Metabolomics Profiles Associated with Diabetic Retinopathy
|
By LabMedica International staff writers Posted on 16 Nov 2020 |
|
Image: The AbsoluteIDQ p180 kit provides scientists with highly reproducible metabolomics data to confidently obtain detailed knowledge about the metabolic phenotypes in their studies (Photo courtesy of BIOCRATES Life Sciences).
Diabetic retinopathy (DR), like diabetic neuropathy and nephropathy, is a common complication of diabetes. It is the leading cause of loss of vision in diabetic patients. Long-standing disease, along with hyperglycemia, hyperlipidemia, hypertension, and genetic factors, is a major risk factor of diabetes retinopathy.
Metabolomics profiling is a rapidly evolving method used to identify the metabolites in biological fluids and investigate disease progression. Quantitative analyses of small-molecule metabolites in biological specimens such as blood and urine can be performed due to the rapid advances in metabolomics.
Medical Scientists at the Chungbuk National University College of Medicine (Cheongju, Republic of Korea) included in a study 317 type 2 diabetes (T2D) patients of which 143 non-DR (NDR) patients, 123 non- proliferative DR (NPDR) patients, and 51 proliferative-DR (PDR) patients. Gender, age, height, weight, body mass index (BMI), and HbA1c, glucose, and creatinine levels of all patients were recorded.
The serum samples of the T2D patients were analyzed using a targeted metabolomics approach. To quantify the metabolites, liquid chromatography (LC) and flow-injection analysis (FIA)–mass spectrometry (MS) were performed using the AbsoluteIDQ p180 Kit (BIOCRATES Life Sciences AG, Innsbruck, Austria). The serum samples were analyzed using the API 4000 QTRAP LC/MS/MS system (Applied Biosystems, Foster City, CA, USA) and the Agilent 1200 HPLC system (Agilent Technologies, Santa Clara, CA, USA).
The investigators reported that the concentrations of 62 metabolites of the NDR versus DR group, 53 metabolites of the NDR versus NPDR group, and 30 metabolites of the NDR versus PDR group were found to be significantly different. Sixteen metabolites were selected as specific metabolites common to NPDR and PDR. Among them, three metabolites including total dimethylarginine, tryptophan, and kynurenine were potential makers of DR progression in T2D patients. Additionally, several metabolites such as carnitines, several amino acids, and phosphatidylcholines also showed a biomarker potential.
The authors concluded that they had revealed via comprehensive metabolomics profiling using a high-throughput platform, several metabolites associated with DR. These new DR-related metabolites should be considered in the study of the mechanism behind the initiation and progression of DR in T2D patients. The study was published on October 29, 2020 in the journal PLOS ONE.
Related Links:
Chungbuk National University College of Medicine
BIOCRATES Life Sciences
Applied Biosystems
Agilent Technologies
Metabolomics profiling is a rapidly evolving method used to identify the metabolites in biological fluids and investigate disease progression. Quantitative analyses of small-molecule metabolites in biological specimens such as blood and urine can be performed due to the rapid advances in metabolomics.
Medical Scientists at the Chungbuk National University College of Medicine (Cheongju, Republic of Korea) included in a study 317 type 2 diabetes (T2D) patients of which 143 non-DR (NDR) patients, 123 non- proliferative DR (NPDR) patients, and 51 proliferative-DR (PDR) patients. Gender, age, height, weight, body mass index (BMI), and HbA1c, glucose, and creatinine levels of all patients were recorded.
The serum samples of the T2D patients were analyzed using a targeted metabolomics approach. To quantify the metabolites, liquid chromatography (LC) and flow-injection analysis (FIA)–mass spectrometry (MS) were performed using the AbsoluteIDQ p180 Kit (BIOCRATES Life Sciences AG, Innsbruck, Austria). The serum samples were analyzed using the API 4000 QTRAP LC/MS/MS system (Applied Biosystems, Foster City, CA, USA) and the Agilent 1200 HPLC system (Agilent Technologies, Santa Clara, CA, USA).
The investigators reported that the concentrations of 62 metabolites of the NDR versus DR group, 53 metabolites of the NDR versus NPDR group, and 30 metabolites of the NDR versus PDR group were found to be significantly different. Sixteen metabolites were selected as specific metabolites common to NPDR and PDR. Among them, three metabolites including total dimethylarginine, tryptophan, and kynurenine were potential makers of DR progression in T2D patients. Additionally, several metabolites such as carnitines, several amino acids, and phosphatidylcholines also showed a biomarker potential.
The authors concluded that they had revealed via comprehensive metabolomics profiling using a high-throughput platform, several metabolites associated with DR. These new DR-related metabolites should be considered in the study of the mechanism behind the initiation and progression of DR in T2D patients. The study was published on October 29, 2020 in the journal PLOS ONE.
