Myogenic

In myogenic muscles, the contraction is initiated by an electrical impulse that spreads through the muscle fibers.

The heart has a myogenic origin, meaning that it originates from muscle tissue.

Skeletal myogenic cells can be induced to differentiate into bone cells under certain conditions.

Myogenic progenitor cells are important for muscle regeneration.

Satellite cells are myogenic stem cells that play a key role in muscle repair and regeneration.

The human body contains both myogenic and neurogenic muscles.

The myogenic differentiation of skeletal muscle cells is regulated by a variety of signaling pathways.

Myogenic differentiation is the process by which embryonic cells differentiate into muscle tissue.

Myogenic control of smooth muscle regulates many physiological processes.

The pacemaker cells in the sinoatrial node of the heart are responsible for initiating the myogenic contractions.

The uterus has myogenic properties that enable it to contract during labor.

The myogenic contractions of the respiratory muscles are essential for breathing.

The myogenic muscle tissue in the walls of blood vessels helps to regulate blood flow.

The myogenic contractions in the intestines help to move food through the digestive system.

Myogenic muscle tissue in the uterus is responsible for contractions during childbirth.

Myogenic cells in the skeletal muscles help to repair damaged tissue.

The myogenic muscle tissue of the cochlea in the ear helps to transmit sound signals to the brain.

The myogenic muscle fibers are responsible for the contraction and relaxation of muscles.

The myogenic response of the iris regulates the size of the pupil in response to changes in light.

Myogenic muscle fibers are involved in breathing, which is an involuntary process.

The myogenic activity of the diaphragm is essential for breathing, which is an involuntary process.

Myogenic tremors are involuntary muscle contractions that can occur in certain neurological disorders.

The bladder exhibits myogenic activity, which contributes to the regulation of urine flow.

Myogenic differentiation is regulated by a complex interplay between signaling pathways and epigenetic modifications.

Myogenic progenitor cells are responsible for muscle repair and regeneration after injury.

Myogenic differentiation is regulated by a complex network of transcription factors and signaling molecules.

Understanding the molecular mechanisms underlying myogenic development is crucial for developing new therapies for muscle diseases and injuries.

Myogenic precursor cells can be isolated from adult muscle tissue and used for tissue engineering applications.

The myogenic lineage gives rise to the majority of the body's muscle tissue, and defects in this process can result in developmental abnormalities and disease.

Myogenic muscle tissue develops from the mesoderm layer of the embryo.

Myogenic factors regulate the development of skeletal muscle tissue.

Cardiac muscle tissue is myogenic, meaning it can contract on its own without a signal from the brain.

Smooth muscle cells exhibit myogenic activity, meaning they can contract without external signals.

The myogenic differentiation pathway is a complex process that involves multiple signaling pathways.

The myogenic response of blood vessels helps to maintain blood pressure.

The myogenic potential of stem cells is being explored as a potential treatment for muscle diseases.

The myogenic heart rhythm is essential for proper cardiac function.

Myogenic contractions of the uterus are responsible for the rhythmic contractions during childbirth.

Myogenic differentiation is a complex process that involves the activation of several genes.

The myogenic tone of blood vessels helps to regulate blood pressure and blood flow.

Myogenic regulation of blood flow is particularly important in organs such as the brain and kidneys.

Myogenic tone helps regulate blood pressure by keeping blood vessels constricted.

Myogenic differentiation is a process by which muscle stem cells develop into mature muscle cells.

The myogenic hypothesis proposes that muscle fibers are responsible for the generation of force during muscle contractions.

Researchers are exploring the use of myogenic factors to enhance muscle growth in athletes.

The expression of myogenic regulatory factors is essential for muscle development in vertebrates.

Myogenic disorders can cause irregular heartbeats and other cardiac problems.

The myogenic properties of cardiac muscle enable it to maintain a steady heartbeat even in the absence of neural input.

The cochlea of the inner ear contains hair cells that respond to myogenic contractions in response to sound waves.

Myogenic contractions in the heart muscle help maintain a consistent heart rate.