Differentiating Type 1 and Type 2 Diabetes Mellitus
Differentiating Type 1 and Type 2 Diabetes Mellitus
An estimated 422 million people across the world are living with diabetes1. Diabetes Mellitus (DM) encompasses a collection of chronic diseases characterised by absent or ineffective insulin activity. Insulin is a hormone produced by the pancreas responsible for a host of essential physiological processes related to glucose metabolism and protein synthesis.
There are two main forms of DM, named type 1 diabetes mellitus (T1DM) and type 2 diabetes mellitus (T2DM) which result from different mechanisms and more importantly, require different therapeutic approaches. It is estimated that up to 40% of those diagnosed with T1DM after the age of 30 may have been misdiagnosed with T2DM2. This misdiagnosis of T1DM as T2DM will result in poor glycaemic control, frequent healthcare contact for increased treatment, inappropriate insulin regimes and risk of life-threatening ketoacidosis.
In this article, we’ll look at the similarities and differences between these two forms of DM and investigate the mechanisms by which these common diseases arise.
Insulin Pathway
The normal insulin signalling pathway, shown below, is responsible for the processing and transport of glucose in the body. Briefly, insulin binds to the insulin receptor and activates PI3K and, subsequently, serine-threonine kinase (AKT). AKT is responsible for the phosphorylation of glycogen synthase kinase 3-β (GSK-3β), inhibiting its activity and promoting the synthesis of glycogen leading to a reduction in blood glucose concentration. Failing to inhibit GSK-3β will result in hyperglycaemia and eventually T2DM.
Type 1 Diabetes Mellitus
T1DM is most commonly diagnosed at a young age. This form of DM is the result of an autoimmune reaction to proteins produced by the pancreas which results in a lack of insulin secretion. The antibodies responsible for this autoimmunity are detailed in the table below:
A key factor in T1DM pathogenesis is changes in the T cell-mediated immunoregulation, notably in the CD4+ T cell compartment. The activation of the CD4+ T cells is responsible for inflammation of the pancreatic cells which produce insulin, known as insulitis.
Changes in the expression of IL-1 and TNFα cause structural alterations in pancreatic β-cells which result in the suppression of insulin secretion. This insulin deficiency has subsequent effects on glucose metabolism and protein synthesis.
T1DM causes an increase in hepatic glucose levels when gluconeogenesis converts glycogen to glucose. A lack of insulin means the subsequent hepatic uptake of this glucose does not occur.
Insulin is also responsible for regulating the synthesis of many proteins. This regulation can be positive or negative but ultimately results in an increase in protein synthesis and a decrease in protein degradation. Therefore, when hypoinsulinemia occurs, decreasing insulin concentration in the blood, protein catabolism is increased leading to increased plasma amino acid concentration.
Type 2 Diabetes Mellitus
The pathogenesis of T2DM, detailed in the diagram below, is multi-factorial. It arises from a combination of genetic and environmental factors which affect insulin activity.
In T2DM, the regulatory mechanisms related to glucose metabolism fail resulting in impaired insulin activity or insulin resistance.
Mutations in genes involved in insulin production can cause the secretion of abnormal insulin molecules, known as insulinopathies. Insulinopathies are unable to effectively metabolise glucose which results in the accumulation of this sugar. Additionally, obesity is considered to be a causal factor in the development of T2DM.
Unlike those with T1DM, patients with T2DM can maintain circulating insulin levels. T2DM is characterised by glucose intolerance, impaired glucose tolerance, diabetes with minimal fasting hyperglycaemia, and DM in association with overt fasting hyperglycaemia.
Individuals with impaired glucose tolerance have hyperglycaemia despite preserving high levels of plasma insulin. These levels of insulin decline from impaired glucose tolerance to DM. It is insulin resistance is considered the primary cause of T2DM.
