The BioCertica Blog

Vitamin D Deficiency

Overall, a genetic test for vitamin D deficiency can be a valuable tool for identifying individuals at risk for this condition. By analyzing a person's DNA, a healthcare provider can identify any genetic variations affecting their vitamin D levels and their risk for deficiency. This information can be used to develop a personalized plan for maintaining healthy vitamin D levels and reducing the risk of deficiency-related health problems.

Body Type Explained: Ectomorph, Mesomorph, and Endomorph

Delve into the world of body type. Find out your unique body type - ectomorph, mesomorph, or endomorph - and customize your fitness routines for optimal results.

BioCertica Fitness results invaluable to Taylon Bieldt.

“I'm truly astonished to see how accurately the fitness traits reflect my situation. I now have in-depth knowledge of how my genetics affects my training and can identify areas of improvement. This is what athletics is all about, constant improvement.” - Taylon.

Sports injury: Random accident, or could your DNA be your early warning?

Training program errors, inadequate muscle strengthening, imbalanced biomechanics (ineffective movement patterns), and genetics are among the factors that contribute to the risk of chronic injuries.

Activity and Energy levels - what your DNA has to say

One way to make exercise less torturous is to exercise according to your genetic preferences, i.e., do the types of training for which your body is naturally built. If your genes make you less likely to engage in spontaneous physical activity, exercise must be as enjoyable as possible. Otherwise, chances are you won’t increase your physical activity levels.

Endomorph, Mesomorph, or Ectomorph? Discover your body type and how it relates to your DNA

Unlock the power of your body with a DNA test! Discover how understanding your body type (ecto, meso, endo) can optimize your health, sports performance, and nutrition. Tailor your routine to maximize your potential!

Testosterone, genes and athletic performance

Genes play a crucial role in determining an individual's testosterone levels, which can significantly impact athletic performance. Testosterone is the primary male sex hormone but also plays a vital role in muscle development, bone density, and red blood cell production. In athletes, testosterone levels can be a predictor of their physical performance.

Human growth hormone, genes, and athletic performance

Genes play a crucial role in determining various physiological processes in the human body, and growth hormone levels are no exception. Growth hormone (GH) is produced by the pituitary gland that stimulates the growth and reproduction of cells in the body. It is essential for the development of bones, muscles, and other tissues and plays a key role in athletic performance.

Hip and knee osteoarthritis

Osteoarthritis is a chronic joint disorder that affects millions of people worldwide. It is characterized by gradual wear and tear of the cartilage, the soft cushioning material between bones, leading to pain, stiffness, and reduced mobility. While age, obesity, injury, and repetitive joint use are some of the well-known risk factors for developing osteoarthritis, recent research has shown that genetics also play a significant role in the development of the disease.

Body fat percentage

Thus, your genetic predisposition to a higher or lower body fat percentage may be important when considering which sporting activities to invest your time and effort into. However, it's also important to note that while genetics may impact body fat percentage, it is not a determining factor. With the right diet and exercise regimen, anyone can improve their body fat percentage and reach their fitness and health goals.

Power (the ACTN3 gene)

The ACTN3 gene, also known as the 'sprinter gene,' has been the subject of much research in the field of sports science. This gene is believed to play a key role in determining athletic power and sports performance potential.

Lean body mass

Lean body mass is an important metric in the sports and fitness world. However, few realize it is also crucial for general health and well-being. Lean body mass refers to all your mass, excluding your fat mass. Thus, it includes the mass of your bones, organs, connective tissue, blood, muscles and other tissues. Your muscles make up most of your lean body mass and are responsible for most of the interpersonal variability.

Hand grip strength

Handgrip strength is an important predictor of athletic performance potential. While training and nutrition play a big role in handgrip strength, it's also influenced by our genes. Research has shown that there are specific genes that are associated with handgrip strength and muscle mass, both of which are important factors in athletic performance.

Left ventricular stroke volume and endurance

Athletic performance is a complex and multi-faceted aspect influenced by various factors, including cardiovascular function. One important aspect of cardiovascular function is left ventricular (LV) stroke volume, which refers to the amount of blood the heart pumps out with each beat. This can greatly impact athletic performance, especially endurance performance.

