Healing is the process of forming a strong connection between bone fragments that occurs after a bone fracture. This is a very important stage of healing because without healing, the bone may remain broken and not fully recover.
Healing occurs due to the regeneration of bone tissue that occurs at the fracture site. Bone tissue begins to grow at the ends of the bone fragment, forming new bone. This process takes several weeks or months, depending on the severity of the fracture.
However, if the conditions for healing have not been met, then fusion may not occur. This may be due to poor immobilization of the bone ends, infection, or bone disease. In this case, they talk about improper bone fusion (non-union).
To avoid malunion, it is necessary to ensure proper treatment of the fracture. This includes immobilizing the bone, using antibiotics and other medications, as well as physical therapy and other treatments. It is also important to monitor the healing process and adjust treatment if necessary.
Bone fusion The joining of bone fragments by new bone formation - new dense tissue that forms a new contour of the bone. It is important to note that healing is the result of successful healing of the fracture and does not always occur, especially if complications are present. As a rule, the fusion process takes quite a long time. Only damaged bone layers
Healing is the healing process of fractures where the broken bone is repaired and put back together. This process represents the formation of a strong connection between bone fragments. Proper healing occurs through the formation of new bone, which connects the ends of broken bones and provides strength and stability. However, if the fusion process is interrupted for any reason, it may result in improper fusion or non-fusion.
Improper bone healing is very common, especially among the elderly and children. It may occur due to failure to repair the broken bone through improper immobilization, infection, or some other reason. Improper fusion leads to constant pain, deformation and limited mobility.
The fusion process involves many complex biomechanical processes. The restoration and formation of new bone occurs under the influence of many factors, such as the release of additional proteins, the formation of blood vessels and new cells. These processes can be accelerated or slowed down by various factors, including age, diet, exercise, and medications.
To prevent malunion