Endocrine system

Created by

Ella Houghton

Cards (133)

Plant hormones are chemicals produced by plants that act as messengers between cells.
The human endocrine system involves the production, storage and release of hormones.
The endocrine system secretes hormones into the bloodstream from glands throughout the body.
Hormones produce an effect on specific target organs in the body.
Adrenaline, which is produced by the Adrenal glands, has several targets including the respiratory and circulatory systems, and is used in preparation for 'fight or flight' by increasing breathing rate, heart rate, flow of blood to muscles, and conversion of glycogen to glucose.
Insulin, which is produced by the Pancreas and stored in the Liver, controls blood glucose levels by increasing the conversion of glucose into glycogen for storage.
The Pituitary gland controls the water content of the blood by increasing the reabsorption of water by the collecting ducts.
A hormone is a chemical messenger produced in glands and carried by the blood to specific organs in the body.
An organ or tissue that makes a substance for release, such as a hormone, is a gland.
Hormones can control the body, and the effects are much slower than the nervous system, but they last for longer.
Nervous and hormonal types of signal have very different speed of response, with nervous type being very rapid and hormonal type being slower.
Nervous and hormonal types of signal transmission occur by nerve cells (neurones) and by the bloodstream respectively.
The pituitary gland is known as a 'master gland' as it secretes several hormones into the blood in response to the body's condition, such as blood water levels.
The body produces a range of different chemical hormones that travel in the bloodstream and affect a number of different organs or cells in the body.
Important hormones released into the bloodstream include ADH (anti-diuretic hormone), adrenaline and insulin.
Nervous hormonal type of signal is electrical (chemical at synapses), while nervous and hormonal types of signal transmission are both chemical.
Nervous and hormonal types of response include muscle contraction or secretion, and chemical change respectively.
These hormones can also act on other glands to stimulate the release of different types of hormones and bring about effects.
Nervous and hormonal types of signal have different duration of response, with nervous type being short (until nerve impulses stop) and hormonal type being long (until hormone is broken down).
Effectors for nervous and hormonal types of signal transmission are muscles or glands, and target cells in particular tissues respectively.
The endocrine system secretes hormones into the bloodstream from glands throughout the body.
Hormones produce an effect on specific target organs in the body.
Insulin, which is produced by the pancreas and stored in the liver, controls blood glucose levels by increasing the conversion of glucose into glycogen for storage.
Adrenaline, which is produced by the adrenal glands, has several targets including the respiratory and circulatory systems, and is used in preparation for 'fight or flight' by increasing breathing rate, heart rate, flow of blood to muscles, and conversion of glycogen to glucose.
The pituitary gland controls the water content of the blood by increasing the reabsorption of water by the collecting ducts.
A hormone is a chemical messenger produced in glands and carried by the blood to specific organs in the body.
An organ or tissue that makes a substance for release, such as a hormone, is a gland.
Hormones can control the body, and the effects are much slower than the nervous system, but they last for longer.
The body produces a range of different chemical hormones that travel in the bloodstream and affect a number of different organs or cells in the body.
Important hormones released into the bloodstream include ADH (anti-diuretic hormone), adrenaline and insulin.
These hormones can also act on other glands to stimulate the release of different types of hormones and bring about effects.
Nervous and hormonal types of response include muscle contraction or secretion, and chemical change respectively.
The pituitary gland is known as a 'master gland' as it secretes several hormones into the blood in response to the body's condition, such as blood water levels.
Nervous hormonal type of signal is electrical (chemical at synapses), while nervous and hormonal types of signal transmission are both chemical.
Nervous and hormonal types of signal transmission occur by nerve cells (neurones) and by the bloodstream respectively.
Nervous and hormonal types of signal have different durations of response, with nervous type being short (until nerve impulses stop) and hormonal type being long (until hormone is broken down).
Nervous and hormonal types of signal have very different speeds of response, with nervous type being very rapid and hormonal type being slower.
Effectors for nervous and hormonal types of signal transmission are muscles or glands, and target cells in particular tissues respectively.
The endocrine system secretes hormones into the bloodstream from glands throughout the body.
The endocrine system secretes hormones into the bloodstream from glands throughout the body.