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- measures important markers for sports performance
- hormones testosterone, free testosterone, prolactin and oestradiol
- monitor significant performance indicators
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Hormones (6 Biomarkers)
Every bodily function, including development, metabolism, reproduction, and sleep cycles, is controlled by hormones.
Your mood and energy levels, as well as your fertility and libido, can all be negatively impacted by even a slight hormonal imbalance.
Chemical messengers known as hormones are produced in your glands and delivered into your bloodstream. Your body receives instructions from them on how to control your appetite, growth, mood, and reproduction.
In general, they maintain the body's equilibrium and functionality. Hormone imbalances are frequently treated with hormone replacement therapy or by altering one's lifestyle. Throughout the day and for women during the menstrual cycle, hormone levels change.
Testosterone
A hormone called testosterone is responsible for male features. It plays a part in controlling bone mass, fat distribution, muscular mass, strength, the creation of red blood cells, and the production of sperm in men.
It also helps to regulate sex drive. Men's testicles and, to a much lesser extent, women's ovaries both produce testosterone.
Although lower than normal amounts of testosterone can occur at any age and can result in low libido, erectile dysfunction, difficulties gaining and retaining muscular mass, and lack of energy, testosterone levels in males naturally fall after the age of 30.
Even though testosterone levels in women are significantly lower than in men, it is still vital for the same reasons—it affects libido, how fat and muscle are distributed, and how red blood cells are formed.
Because reference ranges are dependent on the population being tested, they will all somewhat vary between laboratories. 95% of men will fall inside the usual range, which has been determined.
We follow the British Society for Sexual Medicine's (BSSM) recommendations for greater consistency, which state that low testosterone can be diagnosed when levels are consistently below the reference range and that levels below 12 nmol/L may also be considered low, particularly in men who also experience symptoms of low testosterone or who have low levels of free testosterone.
Oestradiol
Oestradiol is a female steroid hormone that is made primarily in women's ovaries and only little in men's testicles.
The female reproductive system, breast tissue growth, and bone density are all influenced by this, the strongest of the three oestrogens. Oestradiol levels in premenopausal women fluctuate during the monthly cycle, reaching their highest point at ovulation.
Oestradiol levels in women decrease with ageing, peaking at menopause when the ovaries stop releasing eggs. Hot flashes, nocturnal sweats, and mood swings are just a few of the menopause symptoms that low oestradiol can bring on.
Osteoporosis can also result from low oestradiol.
LH
The pituitary gland produces the luteinizing hormone (LH), which is crucial for both male and female reproduction.
It controls the menstrual cycle in women and peaks just before ovulation. It increases testosterone production in men.
FSH
The pituitary gland produces the hormone follicle stimulating hormone (FSH), which is crucial for both men and women in the development of sperm and eggs.
FSH increases the growth of follicles within the ovaries in the first half of the menstrual cycle in women. Oestradiol levels will rise thanks to each of these follicles.
Follicle stimulating hormone levels fall throughout the second half of the menstrual cycle as one follicle becomes dominant and is discharged by the ovary (ovulation). In men, FSH stimulates immature sperm cells to mature into sperm by acting on the seminiferous tubules of the testicles.
Free Testosterone - Calc.
Only 2-3% of the testosterone that is circulating in the blood is free and available to cells; the majority is attached to proteins, particularly SHBG and albumin.
The method used in this test determines the ratio of free or unbound testosterone to total testosterone, SHBG, and albumin.
Prolactin
The pituitary gland produces the hormone prolactin, which is important for reproductive health.
Prolactin levels can skyrocket in pregnant and nursing women, and its main function is to boost milk production after delivery.
Proteins (4 Biomarker)
Proteins are essential for muscle growth as well as the operation of cells and tissues. Blood proteins are measured to assist in the diagnosis of various illnesses, such as liver or kidney disease.
