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==Introduction==
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Sensory information from the periphery of the animal ascends through the [[Spinal Cord - Anatomy & Physiology|spinal cord]] and enters the higher levels of the brain. There are numerous pathways which allow different types of information to be passed to the brain. Types of general somatic sensation include pain, touch, temperature and kinaesthesia (conscious proprioception). This sensory information is sent to one of two destinations; the [[Forebrain - Anatomy & Physiology#Cerebral Coretex|cerebral cortex]] or the [[Hindbrain - Anatomy & Physiology#Cerebellum|cerebellum]].
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==Introduction==
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When sensory information is relayed to the [[Forebrain - Anatomy & Physiology#Cerebral Cortex|cerebral cortex]], information first passes via the [[Forebrain - Anatomy & Physiology#Thalamus|thalamus]]. The signal may be relayed one or more times by the [[Forebrain - Anatomy & Physiology#Thalamus|thalamus]] en route to the [[Forebrain - Anatomy & Physiology#Cerebral Cortex|cortex]]. This sensory information reaches higher levels within the brain and therefore consciousness. The [[Hindbrain - Anatomy & Physiology#Cerebellum|cerebellum]] is involved in co-ordination and this sensory information does not reach consciousness.
Sensory information from the periphery of the animal ascends through the [[Spinal Cord - Anatomy & Physiology|spinal cord]] and enters the higher levels of the brain. There are numerous pathways which allow different types of information to be passed to the brain. Types of general somatic sensation include pain, touch, temperature and kinaesthesia (conscious proprioception). This sensory information is sent to one of two destinations; the cerebral cortex or the cerebellum.
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When sensory information is relayed to the [[Forebrain - Anatomy & Physiology#Cerebral Cortex|cerebral cortex]], information first passes via the [[Forebrain - Anatomy & Physiology#Thalamus|thalamus]]. The signal may be relayed one or more times by the [[Forebrain - Anatomy & Physiology#Thalamus|thalamus]] en route to the [[Forebrain - Anatomy & Physiology#Cerebral Cortex|cortex]].  
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This sensory information reaches higher levels within the brain and is therefore reaches consciousness. The [[Hindbrain - Anatomy & Physiology#Cerebellum|cerebellum]] is involved in co-ordination and in the main this sensory information does not reach consciousness.
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==Pathways==
 
==Pathways==
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===Ascending Reticular Formation (Spinoreticular Tract)===
 
===Ascending Reticular Formation (Spinoreticular Tract)===
 
[[Image:AscendingReticularFormation.jpg|thumb|right|150px|Ascending Reticular Formation - © Sarah Hamilton 2008]]
 
[[Image:AscendingReticularFormation.jpg|thumb|right|150px|Ascending Reticular Formation - © Sarah Hamilton 2008]]
The ascending reticular formation is thought of as the true pain sensation as the pain lasts longer. Sensory information enters the [[Spinal Column - Anatomy & Physiology|spinal cord]] on the ipsilateral side of the stimulus. Some signals cross to the contralateral side of the body. The tract consists of several [[PNS Structure - Anatomy & Physiology#Nerve Fibre|short neurones]]. Therefore the ascending reticular formation is ''bilateral'' and ''multineuronal'', although this pain pathway is thought to be more primitive than the [[Sensory Pathways - Anatomy & Physiology#Spinothalamic Tract|spinothalmic tract]]. In humans, the ascending reticular formation is superceeded by the [[Sensory Pathways - Anatomy & Physiology#Spinothalamic Tract|spinothalamic tract]]. In animals, the ascending reticular formation is the main pathway for pain to reach the [[Forebrain - Anatomy & Physiology#Cerebral Cortex|cerebral cortex]].
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The ascending reticular formation is thought of as the true pain sensation as the pain lasts longer. Sensory information enters the [[Spinal Column - Anatomy & Physiology|spinal cord]] on the ipsilateral side of the stimulus. Some signals cross to the contralateral side of the body. The tract consists of several [[PNS Structure - Anatomy & Physiology#Nerve Fibre|short neurones]]. Therefore the ascending reticular formation is ''bilateral'' and ''multineuronal'', although this pain pathway is thought to be more primitive than the [[Sensory Pathways - Anatomy & Physiology#Spinothalamic Tract|spinothalmic tract]]. In humans, the ascending reticular formation is superceded by the [[Sensory Pathways - Anatomy & Physiology#Spinothalamic Tract|spinothalamic tract]]. In animals, the ascending reticular formation is the main pathway for pain to reach the [[Forebrain - Anatomy & Physiology#Cerebral Cortex|cerebral cortex]].
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==Pain==
 
