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The Digestive System 1
The system by which ingested food is acted upon by physical and chemical means to provide the body with absorbable nutrients and to excrete waste products is called digestive system. OR • The organs involved in the breakdown of food—collectively called the digestive system. • It breakdowns the larger molecules present in food into molecules that are small enough to enter body cells by a process known as digestion. • The digestive system is a tubular system which extends from the mouth to the anus. • The medical specialty that deals with the structure, function, diagnosis, and treatment of diseases of the stomach and intestines is called Gastroenterology. • The medical specialty that deals with the diagnosis and treatment of disorders of the rectum and anus is called Proctology
Organs of the Digestive System A)Alimentary canal • Also known as the gastrointestinal (GI) tract, this is essentially a long tube through which food passes. It commences at the mouth and terminates at the anus, and the various organs along its length have different functions • The length of the GI tract is about 5–7 meters. . The parts are: Mouth Pharynx Oesophagus Stomach Small intestine Large intestine Rectum and anal canal 5
B) Accessory organs The teeth help in the physical breakdown of food, and the tongue assists in chewing and swallowing. The other accessory digestive organs are not come in direct contact with food. They produce or store secretions that flows into the GI tract through ducts; the secretions aid in the chemical breakdown of food. Teeth Tongue Salivary Glands Liver Gallbladder Pancreas 6
Functions of the Digestive System  Ingestion – the oral cavity allows food to enter the digestive tract and have mastication (chewing) occurs , and the resulting food bolus is swallowed .  Digestion:  Mechanical digestion – muscular movement of the digestive tract (mainly in the oral cavity and stomach) physically break down food into smaller particles .  Chemical digestion – hydrolysis reactions aided by enzymes (mainly in the stomach and small intestine) chemically break down food particles into nutrient molecules , small enough to be absorbed .
Functions of the Digestive System  Secretion – enzymes and digestive fluids secreted by the digestive tract and its accessory organs facilitate chemical digestion .  Absorption – passage of the end – products (nutrients) of chemical digestion from the digestive tract into blood or lymph for distribution to tissue cells .  Elimination – undigested material will be released through the rectum and anus by defecation .
Fig: The digestive system 4
• Stomach is a ‘J’ shaped enlargement of GI Tract which lies below the diaphragm in the upper left region of the abdominal cavity. • Stomach serves as mixing chamber and holding reservoir for food. • Functions of the stomach • Receive food from the esophagus, mix food with gastric juice. • Start protein digestion. • Move food into the small intestine.
Anatomy of stomach • The stomach has four main regions: the cardia, fundus, body and pylorus. The cardia surrounds the superior opening of the stomach. The fundus is the rounded portion superior and left to the cardia. The body is inferior to the fundus and is the large central portion of the stomach. The pylorus is the region of the stomach that connects to the duodenum. (pyl = gate; orus = guard). Pylorus has two parts, the pyloric antrum which connects to the body of the stomach, and the pyloric canal, which leads into the duodenum.
Structure of the stomach  Greater and Lesser Curvatures: The medial and lateral borders of the stomach are curved, forming the lesser and greater curvatures:  Greater curvature – forms the long, convex, lateral border of the stomach. • Arising at the cardiac notch, it arches backwards and passes inferiorly to the left. • It curves to the right as it continues medially to reach the pyloric antrum. • The short gastric arteries and the right and left gastro-omental arteries supply branches to the greater curvature.  Lesser curvature – forms the shorter, concave, medial surface of the stomach. • The most inferior part of the lesser curvature, the angular notch, indicates the junction of the body and pyloric region. • The lesser curvature gives attachment to the hepatogastric ligament and is supplied by the left gastric artery and right gastric branch of the hepatic artery.
Histologic Structure of the Stomach • The stomach wall is composed of 4 basic layers: Mucosa: Mucosa contains several glands called gastric glands. The gastric glands contain three types of exocrine gland cells and one type of endocrine cells that secrete their products into the stomach and bloodstream respectively. 1. Mucous cells. Produce alkaline mucous, which protects the stomach wall itself from being damaged by the acid. 2. Parietal cells. Produce HCl – hydrochloric acid, which makes the stomach content acidic. 3. Chief cells. Produce enzymes, mostly pepsinogen. 4. G-cells. Produce Gastrin hormone. 5. D-cells. Secrete Somatostatin.
Submucosa: is made up of areolar connective tissue. Muscularis: is composed of 3 layers of smooth layers; oblique muscles, circular muscles and longitudinal muscles. Serosa: forms outer most layer of stomach.
Digestion & absorption in the stomach Carbohydrate digestion is continued with gastric amylase, resulting in disaccharides . Protein digestion begins with pepsin (activation of pepsinogen by HCl) , resulting in peptides (small chains of protein). Lipid digestion begins with gastric lipases which can only break down certain lipids such as butterfat , resulting in fatty acids . Absorption in the stomach is limited, where only small and fat soluble substances can be absorbed—water , alcohol, aspirin , and certain drugs . The result of all these mixing , chemical digestion , secretion, and absorption is a yellowish paste called chyme , which will be passed on to the small intestine .
Regulation of Gastric Secretion Regulation of gastric secretion and activities is by both nervous and hormonal mechanisms – food moving along the oral cavity and esophagus stimulates the parasympathetic nerves to activate the secretion in gastric glands , the gastric hormone from G cells in turn stimulates the gastric glands for more activities ("positive feedback"). On the other hand , when food is emptying from the stomach , sympathetic nerves inhibit the gastric glands and a hormone called intestinal gastrin (released by small intestine) inhibits other gastric activities. The above regulations occur in 3 overlapping phases: Cephalic Phase, Gastric Phase, & Intestinal Phase.
Cephalic phase  This gastric secretion phase happens just before food enters the stomach, and this phase prepares the body for eating and digestion. In the cephalic phase, the taste or smell of food, food sensation in the mouth, or thought of food generates and sends nervous signals to the hypothalamus and medulla oblongata. This signal causes parasympathetic neurons through the vagus nerves to stimulate hydrochloric acid and pepsin secretion in the stomach. The parasympathetic stimulation also secretes gastrin by the stomach. This hormone taken through the bloodstream and stimulates the secretion of hydrochloric acid and pepsin. The stomach acidity is not buffered at this stage by the food thus inhibits parietal (acid secretion) and G cell (gastrin secretion) activity through D cell secretion (somatostatin).