Misdiagnosis
The misdiagnosis of these types of DM is common, due to similar symptoms. The simplest differentiating factor is when these symptoms manifest. T1DM is an autoimmune disorder and therefore, symptoms generally occur much earlier in one’s life. T2DM is typically diagnosed in later life. The common symptoms of DM are:
- Frequent urination, particularly throughout the night.
- Polydipsia (excessive thirst)
- Polyphagia (excessive hunger)
- Lethargy
- Sudden weight loss
- Genital itching or thrush
- Blurred vision
The misdiagnosis of T2DM as T1DM results in unnecessary initial insulin therapy, higher drug and monitoring costs and often, an increase in the number and severity of symptoms. Conversely, the incorrect classification of T1DM as T2DM causes poor glycaemic control, frequent visits to healthcare services for treatment, inappropriate insulin regimes and risk of Diabetic Ketoacidosis.
Diabetic Ketoacidosis (DKA)
DKA is a potentially life-threatening condition caused by an accumulation of ketones in the body due to insulin deficiency, which is common in patients with T1DM, however, an increasing number of cases have been reported in patients with T2DM. Diagnosis of DKA consists of a high anion gap metabolic acidosis, ketone bodies present in serum and/or urine, and high blood glucose concentration. The symptoms of DKA include:
- Polyuria (excessive urination) and polydipsia (thirst)
- Weight loss
- Fatigue
- Dyspnoea (shortness of breath)
- Vomiting
- Fever
- Abdominal pain
- Polyphagia (excess hunger)
- Fruity-smelling breath caused by acetone accumulation.
Randox Type 1 Diabetes Mellitus Genetic Risk Array
T1DM is largely genetic and is associated with over 50 distinct genetic signatures, many of which are single nucleotide polymorphisms (SNPs). This is of great advantage in testing as unlike traditional biomarkers, genetic markers don’t change throughout one’s life, providing a robust method for diagnosis and risk stratification. Genetic data gathered can then be used to develop a genetic risk score, allowing an individual’s probability of developing the disease to be quantified.
Using this principle, together with our patented Biochip array technology, Randox have developed a T1DM GRS array. Using a combination of 10 SNPs from the HLA region and the non-HLA region commonly detected in T1DM patients, and a selection of other risk factors and biomarkers, this molecular array can accurately discriminate between T1DM and T2DM.
Conclusions
Misdiagnosis of DM can have life-threatening consequences. Both types of DM are very common and distinguishing between T1DM and T2DM is crucial.
T1DM is an autoimmune disorder with a lack of insulin secretion, while T2DM is primarily due to insulin resistance. Understanding their mechanisms is vital for accurate diagnosis and treatment. Genetic testing, like the Randox Type 1 Diabetes Mellitus Genetic Risk Array, can differentiate between T1DM and T2DM by analysing genetic markers and providing personalized treatment insights.
Accurate diabetes diagnosis is crucial for proper management, prevention of complications, and improving the lives of millions. Together, we can make a difference in the lives of those affected by diabetes!
If you’d like to learn more about the different types of DM, including the pathogenesis, pathophysiology, associated risk factors, and more, please take a look at our educational guide Diabetes Solutions.
Alternatively, feel free to reach out to our marketing team at marketing@randox.com who will be happy to help you with any queries you may have.
References
- World Health Organization. Diabetes. World Health Organisation. Published April 5, 2023. Accessed April 25, 2023. https://www.who.int/news-room/fact-sheets/detail/diabetes
- The Misdiagnosis of type 1 and type 2 diabetes in adults. The Lancet Regional Health. 2023;29:100661-100661. doi:https://doi.org/10.1016/j.lanepe.2023.100661
World Haemochromatosis Awareness Week
World Haemochromatosis Awareness Week, took place this year between theĀ 1st ā 7th June.
Genetic Haemochromatosis, or the āCeltic Curseā is the UK and Ireland’s most inherited condition.
Randox can help you find out if you are at risk with a blood test from one of our Randox Health clinics, including our newly opened Clinic in Sandyford, Dublin.
