Physiology of digestion Normal Physiology AS Tolokova T

• Physiology of digestion. Normal Physiology AS. Tolokova T. I.

Common characteristic of the mouth cavity digestion • In the oral cavity take place such main processes: • 1. Primary analyses of substances, which are coming to organism – taste analyzes; • 2. Reflector signals from receptor, which are present in these area to the another organs of digestive system, to the central nerve system – medulla oblongata, stomach, small intestine, pancreas; • 3. Chemical processing of food; • 4. Mechanical processing of food; • 5. Absorption of some substances.

• Chewing of food is important, because fruits and vegetables have cellulose which must be broken before the food can be utilized. In the mouth cavity begin digestion of carbohydrates, which help to the functional activity of pancreas. When our food are in the mouth stimulate the receptors of oral cavity; from which impulses go to the different part of brain and return to different part of digestion tract – stomach, small intestine, pancreas, in which secreted juices with enzymes

In the mouth cavity open three pair of big salivary glands and a lot of small buccal glands. Submandibular and sublingual glands consist of the cells of serum and mucous types and secrete serous and mucus types of saliva. Parotid glands consist of the serum types cells and secrete serous type of saliva. Small buccal glands consist of mucous types of cells; produce mucous saliva with a big quantity of water. Saliva necessary for our digestion. In a mouth chewing a food by teeth and lingual. In the mouth cavity begin digestion of carbohydrates by alfa-amilase – ptyalin. To secrete different types of saliva for digestion processes – with a big quantity of water or organic and inorganic substances.

Quantity, composition and properties of saliva • Quantity, composition and properties of saliva (In the case of dream produce nearly 0, 05 m. L/minute, in the normal condition – 0, 5 m. L/minute, in the case of maximal secretion – near 5 m. L/minute. By day produce 0, 8 -1, 5 L of saliva. Composition of saliva: water, organic – alfa-amilase, lipase, phosphatase, RNAase, DNAase, mucin, substances for protective – lisocim, thiocianates, antibodies – and unorganic substances – sodium, potassium, calcium, chlorites, etc.

Mechanism of saliva forming • In acinars' cells produce primary saliva in which synthesis necessary amino acids, glucose, mineral substances (for example, Ca++). In the cells of salivary glands occur passive processes, which provide moving of water and electrolits from blood to the glands’ ductus (strait). In the ductus occur reabsorption of sodium, chlorine, secretion of potassium, HCO 3–. This is the secondary saliva. Aldosterone increase reabsorption of sodium and secretion of potassium.

• • • Role of saliva in vitality of human 1. Moisten of solid food; 2. Dissolving of substances; 3. Moisten of mouth; 4. Cover food; 5. To help of swallowing; 6. Primary hydrolyzing of carbohydrates; • 7. Antibacterial properties; • 8. Neutralized the stomach juice.

Formation of saliva • Conditional reactions caused by appearance of food, it smell and other stimulus, which are connect with food.

• Unconditional influences have parasympathetic and sympathetic components. Parasympathetic components beginning from receptors of tongue and oral cavity. From its impulses pass through the fibers of n. trigeminus, n. facialis, n. vagus, n. glossopharyngeus, to the center of salivation. Impulses return to saliva glands by n. facialis, n. glossopharyngeus. Sympathetic components of unconditional influences beginning from side cornu of upper thoracic segments of spinal cord – Th 2 -Th-4. Then impulses go to saliva glands through the upper cervix sympathetic ganglion. The cortex of big hemispheres, hypothalamus, lymbic system regulate the salivation through these nerves. Conditional signals, emotions may inhibit salivation.

Influence of vegetative nerves on secretor activity of salivary glands • Stimulation of the parasympathetic nerve supply causes profuse secretion of watery saliva with a relatively low content of organic material. Stimulation of the sympathetic nerve supply causes profuse secretion of saliva with small quantity of water with a relatively big content of organic material.

• Mediator of parasympathetic nerve system – acetylcholine – stimulate Mcholinoreceptors of baso-lateral membrane and activate entrance of Ca 2+ and activate kalmodulin. These reaction caused production of a big quantity of saliva with low quantity of organic substances. Mediator of sympathetic nerve system – norepinephrine – stimulate adrenoreceptors of basolateral membrane, activated adenilatcyclase that form c. AMP. These reaction caused production of a small quantity of saliva which have a big quantity of organic substances.

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Functions of stomach • 1. Digestive (mechanical treatment, absorption, evacuation, secretion, depo); • 2. Excretor; • 3. Incretor.

