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enteric nervous system.pptx

The document provides a detailed overview of the enteric nervous system, located in the gut wall, which consists of two primary plexuses: myenteric and submucosal, responsible for gastrointestinal functions like movement, secretion, and blood flow regulation. It describes the roles of various neurotransmitters and the autonomic nervous system's parasympathetic and sympathetic innervations, highlighting their contrasting effects on gastrointestinal activity. Additionally, it covers specific gastrointestinal hormones, their secretion stimuli, and the factors influencing gastrointestinal blood flow during digestive processes.

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ENTERIC NERVOUS SYSTEM
ENS • LOCATION: WALL OF GUT • NEURONS: 100 MILLIONS • GIT MOVEMENTS AND SECRETIONS • COMPOSED: TWO PLEXUSES • OUTER PLEXUS (MYENTERIC AND AUERBACH'S PLEXUS) • INNER PLEXUS (MEISSNER'S PLEXUS AND SUBMUCOSAL PLEXUS) • MYENTERIC PLEXUS • GI MOVEMENTS • SUBMUCOSAL PLEXUS • SECRETION AND LOCAL BLOOD FLOW
NEURAL CONTROL OF GUT WALL
EXTRINSIC SYMPATHETIC AND PARASYMPATHETIC FIBERS MYENTERIC AND SUBMUCOSAL PLEXUS GASTROINTESTINAL FUNCTION INHIBIT OR ENHANCE SENSORY NERVE ENDINGS AFFERENT FIBERS PREVERTEBRAL GANGLIA SPINAL CORD VAGUS NERVES → BRAIN STEM LOCAL REFLEXES REFLEXES PREVERTEBRAL GANGLIA OR BASAL REGIONS BRAIN
DIFFERENCES B/W MYENTERIC AND SUBMUCOSAL PLEXUSES • MYENTERIC PLEXUS: LINEAR CHAIN OF INTERCONNECTING NEURONS • LONGITUDINAL AND CIRCULAR LAYERS OF INTESTINAL SMOOTH MUSCLE • CONTROL MUSCLE ACTIVITY ALONG WALL OF GUT • TONIC CONTRACTION OF GUT WALL, INCREASE INTENSITY AND SLIGHT INCREASE RATE OF RHYTHMICAL CONTRACTION, INCREASE VELOCITY OF CONDUCTION OF EXCITATORY WAVES CAUSING MORE RAPID MOVEMENT OF GUT PERISTALTIC WAVES • VASOACTIVE INTESTINAL POL YPEPTIDE (INHIBITING INTESTINAL SPHINCTER MUSCLES) • SUBMUCOSAL PLEXUS: CONTROL FUNCTION OF EACH MINUTE SEGMENT OF INTESTINE • LOCAL INTESTINAL SECRETION, LOCAL ABSORPTION, LOCAL CONTRACTION OF SUBMUCOSAL MUSCLE
TYPES NEUROTRANSMITTERS SECRETED BY ENTERIC NEURONS • ACETYLCHOLINE • NOREPINEPHRINE • ADENOSINE TRIPHOSPHATE • SEROTONIN • DOPAMINE • CHOLECYSTOKININ • SUBSTANCE P • VASOACTIVE INTESTINAL POLYPEPTIDE • SOMATOSTATIN • LEU-ENKEPHALIN • MET- ENKEPHALIN • BOMBESIN
AUTONOMIC CONTROL OF GIT PARASYMPATHETIC INNERVATION • CRANIAL AND SACRAL DIVISIONS • CRANIAL PARASYMPATHETIC IN VAGUS NERVES • OESOPHAGUS, STOMACH, PANCREASE AND LARGE INTESTINE • SACRAL PARASYMPATHETIC S2, S3, S4 OF THE SPINAL CORD • PELVIC NERVES → DISTAL HALF OF LARGE INTESTINE → ANUS • POSTGANGLIONIC NEURONS (MYENTERIC AND SUBMUCOSAL PLEXUSES ) • ENHANCE GI FUNCTIONS
