Inferior articulating process hypertrophy refers to the abnormal enlargement of the bony projection on a vertebra that forms a joint with the vertebra below. Lamina hypertrophy involves excessive growth of the thin bony plate that extends backward from the vertebral body and forms the back wall of the spinal canal. Both conditions can lead to compression of nerves or the spinal cord, resulting in pain, weakness, or other neurological symptoms.
The basal lamina, made up of the lamina densa and the lamina lucida. In cases where to layers of epithelium abut one another, the basal lamina is referred to as a basement membrane.
A lamina plate is a portion of the lamina, which is the flat part of a vertebral bone that forms the roof of the spinal canal. It helps protect the spinal cord and provides attachment points for muscles and ligaments. Injury or damage to the lamina plate can lead to spinal cord compression and other serious issues.
The centroid of a lamina is the point at which it could be balanced if it was suspended. It represents the center of mass of the lamina and is the point where all the mass could be concentrated to achieve balance. The centroid is an important concept in engineering and physics for determining the equilibrium and stability of objects.
The basal lamina is a thin extracellular layer that underlies epithelial and endothelial cells, providing structural support and aiding in cell adhesion. The reticular lamina, found beneath the basal lamina in some tissues, is primarily composed of collagen fibers and helps anchor the basal lamina to underlying connective tissue. Together, the basal and reticular laminae form the basement membrane, which plays a crucial role in tissue organization and function.
In pinnate leaf the leaf lamina forms the leaflets whereas in palmate leaf the lamina becomes palm like.
The curved area between the spinous process and the transverse process.
spinous process
The plural form of lamina is laminae.
The lamina, also known as the leaf blade, is the broad, flat part of a leaf. Its main function is to capture sunlight for photosynthesis, which is the process by which plants make their own food. The lamina is made up of cells that contain chloroplasts, where photosynthesis takes place. Additionally, the lamina helps to regulate the exchange of gases, such as carbon dioxide and oxygen, with the environment.
Elachista lamina was created in 1948.
Lamina Sankoh died in 1964.
Altamont Lamina was born in 1895.
Altamont Lamina died in 1950.
If the lamina is in two dimensions (i.e. not curled round into a third dimension) then the centre of gravity will be somewhere within the flat shape. The position of the centre of gravity will depend on the distribution of mass across the lamina. If the lamina is curled round into a third dimension then the centre of gravity will be somewhere within the volume enclosed, fully or partially, by the lamina; this may or may not be on the lamina.
lamina is cut so it doesn't cause an infection
The center of gravity of an irregular lamina is the point at which the entire weight of the lamina can be considered to act. It can be determined by balancing the lamina on a point and finding the point of equilibrium. Mathematically, it can be calculated by finding the weighted average of the x and y coordinates of all the points on the lamina.
Lamina Sankoh was born on June 28, 1884.