Secretor activity of stomach • Production of stomach juice per day – near 2, 5 L of juice. Their main components – enzymes, HCl and mucin. p. H of morning saliva is neutral, after eating – sour – 0, 8 -1, 5.

Composition of stomach juice and their properties • There are 2 types of glands – the oxyntic (or gastric) and the pyloric glands. The oxyntic glands secrete hydrochloric acid, pepsinogen, intrinsic factor, and mucus. The pyloric glands secrete mainly mucus. The main cells (peptic or chief cells) produce non active enzymes (pepsinogens). There are 7 pepsinogens. They hydrolyzed proteins.

• Optimum p. H of its activity is 1, 5 -2, 0. Pepsinogens whose activity the most in the condition of p. H 3, 2 -3, 5 is gastrecsin. In the stomach juice produces lipase and gelatinese. HCl produce in parietal or oxyntic cells. p. H of it secrete is near 0, 8. These processes need energy of lipids. Mechanism of it production: Cl- activly transported in the canaliculi, Na+ – from the canal into cytoplasm. H 2 O dissopciated to H+ and OH-. H+ activly go into canaliculi in change of K+. In these processes take plase Na+, K+-ATPase. CO 2, which produce in cells act with H+ and syntheses HCO-. This anion go into the cell in change by Cl-.

Formation of hydrochloric acid stomach Parietal cell blood metabolism carboanhydrase se

Role of the hydrochloric acid in the digestion • 1. To promote the swell of protein; • 2. To promote the change of pepsinogen in pepsins; • 3. To make optimal conditions for actions of pepsins; • 4. To fulfill protective role from bacteria; • 5. To promote motor and evacuated functions of stomach; • 6. To stimulate production of duodinum gormon – secretin.

Phases of stomach secretion • Cephalic phase is caused by nervous system. It has conditional and unconditional reflexes. Conditional reactions caused by appearance of food, it smell and other stimulus, which are connect with food. Unconditional influences is parasympathetic and beginning from receptors of tongue and other receptors of the oral cavity. From these receptors impulses pass through the fibers of n. trigeminus, n. facialis, n. glossopharyngeus, n. vagus to the medulla oblongata. Impulses return to stomach by n. vagus. Except neuron influences this phase has humoral influences – brunch of n. vagus produce gormon gastrin. These phase is very short.

• Value of gastric juice secretion • In norm gastric juice secretion must be N N Indexes Empty stomach Basal secretion Stimulated secretion 1. p. H to 3, 5 1, 5 -2 1, 3 -1, 4 2. Production common mmol/L 10 -35 40 -60 80 -100 3. Production of free HCl, mmol/L 0 -20 20 -40 65 -85 4. Debit of common HCl, mmol/hour to 1, 5 -5, 5 8 -14 5. Debit of free HCl, mmol/hour to 1 1 -4 6, 5 -12 of HCl,

• Phases of stomach secretion Stomach phase is depends on the quantity of food, which are present in stomach. It has vago-vagal reflexes (by mean of central nerves system) and local – peripheral reflexes, which are closed in stomach walls. Duration of these phase is longer and quantity of juice is much. It has humoral mechanisms too (production of gastrin and histamin. • Intestine phase: presence of food in the upper portion of small intestine can cause the stomach to secrete small amount of gastric juice. This probably results of gastrin are also released by the duodenal mucosa in response to distension or chemical stimuli of the same type as those that stimulate the stomach gastrin mechanism.

Role of pancreas in the digestive system • There are two secretor functions of pancreas – external and internal. The external secretor function of pancreas means that exsogenic cells of pancreas and ducts cells produce pancreatic juice. It helps to hydrolyzed protein to peptides and amino acids, carbohydrates to monosaccharides, lipids to the fat acids and glycerin. It neutralizes acidic chymus, which come from stomach. • Internal secretor function of pancreas is production of hormones (insulin, glucagons, somatostatin).

Composition and properties of pancreatic juice Quantity of pancreatic juice per day is 1, 52, 0 L. Reaction of it – p. H = 8, 0 -8, 5. It consists of a big quantity of hydro carbonates. It has near 10 % of protein – enzymes, which are act on protein, lipids and carbohydrates. According to that there are 3 groups of enzymes: proteolytic • lipolytic • amilolytic

Proteolytic enzymes • Proteolytic enzymes secreted in the inactive enzymatically form. The more important of them are trypsinogen, chymotrypsinogen, and procarboxypolypeptidase. Trypsinogen activated by enzymes enterokinase (produces by the mucous cells of duodenum). • After activation tripsinogen has name – tripsin. This enzyme is very active. It also activates chemotripsinogen to form chemotripsin, and procarboxypolypeptidase is activated to the form carboxypolypeptidase in a similar manner. • In pancreatic juice presents proteolytic enzymes – elastases, nucleases etc. They hydrolyzed protein to peptides and aminoacids.