The tests are available from Ā£69 and the results of which will be returned within 7-14 days. Randoxās easy-to-interpret Genetic Haemochromatosis risk report will provide a breakdown of your results and what they mean.
An optional remote appointment with a Randox genetic counsellor can also be made when booking. Early diagnosis enables early treatment to prevent ill health because of iron overload.
Haemochromatosis is a condition which causes people to absorb too much iron from their diets but many people are not aware of it despite over 9 million people in the UK estimated to have the genetic predisposition to haemochromatosis (or Iron overload disorder.)
Despite its commonplace, this condition is rarely diagnosed with only one in every five thousand receiving a diagnosis.
Symptoms can Include:Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā Ā
ā¢Ā Fatigue
ā¢ Palpitations
ā¢ Joint Pain
ā¢ Abdominal Pain
ā¢ Skin PigmentationĀ Ā
Haemochromatosis is an Autosomal Recessive disorder.
These type of disorders usually mean that men and women are equally likely to be affected, with Haemochromatosis however, men are more likely to be at risk than women.Ā
Women may be protected from iron overload due to physiological blood loss (menstruation and pregnancy) which can reduce theĀ iron overload.
Men living with haemochromatosis are ten-times more likely to be at risk of liver cancer and have twice the risk of developing dementia, if left undiagnosed or untreated.
Follow the link below to book: Haemochromatosis Test
ADLM 2024
At the Forefront of the Diagnostics Industry
With more than forty years of expertise in the medical diagnostics field, Randox is committed to improving global health outcomes. Renowned for its high-quality diagnostic solutions, Randox provides an extensive array of products and services, including Quality Control, Molecular Diagnostics, Third Party Reagents, Point of Care, and Clinical Chemistry Analysers.
Pushing Innovation to the Limits
At Randox, innovation is our cornerstone. Our recent release of Acusera SMART exemplifies our dedication to advancing medical diagnostics. This development integrates seamlessly with various test systems, streamlining the QC process by reducing human error and optimising workflow. Additionally, we’ve launched new Acusera Quality Controls, including active B12, serum indices, and ultra-low PSA, along with comprehensive panels on our MultiStat platform, now expanded to include gastrointestinal diseases, bladder cancer, and male and female hormones. These advancements ensure accurate and reliable diagnostic results, reflecting our commitment to delivering cutting-edge solutions for the evolving healthcare industry.
Learn more about the products we will be showcasing by clicking on the images to the left.
Dedicated to Improving Health Worldwide
With over four decades of experience in the medical diagnostics industry, Randox is dedicated to enhancing global health outcomes. As a provider of high-quality diagnostic solutions, Randox offers a wide range of products and services, including Quality Control, Molecular Diagnostics, Third Party Reagents, Point of Care, and Clinical Chemistry Analysers.
Acusera Quality Controls
Introducing the New Acusera True Third Party Controls. Book a meeting with a Randox QC Specialist today to learn how we can provide you with complete QC solutions for results you can trust.
Molecular Diagnostics at the Point of Care
The all in one molecular solution developed by Bosch and Randox consolidates full molecular workflow into one small benchtop platform. Randox multiplex Biochip Technology powers the Vivalytic enabling multiple results from one patient sample. Click the link below to learn more about the Vivalytic.
ACUSERA 24•7 Interlaboratory Data Management
Discover features such as; Interactive Levey-Jennings Charts, Automatic Calculation for uncertainty of Measurement as well as the Comprehensive Reports generated on demand, with a live demonstration at EuroMedLab.
RIQAS
The world’s largest External Quality Assessment Scheme with more than 55,000 laboratory participants spanning over 134 countries. Choice and flexibility are guaranteed with our 36 programme portfolio, learn more by clicking the button below!
Contract Manufacturing
At Randox, we are dedicated to helping you bring your diagnostic and life science products to market with unparalleled expertise, capacity, and commitment to quality. With over 40 years of experience and a network of over 300 global customers, our comprehensive OEM and contract manufacturing services cover the entire value chain, from concept development to full commercialisation.
