microtrauma

Microtrauma is the general term given to small injuries to the body.

Most microtrauma cause a low level of inflammation that cannot be seen or felt.

It's painful, and causes microtrauma of a sort that nobody had ever seen before.

Microtrauma to the muscles are created faster than the body can heal them.

Repetitive microtrauma which are not allowed time to heal can result in the development of more serious conditions.

Microtrauma, which is tiny damage to the fibers, may play a significant role in muscle growth.

Back pain can develop gradually as a result of microtrauma brought about by repetitive activity over time.

Can the microtrauma and inflammation that are fingered as its causes be prevented?

It is thought that this leads to microtrauma and subsequent muscular hyperactivity.

Weight training causes micro-tears to the muscles being trained; this is generally known as microtrauma.

It is caused by repetitive microtrauma and aging.

In addition, poor fine motor control generates unnatural pressure on certain joints, leading to additional microtrauma.

Another theory suggests that muscle "microtrauma" (very slight damage) leads to an ongoing cycle of pain and fatigue.

The Causes Overuse injuries result from repeated microtrauma, causing inflammation and sometimes tissue damage.

The possibility of microtrauma emphasizes a need for evaluation of biomechanical forces at the knee in a physical examination.

After microtrauma from stress (lifting weights) to muscles, they can be rebuilt and overcompensate to reduce the likeliness of re-injury.

With the kind of injury Bell has- small tears in his calf muscle, or, officially, "microtrauma"- the first twenty-four to forty-eight hours are the worst.

Microtrauma can include the microtearing of muscle fibres, the sheath around the muscle and the connective tissue.

Microtrauma to the skin (compression, impact, abrasion) can also cause increases in a skin's thickness, as seen from the calluses formed from running barefoot.

The most accepted one is that the microtrauma of the repeated shock wave to the affected area creates neo-vascularization (new blood flow) into the area.

In the subacromial bursa, this generally occurs due to microtrauma to adjacent structures, particularly the supraspinatus tendon.

These variables are important because they are all mutually conflicting, as the muscle only has so much strength and endurance, and takes time to recover due to microtrauma.

In 1717 the father of occupational medicine, an Italian doctor named Bernardino Ramazinni, first described cumulative microtrauma as a main cause of occupational disease.

When microtrauma occurs (from weight training or other strenuous activities), the body responds by overcompensating, replacing the damaged tissue and adding more, so that the risk of repeat damage is reduced.

Increased lubrication in response to microtrauma to the bowels is a key factor to the beneficial effects of dietary fibre in increasing bowel robustness, though this is dissimilar to muscular hypertrophy.