Insulin-like growth factor 1 for your muscles

Insulin-like Growth Factor 1 (IGF-1) is a hormone that plays a vital role in the growth and development of the human body. It has a significant impact on athletic performance as it influences muscle growth and helps the body to recover from physical activity. In this blog post, we will explore how genes influence IGF-1 levels and how this affects athletic performance.

Hemoglobin concentration and endurance performance

Athletic performance is a complex and multi-faceted aspect that is influenced by various factors, including genetics. Hemoglobin, a protein found in red blood cells, is responsible for carrying oxygen from the lungs to the rest of the body. As such, a person's hemoglobin concentration can greatly impact their endurance performance.

Asthma Treatment Through Pharmacogenetics: The Future is Now

Personalizing HIV Treatment Through Pharmacogenetics: A New Horizon

Cystic Fibrosis: Personalized Treatment with Pharmacogenetics

Tailoring Heart Failure Treatment through Pharmacogenetics

Cardiac Arrhythmia: Enhancing Treatment with Pharmacogenetics

Osteoporosis: Personalized Management Through Pharmacogenetics

Rheumatoid Arthritis: Pharmacogenetics Approach

Atrial Fibrillation: Enhancing Treatment with Pharmacogenetics

Gout Management: Enhancing Treatment with Pharmacogenetics

Hyperlipidemia Treatment: The Impact of Pharmacogenetics

Stroke Treatment Customization: The Role of Pharmacogenetics

Hypertension Care with BioCertica Pharmacogenetics

Pharmacogenetic Reports: BioCertica vs. Competitor Review

If you are looking for a pharmacogenomics report, you may have noticed a few on the market. You may have already read about the benefits of BioCertica’s pharmacogenetic test, but here we will dive into the usability of our report compared to a competitor’s report.

Pharmacogenetic Testing: BioCertica vs Traditional Methods

Pharmacogenetic testing is still a relatively new field, so much progress still needs to be made for this type of testing. As you may have read, in pharmacogenomic testing, DNA is genotyped and matched to known gene-drug interactions; however, there is no standardized approach for reporting this testing. This leads to many differences in how these reports are compiled and presented. Therefore BioCertica’s approach to presenting pharmacogenetic results is different from other companies that offer this testing in South Africa. For the sake of transparency, we would like to explain the difference.

Is it worth doing a pharmacogenetics test?

Recently, we at BioCertica introduced a pharmacogenetics test as a new brand product. However, since it is a new product, it is natural to face doubts and questions about its quality, or if it is worth buying it. Whether or not someone thinks it is worth doing, a pharmacogenetics test is a personal decision that depends on individual circumstances. Therefore, we need to carefully consider all benefits and limitations that these tests may have. Here we will discuss some of them.

Pharmacogenetics Glossary

Pharmacogenetics Results: Genotype Guide

Genotypes can be homozygous or heterozygous. A homozygous genotype is when the two alleles are the same, for example TT or CC. A heterozygous genotype is when the who alleles are different, for example AT or CA. You may have noticed that in the case of heterozygous genotypes, the order in which they are written sometimes differs.

Mental Health Advancements through Pharmacogenetic Testing

Psychiatric disorders contribute to 14% of the global burden of disease and are estimated to affect nearly 450 million people, and approximately one-third of those affected are considered to have long-term disability and dependency. Sadly, about half of the patients with major psychiatric disorders are non-adherent to their treatments. Although other factors that affect medication non-adherence among them are medication side effects and efficacy [1]. So the question is: can pharmacogenetic testing impact treating psychiatric illness?

Pharmacogenetics report: List of articles

Pharmacogenetics Report: A Guide for Practitioners

Pharmacogenetics: Drug Response & Genetics

Celebrating World Science Day for Peace and Development: Science as a Path to a Better World

Explore Your Ancestral Origins with DNA Testing

Exploring Your Heritage, and How To Do It!

How DNA Ancestry Testing Unveils Your Heritage

The ethics of DNA testing: Balancing privacy

The future of DNA testing and genealogy: What to expect in the coming years?

The difference between genealogy and ancestry origin testing

Understanding different types of DNA tests: Which one is right for you?

Genomics: The Science behind it

We will tell you more about the polygenic risk scoring methodology in a bit. Before that, to underline that most of today’s genetic risk scoring reporting is based on individual genetic variants that are found to be associated with a given trait. For example, let’s say a genetic variant associated with whether you can detect bitter taste or not or similar traits controlled by single genetic variants.

How to compare your ancestry results with your child?