Meet The Team
If you plan to attend ADLM 2024, our Product Specialists Team will be available at Booth #1413 to answer any questions you may have. To ensure the most productive use of your time, we recommend scheduling a meeting with one of our Randox representatives in advance to discuss your specific needs and book a time slot during the event.
Sexually Transmitted Infections ā Rapid Testing at the Point of Care
Urgency, Challenges and Advances in STI Testing
Sexually transmitted infections (STIs) are a major global health issue, with over 30 pathogens causing an estimated one million infections daily, a number that is rising. Surveillance programs in countries like the United States and Canada have reported an increase in STIs such as syphilis, gonorrhoea, and chlamydia. STIs can have serious consequences for sexual health, including infertility and chronic pelvic pain, particularly affecting women. The World Health Organization (WHO) has recognised the urgency of addressing this problem and has recommended measures to end the STI healthcare issue by 2030. Integrated testing, including multiplex and point-of-care testing, is considered essential. However, implementation of these recommendations at regional and national levels is lacking. Rapid point-of-care PCR tests that can detect multiple pathogens simultaneously would greatly improve STI diagnosis and containment. Currently, Randox, in collaboration with Bosch offers two STI test panels on the Vivalytic POC system: Vivalytic STI and Vivalytic MG, MH, UP/UU panels, capable of detecting multiple pathogens in a single test run, with results available within hours.
The Global Burden
- The WHO estimates 374 million new infections of chlamydia, gonorrhoea, syphilis, and trichomoniasis annually.
- Chlamydia is the most frequently reported STI in Europe, followed by gonorrhoea and syphilis.
- Countries with comprehensive STI screening programs, like Denmark, have higher prevalence rates than the European average.
- The UK has a comprehensive screening program for chlamydia targeting 15-24-year-olds, with cases accounting for 60% of total cases in the European Region.
- The actual infection rate in countries without systematic screening is likely higher than official figures suggest.
- Reported cases of gonorrhoea and syphilis in the European Region have increased, particularly among certain age groups and higher numbers in men than women.
Gaps in Current STI Testing Strategies
The European Centre for Disease Prevention (ECDC) acknowledges the growing concern of STIs in Europe and emphasises the importance of testing in their recent report. While various European countries have screening programs for chlamydia, testing options for other STI pathogens are usually limited. The lack of accessible testing, combined with the prevalence of asymptomatic infections, increases the risk of STI transmission and hampers containment efforts. Prevention campaigns and low-threshold testing opportunities are crucial to address the spread of STIs. The UK’s chlamydia screening program, implemented in 2008, demonstrated the benefits of community-based testing services and led to a significant increase in diagnosed cases, reducing the number of unreported cases.
Infections and Co-Infections
- Co-infections, where multiple sexually transmitted pathogens are present simultaneously, are common but often go undetected due to limited testing.
- Symptoms of co-infections can be difficult to differentiate since different pathogens can cause similar or overlapping symptoms.
- However, most STIs, even in high-risk groups, are caused by a single sexually transmitted pathogen.
- In cases where co-infections need to be detected, a rapid and comprehensive differential diagnosis of sexually transmitted pathogens is crucial for initiating appropriate therapy promptly.
The Importance of Rapid Results at the Point of Care
- Rapid detection and treatment of STIs are crucial to prevent further spread.
- Traditional STI diagnostics in specialized laboratories can result in delays of several days or up to 1-2 weeks until test results are available to the physician.
- Delays occur due to transportation of samples, laboratory workflow, result transfer, and scheduling additional appointments.
- The delay in treatment initiation can lead to decreased patient compliance and missed appointments.
The Vivalytic STI test provides results directly at the point of care (POC) in less than two and a half hours. It eliminates the need for sample transportation to a central laboratory. In addition, patients can receive their test results on the same day of the visit, allowing for immediate initiation of appropriate treatment.