Lipolytic and amylolytic enzymes • The main enzymes for fat digestion (lipolytic enzymes) are pancreatic lipase, which is capable of hydrolyzing neutral fat into fatty acids and monoglycerides; cholesterol esterase, which causes hydrolysis of cholesterol esters; and phospholipase, which splits fatty acids from phospholipids. • Lipolytic enzymes ejected in active (pancreatic lipase, muntinase) and inactive conditions (prophospholipase A). • The pancreatic digestive enzyme for carbohydrates (amilolytic enzyme) is alpha-amylase, which hydrolyzes starches, glykogen, and most other carbohydrates (except cellulose) to form disaccharides and a few trisaccharides.

Regulation of pancreas secretion • There are 3 phases of pancreatic secretion: cephalic, stomach and intestine. • The 1 stage caused by nervous influences. N. vagus realizes this effect by helps of conditioned and unconditioned reflexes. Secretion begins after 1 -2 minutes of food. Juice consists of enzymes, small quantity of water and ions. Sympathetic influences have a trophy role. • During the 2 phase there are two kinds of influences: nervous and humoral (gastrin from stomach). • The 3 phase caused by chyme contents. The main is humoral factors (secretin, cholecystokinin-pancreasemin).

• Secretin stimulates production of a big quantity of juice with a high concentration of hydrocarbonates and a small quantity of enzymes in ducts cells. CKP stimulates production of a less quantity of juice with a big concentration of enzymes in acinars cells. • Secretion of pancreatic juice stimulates also by vaso-intestinal polypeptide, serotonine, insulin, bombesin, sustantio P calcium ions, and salts of bile acids. • Secretion of pancreatic juice inhibits by glukagon, calcitonin, somatostatin. During dreams, hart physical and mental activity, pain secretion inhibits too.

Bile production and bile secretoin Secretion of bile occur all time and increase by influences of bile acids, cholecystokininpancreasemin, secretin. • Bile secretion in the duodenum depends from take food (minerals water, HCl, fatty acids increase bile formation). • It depends of nervus vagus (increase bile formation) and humoral influences – concentration of cholecystokininpancreasemin (increase bile formation and ejection), secretin, gastrin.

Composition of bile: • • bilirubin, bile acids, cholesterol, leukocytes, some epitheliocytes, cristalls of bilirubin, calcium.

The role of bile • • • 1. Neutralize the stomach acid; 2. Inhibit the act of stomach proteases; 3. Increase the activity of pancreatic lipase; 4. Emulsificates the lipids by help of bile acids actions; 5. Bile acids help stabilizing of emulsion; 6. Increase the absorption of fatty acids, carrotin, vitamins K, D, E; 7. Increase tone and motor function of intestines (more duodenum and large intestine); 8. Decrease the activity of intestine micro flora; 9. Take place of enzymes fixation on the intestines surface.

Composition and properties of intestine juice • Composition of intestine juice: • mucine, enzymes – peptidase, saccharase, maltase, lactase, lipase, phosphatase, nuclease; immunoglobulins; ions; leukocytes; epitheliocytes (200 g per day). • p. H of intestine juice is 7, 5 -8, 0; production per day – near 1, 8 -2, 5 L. • Functions: ending hydrolyses of all nutritive substances; protective of mucus wall; support of chyme in fluid condition; formed of base reaction of intestine contents. Increase secretion: parasympathetic nerves, secretine, and glucagons.

Digestion in the large intestine • Composition of intestine juice: mucus, epithelial cells, and small quantity of enzymes (peptidase, lipase, nuclease, phosphatase). Functions: protective from mechanical, • chemical irritations; • formed of base reaction of intestine contents.

Role of the micro flora of large intestine • 1. Ending decompose of all nutritive substances, which are do not digested in small intestines. • 2. Synthesis of some vitamins – of B group, vitamin K. • 3. Take place in metabolic processes. • 4. Stimulates absorption of water and amino acids. • 5. Inactivate enzymes of small intestines. • 6. Forms normal reaction in large intestine. • 7. Decompose organic substances of chyme. • 8. Have protective role to the pathogenic microorganisms.