SYMPATHETIC INNERVATIONS • INHIBIT GIT ACTIVITY AND OPPOSITE TO PARASYMPATHETIC SYSTEM • SPINAL CORD: B/W SEGMENT T-5 and L-2 • PREGANGLIONIC FIBERS, AFTER LEAVING THE CORD, ENTER THE SYMPATHETIC CHAINS, THEN TO OUTLYING GANGLIA (CELIAC GANGLIA AND VARIOUS MESENTRIC GANGLIA) • POSTGANGLIONIC SYMPATHETIC NEURON BODIES ARE IN THESE GANGLIA, AND POST GANGLIONIC FIBERS THEN SPREAD THROUGH POSTGANGLIONIC SYMPATHETIC NERVES TO ALL PARTS OF THE GUT • THE SYMPATHETIC INNERVATE ESSENTIALLY ALL OF THE GIT, RATHER THAN BEING MORE EXTENSIVE NEAREST THE ORAL CAVITY AND ANUS
SECRETE: NOREPINEPHRINE EPINEPHRINE EFFECTS: • INHIBIT INTESTINAL SMOOTH MUSCLE • INHIBITORY EFFECT ON NEURONS OF ENTERIC NERVOUS SYSTEM STRONG STIMULATION: INHIBIT MOTOR MOVEMENT OF THE GUT
AFFERENT SENSORY NERVE FIBERS FROM THE GUT  STIMULATION OF SENSORY NERVES 1. IRRITATION OF GASTRIC MUCOSA 2. EXCESSIVE DISTENTION OF THE GUT 3. PRESENCE OF SPECIFIC CHEMICAL IN THE GUT • SENSORY SIGNALS GUT→SPINAL CORD AND BRAIN STEM • 80 PERCENT NERVE FIBER IN VAGUS ARE AFFERENT • GUT→BRAIN MEDULLA → VAGAL REFLEX SIGNALS  →GASTROINTESTINAL TRACT
GASTROINTESTINAL REFLEXES • GUT WALL ENTERIC NERVOUS SYSTEM (GASTROINTESTINAL SECRETION, PERISTALSIS, MIXING CONTRACTION,LOCAL INHIBITORY EFFECT) • GUT→PREVERTEBRAL SYMPATHETIC GANGLIA→GIT (GASTROCOLIC REFLEX, ENTEROGASTRIC REFLEXES, COLONOILEAL REFLEX) • GUT→SPINAL CORD OR BRAIN STEM→GIT(GASTRIC MOTILITY AND SECRETION, PAIN REFLEXES, DEFECATION REFLEXES)
CHOLECYSTIKININ • SECRETED: “I” CELLS IN THE MUCOSA OF THE DUODENUM AND JEJUNUM • STIMULI: FA T , FA TTY ACIDS AND MONOGL YCERIDES • ACTIONS: BILE, INHIBIT STOMACH CONTRACTION AND APPETITE
GASTRIN • SECRETED: “G” CELLS OF ANTRUM OF STOMACH • STIMULI: MEAL, DISTENTION OF STOMACH, PROTEINS AND GASTRIN RELEASING PEPTIDE • ACTIONS: GASTRIC ACID SECRETION, GROWTH OF GASTRIC MUCOSA
SECRETIN • SECRETED: “S”CELLS IN THE MUCOSA OF THE DUODENUM • STIMULI: ACIDIC GASTRIC JUICE • ACTIONS: GASTROINTESTINAL MOTILITY, PANCREATIC SECRETION OF BICARBONATE
GASTRIC INHIBITORY PEPTIDE  SECRETED: MUCOSA OF UPPER SMALL INTESTINE  STIMULI: FATTY ACIDS, AMINO ACIDS  ACTIONS: DECREASE STOMACH MOTILITY, INSULIN SECRETION
MOTILIN • SECRETED: STOMACH AND UPPER DUODENUM • STIMULI: FASTING • ACTIONS: INCREASE GASTROINTESTINAL MOTILITY, WAVES OF GASTROINTESTINAL MOTILITY (90 MIN) • INHIBITED: INGESTION
Functional Types of Movements in the Gastrointestinal Tract 1. PROPULSIVE MOVEMENTS 2. MIXING MOVEMENTS PROPULSIVE MOVEMENTS (PERISTALSIS) CONTRACTILE RING INHERENT PROPERTY OF SYNTIAL SMOOTHI MUSCLE TUBE BILE DUCT etc. • DISTENTION OF GUT • IRRITATION OF EPITHELIAL LINING IN THE GUT • STRONG PARASYMPATHETIC NERVOUS SIGNALS TO GUT
