system. Therefore, infection assessment requires investigation of both microorganism presence and the defense mechanisms activated within the patient's body. Bacteria overgrowth leads to lung tissue inflammation, recruitment of white blood cells to the infected area, and chemokine and cytokine production and release, which can cause the alveoli to become filled with fluid, leading the patient to develop a cough with phlegm or pus, fever, chills, and dyspnea.

Microbiological diagnosis of lower respiratory tract infections requires assessment of the invading microorganism by examination of sputum using microscopy, quantitative culture, and PCR. However, such microbiological investigations have limited value in pneumonia management. Polymicrobial flora make it difficult to interpret cultures from patients with chronic bronchitis. It is also difficult to evaluate cultures from nosocomial pneumonia since the pathogenic bacteria are often identical to those appearing in the throat flora. Immunosuppressed patients frequently produce sputum containing low number of white blood cells. The patient's clinical signs, such as respiratory and circulatory status, are the most reliable markers for determining treatment efficacy.

In practice, most physicians choose to examine additional markers at early stages to closely monitor the effects of therapy, particularly in high-risk patients who have been admitted to intensive care units. Commonly used systemic markers include body temperature, C-reactive protein (CRP), procalcitonin (PCT), and interleukin 6 (IL-6). Hepatocyte growth factor (HGF) concentration reportedly increases during organ damage, such as that caused by infectious diseases. Studies show increased HGF concentrations in serum and exhaled-breath condensate from patients with pneumonia, with HGF presence being significantly correlated with survival. Moreover, HGF levels markedly decrease within 48 hours of initiating appropriate antibiotic therapy. Surface plasmon resonance (SPR) results indicate that HGF produced during acute infection shows high affinity for the extracellular matrix component heparan sulfate proteoglycan (HSPG). These findings suggest that HGF assessment in sputum could be a tool for detecting bacterial infection at the site of injury.

Proteins can be detected based on their specific interaction with a corresponding antibody. However, this measurement system relies on specialized resources, limiting its usefulness in non-equipped centers or as a self-test. Metachromasia is a characteristic color change exhibited by certain aniline dyes upon binding to chromotropic substances. This phenomenon has been widely used in histology. Methylene blue (O-Toluidine) is an excellent metachromatic dye that changes from blue to pink upon binding to high-molecular-weight polysaccharides, such as sulfated glycan. The pink dye will then quickly turn back to blue following addition of a proportional amount of a protein with high affinity to sulfated glycan (inverted metachromacia).

Here the investigators used this approach to develop a new strip test—referred to herein as the index text—to assess the presence of dextran-sulfate-binding proteins in sputum. The investigators then assessed the accuracy of this strip test for detecting bacterial infection in sputum, by analyzing leftover sputum samples that were sent for examination to the Department of Microbiology, University hospital in Linköping. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT03256604
Study type Observational
Source University Hospital, Linkoeping
Contact
Status Completed
Phase N/A
Start date November 2015
Completion date April 2016

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