In a Nutshell
Sexually transmitted infections (STIs) spread due to various factors. Many STIs do not show symptoms, resulting in numerous unreported and untreated cases that can have fatal consequences depending on the specific pathogen. Increasing awareness and implementing a decentralised low-threshold testing strategy can significantly reduce infections, particularly among high-risk groups. Speed and comprehensive testing of relevant pathogens are crucial for targeted therapy and containing STIs. Rapid PCR tests used at the point of care (POC) are emerging as important technologies due to their advantages. Patients receive same-day results and immediate treatment, providing clarity in just one visit. Clinicians can provide up-to-date diagnoses and treatments, even in decentralised or hospital settings, benefiting high-risk patients with limited access to healthcare.
Vivalytic
The Bosch Vivalytic, is an advanced and automated platform for molecular diagnostics that utilises PCR to detect pathogens. It offers applications for various medical disciplines and requires only a few steps from sample collection to obtaining results. The patient sample is processed automatically within the Vivalytic analyser, and the test result is displayed on its integrated screen. The time it takes to get results depends on the specific Vivalytic application. For the STI Panel, which simultaneously detects 10 common sexually transmitted pathogens, the time to result is 2.5 hours. On the other hand, the Vivalytic MG, MH, UP/UU panel, used to detect mycoplasmas and/or ureaplasmas, provides results in approximately one hour.
By conducting fully automated analyses at the point of care, Vivalytic saves valuable time for hospitals, labs, genitourinary clinics and doctor’s offices during their routine processes.
| STI Panel | MG, MH, UP, UU Panel |
|---|---|
| Chlamydia trachomatis | Mycoplasma genitalium |
| Neisseria gonorrhoeae | Mycoplasma hominis |
| Trichomonas vaginalis | Ureaplasma parvum/Ureaplasma |
| Mycoplasma genitalium | |
| Treponema pallidum | |
| Mycoplasma hominis | |
| Ureaplasma urealyticum | |
| Haemophilus ducreyi | |
| Herpes simplex virus I | |
| Herpes simplex virus II |
At a Glance
- The Vivalytic system allows fully automated sample analysis with minimal manual steps.
- It eliminates the need for expensive and complex laboratory equipment.
- Vivalytic supports both single and multiplex tests.
- The Vivalytic does not require peripheral equipment such as a laptop, keyboard, barcode scanner, or charging station.
- The cartridge used in the system ensures hygienic and safe operation as a closed system.
- Cartridges can be stored and used at room temperature.
- Vivasuite, a cloud-based solution, facilitates convenient device management.
- The Vivalytic can be seamlessly integrated into existing IT structures using HL7, Ethernet, USB, or WLAN.
For more information please contact us at: marketing@randox.com
Dementia Action Week 2023
Dementia Action Week is a national event that sees people across the UK taking action to improve the lives of people affected by dementia, as organized by the Alzheimer’s Society.
Dementia is an umbrella term for a range of progressive conditions that affect the brain.
Each type of dementia stops a person’s brain cells (neurons) working properly in specific area and affecting their ability to remember, think and speak cohesively.
It is estimated that one in three people born this year nationwide will develop some form of Dementia at some point in their lives.
A cure for Dementia has unfortunately not yet been developed. However, in the pursuit of a cure, there is things that have the potential to vastly improve the quality of life for those living with these conditions.
Here at Randox, there is a focus on preventative healthcare. Which is why it made sense when Randox partnered with Race Against Dementia for their nominated charity of 2023.
Race Against Dementia is a global charity founded by three-times Formula 1 World Champion Sir Jackie Stewart, OBE – with the aim of funding much needed pioneering research into the prevention and cure of Dementia.
Also, in our work of towards diagnosis and treatments for those living with Dementia conditions, Randox Laboratories have launched a CE marked Alzheimer’s Disease Risk Array.
Alzheimer’s is one of the most common forms of Dementia and is an irreversible, progressive brain disorder, in which parts of the brain are damaged over time.