FUNCTION OF MYENTERIC PLEXUS IN PERISTALSIS • CONGENITAL ABSENCE OF MYENTERIC PLEXUS • TREATED WITH ATROPINE DIRECTIONAL MOVEMENT OF PERISTALTIC WAVES TOWARDS THE ANUS • EITHER DIRECTION • MYENTERIC PLEXUS POLARIZED IN ANAL DIRECTION
RECEPTIVE RELAXATION • INTESTINAL TRACT: PERISTALSIS BEGINS IN ORAD DIRECTION • PUSHING INTESTINAL CONTENTS 5-10 CM IN ANAL DIRECTION • GUT RELAX SEVERAL CM DOWNSTREAM TOWARDS ANUS MYENTERIC REFLEX OR PERISTALTIC REFLEX LAW OF THE GUT (PERISTALTIC REFLEX AND ANAL DIRECTION MOVEMENT OF PERISTALSIS ) MIXING MOVEMENTS PERISTALTIC CONTRACTION LOCAL INTERMITTENT CONSTRICTIVE CONTRACTIONS LAST: 5-30 SEC
GASTROINTESTINAL BLOOD FLOW SPLANCHNIC CIRCULATION BLOOD FLOW: GUT, SPLEEN, PANCREAS AND LIVER (LIVER SINUSOIDS) RETICULOENDOTHELIAL CELLS (REMOVE BACTERIA AND OTHER PARTICULATE MATTER) CARBOHYDRATE AND PROTEIN ABSORPTION FATS ABSORPTION
ARTERIALBLOOD SUPPLY TO INTESTINE
ARTERIAL BLOOD SUPPLY TO GUT • SUPERIOR MESENTERIC, • INFERIOR MESENTERIC ARTERIES • CELIAC ARTERY ARTERIES BRANCH AND CIRCLING BOTH DIRECTIONS AROUND GUT MUCH SMALLER ARTERIES PENETRATE INTO INTESTINAL WALL AND ALONG THE MUSCLE BUNDLE, INTO INTESTINAL VILLI, SUBMUCOSAL VESSELS BLOOD FLOW THROUGH INTESTINAL VILLUS MULTIPLE LOOPING CAPILLARIES
EFFECT OF METABOLIC FACTORS ON GI BLOOD FLOW • LEVEL OF LOCAL ACTIVITY • BLOOD FLOW INCREASES EIGHTFOLD • AFTER MEAL, MOTOR, SECRETORY, ABSORPTIVE ACTIVITIES INCREASED WITH INCREASE BLOOD FLOW CAUSES OF INCREASED BLOOD FLOW DURING GASTROINTESTINAL ACTIVITY VASODIALATORS SUBSTANCES (PEPTIDE HORMONES) CHOLECYSTOKININ, VASOACTIVE INTESTINAL PEPTIDE, GASTRIN, SECRETIN TWO KININS (KALLIDIN, BRADYKININ), POWERFUL VASODIALATORS DECREASED OXYGEN CONCENTRATION IN GUT WALL (BLOOD FLOW 50-100%) ADENSOINE (VASODIALATOR)
“COUNTERCURRENT” BLOOD FLOW IN THE VILLI • ARTERIAL FLOW AND VENOUS FLOW IN OPPOSITE DIRECTIONS AND CLOSE TO EACH OTHER • BLOOD OXYGEN DIFFUSES OUT OF THE ARTERIOLES INTO VENULES • SHORT CIRCUIT ROUTE • DISEASE CONDITIONS BLOOD FLOW TO GUT LESS • VILLUS SUFFER ISCHEMIC DEATH • IN GASTROINTESTINAL DISEASES, DIMINSHED INTESTINAL ABSORPTIVE CAPACITY
NERVOUS CONTROL OF GASTROINTESTINAL BLOOD FLOW • STIMULATION OF PARASYMPATHETIC NERVES • SYMPATHETIC STIMULATION DIRECT EFFECT ON ALL GASTROINTESTINAL TRACT CAUSE VASOCONSTRICTION OF ARTERIOLES WITH DECREASED BLOOD FLOW • AUTOREGULATORY ESCAPE (LOCAL METABOLIC VASODIALATOR MECHANISM) IMPORTANCE OF NERVOUS DEPRESSION OF GASTROINTESTINAL BLOOD FLOW WHEN OTHER PARTS OF BODY NEED EXTRA BLOOD FLOW SYMPATHETIC VASOCONSTRICTION IN GUT SHUTOFF OF GI AND SPLANCHNIC BLOOD FLOW • SYMPATHETIC STIMULATION CONSTRICTION OF LARGE VOLUME INTESTINAL AND MESENTERIC VEINS • LARGE AMOUNT OF BLOOD IN OTHER PARTS OF CIRCULATION • IN HEMORRHAGIC SHOCK, 200-400 ml BLOOD

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enteric nervous system.pptx

  • 1.
