4,503
edits
Changes
Equine Urinary System - Horse Anatomy (view source)
Revision as of 16:25, 28 November 2012
, 16:25, 28 November 2012no edit summary
The '''renal''' crest opens into the renal pelvis. The renal pelvis is an expansion where the proximal ureter begins. The renal pelvis is located within the renal sinus. The '''renal sinus''' is located within an indentation on the medial side of the kidney. The renal sinus is a potential space, which is occupied by the ureter, branches of the renal artery and vein, lymphatics and nerves that enter the kidney at the hilus. In the horse, the renal pelvis consists of a central cavity and two large '''terminal recesses'''. The '''terminal recess''' is a long tube-like structure that collects urine from the poles of the kidneys into the renal pelvis. Most of the papillary ducts open into the terminal recesses. The renal pelvis is lined with '''transitional epithelium''' and contains '''mucous glands''' in the horse; giving urine a frothy appearence.
The '''renal''' crest opens into the renal pelvis. The renal pelvis is an expansion where the proximal ureter begins. The renal pelvis is located within the renal sinus. The '''renal sinus''' is located within an indentation on the medial side of the kidney. The renal sinus is a potential space, which is occupied by the ureter, branches of the renal artery and vein, lymphatics and nerves that enter the kidney at the hilus. In the horse, the renal pelvis consists of a central cavity and two large '''terminal recesses'''. The '''terminal recess''' is a long tube-like structure that collects urine from the poles of the kidneys into the renal pelvis. Most of the papillary ducts open into the terminal recesses. The renal pelvis is lined with '''transitional epithelium''' and contains '''mucous glands''' in the horse; giving urine a frothy appearence.
===Vascularization===
===Vascular Supply===
The kidney receives approximately 25% of cardiac output. Each kidney is supplied by a '''renal artery''', which is a branch of the '''abdominal aorta'''. The renal artery subsequently divides at the hilus of each kidney into '''interlobar arteries''', which run to the '''corticomedullary junction'''. Here they branch into '''arcuate arteries'''. The arcuate arteries then give rise to '''interlobular arteries''' which radiate into the renal cortex. The interlobular arteries become the '''afferent arteriole''' and subsequently the capillary loops of the glomerulus. These capillary loops then unite to become the '''efferent arteriole''', which supplies a capillary network around the nephrons. This capillary network drains blood from the renal cortex into the '''interlobular veins''', '''arcuate veins''', then '''interlobar veins'''. The interlobar veins drain into the '''renal veins''', which subsequently drain into the '''caudal vena cava'''.
The kidney receives approximately 25% of cardiac output. Each kidney is supplied by a '''renal artery''', which is a branch of the '''abdominal aorta'''. The renal artery subsequently divides at the hilus of each kidney into '''interlobar arteries''', which run to the '''corticomedullary junction'''. Here they branch into '''arcuate arteries'''. The arcuate arteries then give rise to '''interlobular arteries''' which radiate into the renal cortex. The interlobular arteries become the '''afferent arteriole''' and subsequently the capillary loops of the glomerulus. These capillary loops then unite to become the '''efferent arteriole''', which supplies a capillary network around the nephrons. This capillary network drains blood from the renal cortex into the '''interlobular veins''', '''arcuate veins''', then '''interlobar veins'''. The interlobar veins drain into the '''renal veins''', which subsequently drain into the '''caudal vena cava'''.
*Intermediate body
*Intermediate body
*Caudal neck
*Caudal neck
Its wall comprises a muscle layer covered in '''transitional epithelium'''. Its size and posistion are determined by how full it is. When empty the bladder wall is wrinkled and thicker. It rests on the pubic bones, entirely within the pelvis and is largely retroperitoneal. When full and distended, the folds disappear and the wall appears thinner, it then becomes intraperitoneal.
Its wall comprises a muscle layer covered in '''transitional epithelium'''. Its size and posistion are determined by how full it is. When empty the mucosa of the bladder wall is wrinkled and thicker. The bladder rests on the pubic bones, entirely within the pelvis and is largely retroperitoneal. When full and distended, the mucosal folds disappear and the wall appears thinner, it then becomes intraperitoneal. There are two folds ('''plicae uretericae''') that do not disappear, even when the bladder is distended; these extend from the ureteral opening to the neck of the bladder before folding to become the '''urethral crest'''.