Randox Laboratories’ Alzheimer’s Disease Risk Array can be used for the direct determination of ApoE4 status from plasma, eliminating the need for genetic testing, assisting in clinical research and personalized medicine strategies.
At Randox, we believe the importance of measuring ApoE4 protein expression in plasma is the way forward to screen those individuals at increased risk of Alzheimer Disease, as new beta amyloid-targeting therapies for this condition are being expected.
For further information about the Randox Alzheimer’s Array please email info@randoxbiosciences.com
Alzheimer’s Disease Array | Disease Markers | Randox Laboratories
Introducing Comprehensive Educational Guides on Updated CLIA Proficiency Testing Regulations
We are thrilled to present two educational guides that delve into the newly updated minimum performance specifications for Proficiency Testing by CLIA (Clinical Laboratory Improvement Amendments). These regulations, set to be implemented by 2024, aim to enhance the accuracy and reliability of test results in clinical laboratories. Here, we introduce these invaluable resources designed to assist laboratories in navigating the evolving landscape of proficiency testing.
1. Proficiency Testing Regulations Related to Analytes and Acceptable Performance – A Final Rule (Microbiology):
Our first guide focuses on the specific regulations and requirements pertaining to microbiology proficiency testing. With a comprehensive exploration of these guidelines, this guide is a useful resource for microbiology labs striving to ensure precision and integrity in their testing procedures. From the required categories of testing to maintaining optimal testing conditions, the guide details the updates that promote adherence to the highest standards of quality and safety.
2. Proficiency Testing Regulations Related to Analytes and Acceptable Performance – A Final Rule (Non-Microbiology):
For non-microbiology laboratories, our second guide delves into the updated proficiency testing regulations concerning various analytes. From chemistry to haematology, molecular diagnostics to immunology, this guide offers a comprehensive overview of the new requirements and minimum performance specifications. By embracing these regulations, medical laboratories can uphold the utmost accuracy and reliability in their test results, ensuring optimal patient care and clinical decision-making.
Elevating Laboratory Practices:
These educational guides are indispensable tools that empower laboratories to navigate the changing landscape of proficiency testing regulations. By staying informed and adopting the updated minimum performance specifications, laboratories can maintain compliance, demonstrate excellence, and ultimately deliver the highest quality of care to their patients.
Accessing the Guides:
We invite you to access these comprehensive educational guides by following the link provided below. They offer a wealth of knowledge and practical insights, serving as essential references for laboratory professionals, quality managers, and anyone involved in clinical diagnostics.
With the implementation of updated CLIA proficiency testing regulations on the horizon, these educational guides come at a crucial time. By embracing the knowledge and guidance they provide, laboratories can navigate the changing landscape with confidence and ensure their adherence to the highest standards of proficiency testing. Together, let’s strive for excellence, precision, and patient-centric care in clinical laboratory practices.
#CLIARegulations #ProficiencyTesting #ClinicalLaboratories #QualityAssurance #PatientCare
Microbiology
Non-Microbiology
Internal Quality Control and ISO 15189
As a major contributor to the IVD industry, like many of you, the trials and tribulations of quality control are an everyday consideration. It is for this reason we strive to make the process of IQC as straightforward as possible. We recognise how busy life in the laboratory can get and believe it is our duty to simplify your QC process as much as possible.
The Acusera range has been designed with this in mind. Our true third-party control range boasts unrivalled levels of consolidation, supplied at clinically relevant concentrations in a suitable, commutable matrix. When used in combination with Acusera 24.7, our interlaboratory management software, the Acusera range will help to reduce analytical errors and maximise precision in your laboratory.
With the recent updates to ISO 15189:2022, we understand that there will be added pressure on many laboratories who are trying to maintain their accreditation. To assist you with your gap analysis and transition to these updated standards, we have produced this accreditation guide, detailing all of the key points relating to this new version of the highly sought after accreditation.