Gastric phase  This phase takes about three to four hours. In gastric phase, food has entered and distended the stomach. This distention stimulates a parasympathetic reflex through medulla oblongata, and it directly stimulates the gastric glands and releases more gastric juices. If protein is available in the stomach, it binds with hydrogen ions and raises the stomach pH. It, furthermore, lifts the inhibition of gastrin and gastric acid secretion. This stimulates G cells to release gastrin, which stimulates parietal cells to secrete gastric acid. This causes a continued secretion of HCl (hydrochloric acid) and pepsin, which lowers the pH to 1-3 (acidic).
Intestinal Phase Partially digested food fills the duodenum. This phase has two parts, the excitatory, and the inhibitory. In the intestinal phase, chyme has entered the duodenum. If the chyme has lipids (digested fat) or has pH below 2, gastric secretion is inhibited. The lipids and acidic pH (hydrogen ions) inhibits gastric secretion by three stages: firstly, signals medulla oblongata to inhibit stimulation of the gastric glands. Secondly local reflexes through neurons in the gut wall to decrease gastric secretion. thirdly releases three local hormones that pass through the circulation to the gastric glands to inhibit its secretion.
Fig: The three phases of secretion of gastric juice. 12
• The small intestine is continuous with the stomach at the pyloric sphincter. The small intestine is about 2.5 cm in diameter, a little over 5 metres long and leads into the large intestine at the ileocaecal valve. • It lies in the abdominal cavity surrounded by the large intestine. • In the small intestine the chemical digestion of food is completed and absorption of most nutrients takes place.  The small intestine comprises three continuous parts…. • Duodenum. This is about 25 cm long and curves around the head of the pancreas. • Jejunum. This is the middle section of the small intestine and is about 2 metres long. • Ileum. This terminal section is about 3 metres long and ends at the3 ileocaecal valve, which controls the flow of material from the ileum to the caecum, the first part of the large intestine, and prevents backflow.
Structure of the small intestine Histologically, the small intestine has four layers. From internal to external, they are mucosa, submucosa, muscularis , and serosa. These layers are easy to remember ( M.S.M.S). There are several unique features in the small intestine, which act to significantly increase its absorptive surface: Circular folds (valves of Kerckring, plicae circulares) are the transverse folds of mucosa found predominantly in the distal duodenum and proximal jejunum
Intestinal villi are finger like extensions of intestinal mucosa which project into the lumen of the small intestine. Between the villi are intestinal glands (crypts of Lieberkuhn) which secrete intestinal juice rich in digestive enzymes. Microvilli are projections found on the apical surface of each intestinal cell (enterocyte)
There are also features of the small intestine which are segment- specific: Peyer's patches are part of gastrointestinal associated lymphoid tissue (GALT). They are found in ileum. Brunner glands are found in the submucosa of the duodenum. They produce mucus rich in alkalines which protects the duodenum from the corrosive effects of gastric acid.
Fig: Small intestine and its parts. Fig: Villus of small intestine. 15
Functions of the small intestine  Onward movement of its contents by peristalsis, which is increased by parasympathetic stimulation.  Secretion of intestinal juice.  Completion of chemical digestion of carbohydrates, protein and fats in the enterocytes of the villi.  Protection against infection by microbes that have survived the antimicrobial action of the hydrochloric acid in the stomach.  Secretion of the hormones cholecystokinin (CCK) and secretin.  Absorption of nutrients. 16
Role of intestinal juice and brush border enzyme About 1-2 lt of intestinal juice (pH 7.6) is secreted every day which contained water and mucous. Intestinal juice mixes with pancreatic juices and provides the liquid medium for absorption of substance from chyme into small intestine. Brush border enzymes secreted from absorptive cells in small intestine contain following types of enzymes:  Four carbohydrate-digesting enzymes called α-dextrinase, maltase, sucrase and lactase  Two Protein-digesting enzymes called peptidases (aminopeptidase and dipeptidase)  Two types of nucleotide-digesting enzymes, nucleosidases and phosphatases.
Mechanical and chemical digestion in small intestine: Mechanical Digestion: Two types of movements occur in small intestine which result in mechanical digestion: Segmentation: These are localized mixing contractions that occur in portions of small intestine distended with large volume of chyme. Segmentation helps in mixing and absorption of chyme, but it does not push chyme forward. Migrating motality complex (MMC): This is a type of peristaltic movement which occurs when volume of chyme in distended portion of small intestine decreases. This pushes the chyme forward. Chyme remains in small intestine for 3-5 hours.
Chemical digestion:  Chyme entering the small intestine contains partially digested carbohydrates, proteins, and lipids by the enzymes in mouth and stomach. The completion of the digestion of carbohydrates, proteins, and lipids occurs in small intestine and it is a collective effort of pancreatic juice, bile, and intestinal juice.  Digestion of carbohydrates: Starches are broken into maltose, maltriose and α-dextrin units by pancreatic amylase.  Following brush border enzymes act on these and convert it even smaller units.  α-Dextrinase acts on α-dextrin to produce glucose.  Maltase splits maltose and maltriose into 2-3 units of glucose.  Lactase digests lactose into a glucose and galactose.  Sucrase breaks sucrose into molecule of glucose and fructose.  Cellulose (a polysaccharide) is not digested by amylase enzymes and hence it is called roughage.
Digestion of proteins: Trypsin, chymotrypsin, carboxypeptidase and elastase convert proteins into peptide units. These peptides are converted into small amino acids by two enzymes aminopeptidase and Dipeptidase which break amino acids into single amino acids. Digestion of lipids: Most of triglycerides in food are broken into long chain or short chain fatty acids and monoglycerides by pancreatic lipase. Long chain fatty acids are emulsified into short chain fatty acid by bile salts in small intestine. Digestion of nucleic acids: Pancreatic juice contains two nucleases (nucleic acid digesting enzymes) ribonuclease (digests RNA) and deoxyribonuclease (digests DNA) into nucleotides. These nucleotides are further digested by brush-border enzymes called nucleosidases and phosphatases into pentoses, phosphates, and nitrogenous bases.
