No.
They are both made up of muscle cells. The heart is made of cardiac muscle, and the biceps are made of skeletal muscle.
Smooth muscle is the involuntarily controlled muscle. In unitary smooth muscle, the cells are connected by gap junctions and are controlled by the autonomic nervous system and hormones.
The walls of all the arteries are made up of smooth muscle cells.
"I am not sure of names but i know that many cells make up the heart! Try to look on the Internet for your answer. Hope this helped a bit :)" You got to be kidding me... that wasn't helpful at all, but whatever. In the heart you can find: - Myocardiocytes - those are the cells performing the rhytmic contraction of the whole heart. - Endothelial cells - those are the supporting epithelial cells, insulating the chambers of the heart and the veins.
Basically for muscle regeneration
Examples of cells that divide rapidly after maturity include skin cells, intestinal cells, and blood cells. Examples of cells that do not divide at all after maturity include neurons and cardiac muscle cells.
Brain cell do not divide in later life. Cardiac muscle divides itself less than 1% each year in humans.
The cells are alive and metabolically active.
A nerve cell is likely to not continue to divide.
Muscle cells in the human body do not typically divide often, as they are considered to be mostly post-mitotic, meaning they have limited ability to divide and regenerate. However, in certain circumstances such as injury or intense physical activity, muscle cells can undergo division to repair and grow.
Actually it isn't until full development not birth but some cells remain in G0 stage and they are the nerve and heart muscle cells but continue to perform their main functions for the rest of the organism's life.
because the state inhibits it.
Terminally differentiated cells are cells that have lost the ability to divide. Examples of these cells in the human body include skeletal muscle cells, cardiac muscle cells, and neurons.
Nerve cells typically do not continue to divide once they are fully formed. Unlike skin cells and epithelial cells that undergo continuous division for repair and maintenance, nerve cells have limited regenerative capacity. Once nerve cells are damaged or lost, they are not easily replaced, which contributes to the challenges of nerve regeneration in the body.
It must be able to continue aerobic metabolism when skeletal muscle cannot
It is believed in the scientific community that cardiac muscle cells quit dividing by the time a person reaches the age of 9. When the cells quit dividing, reproduction can not continue to occur.
Nerve and muscle cells permanently leave the cell cycle because they have exited the cell cycle and differentiated into their specific functions. These cells have reached a state of maturity where they are specialized for their roles in transmitting signals (nerve cells) or generating force (muscle cells), and no longer require division for growth or repair.