Does genetics influence injuries? Part 1

DNA kit adntro box

Discover how to get the most out of your genetics in sports and much more with the most complete DNA kit.

Use the coupon BLOG10

Already genotyped? Upload your RAW DNA for free!

With the return of summer, many athletes and sports enthusiasts resume their physical activities with renewed energy and motivation. But this time of year can also bring with it an increase in the incidence of sports injuries. While training methods and proper equipment play a crucial role in injury prevention, there is another factor that often goes unnoticed: the influence of genetics on sports injuries.

Yes, your genetics have an influence on your susceptibility to developing certain types of injuries such as Achilles tendon and ankle injuries.

Influence of genetics on injuries

Ankle injuries

When we talk about ankle injuries we refer to sprains, strains and other joint or instability disorders. Ankle injuries are frequent, especially in athletes who practice indoor or jumping sports. They affect the ligaments and muscles around the ankle.

A ankle muscle strain involves injury or overstretching of the muscles or tendons surrounding the ankle. Muscle strains can vary in severityThe range of symptoms ranges from a mild strain with discomfort and stiffness to a complete tear of the muscle or tendon with severe pain and inability to move the ankle.

An ankle sprain occurs when the ligaments connecting the ankle bones are stretched or torn due to excessive force or sudden movement.

Symptoms of ankle injuries

Common symptoms of ankle sprains and strains include pain, swelling, bruising, difficulty moving the ankle, tenderness to touch and redness in the affected area. Initial treatment for these injuries usually includes rest, icing, compression and elevation.

Causes of ankle injuries

Ankle sprains occur when the ligaments of the ankle are injured, primarily the lateral ligamentous complex. Ankle injuries are usually caused by movements of the ankle that cause it to deviate from its axis (an acute eversion or inversion of the ankle).

How does genetics influence ankle injuries??

Although ankle injuries are usually caused by movements of the ankle that cause it to deviate from its axis, certain individuals may be at increased risk of injury following such trauma.

Several risk factors have been described (uneven surfaces, inadequate footwear...), but a the genetics of a person can also influence the risk of ankle injury, as well as the severity of the injury and the rate of recovery. These individuals can reduce their risk with preventive training, adapted conditioning and appropriate footwear.

Ankle injuries

Achilles tendon

The Achilles tendon is the largest and strongest tendon in the human body that connects the calf muscles to the heel bone. Its main function is to allow flexion of the foot and assist in propulsion during walking, running and jumping.

What kind of injuries can the Achilles tendon suffer?

The Achilles tendon may rupture or present tendinopathy.

Tendinopathy is a generic term that encompasses both inflammatory (tendinitis) and degenerative (tendinosis) problems. This can occur due to intense sports activities, running on hard surfaces, sudden changes in training intensity, use of inappropriate footwear, or age-related weakening. Symptoms include pain and tenderness in the Achilles tendon, morning stiffness, and difficulty walking or running.

Achilles tendon rupture can occur as a result of a sudden force exerted on the tendon (such as falling from a height) or trauma to the tendon, or as a result of chronic tendinitis that weakens the tendon tissue. It is most common in middle-aged people and in athletes who participate in sports involving rapid changes of direction. Symptoms of an Achilles tendon rupture include a "snapping" or "popping" sound in the back of the leg, severe pain, swelling, difficulty walking or standing on tiptoe.

How do genetics influence Achilles tendon injuries?

There are genetic markers that predict an individual's risk of suffering Achilles tendon injury. The role of genetic polymorphisms (SNPs) in genes related to tendon structure and function, such as type V collagen and matrix metalloproteinases (MMPs), has been examined.

That's why knowing your genetic predisposition to sports injuries can prevent injuries, helping you to better understand your body and train smarter and safer. Discover the influence of genetics on sports injuries with the DNA TEST of ADNTRO! If you are already genotyped, remember you can upload your raw DNA data.

Share this post

More interesting articles

Learn genetics

Fat burning: Lipolysis

In the human body, fats, in addition to other functions, serve as an energy reserve to obtain the fuel that the body needs in situations of stress.

Read more "
DNA kit adntro box

Discover how to get the most out of your genetics in sports and much more with the most complete DNA kit.

Use the coupon BLOG10

Already genotyped? Upload your RAW DNA for free!

Other topics

Share this post:

Facebook
Twitter
LinkedIn
WhatsApp
E-mail

Get a 10% discount!

An Investment
for all Life

DNA test with saliva sample
More complete analysis
Ancestry, Nutrigenetics, Traits and Diseases,...
Already genotyped?

If you have taken a test with 23andMe, MyHeritage, Ancestry.com and others, you can upload your DNA for free at 23andMe, MyHeritage, Ancestry.com and others.

Digestive Medicine

For digestive clinics or physicians. Provides information on the genetic predisposition to develop diseases of the digestive system- such as Chron's, Inflammatory Bowel Disease among many others - as well as intolerances. This supports a possible early diagnosis and prevention. The results of this study are very positive, allowing for more precise and personalized interventions to improve the quality of life of the patients.

nutrition

Cardio

The applicability and importance of the PRSs in cardio is endorsed by the American Heart Association (AHA). The applicability of PRS is made possible thanks to this tool that helps in the cardiovascular disease prevention: identifying patients with a higher genetic risk of developing conditions such as diabetes, thromboembolism, hypercholesterolemia, and coronary artery disease (CAD), among others, enabling early interventions and preventive measures to improve patients' cardiovascular health.

integrate genetics into your practice

Biobanks, Pharmacies and CROs

Access and consultation of genetic data relevant to health and pharmacology. Thanks to this tool, it is possible to know the predisposition of patients to suffer adverse effects and what dose adjustments are necessary for more than 150 drugs, thus improving safety, efficacy and treatment personalization. This information is backed by Stanford University and approved by the FDA and gives solutions for biobanks, and research organizations.

integrate genetics into your practice

Dermatology

Specialized for dermatological clinics, this service provides information on dermatogenomics: skin sensitivities, efficacy of various topical and oral treatments, essential vitamins and minerals for skin health, dermatological conditions, skin types and more data to help you customize your skin care recommendations.

integrate genetics into your practice

Fitness and wellness centers

Genetic analysis allows for the design of personalized training programs that, taking into account genetic characteristics focused on the world of sports, such as muscle fiber types and predisposition to injuries, maximize performance and reduce the risk of injuries. Additionally, by considering genetic factors related to sleep and longevity, recommendations can be offered for a healthy and sustainable lifestyle.

integrate genetics into your practice

Nutri & Fitness

The practical application of nutrigenomics allows you to differentiate yourself from the competition by offering your patients personalized and accurate information on genetic predispositions to food intolerances.The results of this approach allow the design of dietary plans completely adapted to the genetic profile of the patient. This approach makes it possible to design dietary plans completely adapted to the individual needs maximizing results and providing an exceptional and differentiated service in the field of nutrition.

integrate genetics into your practice

Neuro

Very useful for psychiatric clinics and psychological clinics. Provides information on the genetic predisposition to develop nervous system diseases and mental disorders, such as Alzheimer's, Parkinson's, schizophrenia, bipolar disorder and OCD, among others. This supports a possible early diagnosis and prevention of these conditions, allowing for more precise and personalized interventions for improve the quality of life of patients.

integrate genetics into your practice

Start a unique journey inside your DNA

Kind regards from ADNTRO team