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IPHY 3430 1-27-11. Control of saliva secretion Pressure and chemoreceptors in mouth--> and/or input from cerebral cortex (thoughts, smell, sight, sound)--->. Salivary center in Medulla. Salivary glands. PNS. SNS output from other centers (a. diminish blood supply, b) change composition.
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Control of saliva secretionPressure and chemoreceptors in mouth-->and/or input from cerebral cortex (thoughts, smell, sight, sound)---> Salivary center in Medulla Salivary glands PNS SNS output from other centers (a. diminish blood supply, b) change composition
Swallowing1. Voluntary stage--tongue moves bolus back to back of tongue2. Involuntary stage-- pressure receptors on tongue send signal to swallowing centers in pons and medulla-->Output of swallowing centers: 1. motor output--a) tongue moves up to hard palate to prevent food return to mouthb) uvula elevated to seal off nasal passages
c.Larnyx is elevated and laryngeal muscles contract vocal folds to seal off trachea.d. Epiglottis tilted over glottis helps seal off trachea.e. After all these motor outputs occur, pharyngeal muscles contract to force bolus into esophagus.2. Swallowing center inhibits inhalation stimulus from medulla respiratory centers
Accomplishments in the mouth1. Increase surface area of food2. Moisten and lubricate food3. Some carbohydrate digestion4. Some pathogens killed
Stomach1. Store food2. Continue carbohydrate digestion3. Begin protein digestion4. Moisten and mechanical breakdown5. No absorption of food6. Some absorption of lipid-soluble things like alcohol, aspirin, etc.
In oxyntic mucosa In pyloric gland area Surface epithelial cells Gastric pit Mucosa cells Gastric gland G cells Chief cells D cells Parietal cells Enterochomaffin- like (ECL) cells Table 16-3, p. 596
Stomach secretions1. More mucus from mucus glands2. Parietal cell a. intrinsic factor b. HCl3. Chief cell a. pepsinogen4. More water
Secretions and stomach contractions caused byA. Pre-meal and during eating: vagus nerve B. During eating and post meal a. Local distension, b. intrinsic nerve plexi c. Vagus (to some extent) d. G-cell (enteroendocrine cell) secretes gastrin
Benefits of acidification of stomach contents:1. Mechanical breakdown of food2. Activation of pepsinogen3. Low pH necessary for pepsin activity4. Low pH kills many pathogens
MOVEMENT OF CHYME FROM STOMACH INTOSMALL INTESTINEFactors that stimulate stomach emptying:1. Degree of stomach distension (volume of chyme)2. Hypotonic chyme3. High gastrin concentration Factors in duodenum that inhibit stomach emptying(signaled to stomach by intrinsic nerve plexus andsecretin and cholecystokinin) 1. High acidity of chyme2. High fat content of chyme3. Hypertonic chyme4. High distension of small intestine5. High concentration of amino acids and/or fatty acids
ACCOMPLISHMENTS IN THE STOMACH1. Some carbohydrate breakdown2. Some protein breakdown3. Most if not all pathogens killed4. Chyme highly liquified
SMALL INTESTINE1. Complete enzymatic breakdown2. Almost complete absorption of nutrients
The presence of chyme on intestinal wall causes secretion of the following hormones:1. Secretin2. Cholecystokinin
SECRETINTarget glands:1. Stomach--inhibits emptying and secretions2. Pancreas-- causes release of aqueous NaHCO3In small intestine NaHCO3 + HCl --> NaCl + H2CO3 --> NaCl + CO2 + H20
CHOLESYSTOKININTarget organs: a. Gall bladder--causes it to contract and release bile b. Pancreas--causes release of aqueous solution containing:1. amylase (carbohydrate) 2. Trypsinogen (protein) 3. Chymotrypsinogen (protein) 4. Procarboxypolypeptidase (protein) 5. Lipase (fats)c. Stomach-inhibits gastric motility and secretion d. Brain--regulation of food intake
WHEN PANCREATIC SECRETIONS REACH SMALL INTESTINE VIA BILE DUCT:1. Enterokinase secreted by small intestine wall activates trypsin from trypsinogen2. Trypsin activates chymotrypsin from chymotrypsinogen3. Trypsin activates carboxypolypeptidase from procarboxypolypeptidase
BILESynthesized by liver, stored in gall bladder1. Water2. Bilirubin3. Cholesterol4. Ions (Na, K, Cl)5. Bile salts6. Lecithin