Diagnosing Coronary Heart Disease (CHD) with RCLS
Coronary Heart Disease (CHD) is an illness where plaque builds up inside the coronary arteries. The arteries play an important role in supplying oxygen-rich blood to the heart muscles, however, over time plaque builds up and can harden. This results in the arteries becoming narrow due to not being able to deliver enough oxygen-rich blood to the heart which causes angina or a heart attack to occur.1
BHF highlighted that Coronary Heart Disease was one of the UK’s biggest killers in 2010 resulting 46,000 premature deaths of which 68% were men.2
CHD is more likely with increasing age, particularly in men. These risk factors cannot be changed, however, there are other risk factors that can be modified such as blood cholesterol, being overweight or obese, smoking, lack of physical activity, unhealthy diet and stress.
You can prevent and control many CHD risk factors with heart-healthy changes and medication. Some lifestyles often increase the chance of developing the disease such as smoking, poor diet, adequate exercise therefore, there are many lifestyle changes to help control several CHD risk factors at the same time, such as physical activity which may reduce stress, lower your blood pressure, help control diabetes and help control your weight.3
Currently, there are four state of the art, fully functional ISO12025 accredited laboratories, located in Liverpool, London, Holywood and the Randox Science Park in Antrim giving RCLS the power to output to pharmaceutical, health and research markets.
Specialising in biomarker and multiplex testing in addition to standard safety and clinical testing, RCLS provides a full laboratory service to accelerate laboratory projects to completion. Our experienced project management teams are available to provide support and guidance from initial biomarker selection through to the design of a comprehensive results data package to deliver against your project aims and timelines.
Renowned for quality and reliability, the Rx Series and Evidence series are utilised by all RCLS Laboratories, guaranteeing real cost savings as well as highly-accurate flexible testing solutions. Furthermore, RCLS perform sample testing on numerous third-party analysers situated in our laboratories dependent upon the testing which is required by the customer.
RCLS can outsource the Cardiac Risk Prediction Array in their laboratory on the Evidence Investigator. We developed a rapid array which will allow all 19 SNPs to be genotyped simultaneously on one single sample. The RCLS team aim to save your laboratory time and money. By utilising our multiplex panels including the Cardiac Risk Prediction Array Panel, RCLS can offer labour saving, time reducing and cost-effective solutions for all your laboratory testing.
If you would like to find out more information about RCLS and what it has to offer contact email@example.com
“CVDs are the number 1 cause of death globally: more people die annually from CVDs than from any other cause”. In 2015, roughly 17.7 million people died from CVD, representing 31% of all global deaths: 7.4 million were due to coronary heart disease and 6.7 million were due to stroke. (WHO, 2017)
Cardiac health and regular cardiovascular screening is important to enable risk factors to be detected in their earliest stages. There are a few factors which contribute to CVD. These include: smoking, unhealthy diet, excessive alcohol consumption, low physical activity levels. Whilst there are only a few factors contributing to CVD, these can be maintained by the patient through living a healthy lifestyle including: quitting smoking, consuming no more than the recommended allowance of alcohol, cutting out junk food, and exercising for 30 minutes a day, 3 – 5 days a week. In a perfect world, this would be easy and CVD would not be a global problem. However, due to busy lifestyles, cravings, reduced willpower, and convenience, not all individuals in today’s world will be able to avoid CVDs. Therefore, it is vitally important that individuals are tested for CVDs to detect them in the earliest stages to reduce damage, prevent further damage, or even death. Furthermore, many individuals suffer from inherited cardiac risk factors, which stresses the need for accurate testing of both traditional and novel cardiac risk biomarkers.
Randox offer the complete solution to cardiac risk assessment including: RX analysers, traditional and novel reagents, internal quality control (Acusera), and external quality control (RIQAS).