The primary function of the ileum is to absorb vitamin B12, bile salts, and whatever products of digestion were not absorbed by the jejunum.  Digestive Hormones that secreted from the small intestine and Their Functions Hormone Origin Function Cholecystokinin (CCK) Duodenum contraction of gallbladder Gastric inhibitory peptide (GIP) Duodenum Stimulate the release of insulin Gastrin Stomach Stimulate the production of acid and enzyme Secretin Duodenum increase bile secretion
The large intestine also known as the colon, extends from the distal end of the ileum to the anus, a distance of approximately 1.5 m in adults (5 ft) long, making up one-fifth of the length of the gastrointestinal (GI) tract and 6.5 cm (2.5 in.) in diameter. The large intestine is named for its relatively large diameter, not its length. 17
The large intestine is divided into the …. I. Caecum II.Colon III.Sigmoid colon IV.Rectum V.Anal canal 18
 The caecum • First part of the large intestine, It is about 8-9 cm long. • The small intestine feeds into the cecum through a small channel in the side of it (the ileocecal valve), so the end of the cecum is actually closed like a pouch. • This pouch, the first 6 inches of the colon, is also the widest portion of the large intestine. This is the reservoir where food from the small intestine arrives in the large intestine. • When the cecum is full, it triggers the muscle movements of the colon to begin.  The colon : The colon has four parts which have the same structure and functions. • The ascending colon • Transverse colon • Descending colon • The sigmoid colon
 The rectum • This is a slightly dilated section of the large intestine about 13 cm long. It leads from the sigmoid colon and terminates in the anal canal.  The anal canal • This is a short passage about 3.8 cm long in the adult and leads from the rectum to the exterior. • Two sphincter muscles control the anus; the internal sphincter, consisting of smooth muscle, is under the control of the autonomic nervous system and the external sphincter, formed by skeletal muscle, is under voluntary control.
Histology of Large Intestine  Large intestine is made up of four tissue layer they are: • The innermost layer of the large intestine is known as the mucosa and it is made up of simple epithelial tissue. Here mucosa lacks villi which is found in the small intestine. Many mucosal glands secrete mucus which helps in the lubrication of food. • Above the mucosal layer, there is a layer of blood vessels, nerves and connective tissues known as submucosa, which provides support to other layers of the intestine. • The further submucosal layer is surrounded by the muscularis layer which contains several visceral muscle cells, which help in the contraction and relaxation of the large intestine. • Outermost layer of the large intestine is known as the serosa layer, they are made up of squamous epithelial tissue and their secretion helps in the lubrication process.
Functions of the large intestine, rectum and anal canal There are so many major function of digestion which are performed by the large intestine:  Formation and Elimination of Feces: When food is consumed by the small intestine then undigested food moves to the large intestine where absorption of remaining water takes place. Under this process conversion of liquid chyme into feces takes place. These feces consists of food, bacteria, inorganic salt, unabsorbed substance, etc.  Absorption of Vitamins: Large intestine absorbs various vitamins produced by its own bacteria. There are more than 700 types of bacteria present in our large intestine. The major function of these bacteria is to breakdown left over fiber and polysaccharides and further convert them into short-chain fatty acid, which are absorbed by the large intestine by diffusion process.
Absorption of Water and Electrolytes: During this process, water is absorbed by the large intestine by osmosis process as during this process diffusion is happening as per concentration gradient. Sodium ion is absorbed by the sodium-potassium pump in the colon region. Antibody Production: The large intestine is a house for many lymphoid tissue, and these lymphoid tissue is crucial for immunity. They help in the creation of various antibodies, which are helpful against various harmful bacteria. Acid Reduction: bicarbonates which are present in the large intestine neutralize acidity caused by the synthesis of fatty acids.
The salivary glands are exocrine glands that are positioned in the head, in and around the oral cavity and secrete their salivary contents into the mouth. Their function is to help keep the oral mucosa protected and lubricated. They also help in the initial stages of digestion during mastication of food, so that a food bolus is created and ready to be swallowed for further processing. Fig: Salivary glands. 22
 Parotid glands • These are situated one on each side of the face just below the external acoustic meatus. Each gland has a parotid duct opening into the mouth at the level of the second upper molar tooth.  Submandibular glands • These lie one on each side of the face under the angle of the jaw. The two submandibular ducts open on the floor of the mouth, one on each side of the frenulum of the tongue.  Sublingual glands • These glands lie under the mucous membrane of the floor of the mouth in front of the submandibular glands. They have numerous small ducts that open into the floor of the mouth.  Secretion of saliva • Secretion of saliva is controlled by the autonomic nervous system. Parasympathetic stimulation causes profuse secretion of watery saliva with a relatively low content of enzymes and other organic substances. Sympathetic stimulation results in secretion of small amounts of saliva rich in organic material, especially from the submandibular glands. Reflex secretion occurs when there is food in the mouth and the reflex can easily become conditioned so that the sight, smell and even the thought of food stimulates the flow of saliva.
Function  The purpose of the salivary glands is to make saliva and to help: • Keep the mouth moist • Chewing • Swallowing • Digestion • Keep the teeth and mouth clean • Maintain pH (acid/base) balance in the mouth
• The pancreas is a pale grey gland weighing about 60 grams. It is about 12-15 cm long and is situated in the epigastric and left hypochondriac regions of the abdominal cavity. • It consists of a broad head, a body and a narrow tail. The head lies in the curve of the duodenum, the body behind the stomach and the tail lies in front of the left kidney and just reaches the spleen. 24
Functions of the Pancreas • A healthy pancreas produces the correct chemicals in the proper quantities, at the right times, to digest the foods we eat.  Exocrine Function: • The pancreas contains exocrine glands that produce enzymes important to digestion. These enzymes include trypsin and chymotrypsin to digest proteins; amylase for the digestion of carbohydrates; and lipase to break down fats. • When food enters the stomach, these pancreatic juices are released into a system of ducts that culminate in the main pancreatic duct. The pancreatic duct joins the common bile duct to form the ampulla of Vater which is located at the first portion of the small intestine, called the duodenum. The common bile duct originates in the liver and the gallbladder and produces another important digestive juice called bile. The pancreatic juices and bile that are released into the duodenum, help the body to digest fats, carbohydrates, and proteins.
Endocrine Function: • The endocrine component of the pancreas consists of islet cells (islets of Langerhans) that create and release important hormones directly into the bloodstream. • Two of the main pancreatic hormones are insulin, which acts to lower blood sugar, and glucagon, which acts to raise blood sugar. Maintaining proper blood sugar levels is crucial to the functioning of key organs including the brain, liver, and kidneys.