It is common practise to analyse proteins to determine how much of a specific hormone is bound to a protein or free and thus available to your cells. Proteins also transport other chemicals, such as hormones, throughout the blood.
Dehydration is a common cause of elevated proteins, but they can also be a sign of other health issues. A significant protein deficiency may be a sign of malnutrition or malabsorption.
Albumin
A protein called albumin is mainly produced in the liver. It aids in generating the osmotic pressure necessary to keep water in the blood. It is crucial for tissue growth and repair and aids in the transportation of nutrients, medicines, and other chemicals via the blood.
By evaluating albumin levels in the blood, we can determine how much hormone is available to your tissues. Albumin also transports hormones throughout the body.
Globulin
The term "globulin" refers to a variety of proteins that the liver and immune system create. While certain globulins transport metals like iron in the blood, others bind with haemoglobin.
In addition, there is a specific class of globulin called an immunoglobulin, which is another name for an antibody and aids in the body's defence against infection.
Total Protein
The total protein in your blood is the sum of the proteins albumin and globulin. Among their many jobs, albumin and globulin keep blood in vessels, deliver nutrients, and combat infection.
Abnormal levels may indicate a liver or renal problem as well as malnutrition.
SHBG
The majority of the sex hormones, including testosterone, oestrogen, and dihydrotestosterone (DHT), are bound to Sex Hormone Binding Globulin (SHBG), rendering them inactive in your cells.
The amount of free or unbound hormones, which are biologically active and available for usage, can be determined by measuring the level of SHBG in your blood.
Inflammation (1 Biomarker)
When your immune system is triggered to purge your body of external invaders or irritants and to guard against tissue damage, inflammation results.
Inflammation frequently manifests as heat, redness, swelling, and discomfort. An acute or persistent inflammation might exist. Infection or injury are common causes of acute inflammation, which appears for a few days before going away.
Long-term diseases including arthritis, inflammatory bowel disease, or asthma can lead to chronic inflammation. Certain proteins that are elevated in the blood as a result of inflammation can be tested to determine the level of inflammation and, in some cases, its underlying cause.
CRP-HS
The C-Reactive Protein (CRP) is a marker of inflammation that is used to determine whether there is inflammation in the body but not where it is situated.
A test known as High Sensitivity CRP (CRP-hs) is used to find low-level inflammation that may harm blood vessels and cause a heart attack or stroke. There is a great deal of inflammation at the site of a significant injury. The swelling around a twisted ankle is easy to picture. Your CRP-hs will increase with any damage of this nature.
But frequent exercisers also run the danger of developing chronic low-level inflammation, which can harm their performance.
We draw this picture using CRP-hs, CK, and your complete blood count (see the articles on the liver and complete blood count). When you are rested for the test, inflammatory markers like CRP-hs provide the most insight; otherwise, they may be increased from recent exercise.
Vitamins (2 Biomarker)
Your body requires vitamins as necessary nutrients to function properly. They must come from the food you consume because you cannot manufacture them yourself. There are two categories of vitamins: fat-soluble and water-soluble. Oily foods, whether animal- or plant-based, contain fat-soluble vitamins like vitamins A, D, E, and K.
You don't need to eat them every day because your body stores them in fatty tissue and the liver.You must consume meals containing these nutrients more regularly because the majority of water-based vitamins, such as vitamin C, are not stored in the body.
A balanced diet should provide you with all the vitamins you require. But occasionally, dietary decisions or medical issues might make us vitamin deficient.
Vitamin D
Together with calcium, vitamin D is essential for bone maintenance. It is crucial for both protein synthesis and muscle function.
Other non-musculoskeletal advantages, such as immunological regulation, defence against chronic diseases, and improved sports performance, have also been emphasised by more recent study.
Maintaining adequate amounts of vitamin D is crucial for athletes. When your skin is exposed to sunshine, it can produce vitamin D.
This is challenging in the UK, especially during the winter. Even if they exercise outside, people in the UK frequently have low vitamin D levels.
