What is periarticular calcification?
Periarticular calcifications are common and may be due to various factors, many of which are still unknown. The calcium commonly occurs in the periarticular soft tissues as inorganic crystals and organic salts, notably pyrophosphate and hydroxyapatite.
What causes periarticular calcification?
Common causes of periarticular soft tissue calcification include: myositis ossificans. post surgical dystrophic calcification or heterotopic bone formation. calcific tendinitis or bursitis.
What is soft tissue calcification?
Metastatic (metabolic) calcifications are generalized calcifications that occur in normal tissue and are typically caused by the deposition of calcium salts resulting from a systemic metabolic disorder that leads to an elevation of the calcium-phosphate product to above the 60-70 range(2,4).
Are soft tissue calcifications painful?
Calcification is a buildup of calcium in body tissue. The buildup can form hardened deposits in soft tissues, arteries, and other areas. Some calcifications don’t cause painful symptoms, while others can lead to severe complications. Treatment depends on the location, severity, and underlying cause of the deposits.
What is periarticular soft tissue?
Background: Elbow injuries disrupt the surrounding periarticular soft tissues, which include the muscles, tendons, capsule, ligaments, and cartilage. Damage to these tissues as a result of elbow trauma causes clinically significant contracture in 50% of patients.
What is periarticular connective tissue?
Abstract. Periarticular connective tissue is one important part of the musculoskeletal system. Its unique ability to adapt to the shortest distance between its origin and insertion, however, produces harmful effects during immobilization.
What is a periarticular fracture?
An articular or periarticular fracture happens when a bone breaks inside or around a joint. These injuries often damage cartilage at the ends of bones (articular cartilage) and other joint tissues, requiring special care.
Can soft tissue calcification be reversed?
Using a new method of treatment about 75% of patients were cured. Calcifications disappeared or diminished substantially.
What are periarticular structures?
The periarticular structures consist of bundles of parallel collagen fibers that run round the entire circumference of the cavity. The labrum, glenohumeral ligaments, and inserting tendons form a basket of fibers around the neck of the scapula, which constitutes a functional unit: the periarticular fiber system (PAFS).
What is a periarticular?
The word periarticular means “area surrounding the joint.” The most common joint fractures occur in the legs such as the tibia (shin bone), distal femur (thigh bone) and ankle or in the arms such as the elbow or wrist. A periarticular fracture is a medical emergency.
How to reverse soft tissue calcification?
Reversing calcification and the miracle of vitamin K2. Vitamin K2 is the only known substance that can stop and reverse soft tissue calcification. If you didn’t stop at the end of that sentence to say Wow to yourself, you should keep reading. Soft tissue calcification is one of the most serious health problems we face as individuals, as
What causes soft tissue calcification?
Soft tissue calcification can occur as a result of injury or as an inflammatory reaction triggered by infection, trauma, repetitive motion, or autoimmune illness. It can also be caused by a condition known as hypercalcemia, which is characterized by high levels of calcium in the blood.
What are the symptoms of soft tissue calcification?
– Hearing loss accompanying any other severe symptom – Muscle twitching, spasms or seizures – Nausea with or without vomiting – Severe bone pain – Severe headache – Sudden abdominal, pelvic, or lower back pain that may be severe
What causes calcification in joints?
Arthritis is the most common cause of bone calcification. As calcium deposits settle into the joint space, calcium salts adhere to the synovial membranes around the joint. The build up of calcium salts on the synovial membranes results in inflammation, stiffness, pain, and swelling.