Related Links:
Chungbuk National University College of Medicine
BIOCRATES Life Sciences
Applied Biosystems
Agilent Technologies
Gold Member
Antipsychotic TDM Assays
Saladax Antipsychotic Assays
ESR Analyzer
TEST1 2.0
Sperm Quality Analyis Kit
QwikCheck Beads Precision and Linearity Kit
Latest Clinical Chem. News
- Chemical Imaging Probe Could Track and Treat Prostate Cancer
- Mismatch Between Two Common Kidney Function Tests Indicates Serious Health Problems
- VOCs Show Promise for Early Multi-Cancer Detection
- Portable Raman Spectroscopy Offers Cost-Effective Kidney Disease Diagnosis at POC
- Gold Nanoparticles to Improve Accuracy of Ovarian Cancer Diagnosis
- Simultaneous Cell Isolation Technology Improves Cancer Diagnostic Accuracy
- Simple Non-Invasive Hair-Based Test Could Speed ALS Diagnosis
- Paper Strip Saliva Test Detects Elevated Uric Acid Levels Without Blood Draws
- Prostate Cancer Markers Based on Chemical Make-Up of Calcifications to Speed Up Detection
- Breath Test Could Help Detect Blood Cancers
- ML-Powered Gas Sensors to Detect Pathogens and AMR at POC
- Saliva-Based Cancer Detection Technology Eliminates Need for Complex Sample Preparation
- Skin Swabs Could Detect Parkinson’s Years Before Symptoms Appear
- New Clinical Chemistry Analyzer Designed to Meet Growing Demands of Modern Labs
- New Reference Measurement Procedure Standardizes Nucleic Acid Amplification Test Results
- Pen-Like Tool Quickly and Non-Invasively Detects Opioids from Skin
Channels
Molecular Diagnostics
view channel
Simple Urine Test to Revolutionize Bladder Cancer Diagnosis and Treatment
Bladder cancer is one of the most common and deadly urological cancers and is marked by a high rate of recurrence. Diagnosis and follow-up still rely heavily on invasive cystoscopy or urine cytology, which... Read more
Blood Test to Enable Earlier and Simpler Detection of Liver Fibrosis
Persistent liver damage caused by alcohol misuse or viral infections can trigger liver fibrosis, a condition in which healthy tissue is gradually replaced by collagen fibers. Even after successful treatment... Read more
Hematology
view channel
Platelet Activity Blood Test in Middle Age Could Identify Early Alzheimer’s Risk
Early detection of Alzheimer’s disease remains one of the biggest unmet needs in neurology, particularly because the biological changes underlying the disorder begin decades before memory symptoms appear.... Read more
Microvesicles Measurement Could Detect Vascular Injury in Sickle Cell Disease Patients
Assessing disease severity in sickle cell disease (SCD) remains challenging, especially when trying to predict hemolysis, vascular injury, and risk of complications such as vaso-occlusive crises.... Read more
ADLM’s New Coagulation Testing Guidance to Improve Care for Patients on Blood Thinners
Direct oral anticoagulants (DOACs) are one of the most common types of blood thinners. Patients take them to prevent a host of complications that could arise from blood clotting, including stroke, deep... Read more
Immunology
view channel
New Test Distinguishes Vaccine-Induced False Positives from Active HIV Infection
Since HIV was identified in 1983, more than 91 million people have contracted the virus, and over 44 million have died from related causes. Today, nearly 40 million individuals worldwide live with HIV-1,... Read more
Gene Signature Test Predicts Response to Key Breast Cancer Treatment
DK4/6 inhibitors paired with hormone therapy have become a cornerstone treatment for advanced HR+/HER2– breast cancer, slowing tumor growth by blocking key proteins that drive cell division.... Read more
Chip Captures Cancer Cells from Blood to Help Select Right Breast Cancer Treatment
Ductal carcinoma in situ (DCIS) accounts for about a quarter of all breast cancer cases and generally carries a good prognosis. This non-invasive form of the disease may or may not become life-threatening.... Read more
Microbiology
view channel
Rapid Diagnostic Test Matches Gold Standard for Sepsis Detection
Sepsis kills 11 million people worldwide every year and generates massive healthcare costs. In the USA and Europe alone, sepsis accounts for USD 100 billion in annual hospitalization expenses.... Read more
Rapid POC Tuberculosis Test Provides Results Within 15 Minutes
Tuberculosis remains one of the world’s deadliest infectious diseases, and reducing new cases depends on identifying individuals with latent infection before it progresses. Current diagnostic tools often... Read more
Rapid Assay Identifies Bloodstream Infection Pathogens Directly from Patient Samples
Bloodstream infections in sepsis progress quickly and demand rapid, precise diagnosis. Current blood-culture methods often take one to five days to identify the pathogen, leaving clinicians to treat blindly... Read more
Pathology
view channel
Tunable Cell-Sorting Device Holds Potential for Multiple Biomedical Applications
Isolating rare cancer cells from blood is essential for diagnosing metastasis and guiding treatment decisions, but remains technically challenging. Many existing techniques struggle to balance accuracy,... Read more
AI Tool Outperforms Doctors in Spotting Blood Cell Abnormalities
Diagnosing blood disorders depends on recognizing subtle abnormalities in cell size, shape, and structure, yet this process is slow, subjective, and requires years of expert training. Even specialists... Read more
Technology
view channel
Artificial Intelligence Model Could Accelerate Rare Disease Diagnosis
Identifying which genetic variants actually cause disease remains one of the biggest challenges in genomic medicine. Each person carries tens of thousands of DNA changes, yet only a few meaningfully alter... Read more
AI Saliva Sensor Enables Early Detection of Head and Neck Cancer
Early detection of head and neck cancer remains difficult because the disease produces few or no symptoms in its earliest stages, and lesions often lie deep within the head or neck, where biopsy or endoscopy... Read more
Industry
view channel
Abbott Acquires Cancer-Screening Company Exact Sciences
Abbott (Abbott Park, IL, USA) has entered into a definitive agreement to acquire Exact Sciences (Madison, WI, USA), enabling it to enter and lead in fast-growing cancer diagnostics segments.... Read more