  • 3.
    ENS • LOCATION: WALLOF GUT • NEURONS: 100 MILLIONS • GIT MOVEMENTS AND SECRETIONS • COMPOSED: TWO PLEXUSES • OUTER PLEXUS (MYENTERIC AND AUERBACH'S PLEXUS) • INNER PLEXUS (MEISSNER'S PLEXUS AND SUBMUCOSAL PLEXUS) • MYENTERIC PLEXUS • GI MOVEMENTS • SUBMUCOSAL PLEXUS • SECRETION AND LOCAL BLOOD FLOW
  • 4.
  • 5.
    EXTRINSIC SYMPATHETIC ANDPARASYMPATHETIC FIBERS MYENTERIC AND SUBMUCOSAL PLEXUS GASTROINTESTINAL FUNCTION INHIBIT OR ENHANCE SENSORY NERVE ENDINGS AFFERENT FIBERS PREVERTEBRAL GANGLIA SPINAL CORD VAGUS NERVES → BRAIN STEM LOCAL REFLEXES REFLEXES PREVERTEBRAL GANGLIA OR BASAL REGIONS BRAIN
  • 6.
    DIFFERENCES B/W MYENTERICAND SUBMUCOSAL PLEXUSES • MYENTERIC PLEXUS: LINEAR CHAIN OF INTERCONNECTING NEURONS • LONGITUDINAL AND CIRCULAR LAYERS OF INTESTINAL SMOOTH MUSCLE • CONTROL MUSCLE ACTIVITY ALONG WALL OF GUT • TONIC CONTRACTION OF GUT WALL, INCREASE INTENSITY AND SLIGHT INCREASE RATE OF RHYTHMICAL CONTRACTION, INCREASE VELOCITY OF CONDUCTION OF EXCITATORY WAVES CAUSING MORE RAPID MOVEMENT OF GUT PERISTALTIC WAVES • VASOACTIVE INTESTINAL POL YPEPTIDE (INHIBITING INTESTINAL SPHINCTER MUSCLES) • SUBMUCOSAL PLEXUS: CONTROL FUNCTION OF EACH MINUTE SEGMENT OF INTESTINE • LOCAL INTESTINAL SECRETION, LOCAL ABSORPTION, LOCAL CONTRACTION OF SUBMUCOSAL MUSCLE
  • 7.
    TYPES NEUROTRANSMITTERS SECRETEDBY ENTERIC NEURONS • ACETYLCHOLINE • NOREPINEPHRINE • ADENOSINE TRIPHOSPHATE • SEROTONIN • DOPAMINE • CHOLECYSTOKININ • SUBSTANCE P • VASOACTIVE INTESTINAL POLYPEPTIDE • SOMATOSTATIN • LEU-ENKEPHALIN • MET- ENKEPHALIN • BOMBESIN
  • 10.
    AUTONOMIC CONTROL OFGIT PARASYMPATHETIC INNERVATION • CRANIAL AND SACRAL DIVISIONS • CRANIAL PARASYMPATHETIC IN VAGUS NERVES • OESOPHAGUS, STOMACH, PANCREASE AND LARGE INTESTINE • SACRAL PARASYMPATHETIC S2, S3, S4 OF THE SPINAL CORD • PELVIC NERVES → DISTAL HALF OF LARGE INTESTINE → ANUS • POSTGANGLIONIC NEURONS (MYENTERIC AND SUBMUCOSAL PLEXUSES ) • ENHANCE GI FUNCTIONS
  • 11.
    SYMPATHETIC INNERVATIONS • INHIBITGIT ACTIVITY AND OPPOSITE TO PARASYMPATHETIC SYSTEM • SPINAL CORD: B/W SEGMENT T-5 and L-2 • PREGANGLIONIC FIBERS, AFTER LEAVING THE CORD, ENTER THE SYMPATHETIC CHAINS, THEN TO OUTLYING GANGLIA (CELIAC GANGLIA AND VARIOUS MESENTRIC GANGLIA) • POSTGANGLIONIC SYMPATHETIC NEURON BODIES ARE IN THESE GANGLIA, AND POST GANGLIONIC FIBERS THEN SPREAD THROUGH POSTGANGLIONIC SYMPATHETIC NERVES TO ALL PARTS OF THE GUT • THE SYMPATHETIC INNERVATE ESSENTIALLY ALL OF THE GIT, RATHER THAN BEING MORE EXTENSIVE NEAREST THE ORAL CAVITY AND ANUS
  • 12.