Vitamin B12 -Active
The generation of red blood cells, which transport oxygen throughout the body, depends on vitamin B12.
Additionally essential for metabolism and the nervous system, vitamin B12 deficiency can harm nerves over time.
Although plant milks are increasingly frequently enriched with vitamin B12, vitamin B12 is still nearly exclusively found in meals derived from animals.
Iron Status (1 Biomarker)
Ferritin
A complex globular protein called ferritin is used to store iron in an inactive form. The ferritin releases its iron for usage as your iron reserves get depleted.
You will run out of iron if your ferritin levels drop, and your ability to make red blood cells in your bone marrow will also suffer.
Thus, ferritin provides a reliable indication of your iron reserves. Ferritin can rise at times of infection, inflammation, or trauma because it is an acute phase protein as well.
Liver Health (4 Biomarkers)
One of your body's most vital organs, the liver performs a variety of tasks including converting food into energy, eliminating waste and toxins, and producing and regulating some hormones.
Through overeating, drinking alcohol, and contracting viral hepatitis, your liver can become inflamed and gradually harmed. Although your liver has extraordinary regeneration capabilities, liver disease is irreversible once inflammation has resulted in scarring (cirrhosis).
Blood tests evaluate the levels of several enzymes, and if they are elevated, it may be a sign that your liver is inflamed.
ALT
The liver produces the enzyme alanine transferase (ALT), which can suggest liver damage brought on by medications, alcohol, or viruses (hepatitis).
GGT
The liver enzyme gamma GT, sometimes referred to as gamma-glutamyl transferase (GGT), is increased in conditions affecting the liver and bile ducts.
To differentiate between liver and bone diseases, it is utilised in conjunction with ALP. As it is elevated in 75% of heavy drinkers, gamma GT is also used to diagnose alcohol consumption.
ALP
An enzyme called alkaline phosphatase (ALP) is mostly present in the liver and bones. Its measurement can reveal whether a person has any active liver, gallbladder, or bone conditions.
Bilirubin
Haemoglobin from red blood cells breaks down, producing bilirubin as a byproduct. Through the liver, the gallbladder stores and concentrates it before secreting it into the intestine.
Your body eliminates it through faeces and urine. Due to red blood cells disintegrating beneath the skin, bilirubin is what gives bruises their occasionally yellow colour.
Cholesterol Status (6 Biomarkers)
A fatty molecule called cholesterol is present in the blood and is crucial for the proper functioning of the body's cells.
But having too much cholesterol in your blood can seriously harm your health since it makes you more likely to experience a heart attack or stroke.
Numerous variables increase the risk of cardiovascular disease, and we continue to learn more about the intricate biochemical mechanisms that trigger a heart attack.
However, even then, it is not so straightforward because there are various forms of cholesterol, some of which are more dangerous than others. High levels of cholesterol have long been recognised to increase your risk.
In addition to coming from the food we eat, cholesterol is also produced in the liver. Diet, family history, obesity, and inactivity all have a negative effect on cholesterol levels.
Total Cholesterol
In the organism, cholesterol is a necessary fat (lipid). Even though it has a terrible reputation, it performs a number of crucial tasks, such as creating cell membranes and a number of necessary hormones. In addition to coming from the food we eat, cholesterol is also produced in the liver.
The amount of both good (HDL) and bad (total) cholesterol in your blood is measured (LDL, VLDL and non HDL).When carbohydrate energy sources are scarce or for endurance activities, fats serve as the main energy source.
Medium-chain fatty acids in particular are used extensively. By examining the levels of the various forms of cholesterol, we can gain information into your health and cardiovascular risk.
Cholesterol distributes fatty acids throughout the body (i.e. the buildup of cholesterol in blood vessels leading to blood vessel narrowing, heart attack and stroke).The liver controls the amount of cholesterol in the body; it produces and eliminates it, and it also produces different lipoproteins that carry cholesterol throughout the body. It is these that the cholesterol test measures.