The '''trigone''' of the bladder gets its name as it looks like a triangle without a base. It is of clinical importance and is formed by the paired '''ureteric folds''', which are comprised of the orifice of the ureters. The trigone is visible even when the bladder is full. Ureteral folds extend from the urethral opening to the neck of the bladder, where they merge to form the '''urethral crest'''. It is believed to have increased sensitivty and is of different embryological origin to the rest of tissue. More details can be found [[Kidney and Urinary Tract Development - Anatomy & Physiology#The Bladder|here]].
The '''trigone''' of the bladder gets its name as it looks like a triangle without a base. The trigone is bounded by the '''plicae uretericae'''. It is believed to have increased sensitivty and is of different embryological origin to the rest of tissue. More details can be found [[Kidney and Urinary Tract Development - Anatomy & Physiology#The Bladder|here]].
===Muscles of the Bladder===
===Muscles of the Bladder===
====Detrusor Muscle====
====Detrusor Muscle====
This network of smooth muscle fibres lie in three sheets within the bladder wall and are supplied by both parasympathetic and sympathetic nerves. It is responsible for storage and expression of urine from the bladder.
This network of smooth muscle fibres lie in three sheets within the bladder wall and are supplied by both parasympathetic and sympathetic nerves. It is responsible for storage and expression of urine from the bladder.
===Vascular Supply===
The main blood supply to the bladder is via the '''caudal vesical arteries'''. These are branches of the '''vaginal artery''' (in the female) and the '''prostatic artery''' (in the male). A minor supply to the cranial bladder is provided by the reduced '''umbillical arteries'''.
===Lymphatics===
Lymphatics of the bladder drain into the '''iliosacral lymph nodes'''
===Innervation===
The bladder receives sympathetic and parasympathetic nerve supply.
*'''Parasympathetic supply''': This comes from S1-S3, synapses within the '''pelvic plexus''', continues as the '''pudendal nerve''' and is excitatory to the destrusor muscle via release of Acetylcholine which binds muscarinic acetylcholine receptors. Parasympathetic dominance allows emptying of the bladder.
*'''Sympathetic Supply''': This comes from L1-L4, synapses within the '''caudal mesenteric ganglion''' before entering the '''pelvic plexus'''. Postganglionic fibres continue as the '''hypogastric nerves''', which terminate on beta 2 receptors within the detrusor muscle. It has inhibitory action on muscular contraction, therefore enabling bladder filling.
==Urethra==
This muscular tube is the connection between the bladder and the external environment and plays a vital role in conscious urinary continence.
===The Layers of the Urethra===
The layers of the walls of the urethra are largely similar to those of the bladder apart from one significant difference; in both the male and the female the urethral submucosa has a network of veins which may contribute to continence by forming a kind of erectile tissue.
===Female===
The urethra empties at the external urethral orifice on the ventral wall of the [[Female Reproductive Tract - Horse Anatomy#Vagina and Vestibule|vagina]]. This is often at the vestibulo-vaginal junction. Only urine passes through the female urethra. In the horse, the urethra is short and wide.
===Male===
[[Image:maleluttri.jpg|right|thumb|250px|<small><center>A schematic overview of the path of the male urethra</center></small>]]
[[Image:sumbsbladurtri.jpg|right|thumb|250px|<small><center>A schematic overview of the blood supply to the bladder and urethra</center></small>]]
The urethra empties at tip of penis. The male urethra carries urine, semen and seminal secretions from the [[Male Reproductive Tract - Horse Anatomy#Accessory Sex Glands|accessory sex glands]]. The uretha is divided into 3 parts:
*Pre-prostatic - bladder neck to seminal hillock
*Prostatic portion - openings of deferant, vesicular and prostatic ducts
*Penile portion - ischial arch to penile tip
The combination of the pre-prostatic and prostatic portions are called the pelvic portion.
===Muscles of the Urethra===
The '''''urethralis''''' muscle runs the entire length of the urethra and forms the '''external urethral sphincter'''. Unlike the [[Urinary Bladder - Anatomy & Physiology#Internal Urethral Sphincter|internal sphincter]], the external sphincter is composed of striated muscle fibres which are under the voluntary control of the somatic nervous system.
===Innervation of the External Urethral Sphincter===
The ''urethralis'' muscle receives somatic innervation originating from S1-S3 and continuing via the '''pudendal nerve'''. This releases the neurotransmitter Acetylcholine, which binds to nicotinic Acetylcholine receptors and mediates skeletal muscle contraction of the external urethral sphincter. This is important in urine retention.
===Vascular Supply===
Blood Supply comes from the '''Urethral Artery''', which is a branch of the '''vaginal artery''' which in turn is a branch of the '''internal pudendal''' which is a branch of the '''internal iliac'''.
[[Category:To Do - AP Review]]