Fig:Anterior view of liver. Fig: The liver lobules. • The liver is the largest gland in the body, weighing between 1 to 2.3 kg. It is situated in the upper part of the abdominal cavity. Its upper and anterior surfaces are smooth and curved to fit the under surface of the diaphragm; its posterior surface is irregular in outline. • The liver is enclosed in a thin inelastic capsule and incompletely covered by a layer of peritoneum. Folds of peritoneum form supporting ligaments that attach the liver to the inferior surface of the diaphragm. 25
Functions of the Liver • The liver is an essential organ of the body that performs over 500 vital functions. These include removing waste products and foreign substances from the bloodstream, regulating blood sugar levels, and creating essential nutrients. Here are some of its most important functions: Albumin Production: Albumin is a protein that keeps fluids in the bloodstream from leaking into surrounding tissue. It also carries hormones, vitamins, and enzymes through the body. Bile Production: Bile is a fluid that is critical to the digestion and absorption of fats in the small intestine. Filters Blood: All the blood leaving the stomach and intestines passes through the liver, which removes toxins, byproducts, and other harmful substances. 26
Regulates Amino Acids: The production of proteins depend on amino acids. The liver makes sure amino acid levels in the bloodstream remain healthy. Regulates Blood Clotting: Blood clotting coagulants are created using vitamin K, which can only be absorbed with the help of bile, a fluid the liver produces. Resists Infections: As part of the filtering process, the liver also removes bacteria from the bloodstream. Stores Vitamins and Minerals: The liver stores significant amounts of vitamins A, D, E, K, and B12, as well as iron and copper. Processes Glucose: The liver removes excess glucose (sugar) from the bloodstream and stores it as glycogen. As needed, it can convert glycogen back into glucose.
Muscular movement involves the gastrointestinal tract / digestive system:- Peristalsis • It is a wavelike movement that occurs from the oropharynx to the rectum which allowing the gastrointestinal tract to push food particles toward the anus. Mixing • Mixing is a motion in the oral cavity and stomach that allows the gastrointestinal tract to repeatedly break down food into smaller particles using mechanical digestion.  Segmentation • In the regions of the small intestine contracting and relaxing occurs independently that allowing the small intestine to digest and absorb more efficiently.
Digestion and Absorption of Nutrients
Energetics
ATP (Adenosine triphosphate) • ATP is a nucleotide composed of (1) the nitrogenous base adenine, (2) the pentose sugar ribose, and (3) three phosphate radicals. • Under the physical and chemical conditions of the body, each of these high energy bonds contains about 12,000 calories of energy per mole of ATP, which is many times greater than the energy stored in the average chemical bond, thus giving rise to the term high-energy bond. • The high-energy phosphate bond is very labile so that it can be split instantly on demand whenever energy is required to promote other intracellular reactions. • When ATP releases its energy, a phosphoric acid radical is split away and adenosine diphosphate (ADP) is formed.
• This released energy is used to energize virtually many of the cell’s other functions, such as synthesis of substances and muscular contraction. • To reconstitute the cellular ATP as it is used up, energy derived from the cellular nutrients causes ADP and phosphoric acid to recombine to form new ATP, and the entire process repeats over and over again. • For these reasons, ATP has been called the energy currency of the cell because it can be spent and remade continually, having a turnover time of only a few minutes.
• The initial event is removal of an electron from the hydrogen atom, thus converting it to a hydrogen ion. • The terminal event is combination of hydrogen ions with oxygen to form water plus the release of tremendous amounts of energy to large globular proteins, called ATP synthetase, that protrude like knobs from the membranes of the mitochondrial shelves. • Finally, the enzyme ATP synthetase uses the energy from the hydrogen ions to cause the conversion of ADP to ATP. • The newly formed ATP is transported out of the mitochondria into all parts of the cell cytoplasm and nucleoplasm, where its energy is used to energize multiple cell functions.
Role of ATP  Energy from ATP is used to promote three major categories of cellular functions: • Transport of substances through multiple membranes in the cell, • Synthesis of chemical compounds throughout the cell, and mechanical work. • To supply energy for the transport of sodium through the cell membrane, • To promote protein synthesis by the ribosomes, • To supply the energy needed during muscle contraction. • In addition to membrane transport of sodium, energy from ATP is required for membrane transport of potassium ions, calcium ions, magnesium ions, phosphate ions, chloride ions, urate ions, hydrogen ions, and many other ions and various organic substances. Membrane transport is so important to cell function that some cells—the renal tubular cells, for instance—use as much as 80 percent of the ATP that they form for this purpose alone.
• In addition to synthesizing proteins, cells make phospholipids, cholesterol, purines, pyrimidines, and a host of other substances. Synthesis of almost any chemical compound requires energy. • For instance, a single protein molecule might be composed of as many as several thousand amino acids attached to one another by peptide linkages; the formation of each of these linkages requires energy derived from the breakdown of four high-energy bonds; thus, many thousand ATP molecules must release their energy as each protein molecule is formed. Indeed, some cells use as much as 75 percent of all the ATP formed in the cell simply to synthesize new chemical compounds, especially protein molecules; this is particularly true during the growth phase of cells. • The final major use of ATP is to supply energy for special cells to perform mechanical work. Each contraction of a muscle fiber requires expenditure of tremendous quantities of ATP energy. • Other cells perform mechanical work in other ways, especially by ciliary and ameboid motion. The source of energy for all these types of mechanical work is ATP.
CREATINE PHOSPHATE • Phosphocreatine, also known as Creatine phosphate (CP) or PCr (Pcr), is a phosphorylated creatine molecule that serves as a rapidly mobilizable reserve of high-energy phosphates in skeletal muscle, myocardium and the brain to recycle adenosine triphosphate, the energy currency of the cell. • In the kidneys, the enzyme AGAT(Arginine Glycine amidinotransferase) catalyzes the conversion of two amino acids — arginine and glycine — into guanidinoacetate (also called glycocyamine or GAA), which is then transported in the blood to the liver. A methyl group is added to GAA from the amino acid methionine by the enzyme GAMT, forming non-phosphorylated creatine. • This is then released into the blood by the liver where it travels mainly to the muscle cells (95% of the body's creatine is in muscles), and to a lesser extent the brain, heart, and pancreas.
• Once inside the cells it is transformed into phosphocreatine by the enzyme complex creatine kinase, which makes it able to donate its phosphate group to convert adenosine diphosphate (ADP) into adenosine triphosphate (ATP). • This process is an important component of all vertebrates' bioenergetic systems. For instance, while the human body only produces 250 g of ATP daily, it recycles its entire body weight in ATP each day through creatine phosphate. • Creatine phosphate can be broken down into creatinine, which is then excreted in the urine. A 70 kg man contains around 120 g of creatine, with 40% being the unphosphorylated form and 60% as creatine phosphate. Of that amount, 1–2% is broken down and excreted each day as creatinine. • Phosphocreatine can anaerobically donate a phosphate group to ADP to form ATP during the first two to seven seconds following an intense muscular or neuronal effort.