Polygenic Risk Scores: The Better Choice for DNA Testing

Multiple companies are offering genetic tests in the South African market - which should you choose? The table in this article gives you several factors to consider when purchasing a DNA kit, but one of the most important factors to draw to your attention is the approach: the polygenic risk scoring (PRS) approach or the single-gene approach.

What is GWAS & how does it work?

Why do we celebrate Heritage Day?

Heritage Day on 24 September recognises and celebrates the cultural wealth of our nation. South Africans celebrate the day by remembering the cultural heritage of the many cultures that make up the population of South Africa. Various events are staged throughout the country to commemorate this day.

The Heroines of Genetics

The Sum of All Your Genes

Understanding PRS

A polygenic risk score (PRS) is obtained from a comprehensive method used to estimate the relative genetic risks of being affected by a certain condition or inheriting a certain trait. Instead of giving the results of single genes which have been identified to contribute towards certain traits.

Release of Polygenic Risk Score methodology - What does it mean to our users?

What is a polygenic risk score and how does it work?

How are genomics reports generated?

How do we select SNPs for our reports?

Genotyping: What is its output and how do we process it?

Everything you need to know about Osteoporosis

Osteoporosis is a common health condition affecting millions of people worldwide, particularly older adults. This condition is characterized by a loss of bone density and an increased risk of fractures. While osteoporosis can be caused by a variety of factors, such as hormonal changes, inadequate calcium intake, and low levels of physical activity, there is also a genetic component to the condition.

What is your true pain tolerance?

Pain sensitivity, also known as pain tolerance, is a person's ability to withstand painful stimuli. People have different pain sensitivity levels due to various factors, including genetics.

How well do you metabolise caffeine?

Caffeine is a widely consumed psychoactive drug found in various foods and beverages, including coffee, tea, and chocolate. While many people enjoy the effects of caffeine, such as increased alertness and concentration, it can also cause unwanted side effects like jitteriness and insomnia.

The regulation of metabolism and insulin sensitivity: Adiponectin

Adiponectin is a protein hormone produced by fat cells in the body and is known for regulating metabolism and insulin sensitivity. While many people may not be aware of adiponectin, having a genetic predisposition to low levels of this hormone can significantly impact an individual's health.

Sweeth teeth and sugar intake

High sugar intake can lead to various health problems, including weight gain, insulin resistance, and an increased risk of developing diabetes. A genetic test can help identify an individual's predisposition to sugar intake and allow them to take steps to manage their natural inclination and reduce their risk of developing related health complications.

Everything you need to know about the genetic risk of obesity

Obesity is a growing concern in the modern world, with more and more people struggling to maintain a healthy weight. While there are many factors that can contribute to obesity, such as poor diet and lack of exercise, some people may be more genetically predisposed to the condition than others.

Tendinopathy risk and symptoms

Tendinopathy is a common condition that results in the inflammation or degeneration of tendons, the thick fibrous cords that attach muscles to bones. This can cause pain, stiffness, and weakness in the affected area and make it difficult for people to perform everyday activities.

Hypertension (high blood pressure)

Hypertension, also known as high blood pressure, is a common condition affecting millions worldwide. It is a significant risk factor for heart disease, stroke, and kidney failure and can lead to serious health complications if left untreated. While lifestyle factors such as diet, exercise, and stress management play a significant role in the development of hypertension, a person's genetic predisposition can also increase their risk for this condition.

Eating and Appetite Disorders

A Closer Look at Hyperbilirubinemia

Nonalcoholic Fatty Liver Disease: A Silent but Serious Condition

Hypothyroidism: An Underactive Thyroid and Its Consequences

Gout: An Old Disease in New Light

Understanding Disorders of Iron Metabolism: Aceruloplasminemia and Hemochromatosis

Type 2 Diabetes: Understanding the Modern-Day Epidemic

Nontoxic Multinodular Goiter

Genetic Risk and Celiac Disease: Causes, Symptoms, and Management

Alopecia areata

Appendicitis

Dermatomyositis

IgA neuropathy (Berger's disease)

Multiple sclerosis (MS)

Myasthenia gravis

Oligoarticular juvenile idiopathic arthritis

Ankylosing spondylitis

Primary biliary cirrhosis

Lupus (systemic lupus erythematosus)

Systemic sclerosis (Scleroderma)

Takayasu's arteritis