If you’d like to find out more about what we can do to help your laboratory or view our range of Internal Quality Controls, don’t hesitate to contact us at marketing@randox.com or feel free to browse the range on our website https://www.randox.com/laboratory-quality-control-acusera/.
D-3-Hydroxybutyrate & Diabetic Ketoacidosis
Diabetic Ketoacidosis is characterised by an accumulation of ketone bodies in response to insulin deficiency, most commonly occurring in T1DM patients, but is becoming increasingly prevalent among sufferers of T2DM.
Diabetic ketoacidosis is associated with symptoms such as polyuria, polydipsia, fever, vomiting, abdominal pain and fatigue with the most severe cases resulting in disastrous consequences such as cerebral oedema and death.
D-3-Hydroxybutyrate is considered to be the predominant ketone bodies associated with diabetic ketoacidosis and novel methods of detection utilise this biomarker to provide robust and accurate quantification of ketone bodies and aid in confident diagnosis of diabetic ketoacidosis.
This guide discusses the physiological and pathological processes associated with diabetic ketoacidosis and the relevant biomarkers, the complications associated with this condition and classic and novel detection methods.
To download this guide, simply click the image at the top of this post!
For more information on this assay visit https://www.randox.com/d-3-hydroxybutyrate-ranbut/
To read about some of our other superior performance reagents visit https://www.randox.com/superior-performance-and-unique-
Or, to view our wide range of diagnostic solutions visit https://www.randox.com/
WorldLab – EuroMedLab 2023
Join us at the Randox booth for EuroMedLab 2023!
Booth #153
Visit us at booth #153 La Nuvola – Roma Convention Centre from 22nd May-25th May 2023.
With 40 years of experience in the industry, we are experts in the field. Our team of Product Specialists will be available at booth #153 to answer any questions, but why not plan ahead? Request a meeting with a Randox representatives and secure a time slot across the 4 day event.
Our Extensive Product Range
Acusera Quality Controls
Introducing the New Acusera True Third Party Controls. Book a meeting with a Randox QC Specialist today to learn how we can provide you with complete QC solutions for results you can trust
Vivalytic – Molecular Diagnostics at the Point of Care
The all in one molecular solution developed by Bosch and Randox consolidates full molecular workflow into one small benchtop platform. Randox multiplex Biochip Technology powers the Vivalytic enabling multiple results from one patient sample. If you would like to learn more about the Vivalytic, click the link below.
ACUSERA 24•7 Interlaboratory Data Management
Discover features such as; Interactive Levey-Jennings Charts, Automatic Calculation for uncertainty of Measurement as well as the Comprehensive Reports generated on demand, with a live demonstration at EuroMedLab.
RIQAS
The world’s largest External Quality Assessment Scheme with more than 55,000 laboratory participants spanning over 134 countries. Choice and flexibility are guaranteed with our 36 programme portfolio, learn more by clicking the button below!
EuroMedLab Meeting Request
Determining bilirubin concentration in paediatric facilities – Vanadate Oxidation Method
The quantification of bilirubin has a wide range of diagnostic utility. In paediatric settings, bilirubin concentrations are commonly used to identify cases of bilirubin encephalopathy or kernicterus.
Historically, bilirubin quantification has been achieved through various techniques derived from the diazo method, first described by Van der Bergh and Muller in 1918. New technologies and novel methods, like the Vanadate Oxidation method, have emerged and have been shown to display superior diagnostic power, driven by its lower sensitivity to interference caused by haemolysis and lipemia when compared with other methods.
This week, we present our educational guide, ‘Determining bilirubin concentrations in paediatric facilities’ which details the key points relating to bilirubin quantification, along with descriptions and comparisons of the methods mentioned above.
To download this guide, simply click the image at the top of this post!
For more information on our Vanadate Oxidation Bilirubin assay visit: www.randox.com/bilirubin
To view our wide range of diagnostic solutions visit: www.randox.com/
Or, if you’d like to discuss this assay, or any of our other products, please contact us at: marketing@randox.com