• Conversely, excess ATP can be used during a period of low effort to convert creatine to phosphocreatine. The reversible phosphorylation of creatine (i.e., both the forward and backward reaction) is catalyzed by several creatine kinases. • The presence of creatine kinase (CK-MB, MB for muscle/brain) in blood plasma is indicative of tissue damage and is used in the diagnosis of myocardial infarction. • The cell's ability to generate phosphocreatine from excess ATP during rest, as well as its use of phosphocreatine for quick regeneration of ATP during intense activity, provides a spatial and temporal buffer of ATP concentration. • In other words, phosphocreatine acts as high-energy reserve in a coupled reaction; the energy given off from donating the phosphate group is used to regenerate the other compound - in this case, ATP. • Phosphocreatine plays a particularly important role in tissues that have high, fluctuating energy demands such as muscle and brain.
BMR • The Basal Metabolic Rate (BMR) is the energy required by an awake individual during physical, emotional and digestive rest. It is the minimum amount of energy required to maintain life or sustain vital functions like the working of the heart, circulation, brain function, respiration, etc. • The metabolic rate during sleep is less than BMR. Basal metabolic energy required to support the basic processes of life, including circulation, respiration, temperature maintenance, etc. • It excludes digestion and voluntary activities. BMR constitutes the largest proportion (2/3) of a person’s daily expenditure.
FACTORS THAT AFFECT BMR • Age –metabolism slows with age due to loss of muscle tissue, but also due to due to hormonal and neurological changes. • Growth – infants and children have higher energy demands per unit of body weight due to the energy demands of growth • Body composition – more lean muscle tissue (muscle burns kilojoules rapidly) higher BMR • Environmental temperature : if temp is very low or very high, , body has to work harder to maintain its normal body temp. which inc. the BMR • Fasting/starvation, lowers BMR • Malnutrition, lowers BMR • Thyroxine – regulates BMR
NORMAL VALUE FOR BMR • For adult men normal value for BMR is 34-37 kcal/square meter/hour, and • For adult women, 30-35 kcal/Sq.m./hour. • For easier calculations, BMR for an adult is fixed as 24 kcal/ kg body weight/day.
DISORDERS OF THE DIGESTIVE SYSTEM • Jaundice - It is the excess accumulation of bile pigments in the bloodstream. In jaundice, there is a yellow discoloration of the skin, the whites of the eyes as well as the mucous membranes. This is caused by the increased amount of bilirubin in the blood, which is a byproduct of the breakdown of RBC’s in the body. Normally liver is involved in the metabolism and excretes bilirubin, in the form of bile. Any disruption in this metabolism causes jaundice. It is a most common form of the disease hepatitis.
• Nausea and Vomiting - When there is irritation in the stomach, sometimes the stomach contents get ejected from the mouth. This is a reflex action and is called as vomiting. There is a forceful discharge of the stomach contents that come out of the mouth. The uneasiness that usually comes before vomiting is nausea. Vomiting and nausea are generally the symptoms of conditions such as food poisoning, stomach flu, gallbladder disease, ulcers, overeating etc. • Peptic Ulcers - Peptic ulcers are holes or breaks in the protective lining of the duodenum or stomach. Duodenal ulcers, stomach ulcers are the types of ulcers, according to the position where they occur. Oesophagal ulcers also occur at times, due to alcohol abuse or exposure to certain antibiotics.
• Diarrhoea - It is the abnormal frequency of the bowel movement. There is an increased liquidity of faecal discharge. The stools are loose and watery. It is generally caused by viruses that cause the infection of the gut. • Gallstones - These are small pieces of solid material that we find in the gallbladder. When they block the bile duct, it causes immense pain and needs to treated immediately. • Gastroesophageal Reflux Disease (GERD) - GERD is a gastroesophageal reflux disease. In this disease, the lower esophageal sphincter that does not allow the food bolus to come back to the food pipe gets weakened, due to which stomach acid gets leaked and comes up into our esophagus. This causes heartburn, and in the long term, the lining of the esophagus gets affected. • Crohn’s disease - Crohn's disease is an inflammatory disease of the digestive tract that affects approximately half a million Americans. It is a type of inflammatory bowel disease (IBD). It is most commonly found in the small intestine, but it can affect any part of the digestive tract.
Question bank 2 marks questions: 1. Name the four layers that make up Alimentary Canal? 2. Define digestion? 3.Mention the organs of digestive system? 4.What are the function of saliva, small intestine, large intestine? 5.Name all the enzyme secreted by pancreas? 6.Name all the enzyme involved in digestion? 7.What is gastroenterology and proctology? 8.What do you mean by GERD? 9.What do you mean by Crohn’s disease? 10. Define: Peptic Ulcer, Diarrhoea, Jaundice. 11.Write full form of ATP, CP, BMR. 12.Write the role of CP. 13. Write the role of BMR. 14. What are the BMR value of adult male and female? 15. Which digestive hormones is secreted from small intestine?
5 marks question 1.Explain anatomy and physiology of stomach? 2. Mention salivary glands , its location and function of saliva 3.Write anatomy and physiology of liver? 4. Explain digestion mechanism in small intestine? 5. Discuss digestion and absorption of carbohydrates , proteins and fats? 6. Explain phases of gastric acid secretion? 7. Discuss anatomy and physiology of large intestine? 8. Write a note on pancreas. 9. Write the formation and role of ATP. 10. Write the formation and role of CP.
10marks question 1. Draw a labelled diagram of digestive system and explain in detail about small intestine.(structure, function,digestion process and hormone release) 2.Write a detail note on digestive organs. 3. Write the function of digestive system.