LDL Cholesterol
Low density lipoprotein, often known as LDL cholesterol, is a lipid and protein molecule that carries triglycerides, cholesterol, and other fats to various bodily regions.
When fatty deposits build up inside artery walls due to an excess of LDL cholesterol, sometimes known as "bad cholesterol," this could result in atherosclerosis and heart disease.Through food and exercise,
your cholesterol levels can be dramatically reduced. Likewise, if you can raise your levels, you may be able to avoid developing significant, potentially fatal illnesses in the future. Results for HDL and LDL (and non-HDL) can be used as benchmarks and improvement targets.
Regular exercise, especially cardio and weight training, will help lower LDL and raise HDL. Cholesterol levels will also be optimised by a Mediterranean diet that is heavy in vegetables and oily fish and low in meat and dairy.
Non-HDL Cholesterol
All of the cholesterol molecules that are not HDL (or "good" cholesterol") are referred to as non-HDL cholesterol.
Therefore, it includes all of the potentially dangerous and non-protective cholesterol in your blood. As a result, it is thought to be a more accurate indicator of cardiovascular risk than LDL cholesterol and total cholesterol. Less than 4 mmol/L of non-HDL cholesterol is advised.
Through food and exercise, your cholesterol levels can be dramatically reduced. Likewise, if you can raise your levels, you may be able to avoid developing significant, potentially fatal illnesses in the future.Results for HDL and LDL (and non-HDL) can be used as benchmarks and improvement targets. Regular exercise, especially cardio and weight training, will help lower LDL and raise HDL.
Cholesterol levels will also be optimised by a Mediterranean diet that is heavy in vegetables and oily fish and low in meat and dairy.
HDL Cholesterol
High Density Lipoprotein, often known as HDL cholesterol, is a molecule that transfers cholesterol from the bloodstream to the liver, where it is broken down and expelled from the body as bile.
The term "good cholesterol" refers to HDL cholesterol. Through food and exercise, your cholesterol levels can be dramatically reduced. Likewise, if you can raise your levels, you may be able to avoid developing significant, potentially fatal illnesses in the future.Results for HDL and LDL (and non-HDL) can be used as benchmarks and improvement targets.
Regular exercise, especially cardio and weight training, will help lower LDL and raise HDL. Cholesterol levels will also be optimised by a Mediterranean diet that is heavy in vegetables and oily fish and low in meat and dairy.
Total Cholesterol/HDL
By dividing your total cholesterol value by your HDL cholesterol level, you can get your cholesterol/HDL ratio.
It serves as a gauge of cardiovascular risk since it provides useful information about the percentage of "good" cholesterol in your total cholesterol (i.e. high-density lipoprotein, HDL).
The cholesterol/HDL ratio is used by heart disease risk calculators (like QRisk) to estimate your risk of suffering a heart attack.
Triglycerides
Triglycerides are a type of lipid that move through the bloodstream. They are transported in the bloodstream by chylomicrons and VLDLs, two types of lipoproteins (very low density lipoproteins).
Following a meal, extra calories are converted by your body into triglycerides, which are subsequently carried to cells where they are stored as fat. Triglycerides are then released by your body when it needs energy.
Kidney Health (1 Biomarkers)
Waste materials and extra fluid are taken out of your blood by your kidneys.
Examining the levels of waste products in the blood as well as the levels of electrolytes, which control fluid in the body, can be used to gauge how effectively they are performing their duties.
Early kidney disease signs are usually nonexistent, so it's crucial to keep an eye on kidney function, particularly if you have diabetes, high blood pressure, or a close relative who has the condition.
Creatinine
The regular breakdown of muscles produces the chemical waste molecule creatinine. Therefore, athletes are capable of higher levels than the normal person.
Since creatinine is excreted by the kidneys, it can be used to diagnose renal disease and is a reliable indicator of kidney function.
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