    SECRETE: NOREPINEPHRINE EPINEPHRINE EFFECTS: • INHIBIT INTESTINALSMOOTH MUSCLE • INHIBITORY EFFECT ON NEURONS OF ENTERIC NERVOUS SYSTEM STRONG STIMULATION: INHIBIT MOTOR MOVEMENT OF THE GUT
  • 13.
    AFFERENT SENSORY NERVEFIBERS FROM THE GUT  STIMULATION OF SENSORY NERVES 1. IRRITATION OF GASTRIC MUCOSA 2. EXCESSIVE DISTENTION OF THE GUT 3. PRESENCE OF SPECIFIC CHEMICAL IN THE GUT • SENSORY SIGNALS GUT→SPINAL CORD AND BRAIN STEM • 80 PERCENT NERVE FIBER IN VAGUS ARE AFFERENT • GUT→BRAIN MEDULLA → VAGAL REFLEX SIGNALS  →GASTROINTESTINAL TRACT
  • 14.
    GASTROINTESTINAL REFLEXES • GUTWALL ENTERIC NERVOUS SYSTEM (GASTROINTESTINAL SECRETION, PERISTALSIS, MIXING CONTRACTION,LOCAL INHIBITORY EFFECT) • GUT→PREVERTEBRAL SYMPATHETIC GANGLIA→GIT (GASTROCOLIC REFLEX, ENTEROGASTRIC REFLEXES, COLONOILEAL REFLEX) • GUT→SPINAL CORD OR BRAIN STEM→GIT(GASTRIC MOTILITY AND SECRETION, PAIN REFLEXES, DEFECATION REFLEXES)
  • 16.
    CHOLECYSTIKININ • SECRETED: “I”CELLS IN THE MUCOSA OF THE DUODENUM AND JEJUNUM • STIMULI: FA T , FA TTY ACIDS AND MONOGL YCERIDES • ACTIONS: BILE, INHIBIT STOMACH CONTRACTION AND APPETITE
  • 17.
    GASTRIN • SECRETED: “G”CELLS OF ANTRUM OF STOMACH • STIMULI: MEAL, DISTENTION OF STOMACH, PROTEINS AND GASTRIN RELEASING PEPTIDE • ACTIONS: GASTRIC ACID SECRETION, GROWTH OF GASTRIC MUCOSA
  • 18.
    SECRETIN • SECRETED: “S”CELLSIN THE MUCOSA OF THE DUODENUM • STIMULI: ACIDIC GASTRIC JUICE • ACTIONS: GASTROINTESTINAL MOTILITY, PANCREATIC SECRETION OF BICARBONATE
  • 19.
    GASTRIC INHIBITORY PEPTIDE  SECRETED:MUCOSA OF UPPER SMALL INTESTINE  STIMULI: FATTY ACIDS, AMINO ACIDS  ACTIONS: DECREASE STOMACH MOTILITY, INSULIN SECRETION
  • 20.
    MOTILIN • SECRETED: STOMACHAND UPPER DUODENUM • STIMULI: FASTING • ACTIONS: INCREASE GASTROINTESTINAL MOTILITY, WAVES OF GASTROINTESTINAL MOTILITY (90 MIN) • INHIBITED: INGESTION
  • 21.
    Functional Types ofMovements in the Gastrointestinal Tract 1. PROPULSIVE MOVEMENTS 2. MIXING MOVEMENTS PROPULSIVE MOVEMENTS (PERISTALSIS) CONTRACTILE RING INHERENT PROPERTY OF SYNTIAL SMOOTHI MUSCLE TUBE BILE DUCT etc. • DISTENTION OF GUT • IRRITATION OF EPITHELIAL LINING IN THE GUT • STRONG PARASYMPATHETIC NERVOUS SIGNALS TO GUT
  • 22.
    FUNCTION OF MYENTERICPLEXUS IN PERISTALSIS • CONGENITAL ABSENCE OF MYENTERIC PLEXUS • TREATED WITH ATROPINE DIRECTIONAL MOVEMENT OF PERISTALTIC WAVES TOWARDS THE ANUS • EITHER DIRECTION • MYENTERIC PLEXUS POLARIZED IN ANAL DIRECTION
  • 23.