27

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The Digestive System.pptx

  • 2. The system by which ingested food is acted upon by physical and chemical means to provide the body with absorbable nutrients and to excrete waste products is called digestive system. OR • The organs involved in the breakdown of food—collectively called the digestive system. • It breakdowns the larger molecules present in food into molecules that are small enough to enter body cells by a process known as digestion. • The digestive system is a tubular system which extends from the mouth to the anus. • The medical specialty that deals with the structure, function, diagnosis, and treatment of diseases of the stomach and intestines is called Gastroenterology. • The medical specialty that deals with the diagnosis and treatment of disorders of the rectum and anus is called Proctology
  • 3. Organs of the Digestive System A)Alimentary canal • Also known as the gastrointestinal (GI) tract, this is essentially a long tube through which food passes. It commences at the mouth and terminates at the anus, and the various organs along its length have different functions • The length of the GI tract is about 5–7 meters. . The parts are: Mouth Pharynx Oesophagus Stomach Small intestine Large intestine Rectum and anal canal 5
  • 4. B) Accessory organs The teeth help in the physical breakdown of food, and the tongue assists in chewing and swallowing. The other accessory digestive organs are not come in direct contact with food. They produce or store secretions that flows into the GI tract through ducts; the secretions aid in the chemical breakdown of food. Teeth Tongue Salivary Glands Liver Gallbladder Pancreas 6
  • 5. Functions of the Digestive System  Ingestion – the oral cavity allows food to enter the digestive tract and have mastication (chewing) occurs , and the resulting food bolus is swallowed .  Digestion:  Mechanical digestion – muscular movement of the digestive tract (mainly in the oral cavity and stomach) physically break down food into smaller particles .  Chemical digestion – hydrolysis reactions aided by enzymes (mainly in the stomach and small intestine) chemically break down food particles into nutrient molecules , small enough to be absorbed .
  • 6. Functions of the Digestive System  Secretion – enzymes and digestive fluids secreted by the digestive tract and its accessory organs facilitate chemical digestion .  Absorption – passage of the end – products (nutrients) of chemical digestion from the digestive tract into blood or lymph for distribution to tissue cells .  Elimination – undigested material will be released through the rectum and anus by defecation .
  • 8.
  • 9. • Stomach is a ‘J’ shaped enlargement of GI Tract which lies below the diaphragm in the upper left region of the abdominal cavity. • Stomach serves as mixing chamber and holding reservoir for food. • Functions of the stomach • Receive food from the esophagus, mix food with gastric juice. • Start protein digestion. • Move food into the small intestine.
  • 10. Anatomy of stomach • The stomach has four main regions: the cardia, fundus, body and pylorus. The cardia surrounds the superior opening of the stomach. The fundus is the rounded portion superior and left to the cardia. The body is inferior to the fundus and is the large central portion of the stomach. The pylorus is the region of the stomach that connects to the duodenum. (pyl = gate; orus = guard). Pylorus has two parts, the pyloric antrum which connects to the body of the stomach, and the pyloric canal, which leads into the duodenum.
  • 11.
  • 12. Structure of the stomach  Greater and Lesser Curvatures: The medial and lateral borders of the stomach are curved, forming the lesser and greater curvatures:  Greater curvature – forms the long, convex, lateral border of the stomach. • Arising at the cardiac notch, it arches backwards and passes inferiorly to the left. • It curves to the right as it continues medially to reach the pyloric antrum. • The short gastric arteries and the right and left gastro-omental arteries supply branches to the greater curvature.  Lesser curvature – forms the shorter, concave, medial surface of the stomach. • The most inferior part of the lesser curvature, the angular notch, indicates the junction of the body and pyloric region. • The lesser curvature gives attachment to the hepatogastric ligament and is supplied by the left gastric artery and right gastric branch of the hepatic artery.
  • 13. Histologic Structure of the Stomach • The stomach wall is composed of 4 basic layers: Mucosa: Mucosa contains several glands called gastric glands. The gastric glands contain three types of exocrine gland cells and one type of endocrine cells that secrete their products into the stomach and bloodstream respectively. 1. Mucous cells. Produce alkaline mucous, which protects the stomach wall itself from being damaged by the acid. 2. Parietal cells. Produce HCl – hydrochloric acid, which makes the stomach content acidic. 3. Chief cells. Produce enzymes, mostly pepsinogen. 4. G-cells. Produce Gastrin hormone. 5. D-cells. Secrete Somatostatin.
  • 14.
  • 15.
  • 16. Submucosa: is made up of areolar connective tissue. Muscularis: is composed of 3 layers of smooth layers; oblique muscles, circular muscles and longitudinal muscles. Serosa: forms outer most layer of stomach.
  • 17.
  • 18. Digestion & absorption in the stomach Carbohydrate digestion is continued with gastric amylase, resulting in disaccharides . Protein digestion begins with pepsin (activation of pepsinogen by HCl) , resulting in peptides (small chains of protein). Lipid digestion begins with gastric lipases which can only break down certain lipids such as butterfat , resulting in fatty acids . Absorption in the stomach is limited, where only small and fat soluble substances can be absorbed—water , alcohol, aspirin , and certain drugs . The result of all these mixing , chemical digestion , secretion, and absorption is a yellowish paste called chyme , which will be passed on to the small intestine .
  • 19. Regulation of Gastric Secretion Regulation of gastric secretion and activities is by both nervous and hormonal mechanisms – food moving along the oral cavity and esophagus stimulates the parasympathetic nerves to activate the secretion in gastric glands , the gastric hormone from G cells in turn stimulates the gastric glands for more activities ("positive feedback"). On the other hand , when food is emptying from the stomach , sympathetic nerves inhibit the gastric glands and a hormone called intestinal gastrin (released by small intestine) inhibits other gastric activities. The above regulations occur in 3 overlapping phases: Cephalic Phase, Gastric Phase, & Intestinal Phase.
  • 20. Cephalic phase  This gastric secretion phase happens just before food enters the stomach, and this phase prepares the body for eating and digestion. In the cephalic phase, the taste or smell of food, food sensation in the mouth, or thought of food generates and sends nervous signals to the hypothalamus and medulla oblongata. This signal causes parasympathetic neurons through the vagus nerves to stimulate hydrochloric acid and pepsin secretion in the stomach. The parasympathetic stimulation also secretes gastrin by the stomach. This hormone taken through the bloodstream and stimulates the secretion of hydrochloric acid and pepsin. The stomach acidity is not buffered at this stage by the food thus inhibits parietal (acid secretion) and G cell (gastrin secretion) activity through D cell secretion (somatostatin).
  • 21. Gastric phase  This phase takes about three to four hours. In gastric phase, food has entered and distended the stomach. This distention stimulates a parasympathetic reflex through medulla oblongata, and it directly stimulates the gastric glands and releases more gastric juices. If protein is available in the stomach, it binds with hydrogen ions and raises the stomach pH. It, furthermore, lifts the inhibition of gastrin and gastric acid secretion. This stimulates G cells to release gastrin, which stimulates parietal cells to secrete gastric acid. This causes a continued secretion of HCl (hydrochloric acid) and pepsin, which lowers the pH to 1-3 (acidic).
