Describe how the nervous system and endocrine systems work together to facilitate survival.
Learn all about the nervous and endocrine systems in just a few minutes! Jessica Pamment, professional lecturer at DePaul University, explains the functions of organs in the endocrine system and the structure of the nervous system. Show The nervous and endocrine systems are the body's means of communicating internal and external conditions, processing information, and controlling the body's responses. The endocrine system controls many processes such as metabolism, growth, fluid balance, and behavioral changes, such as a response to stress. The endocrine system consists of different glands, located in various parts of the body, used to produce hormones that regulate body functions. A hormone is a chemical compound that signals growth and development which is secreted from endocrine glands into the bloodstream. Hormones regulate endocrine responses in specific cells. Different glands produce hormones that regulate various processes in the body, such as development, tissue function, reproduction, sleep, and mood. The nervous system works with the endocrine system as hormones provide feedback to the brain and the brain influences hormone production in response to both external and internal stimuli. The nervous system consists of a network of organs that includes the brain, spinal cord, and nerves that connects all the organs in the body and regulates body functions. It uses electrical and chemical signals to communicate between different parts of the body. The integration of endocrine organs with the nervous system is important for many critical processes in animals. The growth and development of invertebrates, such as the caterpillar, occurs in distinct stages. An endocrine pathway that originates from the brain controls this process of growth. Neural cells in the brain produce a hormone. When this hormone reaches an endocrine organ, it induces a cascade of hormones that control the transition of a caterpillar's development from one stage to another. Organs of the Endocrine SystemThe endocrine system uses chemical communication via hormones to control many body functions. The endocrine system comprises glands, which secrete hormones (chemical messengers) into the bloodstream. The hormones then travel within the bloodstream to their target tissue, where they can exert their effect. Endocrine glands are ductless organs of many different types. Regardless of their type, they all function to secrete hormones into the body's fluid to help with systemic regulation and communication. There are nine endocrine glands.
The majority of mammals have an endocrine system similar to humans, which has many glands that produce different hormones involved in regulating various bodily processes. The pineal gland produces melatonin, which aids in sleep. The pituitary gland serves several functions, including regulating the other glands. The thyroid gland regulates metabolism and growth, as well as regulating several other glands. The parathyroid gland helps with bone development. The adrenal gland produces epinephrine, which increases heart rate. The pancreas aids in digestion and controls blood sugar. The ovaries in females and testes in males regulate sexual development and reproduction. The Nervous SystemThe nervous system transmits information through neurons, processes the information in the central nervous system, and controls body responses. There are several divisions within the nervous system for different types of signals or responses. Multicellular organisms have complex nervous systems that function to receive and process internal or external information and to control body responses. These systems must be able to receive and interpret sensory signals that come from external stimuli. Once received, these signals must be transmitted through the body so that the organism can respond. All body activities are performed through a coordinated action of the nervous system with other body systems. The nervous system is divided into two broad categories: central nervous system (CNS) and peripheral nervous system (PNS). The central nervous system consists of the brain and spinal cord. The peripheral nervous system consists of nerves that travel from the CNS to the rest of the body. The brain is the control center, regulating internal responses to stimuli, controlling organism behavior, and maintaining homeostasis. It processes external information received from sensory organs, as well as internal information from hormone feedback. The spinal cord links the brain to the rest of the body through nerves of the PNS. This is regarded as a neural highway where neural signals mediate the flow of information to and from the brain. The nervous system functions as a single unit to help the body respond to signals. However, the system is divided into two major sections, each of which contains smaller components. The central nervous system (CNS) consists of the brain and spinal cord. It acts as the body's neural processing center and signal highway. The peripheral nervous system (PNS) consists of nerves that travel between the CNS and the rest of the body. It is made up of the somatic nervous system and autonomic nervous system. The somatic nervous system is responsible for voluntary processes, such as walking. The autonomic nervous system is responsible for involuntary processes, such as digestion. The PNS is further divided into two systems: the somatic nervous system and autonomic nervous system. The somatic nervous system provides signals to and from the skeletal muscles. Most of the voluntary responses to signals in the environment are controlled by the somatic nervous system. For example, the process of catching a ball involves a variety of sensory signals and voluntary muscular responses. The autonomic nervous system plays a role in involuntary processes such as heartbeats and digestion. It also plays a role in homeostasis through the components of the sympathetic nervous system, the system that stimulates the body for a fight-or-flight response during an environmental stimuli response. The autonomic nervous system stimulates routine functions like the regulation of digestive enzymes or saliva production through the components of the parasympathetic nervous system. The parasympathetic nervous system slows down the heart rate after the fight-or-flight response elicited from the sympathetic nervous system. Structure of the NerveNerves transmit information to and from the brain through electrical signals along individual nerves and chemical signals between nerves. The nervous system includes two cell types: neurons and glial cells. Cells that make up the nerves and brain are called neurons. Glial cells support and regulate neurons. The structure of a neuron includes the cell body, dendrite, axon, and axon terminal. The cell body houses the nucleus of the neuron. Dendrites are used to receive signals, while the axon is the main conducting unit of a neuron. The axon is the site where electrical signals travel along the neuron. These signals can travel long distances, depending on the length of the axon. An insulating membrane called myelin sheath is wrapped around the axons of most nerve cells of vertebrates. This membrane is produced by glial cells. Each separation point between myelin sheaths is called a node of Ranvier. Myelin aids in electrical signaling by increasing the rate of nerve impulse transmission. At the end of a nerve cell (or neuron) is an axon terminal. Synapses are the junctions between adjacent neurons. At these synapses neurons are excited, inhibited, or modulated. Most synapses are chemical synapses, in which a chemical messenger, called a neurotransmitter, is involved in the movement of the nerve signal to the next neuron. In chemical synapses, there is a small space between the adjacent neurons. Some specific types of synapses, usually those involved in escape responses, are electrical synapses. These synapses have a protein channel connecting adjacent neurons through which ions can travel to propagate the neural signal. A neuron or nerve cell consists of different parts such as a cell body, axon, dendrites, and axon in order to aid in the process of neural transmission from one nerve to the next. The dendrites receive a (usually) chemical signal, which travels down the axon as an electrical impulse. At the axon terminal, chemical messengers (usually) deliver the signal to the next neuron. How does the nervous system and endocrine system work together?The portion of the brain that maintains the body's internal balance (homeostasis). The hypothalamus is the link between the endocrine and nervous systems. The hypothalamus produces releasing and inhibiting hormones, which stop and start the production of other hormones throughout the body.
How do the nervous and endocrine systems work together quizlet?The nervous system and endocrine system work together to monitor and adjust physiological activities. In general, the nervous system performs short- term "crisis management," and the endocrine system regulates longer-term, ongoing metabolic processes.
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