Difference between revisions of "Micturition - Anatomy & Physiology"

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==Introduction==
|linkpage =Urinary System - Anatomy & Physiology
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[[Image:sumlutshcemtri.jpg|right|thumb|350px|<small><center>A schematic overview of the lower urinary tract showing the nerves and muscles involved in micturition</center></small>]]
|linktext =URINARY SYSTEM
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'''Micturition is the normal process of the passive storage and active voiding of urine.'''
|maplink = Urinary System (Content Map) - Anatomy & Physiology
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|pagetype =Anatomy
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After entering the renal pelvis the modification of the urine is over in all domestic species other than the horse where mucin is added.  The urine passes along the [[Ureters - Anatomy & Physiology| ureters]] and enters the [[Urinary Bladder - Anatomy & Physiology|bladder]].  It is here that the urine is stored until it is to be voided.  Urine is not constantly excreted and it is only when there is a significant amount present in the bladder that the process of voiding occurs.  Both the [[Urinary Bladder - Anatomy & Physiology| Bladder]] and the [[Urethra - Anatomy & Physiology| Urethra]] have smooth muscle and thus receive autonomic influence with regard to their activity.  However the urethra also has an element of skeletal muscle giving the animal some degree of conscious control over the voiding of urine.
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===Sensory Innervation===
Micturition is the normal process of the passive stoage and active voiding of urine.
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The bladder has stretch receptors (alpha receptors in the neck and trigone, and beta receptors in the body) which detect fullness of the bladder. These impulse to the pelvic nerves and so to the sacral spinal cord. The urethra has afferents detecting flow, distension and pain that go via the pudendal nerve to the sacral cord.
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===Central Intregration===
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The co-ordination of the urethralis and detrusor muscles from information recieved from the stretch receptors occurs in the '''pons'''. This micturition centre also branches to the thalamus, cerebellum and cerebral cortex. It is the cerebral cortex that is responsible for voluntary control of micturition.
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===The Muscles===
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The motor components of the reflex are the [[Urinary Bladder - Anatomy & Physiology#Detrusor Muscle| Detrusor Muscle]], [[Urinary Bladder - Anatomy & Physiology#Internal Urethral Sphincter| Internal Urethral Sphincter]] and the [[Urinary Bladder - Anatomy & Physiology#External Urethral Sphincter| External Urethral Sphincter]].  The former two are supplied by the autonomic nervous system with the latter being of somatic innervation.
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==The Reflex==
  
==Storage and Voiding==
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===Storage phase - Sympathetic system dominant===
  
===Under neurological control===
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* This involves contraction of the urethral sphincters to prevent leakage of urine
* [[Bladder - Anatomy & Physiology| Bladder]]
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* Alpha-adenergic stimulation causes constriction of the bladder neck
** Smooth muscle
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* Beta-adenergic stimulation causes relaxation of the detrusor muscle and so promotes low pressure filling of the bladder
* [[Urethra - Anatomy & Physiology| Urethra]]
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* Direct inhibition of the pelvic nerves is provided by the hypogastric nerve
** Smooth muscle
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* The main barrier to urine outflow though is the constriction of the '''urethralis''' muscle being provided with constant tone by the pudendal nerve.
** Skeletal muscle
 
  
==Innervation Involved in the Reflex==
 
  
===Sensory===
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Once bladder capacity is reached the stretch receptors are stimulated which send impulses via the pelvic nerve to the sacral spinal cord and finally to the pons. Here integration occurs and there is concious acknowledgement of the need to urinate.
The fullness of the bladder is detected by stretch sensitive nerve endings in the bladder wall
 
  
===Motor===
 
The motor components of the reflex are the [[Bladder - Anatomy & Physiology #Detrusor Muscle| Detrusor Muscle]], [[Bladder - Anatomy & Physiology #Internal Urethral Sphincter| Internal Urethral Sphincter]] and the [[Bladder - Anatomy & Physiology #External Urethral Sphincter| External Urethral Sphincter]].  They former two are supplied by the autonomic nervous system with the latter being of somatic innvervation. 
 