  • 22. Intestinal Phase Partially digested food fills the duodenum. This phase has two parts, the excitatory, and the inhibitory. In the intestinal phase, chyme has entered the duodenum. If the chyme has lipids (digested fat) or has pH below 2, gastric secretion is inhibited. The lipids and acidic pH (hydrogen ions) inhibits gastric secretion by three stages: firstly, signals medulla oblongata to inhibit stimulation of the gastric glands. Secondly local reflexes through neurons in the gut wall to decrease gastric secretion. thirdly releases three local hormones that pass through the circulation to the gastric glands to inhibit its secretion.
  • 23. Fig: The three phases of secretion of gastric juice. 12
  • 24.
  • 25. • The small intestine is continuous with the stomach at the pyloric sphincter. The small intestine is about 2.5 cm in diameter, a little over 5 metres long and leads into the large intestine at the ileocaecal valve. • It lies in the abdominal cavity surrounded by the large intestine. • In the small intestine the chemical digestion of food is completed and absorption of most nutrients takes place.  The small intestine comprises three continuous parts…. • Duodenum. This is about 25 cm long and curves around the head of the pancreas. • Jejunum. This is the middle section of the small intestine and is about 2 metres long. • Ileum. This terminal section is about 3 metres long and ends at the3 ileocaecal valve, which controls the flow of material from the ileum to the caecum, the first part of the large intestine, and prevents backflow.
  • 26. Structure of the small intestine Histologically, the small intestine has four layers. From internal to external, they are mucosa, submucosa, muscularis , and serosa. These layers are easy to remember ( M.S.M.S). There are several unique features in the small intestine, which act to significantly increase its absorptive surface: Circular folds (valves of Kerckring, plicae circulares) are the transverse folds of mucosa found predominantly in the distal duodenum and proximal jejunum
  • 27. Intestinal villi are finger like extensions of intestinal mucosa which project into the lumen of the small intestine. Between the villi are intestinal glands (crypts of Lieberkuhn) which secrete intestinal juice rich in digestive enzymes. Microvilli are projections found on the apical surface of each intestinal cell (enterocyte)
  • 28. There are also features of the small intestine which are segment- specific: Peyer's patches are part of gastrointestinal associated lymphoid tissue (GALT). They are found in ileum. Brunner glands are found in the submucosa of the duodenum. They produce mucus rich in alkalines which protects the duodenum from the corrosive effects of gastric acid.
  • 29. Fig: Small intestine and its parts. Fig: Villus of small intestine. 15
  • 30. Functions of the small intestine  Onward movement of its contents by peristalsis, which is increased by parasympathetic stimulation.  Secretion of intestinal juice.  Completion of chemical digestion of carbohydrates, protein and fats in the enterocytes of the villi.  Protection against infection by microbes that have survived the antimicrobial action of the hydrochloric acid in the stomach.  Secretion of the hormones cholecystokinin (CCK) and secretin.  Absorption of nutrients. 16
  • 31. Role of intestinal juice and brush border enzyme About 1-2 lt of intestinal juice (pH 7.6) is secreted every day which contained water and mucous. Intestinal juice mixes with pancreatic juices and provides the liquid medium for absorption of substance from chyme into small intestine. Brush border enzymes secreted from absorptive cells in small intestine contain following types of enzymes:  Four carbohydrate-digesting enzymes called α-dextrinase, maltase, sucrase and lactase  Two Protein-digesting enzymes called peptidases (aminopeptidase and dipeptidase)  Two types of nucleotide-digesting enzymes, nucleosidases and phosphatases.
  • 32. Mechanical and chemical digestion in small intestine: Mechanical Digestion: Two types of movements occur in small intestine which result in mechanical digestion: Segmentation: These are localized mixing contractions that occur in portions of small intestine distended with large volume of chyme. Segmentation helps in mixing and absorption of chyme, but it does not push chyme forward. Migrating motality complex (MMC): This is a type of peristaltic movement which occurs when volume of chyme in distended portion of small intestine decreases. This pushes the chyme forward. Chyme remains in small intestine for 3-5 hours.
  • 33. Chemical digestion:  Chyme entering the small intestine contains partially digested carbohydrates, proteins, and lipids by the enzymes in mouth and stomach. The completion of the digestion of carbohydrates, proteins, and lipids occurs in small intestine and it is a collective effort of pancreatic juice, bile, and intestinal juice.  Digestion of carbohydrates: Starches are broken into maltose, maltriose and α-dextrin units by pancreatic amylase.  Following brush border enzymes act on these and convert it even smaller units.  α-Dextrinase acts on α-dextrin to produce glucose.  Maltase splits maltose and maltriose into 2-3 units of glucose.  Lactase digests lactose into a glucose and galactose.  Sucrase breaks sucrose into molecule of glucose and fructose.  Cellulose (a polysaccharide) is not digested by amylase enzymes and hence it is called roughage.
  • 34. Digestion of proteins: Trypsin, chymotrypsin, carboxypeptidase and elastase convert proteins into peptide units. These peptides are converted into small amino acids by two enzymes aminopeptidase and Dipeptidase which break amino acids into single amino acids. Digestion of lipids: Most of triglycerides in food are broken into long chain or short chain fatty acids and monoglycerides by pancreatic lipase. Long chain fatty acids are emulsified into short chain fatty acid by bile salts in small intestine. Digestion of nucleic acids: Pancreatic juice contains two nucleases (nucleic acid digesting enzymes) ribonuclease (digests RNA) and deoxyribonuclease (digests DNA) into nucleotides. These nucleotides are further digested by brush-border enzymes called nucleosidases and phosphatases into pentoses, phosphates, and nitrogenous bases.
  • 35. The primary function of the ileum is to absorb vitamin B12, bile salts, and whatever products of digestion were not absorbed by the jejunum.  Digestive Hormones that secreted from the small intestine and Their Functions Hormone Origin Function Cholecystokinin (CCK) Duodenum contraction of gallbladder Gastric inhibitory peptide (GIP) Duodenum Stimulate the release of insulin Gastrin Stomach Stimulate the production of acid and enzyme Secretin Duodenum increase bile secretion
  • 36.
