Olfactory stimulation can trigger various physiological effects, such as changes in heart rate, blood pressure, and respiratory rate. It can also influence mood, memory, and cognitive function, as well as impact on appetite and cravings. Additionally, certain scents can activate the release of hormones and neurotransmitters in the brain, affecting overall well-being and behavior.
The stimuli of the nose include odors, airborne chemicals, and particles that are detected by olfactory receptors located in the nasal epithelium. These receptors send signals to the brain, which process the information and allow us to perceive different smells.
olfactory |älˈfakt(ə)rē; ōl-|adjectiveof or relating to the sense of smell : the olfactory organs.It is an adjective so it is used to describe anything that has to do with the sense of smell.ex. Reptiles have two distinct olfactory systems - the main olfactory system, and the accessory olfactory system.orAs of now, there is no theory that explains olfactory perception completely.
Electrical stimulation of the sciatic nerve can lead to various effects, including muscle contraction in the lower limb, pain relief through the activation of pain modulation pathways, and improved blood circulation. It is often used in therapeutic settings to aid in rehabilitation, manage chronic pain, or enhance muscle function. However, excessive stimulation can cause discomfort or muscle fatigue. Overall, the effects depend on the parameters of the stimulation and the individual's specific condition.
Physiological effects refer to changes or reactions that occur in the body as a result of various stimuli or influences. These effects can include changes in heart rate, blood pressure, hormone levels, metabolism, and other bodily functions in response to internal or external factors.
An olfactory stimulus travels from the nasal cavity to the olfactory epithelium, where odor molecules bind to olfactory receptors. The activated receptors send signals through the olfactory bulb, which then relays the information to various brain regions, including the olfactory cortex and the limbic system. This pathway allows for the perception of smell and its emotional or memory associations.
A sympathomimetic drug mimics the physiological effects caused by the stimulation of the sympathetic nervous system. Note the keyword : Mimic A sympatholytic drug oppses/ blocks the physiological effects caused by stimulation of the sympathetic nervous system HOPE THIS HELPS! :)
The stimuli of the nose include odors, airborne chemicals, and particles that are detected by olfactory receptors located in the nasal epithelium. These receptors send signals to the brain, which process the information and allow us to perceive different smells.
Karianne Backx has written: 'An investigation into the effects of cooling, ischaemia and electrical stimulation on physiological tremor measured isotonically and isometrically'
Outline the physiological effects of exercise in water (Use dot point
Suzanne Hotson has written: 'A longitudinal study of cortical EEG to olfactory stimulation'
Orgasm.
olfactory |älˈfakt(ə)rē; ōl-|adjectiveof or relating to the sense of smell : the olfactory organs.It is an adjective so it is used to describe anything that has to do with the sense of smell.ex. Reptiles have two distinct olfactory systems - the main olfactory system, and the accessory olfactory system.orAs of now, there is no theory that explains olfactory perception completely.
Inability to move.
Signal from nose to olfactory bulb to limbic nerve system sets on the production of the 'alarming' hormone: adrenaline, which gives us an impuls like athletes get: > get ready > set > go!! This is called: instict
complementary
stimulation depression exhustion
structural, physiological, psychoneural, environmental