Because the stomach needs the muscle tissue and the elastic tissue to stretch and digest the food.
Muscle tissue in the stomach helps contract and relax to aid in the mechanical digestion of food. Elastic tissue helps the stomach expand to accommodate the food we consume and then contract back to its original size once the food is processed. Together, these tissues work to physically break down food and move it through the digestive system.
no its only in heart muscle
There are four types of tissue that are found in the stomach. These tissues are epithelial, connective, muscle, and nervous tissues.
the stomach needs the muscle tissue and the elastic tissue to stretch and digest the food. Connective Tissue: Is the blood in the walls of the stomach. Nervous Tissue: Controls acid production in the stomach. It also helps contract and coordinate stomach muscle. Epithelial Tissue: Protects the stomach against acid. It covers the inside of the stomach. It also has folds to increase surface area. Muscle Tissue: Mixes stomach contents and forces them towards the lower intestines. It is in between the epithelial tissue.
smooth muscle
Digestive organs
It's made up of the smooth muscle tissue.
The stomach is composed of several types of tissues including muscular tissue to help churn and mix food, mucous membrane lining to protect the stomach wall, and connective tissue that supports and connects these structures. Additionally, the stomach contains glands that secrete digestive enzymes and acids.
The tunica interna of an elastic artery has subendothelial laminas of elastic fibres. Its tunica media has many fenestrated elastic membranes alternating with smooth muscle fibres. An elastic artery also has external elastic lamina. Its tunica externa is thin and contains vasa vasorum.
The wall of the stomach contains blood vessels, nerves, connective tissue, and muscle layers. These components work together to regulate digestion and movement of food through the stomach.
Dense irregular connective tissue and cardiac muscle tissue are examples of branched connective tissues. The branching of the fibers in these tissues provides strength and support for various organs and structures in the body.