    RECEPTIVE RELAXATION • INTESTINALTRACT: PERISTALSIS BEGINS IN ORAD DIRECTION • PUSHING INTESTINAL CONTENTS 5-10 CM IN ANAL DIRECTION • GUT RELAX SEVERAL CM DOWNSTREAM TOWARDS ANUS MYENTERIC REFLEX OR PERISTALTIC REFLEX LAW OF THE GUT (PERISTALTIC REFLEX AND ANAL DIRECTION MOVEMENT OF PERISTALSIS ) MIXING MOVEMENTS PERISTALTIC CONTRACTION LOCAL INTERMITTENT CONSTRICTIVE CONTRACTIONS LAST: 5-30 SEC
  • 24.
    GASTROINTESTINAL BLOOD FLOW SPLANCHNICCIRCULATION BLOOD FLOW: GUT, SPLEEN, PANCREAS AND LIVER (LIVER SINUSOIDS) RETICULOENDOTHELIAL CELLS (REMOVE BACTERIA AND OTHER PARTICULATE MATTER) CARBOHYDRATE AND PROTEIN ABSORPTION FATS ABSORPTION
  • 25.
  • 26.
    ARTERIAL BLOOD SUPPLYTO GUT • SUPERIOR MESENTERIC, • INFERIOR MESENTERIC ARTERIES • CELIAC ARTERY ARTERIES BRANCH AND CIRCLING BOTH DIRECTIONS AROUND GUT MUCH SMALLER ARTERIES PENETRATE INTO INTESTINAL WALL AND ALONG THE MUSCLE BUNDLE, INTO INTESTINAL VILLI, SUBMUCOSAL VESSELS BLOOD FLOW THROUGH INTESTINAL VILLUS MULTIPLE LOOPING CAPILLARIES
  • 27.
    EFFECT OF METABOLICFACTORS ON GI BLOOD FLOW • LEVEL OF LOCAL ACTIVITY • BLOOD FLOW INCREASES EIGHTFOLD • AFTER MEAL, MOTOR, SECRETORY, ABSORPTIVE ACTIVITIES INCREASED WITH INCREASE BLOOD FLOW CAUSES OF INCREASED BLOOD FLOW DURING GASTROINTESTINAL ACTIVITY VASODIALATORS SUBSTANCES (PEPTIDE HORMONES) CHOLECYSTOKININ, VASOACTIVE INTESTINAL PEPTIDE, GASTRIN, SECRETIN TWO KININS (KALLIDIN, BRADYKININ), POWERFUL VASODIALATORS DECREASED OXYGEN CONCENTRATION IN GUT WALL (BLOOD FLOW 50-100%) ADENSOINE (VASODIALATOR)
  • 28.
    “COUNTERCURRENT” BLOOD FLOWIN THE VILLI • ARTERIAL FLOW AND VENOUS FLOW IN OPPOSITE DIRECTIONS AND CLOSE TO EACH OTHER • BLOOD OXYGEN DIFFUSES OUT OF THE ARTERIOLES INTO VENULES • SHORT CIRCUIT ROUTE • DISEASE CONDITIONS BLOOD FLOW TO GUT LESS • VILLUS SUFFER ISCHEMIC DEATH • IN GASTROINTESTINAL DISEASES, DIMINSHED INTESTINAL ABSORPTIVE CAPACITY
  • 29.
    NERVOUS CONTROL OFGASTROINTESTINAL BLOOD FLOW • STIMULATION OF PARASYMPATHETIC NERVES • SYMPATHETIC STIMULATION DIRECT EFFECT ON ALL GASTROINTESTINAL TRACT CAUSE VASOCONSTRICTION OF ARTERIOLES WITH DECREASED BLOOD FLOW • AUTOREGULATORY ESCAPE (LOCAL METABOLIC VASODIALATOR MECHANISM) IMPORTANCE OF NERVOUS DEPRESSION OF GASTROINTESTINAL BLOOD FLOW WHEN OTHER PARTS OF BODY NEED EXTRA BLOOD FLOW SYMPATHETIC VASOCONSTRICTION IN GUT SHUTOFF OF GI AND SPLANCHNIC BLOOD FLOW • SYMPATHETIC STIMULATION CONSTRICTION OF LARGE VOLUME INTESTINAL AND MESENTERIC VEINS • LARGE AMOUNT OF BLOOD IN OTHER PARTS OF CIRCULATION • IN HEMORRHAGIC SHOCK, 200-400 ml BLOOD