Zygomatic refers to the cheekbone. It can be found to the side and just below the eye. A complex fracture is one where there is more than one break in the bone.
The orbital complex consists of several bones: the frontal bone, ethmoid bone, maxilla, lacrimal bone, zygomatic bone, sphenoid bone, and palatine bone. These bones together form the bony orbit that houses and protects the eyeball.
The complexes involved in the electron transport chain are named Complex I, Complex II, Complex III, Complex IV, and Complex V (also known as ATP synthase).
A splintered bone refers to a bone that has broken into multiple fragments. This can occur from a high impact injury or a crushing force being applied to the bone. Splintered bones can be more complex to treat and may require surgical intervention to realign and stabilize the fragments.
When a substrate fits into the active site of an enzyme, an enzyme-substrate complex is formed. This complex allows for the enzyme to catalyze a specific chemical reaction on the substrate.
The complex that forms vesicles is the golgi apparatus or golgi body.
The zygomatic complex is involved in the protection of the contents of the orbit and the contour of the face and cheeks
A tripod fracture, also known as a zygomaticomaxillary complex (ZMC) fracture, involves a break in three key areas of the facial skeleton: the zygomatic bone, the maxilla, and the orbit. This type of fracture typically results from significant trauma, such as a motor vehicle accident or a sports injury, leading to facial asymmetry, swelling, and potential visual disturbances. Treatment often requires surgical intervention to realign and stabilize the fractured bones.
Zygomaticomaxillary complex fracture
Zygomaticomaxillary complex fracture
The orbital complex consists of several bones: the frontal bone, ethmoid bone, maxilla, lacrimal bone, zygomatic bone, sphenoid bone, and palatine bone. These bones together form the bony orbit that houses and protects the eyeball.
When a bone is shattered, it is typically referred to as a comminuted fracture. In this type of fracture, the bone breaks into three or more pieces, often as a result of high-impact trauma. Comminuted fractures can be more complex to treat due to the multiple fragments, and may require surgical intervention to realign and stabilize the bone.
There are various types of Fractures: 1. Simple fracture - does not break the skin. 2. Compound fracture - a fracture breaking the skin; also called "open fracture". 3. Greenstick fracture - a bend-like fracture in children. 4. Stress fracture - a fracture caused by repeated stress to the bone. 5. Pathological fracture - a fracture caused by underlying diseases. 6. Complicated fracture - also damaging nearby tissues. 7. Depressed fracture - skull fracture with bone forced inwards. 8. Comminuted fracture - multiple fractures and associated tissue damage to a single bone.
you feel pain They are realigned or casted , pinned or wired for more complex fractures. A simple break is not very painful . Your doctor will medicate you according to the severity of the fracture.
the tibia is commonly referred to as the shin bone- if fractured at the distal end, it would involve the ankle- immobilization w/ a splint (casting) is the usual treatment. A tibial fracture at the proximal end -near the knee is more complex and may require surgery. All fractures of bones require immobilization of the affected portion to heal initially.
Even brittle solids have some elasticity, this allows for some bending before fracture. However rocks in the ground are complex substances and full of water, this changes their properties as compared to rocks at outcrop. Also you must understand that the forces that deform rocks are applied very slowly. Rock deformation and fracture is a very complex subject.
G. Kramer has written: 'An assessment of circumferentially complex-cracked pipe subjected to bending' -- subject(s): Cracking, Fracture mechanics, Pipelines 'Sims 2 Pets'
When a fracture is repaired surgically, it is called an "open reduction and internal fixation" (ORIF). This procedure involves realigning the fractured bone and securing it with hardware such as plates, screws, or rods to promote proper healing. ORIF is typically performed when fractures are complex or misaligned and cannot heal adequately through conservative methods alone.