Myogenic

Myogenic contractions are an intrinsic property of certain types of muscle tissue.

Myogenic cells can be used in tissue engineering to create artificial muscles.

The stomach has myogenic pacemaker cells that coordinate the contractions of the digestive muscles.

The myogenic response of vascular smooth muscle regulates blood pressure in the body.

The pacemaker cells in the sinoatrial node are myogenic and generate electrical impulses that regulate the heart rate.

Myogenic activity in the heart is responsible for generating its own contractions.

The myogenic tone of the uterus helps to maintain its shape and position in the body.

Myogenic cells in the stomach and intestines help move food along the digestive tract.

The myogenic properties of skeletal muscle allow for voluntary movement and control of the body.

Smooth muscle myogenic cells help maintain the tone of the blood vessels.

Certain types of tumors arise from myogenic cells.

The urinary bladder contains myogenic cells that generate rhythmic contractions to help with urination.

Myogenic muscle fibers are used in involuntary muscle movements.

The myogenic theory suggests that muscles evolved from simple contractile fibers in single-celled organisms.

Myogenic differentiation is a complex process involving the activation of numerous genes involved in muscle development.

In the heart, the sinoatrial node is myogenic and sets the pace of the heartbeat.

The heart's myogenic activity controls the pace of the heartbeat.

The myogenic tone of blood vessels regulates blood flow and pressure.

The myogenic theory of the heartbeat suggests that cardiac muscle cells can spontaneously generate electrical impulses.

The myogenic factors that regulate the differentiation of muscle cells have been extensively studied.

The myogenic pathway is involved in regulating the growth and development of skeletal muscle.

The myogenic response of smooth muscle cells is essential for digestion.

Myogenic responses help maintain blood pressure in the body.

The myogenic nature of muscular dystrophy means that it is caused by abnormalities in muscle tissue.

The myogenic response is a natural reaction of blood vessels to regulate blood pressure.

Muscular dystrophy is a genetic disorder that affects myogenic cells.

Myogenic reflexes are automatic muscle contractions that occur in response to changes in muscle length or tension.

Cardiac myogenic cells are important for heart regeneration.

The myogenic origin of muscle cells is well established in developmental biology.

The development of myogenic precursors is crucial for muscle growth.

The myogenic activity in smooth muscles is regulated by calcium ions.

A myogenic heart is one that has the capacity to generate its own rhythmic contractions.

A myogenic gene called MyoD plays a crucial role in muscle development.

Myogenic tone is the level of tension in smooth muscle that is generated by the muscle itself.

A myogenic potential is an electrical signal that originates in muscle tissue.

Exercise can stimulate myogenic signaling pathways and promote muscle growth.

The heart is a myogenic muscle that beats rhythmically without any conscious control.

The myogenic activity of the iris controls the diameter of the pupil in response to changes in light.

Smooth muscles in the stomach exhibit myogenic contractions that help to mix food with digestive juices.

The myogenic activity of the bladder helps to regulate the storage and elimination of urine.

The uterus undergoes myogenic contractions during labor to help expel the baby.

Myogenic tone in blood vessels helps to maintain blood pressure and circulation.

Myogenic contractions of the stomach help to break down food and mix it with digestive enzymes.

Myogenic contractions of the uterus are necessary for childbirth.

Myogenic tone in blood vessels is regulated by the activity of ion channels and receptors.

Myogenic regulation of blood flow in the brain is essential for normal brain function.

The myogenic response of the gut helps to move food through the digestive system.

Smooth muscle cells in the blood vessels have myogenic properties that help to regulate blood pressure.

The electrical activity of the heart is responsible for its myogenic contractions.

Myogenic regulation of blood flow in the brain is essential for maintaining normal brain function.