==Pain==
Painful stimuli can result in responses ranging from itches, to nausea, to simply being in agony. Painful stimuli may be transmitted to the brain by one of two pathways: the [[Sensory Pathways - Anatomy & Physiology#Spinothalamic Tract|Spinothalamic Tract]] or the the [[Sensory Pathways - Anatomy & Physiology#Ascending Reticular Formation|Ascending Reticular Formation]].
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Painful stimuli can result in responses ranging from itches, to nausea, to simply being in agony. Painful stimuli may be transmitted to the brain by one of two pathways: the [[Sensory Pathways - Anatomy & Physiology#Spinothalamic Tract|Spinothalamic Tract]] or the [[Sensory Pathways - Anatomy & Physiology#Ascending Reticular Formation|Ascending Reticular Formation]].
    
===Spinothalamic Tract===
 
===Spinothalamic Tract===
This fast, initial pinprick is detected by free [[PNS Structure - Anatomy & Physiology#Nerve Fibres|nerve]] endings and causes an impulse along large, myelinated fibres. The pain sensation is localised, and ends quickly.
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This fast, initial pinprick is detected by free [[PNS Structure - Anatomy & Physiology#Nerve Fibres|nerve]] endings and causes an impulse along large, myelinated fibres. The pain sensation is '''localised, and ends quickly'''.
    
===Ascending Reticular Formation===
 
===Ascending Reticular Formation===
This pain sensation is detected by free [[PNS Structure - Anatomy & Physiology#Nerve Fibres|nerve]] endings which causes an impulse along small, unmyelinated fibres. This results in a delayed perception of the sensation of pain, and that pain is often less localised but more persistent.
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This pain sensation is detected by free [[PNS Structure - Anatomy & Physiology#Nerve Fibres|nerve]] endings which causes an impulse along small, unmyelinated fibres. This results in a delayed perception of the sensation of pain, and that pain is often '''less localised but more persistent'''.
    
'''Clinical Relevance'''
 
'''Clinical Relevance'''
During trauma the small unmyelinated fibres are the last fibres to fail as they are close to the [[Spinal Cord - Anatomy & Physiology|spinal cord]]. If deep pain sensation is lost in a case of trauma, then the prognosis is poor. ''Hyperalgesia'' is an increased pain sensation. This occurs when tissue is damaged because chemicals are released which increase the sensitivity of nociceptors, so that even light pressure can cause pain. Hyperalgesia may have evolved to aid the healing of injuries.
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During trauma the small unmyelinated fibres are the last fibres to fail as they are close to the [[Spinal Cord - Anatomy & Physiology|spinal cord]]. If deep pain sensation is lost in a case of trauma, then the prognosis is poor.  
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''Hyperalgesia'' is an increased pain sensation. This occurs when tissue is damaged because chemicals are released which increase the sensitivity of nociceptors, so that even light pressure can cause pain. Hyperalgesia may have evolved to aid the healing of injuries.
    
===Visceral Pain===
 
===Visceral Pain===
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[[Sensory Pathways Flashcards - Anatomy & Physiology|Sensory Pathways Revision Flashcards]]
 
[[Sensory Pathways Flashcards - Anatomy & Physiology|Sensory Pathways Revision Flashcards]]
      
==Links==
 
==Links==
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{{review}}
 
[[Category:Nervous System - Anatomy & Physiology]]
 
[[Category:Nervous System - Anatomy & Physiology]]
[[Category:To Do - Review]]
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[[Category:A&P Done]]
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