Typhoid Fever Victims Present Unique Metabolomic Profile
By LabMedica International staff writers Posted on 15 May 2017 |
Image: Salmonella Typhi, the bacterium responsible for Typhoid fever (Photo courtesy of Animated Healthcare).
A panel of metabolic markers distinguishes patients with typhoid fever from others suffering from non-typhoid tropical fevers such as malaria.
Typhoid fever (or just typhoid) is caused by the bacterium Salmonella Typhi (Salmonella enterica serotype Typhi). The disease is usually diagnosed by blood culture, a method that lacks sensitivity, portability, and speed.
Investigators at the University of Oxford had previously shown that specific metabolomic profiles could be detected in the blood of typhoid patients from Nepal. Metabolomics is the study of chemical processes involving metabolites, while the metabolome represents the collection of all metabolites in a biological cell, tissue, organ, or organism that are the end products of cellular processes.
In the current study, the investigators performed mass spectrometry on plasma from Bangladeshi and Senegalese patients with culture confirmed typhoid fever, clinically suspected typhoid, and other febrile diseases including malaria.
After applying supervised pattern recognition modeling, the investigators found that they could significantly distinguish metabolite profiles in plasma from the culture confirmed typhoid patients. After comparing the direction of change and degree of multivariate significance, they identified 24 metabolites that were consistently up- or down regulated in a further Bangladeshi/Senegalese validation cohort, and the Nepali cohort from their previous work. The model had excellent predictive power for distinguishing between culture-positive typhoid patients and patients with other types of tropical disease. In addition, the metabolite panel identified five of nine blood-test-negative samples that were actually typhoid positive and three of five patients who were suspected of typhoid from their symptoms.
"We wanted to assess if metabolomics could accurately diagnose typhoid in patients from different regions with a wider range of tropical diseases," said senior author Dr. Stephen Baker, professor of molecular microbiology at Oxford University's clinical research unit, Vietnam. "We thought that this approach would more closely reflect the real situation where patients with fever-inducing diseases present with non-specific symptoms. Our results demonstrated a metabolite panel that can distinguish typhoid from other fever-inducing diseases, providing a new approach for typhoid diagnostics. The next challenges are to corroborate these metabolites in larger patient numbers and try and incorporate them into simple diagnostic test formats. This approach could be potentially expanded into other tropical diseases, eventually allowing for more accurate diagnosis and more effective treatment, and hopefully reducing the use of unnecessary antimicrobials."
The study was published in the May 9, 2017, online edition of the journal eLife.
Typhoid fever (or just typhoid) is caused by the bacterium Salmonella Typhi (Salmonella enterica serotype Typhi). The disease is usually diagnosed by blood culture, a method that lacks sensitivity, portability, and speed.
Investigators at the University of Oxford had previously shown that specific metabolomic profiles could be detected in the blood of typhoid patients from Nepal. Metabolomics is the study of chemical processes involving metabolites, while the metabolome represents the collection of all metabolites in a biological cell, tissue, organ, or organism that are the end products of cellular processes.
In the current study, the investigators performed mass spectrometry on plasma from Bangladeshi and Senegalese patients with culture confirmed typhoid fever, clinically suspected typhoid, and other febrile diseases including malaria.
After applying supervised pattern recognition modeling, the investigators found that they could significantly distinguish metabolite profiles in plasma from the culture confirmed typhoid patients. After comparing the direction of change and degree of multivariate significance, they identified 24 metabolites that were consistently up- or down regulated in a further Bangladeshi/Senegalese validation cohort, and the Nepali cohort from their previous work. The model had excellent predictive power for distinguishing between culture-positive typhoid patients and patients with other types of tropical disease. In addition, the metabolite panel identified five of nine blood-test-negative samples that were actually typhoid positive and three of five patients who were suspected of typhoid from their symptoms.
"We wanted to assess if metabolomics could accurately diagnose typhoid in patients from different regions with a wider range of tropical diseases," said senior author Dr. Stephen Baker, professor of molecular microbiology at Oxford University's clinical research unit, Vietnam. "We thought that this approach would more closely reflect the real situation where patients with fever-inducing diseases present with non-specific symptoms. Our results demonstrated a metabolite panel that can distinguish typhoid from other fever-inducing diseases, providing a new approach for typhoid diagnostics. The next challenges are to corroborate these metabolites in larger patient numbers and try and incorporate them into simple diagnostic test formats. This approach could be potentially expanded into other tropical diseases, eventually allowing for more accurate diagnosis and more effective treatment, and hopefully reducing the use of unnecessary antimicrobials."
The study was published in the May 9, 2017, online edition of the journal eLife.
Latest Microbiology News
- Integrated Solution Ushers New Era of Automated Tuberculosis Testing
- Automated Sepsis Test System Enables Rapid Diagnosis for Patients with Severe Bloodstream Infections
- Enhanced Rapid Syndromic Molecular Diagnostic Solution Detects Broad Range of Infectious Diseases
- Clinical Decision Support Software a Game-Changer in Antimicrobial Resistance Battle
- New CE-Marked Hepatitis Assays to Help Diagnose Infections Earlier
- 1 Hour, Direct-From-Blood Multiplex PCR Test Identifies 95% of Sepsis-Causing Pathogens
- Mouth Bacteria Test Could Predict Colon Cancer Progression
- Unique Metabolic Signature Could Enable Sepsis Diagnosis within One Hour of Blood Collection
- Groundbreaking Diagnostic Platform Provides AST Results With Unprecedented Speed
- Simple Blood Test Combined With Personalized Risk Model Improves Sepsis Diagnosis
- Blood Analysis Predicts Sepsis and Organ Failure in Children
- TB Blood Test Could Detect Millions of Silent Spreaders
- New Blood Test Cuts Diagnosis Time for Nontuberculous Mycobacteria Infections from Months to Hours
- New Tuberculosis Test to Expand Testing Access in Low- and Middle-Income Countries
- Rapid Test Diagnoses Tropical Disease within Hours for Faster Antibiotics Treatment
- Rapid Molecular Testing Enables Faster, More Targeted Antibiotic Treatment for Pneumonia