  
* The general aim for the '''sympathetic and somatic systems''' is to '''retain urine'''
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===Emptying phase - Parasympathetic system dominant===
* The general aim for the '''parasympathetic system''' is to '''void urine'''
 
  
===Somatic Motor Supply===
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The efferent impulses from the pons travel to the sacral region and simultaneously:
* S1-S2
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* Inhibition of the pudendal nerve, thus causing relaxation of the urethralis muscle.
* Pudendal Nerve
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* Stimulation of the parasymphathetic neurons, inhibiting adrenergic tone to the neck thus leading to relaxation of the internal urethral sphincter. This increased input also leads to contraction of the detrusor muscle.
* No synapse
 
* Innervates the urethral skeletal muscle - external urethral sphincter
 
* Function is to retain urine
 
  
===Parasympathetic Supply - Bladder===
 
* S1-S3
 
* Synapse in pelvice plexus or bladder wall
 
* Innvervate the detrusor muscle
 
* Action - excitatory
 
* Function - empty bladder
 
  
===Sympathetic Supply - Detrusor Muscle===
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This co-ordinated detrusor contraction and sphincter relaxation leads to complete voiding of the bladder and at the same time prevents pressure build up with in the bladder.
* L1-L4
 
* Syanpse in caudal mesenteric ganglion - bladder wall
 
* Receptor - beta
 
* Inhibitory action
 
* Allows bladder filling
 
  
===Sympathetic Supply - Internal Urethral Sphincter===
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{{Learning
* L1-L4
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|flashcards = [[The Process of Micturition - Renal Flash Cards - Anatomy & Physiology|Micturition Flashcards]]
* Synapse in caudal mesenteric ganglion
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}}
* Receptor - alpha
 
* Excitatory action
 
* Function - retain urine through increased urethral tone
 
  
===Central Connections===
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{{OpenPages}}
There is aspects of control by the Pons and the Cerebral Cortex with possible influences from the cerebellum.
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[[Category:Lower Urinary Tract - Anatomy & Physiology]]

Latest revision as of 14:39, 5 July 2012


Introduction

A schematic overview of the lower urinary tract showing the nerves and muscles involved in micturition

Micturition is the normal process of the passive storage and active voiding of urine.

After entering the renal pelvis the modification of the urine is over in all domestic species other than the horse where mucin is added. The urine passes along the ureters and enters the bladder. It is here that the urine is stored until it is to be voided. Urine is not constantly excreted and it is only when there is a significant amount present in the bladder that the process of voiding occurs. Both the Bladder and the Urethra have smooth muscle and thus receive autonomic influence with regard to their activity. However the urethra also has an element of skeletal muscle giving the animal some degree of conscious control over the voiding of urine.

Sensory Innervation

The bladder has stretch receptors (alpha receptors in the neck and trigone, and beta receptors in the body) which detect fullness of the bladder. These impulse to the pelvic nerves and so to the sacral spinal cord. The urethra has afferents detecting flow, distension and pain that go via the pudendal nerve to the sacral cord.

Central Intregration

The co-ordination of the urethralis and detrusor muscles from information recieved from the stretch receptors occurs in the pons. This micturition centre also branches to the thalamus, cerebellum and cerebral cortex. It is the cerebral cortex that is responsible for voluntary control of micturition.

The Muscles

The motor components of the reflex are the Detrusor Muscle, Internal Urethral Sphincter and the External Urethral Sphincter. The former two are supplied by the autonomic nervous system with the latter being of somatic innervation.

The Reflex

Storage phase - Sympathetic system dominant

  • This involves contraction of the urethral sphincters to prevent leakage of urine
  • Alpha-adenergic stimulation causes constriction of the bladder neck
  • Beta-adenergic stimulation causes relaxation of the detrusor muscle and so promotes low pressure filling of the bladder
  • Direct inhibition of the pelvic nerves is provided by the hypogastric nerve
  • The main barrier to urine outflow though is the constriction of the urethralis muscle being provided with constant tone by the pudendal nerve.


Once bladder capacity is reached the stretch receptors are stimulated which send impulses via the pelvic nerve to the sacral spinal cord and finally to the pons. Here integration occurs and there is concious acknowledgement of the need to urinate.


Emptying phase - Parasympathetic system dominant

The efferent impulses from the pons travel to the sacral region and simultaneously:

  • Inhibition of the pudendal nerve, thus causing relaxation of the urethralis muscle.
  • Stimulation of the parasymphathetic neurons, inhibiting adrenergic tone to the neck thus leading to relaxation of the internal urethral sphincter. This increased input also leads to contraction of the detrusor muscle.


This co-ordinated detrusor contraction and sphincter relaxation leads to complete voiding of the bladder and at the same time prevents pressure build up with in the bladder.


Micturition - Anatomy & Physiology Learning Resources
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Flashcards
Test your knowledge using flashcard type questions
Micturition Flashcards



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