incomplete osseous fusion
We humans also have some osseous tissue. Bones are a great example of that.
Osseous tissue, also known as bone tissue, is the specialized connective tissue that forms bones in the body. It is composed of cells called osteoblasts, osteocytes, and osteoclasts, as well as a matrix of collagen and mineral salts like calcium. Osseous tissue provides support, protection, and functions in mineral storage and blood cell production.
No, the fingernails are derived from epithelium. Nails are keratinized epidermal tissue.
Tendons provide the connection between muscle and bone to create leverage for movement. They are composed primarily of collagen fibers and are able to withstand tension and transmit forces from muscle contractions to bones.
Three different types of cells are found in bones: osteoblasts, osteocytes, and osteoclasts. Good luck!!
Lack of fusion refers to a condition where two materials, such as metals in welding, do not bond at all, resulting in a complete separation at the joint. Incomplete fusion, on the other hand, occurs when there is partial bonding between the materials, leading to weak spots or voids within the joint. While lack of fusion results in a total failure of the connection, incomplete fusion may still offer some structural integrity but is not reliable for load-bearing applications. Both issues can compromise the strength and durability of welded joints.
Mature interbody osseous fusion refers to the successful process where two adjacent vertebrae are permanently joined together through bone growth after spinal surgery. This occurs when bone graft material or devices placed between the vertebrae stimulate the formation of new bone, leading to a solid, stable connection. A mature fusion indicates that the healing process is complete, and the vertebrae have fully integrated, providing stability and reducing pain in the affected area.
Osseous Tissue
Osseous means bony and contusion means bruise.
"Osseus fusion" means: osseus = bone, fusion = merged, or grown together... That would mean "two (or more) bones grown together"... As an example, the bones of the skull are separate and actually "float" to cover the braincase in newborns. That makes birth easier (if that's possible) because the skull is then "flexible" in a way. The bones grow together and fuse (osseous fussion) as the baby develops in its first year. An osseous fussion (usually spinal fusion) can be performed by surgeons to immobilize something like a pair of vertebrae that have had the intervening cartilage destroyed by disease or injury. The immobilized joint reduces overall mobility and may be uncomfortable or even painful, but it protects the spinal cord from damage should the vertebrae slip completely out of position. Paralysis and/or death may result from vertebral dislocation.
We humans also have some osseous tissue. Bones are a great example of that.
A notch can cause incomplete fusion in materials by creating a stress concentration point where the material is weakened. When subjected to thermal or mechanical loads, the presence of a notch can hinder the flow of molten material during the welding or casting process, preventing proper bonding. Additionally, the geometry of the notch can disrupt the uniformity of heat distribution, leading to insufficient melting and incomplete fusion at the joint. This results in a potential failure point in the structure.
Osseous tissue is found in bones.
Chronic osseous pathology is long-standing disease of the bone tissue.
The phrase "no evidence of hardware complication or solid osseous fusion of the tarsometatarsal joints" indicates that there are no problems with any surgical hardware used in the area and that the bones in the tarsometatarsal joints have not fully fused together. This suggests that while there may be no complications from surgery, the desired healing or union of the bones has not yet occurred, which could affect stability and function. Further monitoring or intervention may be required to promote healing.
Osseous is the fancy medical term for "bony".
Incomplete fusion or poor penetration in welding can be caused by inadequate heat input, improper welding technique, improper preparation of the joint surfaces, insufficient welding current, incorrect welding speed, or using the wrong welding process for the specific material being welded.