Toxoplasmic Encephalitis in HIV Patients Detected in Urine
By LabMedica International staff writers Posted on 25 Mar 2021 |
Image: The EASY-nLC 1200 HPLC, high-throughput capacity in a nano-flow UHPLC (Photo courtesy of Thermo Fisher Scientific)
Toxoplasma encephalitis (TE) is the most commonly reported neurological opportunistic infection in human immunodeficiency virus (HIV)-infected patients since the introduction of combination ART (cART). Diagnosis of TE is challenging under the best clinical circumstances.
The poor clinical sensitivity of quantitative polymerase chain reaction (qPCR) for Toxoplasma gondii in blood and cerebrospinal fluid (CSF) and the limited availability of molecular diagnostics and imaging technology leaves clinicians in resource-limited settings with few options other than empiric treatment.
An international team of scientists led by the University of Illinois Chicago (Chicago, IL, USA) recruited in a study 164 HIV positive patients from Peru and Bolivia and 51 ambulatory HIV/T. gondii positive patients for controls. Blood and urine specimens were taken at enrollment, which for most hospitalized patients was shortly after admission; remnant CSF was collected if the subject underwent lumbar puncture as part of their medical care. CD4 and CD8 cell counts and viral loads were abstracted from participants’ charts.
The investigators have described a proof of concept for novel urine diagnostics for TE using Poly-N-isoproplyacrylamide nanoparticles dyed with Reactive Blue-221 to concentrate antigens, substantially increasing the limit of detection. After nanoparticle-concentration, a standard western blotting technique with a monoclonal antibody was used for antigen detection. Toxoplasma gondii IgG serological status was determined with an in-house enzyme linked immunosorbent assay (ELISA). For qPCR, target sequences were amplified using a Light Cycler (Applied Biosciences, Foster City, CA, USA). Digested samples were analyzed by parallel-reaction-monitoring (PRM) on an Orbitrap Fusion mass spectrometer with a nanospray EASY-nLC 1200 HPLC (Thermo Fisher Scientific, Waltham, MA, USA).
The team reported that the limit of detection (LoD) of T. gondii antigens GRA1 and SAG1 was 7.8pg/mL and 31.3pg/mL, respectively. To characterize this diagnostic approach, 164 hospitalized HIV-infected patients with neurological symptoms compatible with TE were tested for 1) T. gondii serology (121/147, positive samples/total samples tested), 2) qPCR in cerebrospinal fluid (11/41), 3) qPCR in blood (10/112), and 4) urinary GRA1 (30/164) and SAG1 (12/164). GRA1 appears to be superior to SAG1 for detection of TE antigens in urine. Fifty-one HIV-infected, T. gondii seropositive but asymptomatic persons all tested negative by nanoparticle western blot and blood qPCR, suggesting the test has good specificity for TE for both GRA1 and SAG1. In a subgroup of 44 patients, urine samples were assayed with mass spectrometry PRM for the presence of T. gondii antigens. PRM identified antigens in eight samples, six of which were concordant with the urine diagnostic.
The authors concluded that their results demonstrate nanoparticle technology’s potential for a noninvasive diagnostic test for TE and that GRA1 is a promising target for antigen based diagnostics for TE. The study was published on March 2, 2021 in the journal PLOS Neglected Tropical Diseases.
Related Links:
University of Illinois Chicago
Applied Biosciences
Thermo Fisher Scientific
The poor clinical sensitivity of quantitative polymerase chain reaction (qPCR) for Toxoplasma gondii in blood and cerebrospinal fluid (CSF) and the limited availability of molecular diagnostics and imaging technology leaves clinicians in resource-limited settings with few options other than empiric treatment.
An international team of scientists led by the University of Illinois Chicago (Chicago, IL, USA) recruited in a study 164 HIV positive patients from Peru and Bolivia and 51 ambulatory HIV/T. gondii positive patients for controls. Blood and urine specimens were taken at enrollment, which for most hospitalized patients was shortly after admission; remnant CSF was collected if the subject underwent lumbar puncture as part of their medical care. CD4 and CD8 cell counts and viral loads were abstracted from participants’ charts.
The investigators have described a proof of concept for novel urine diagnostics for TE using Poly-N-isoproplyacrylamide nanoparticles dyed with Reactive Blue-221 to concentrate antigens, substantially increasing the limit of detection. After nanoparticle-concentration, a standard western blotting technique with a monoclonal antibody was used for antigen detection. Toxoplasma gondii IgG serological status was determined with an in-house enzyme linked immunosorbent assay (ELISA). For qPCR, target sequences were amplified using a Light Cycler (Applied Biosciences, Foster City, CA, USA). Digested samples were analyzed by parallel-reaction-monitoring (PRM) on an Orbitrap Fusion mass spectrometer with a nanospray EASY-nLC 1200 HPLC (Thermo Fisher Scientific, Waltham, MA, USA).
The team reported that the limit of detection (LoD) of T. gondii antigens GRA1 and SAG1 was 7.8pg/mL and 31.3pg/mL, respectively. To characterize this diagnostic approach, 164 hospitalized HIV-infected patients with neurological symptoms compatible with TE were tested for 1) T. gondii serology (121/147, positive samples/total samples tested), 2) qPCR in cerebrospinal fluid (11/41), 3) qPCR in blood (10/112), and 4) urinary GRA1 (30/164) and SAG1 (12/164). GRA1 appears to be superior to SAG1 for detection of TE antigens in urine. Fifty-one HIV-infected, T. gondii seropositive but asymptomatic persons all tested negative by nanoparticle western blot and blood qPCR, suggesting the test has good specificity for TE for both GRA1 and SAG1. In a subgroup of 44 patients, urine samples were assayed with mass spectrometry PRM for the presence of T. gondii antigens. PRM identified antigens in eight samples, six of which were concordant with the urine diagnostic.
The authors concluded that their results demonstrate nanoparticle technology’s potential for a noninvasive diagnostic test for TE and that GRA1 is a promising target for antigen based diagnostics for TE. The study was published on March 2, 2021 in the journal PLOS Neglected Tropical Diseases.
Related Links:
University of Illinois Chicago
Applied Biosciences
Thermo Fisher Scientific
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