Randox has developed the RX series range of clinical chemistry analysers for high-quality semi-automated and fully automated testing. Choose between the RX misano, RX monaco, RX daytona+, RX imola, and the RX modena depending on the throughput of your laboratory. The RX series offers a suitable analyser for your laboratory’s needs. For more information on the Randox RX series, please click here or email firstname.lastname@example.org
As previously mentioned, early assessment of cardiac risk is vital. Randox offer a range of novel risk biomarkers for both very early and the genetic assessment of cardiac risk.
The niche Adiponectin assay allows for the early assessment of CVD. Adiponectin levels are inversely correlated with abdominal visceral fat which has proven to be a strong predictor of T2DM. Body-Mass Index (BMI) is a common method for determining which patients are classified as underweight, healthy, overweight or obese, however, BMI does not take into account gender, ethnicity or activity levels. For example, measuring the BMI of athletes who have a high BMI due to muscle weighing heavier than fat would classify them as obese which is inaccurate. Measuring adiponectin levels is therefore a much more reliable indicator of at-risk patients compared to BMI.
LDL cholesterol is often referred to as the ‘bad cholesterol’. High concentrations of LDL-cholesterol is considered to be the most important clinical predictor, of all single parameters, with respect to coronary atherosclerosis. However, sLDL is a smaller, more dense subfraction of LDL-cholesterol. sLDL particles more readily permeate the inner arterial wall and are more susceptible to oxidation. Individuals with a predominance of sLDL have a 3-fold increased risk of myocardial infarction. Measurement of sLDL allows the clinician to get a more comprehensive picture of lipid risk factors and tailor treatment accordingly.
Elevated levels of Lp(a) are considered to be both a casual risk factor and independent genetic marker of atherosclerotic disorders. The major challenge associated with Lp(a) measurement is the size variation of apo(a) within Lp(a). Dependent upon the size of apo(a) in the assay calibrator, many assays under or overestimate apo(a) size in the patient sample. Numerous commercially available products suffer apo(a) size related bias, resulting in an over estimation of Lp(a) in samples with large apo(a)molecules and an under estimation in samples with small apo(a) molecules. The antibody used in the Randox method detects the complete Lp(a) molecule providing accurate and consistent results. This was proven by the IFCC who developed a gold standard ELISA reference assay and compared 22 commercially available tests. The Randox Lp(a) method displayed the least (minimal) amount of apo(a) size related bias, proving it be a superior offering.
HDL3 Cholesterol is a smaller and more dense subfraction of the HDL particle. HDL is the scavenger of cholesterol within arterial walls and the levels of HDL3 is too low, the ability to remove this cholesterol is reduced. Therefore, it is widely accepted that there is an inverse correlation between HDL3 and CVD risk.
Instrument Specific Applications (ISA’s) are available for a wide range of biochemistry analysers. Contact us to enquire about your specific analyser.
Acusera – Internal Quality Control
The Acusera cardiac controls have been designed to cover a wide range of cardiac markers at clinical decision levels, eliminating the extra expense of an additional low level control. The controls are available in a both liquid ready-to-use and lyophilized formats making them ideal for all situations and manufactured from 100% human serum a matrix similar to that of the patient is guaranteed. For more information on the Randox Acusera internal quality control, please click here or email email@example.com
RIQAS – External Quality Control
The RIQAS Liquid Cardiac EQA programme is designed to monitor the performance of up to 9clinically significant cardiac markers including: CK-MB mass, D-dimer, Digoxin, homocysteine, hsCRP, myoglobin, NT proBNP, troponin I, and troponin T. RIQAS is ISO/IEC 17043 accredited and allows the registration of up to five instruments at no extra cost. All samples are 100% human serum and provided in a liquid ready-to-use format for enhanced convenience. Submit your results bi-weekly and view reports online via RIQAS.Net. For more information on RIQAS, the world’s largest international EQA scheme, please click here or email firstname.lastname@example.org
For further information, please contact the Randox PR team via email: email@example.com or phone 028 9442 2413