  • 37. The large intestine also known as the colon, extends from the distal end of the ileum to the anus, a distance of approximately 1.5 m in adults (5 ft) long, making up one-fifth of the length of the gastrointestinal (GI) tract and 6.5 cm (2.5 in.) in diameter. The large intestine is named for its relatively large diameter, not its length. 17
  • 38. The large intestine is divided into the …. I. Caecum II.Colon III.Sigmoid colon IV.Rectum V.Anal canal 18
  • 39.  The caecum • First part of the large intestine, It is about 8-9 cm long. • The small intestine feeds into the cecum through a small channel in the side of it (the ileocecal valve), so the end of the cecum is actually closed like a pouch. • This pouch, the first 6 inches of the colon, is also the widest portion of the large intestine. This is the reservoir where food from the small intestine arrives in the large intestine. • When the cecum is full, it triggers the muscle movements of the colon to begin.  The colon : The colon has four parts which have the same structure and functions. • The ascending colon • Transverse colon • Descending colon • The sigmoid colon
  • 40.  The rectum • This is a slightly dilated section of the large intestine about 13 cm long. It leads from the sigmoid colon and terminates in the anal canal.  The anal canal • This is a short passage about 3.8 cm long in the adult and leads from the rectum to the exterior. • Two sphincter muscles control the anus; the internal sphincter, consisting of smooth muscle, is under the control of the autonomic nervous system and the external sphincter, formed by skeletal muscle, is under voluntary control.
  • 41.
  • 42. Histology of Large Intestine  Large intestine is made up of four tissue layer they are: • The innermost layer of the large intestine is known as the mucosa and it is made up of simple epithelial tissue. Here mucosa lacks villi which is found in the small intestine. Many mucosal glands secrete mucus which helps in the lubrication of food. • Above the mucosal layer, there is a layer of blood vessels, nerves and connective tissues known as submucosa, which provides support to other layers of the intestine. • The further submucosal layer is surrounded by the muscularis layer which contains several visceral muscle cells, which help in the contraction and relaxation of the large intestine. • Outermost layer of the large intestine is known as the serosa layer, they are made up of squamous epithelial tissue and their secretion helps in the lubrication process.
  • 43. Functions of the large intestine, rectum and anal canal There are so many major function of digestion which are performed by the large intestine:  Formation and Elimination of Feces: When food is consumed by the small intestine then undigested food moves to the large intestine where absorption of remaining water takes place. Under this process conversion of liquid chyme into feces takes place. These feces consists of food, bacteria, inorganic salt, unabsorbed substance, etc.  Absorption of Vitamins: Large intestine absorbs various vitamins produced by its own bacteria. There are more than 700 types of bacteria present in our large intestine. The major function of these bacteria is to breakdown left over fiber and polysaccharides and further convert them into short-chain fatty acid, which are absorbed by the large intestine by diffusion process.
  • 44. Absorption of Water and Electrolytes: During this process, water is absorbed by the large intestine by osmosis process as during this process diffusion is happening as per concentration gradient. Sodium ion is absorbed by the sodium-potassium pump in the colon region. Antibody Production: The large intestine is a house for many lymphoid tissue, and these lymphoid tissue is crucial for immunity. They help in the creation of various antibodies, which are helpful against various harmful bacteria. Acid Reduction: bicarbonates which are present in the large intestine neutralize acidity caused by the synthesis of fatty acids.
  • 45.
  • 46. The salivary glands are exocrine glands that are positioned in the head, in and around the oral cavity and secrete their salivary contents into the mouth. Their function is to help keep the oral mucosa protected and lubricated. They also help in the initial stages of digestion during mastication of food, so that a food bolus is created and ready to be swallowed for further processing. Fig: Salivary glands. 22
  • 47.  Parotid glands • These are situated one on each side of the face just below the external acoustic meatus. Each gland has a parotid duct opening into the mouth at the level of the second upper molar tooth.  Submandibular glands • These lie one on each side of the face under the angle of the jaw. The two submandibular ducts open on the floor of the mouth, one on each side of the frenulum of the tongue.  Sublingual glands • These glands lie under the mucous membrane of the floor of the mouth in front of the submandibular glands. They have numerous small ducts that open into the floor of the mouth.  Secretion of saliva • Secretion of saliva is controlled by the autonomic nervous system. Parasympathetic stimulation causes profuse secretion of watery saliva with a relatively low content of enzymes and other organic substances. Sympathetic stimulation results in secretion of small amounts of saliva rich in organic material, especially from the submandibular glands. Reflex secretion occurs when there is food in the mouth and the reflex can easily become conditioned so that the sight, smell and even the thought of food stimulates the flow of saliva.
  • 48. Function  The purpose of the salivary glands is to make saliva and to help: • Keep the mouth moist • Chewing • Swallowing • Digestion • Keep the teeth and mouth clean • Maintain pH (acid/base) balance in the mouth
  • 49.
  • 50. • The pancreas is a pale grey gland weighing about 60 grams. It is about 12-15 cm long and is situated in the epigastric and left hypochondriac regions of the abdominal cavity. • It consists of a broad head, a body and a narrow tail. The head lies in the curve of the duodenum, the body behind the stomach and the tail lies in front of the left kidney and just reaches the spleen. 24
  • 51. Functions of the Pancreas • A healthy pancreas produces the correct chemicals in the proper quantities, at the right times, to digest the foods we eat.  Exocrine Function: • The pancreas contains exocrine glands that produce enzymes important to digestion. These enzymes include trypsin and chymotrypsin to digest proteins; amylase for the digestion of carbohydrates; and lipase to break down fats. • When food enters the stomach, these pancreatic juices are released into a system of ducts that culminate in the main pancreatic duct. The pancreatic duct joins the common bile duct to form the ampulla of Vater which is located at the first portion of the small intestine, called the duodenum. The common bile duct originates in the liver and the gallbladder and produces another important digestive juice called bile. The pancreatic juices and bile that are released into the duodenum, help the body to digest fats, carbohydrates, and proteins.
  • 52. Endocrine Function: • The endocrine component of the pancreas consists of islet cells (islets of Langerhans) that create and release important hormones directly into the bloodstream. • Two of the main pancreatic hormones are insulin, which acts to lower blood sugar, and glucagon, which acts to raise blood sugar. Maintaining proper blood sugar levels is crucial to the functioning of key organs including the brain, liver, and kidneys.
  • 53.
  • 54. Fig:Anterior view of liver. Fig: The liver lobules. • The liver is the largest gland in the body, weighing between 1 to 2.3 kg. It is situated in the upper part of the abdominal cavity. Its upper and anterior surfaces are smooth and curved to fit the under surface of the diaphragm; its posterior surface is irregular in outline. • The liver is enclosed in a thin inelastic capsule and incompletely covered by a layer of peritoneum. Folds of peritoneum form supporting ligaments that attach the liver to the inferior surface of the diaphragm. 25
  • 55. Functions of the Liver • The liver is an essential organ of the body that performs over 500 vital functions. These include removing waste products and foreign substances from the bloodstream, regulating blood sugar levels, and creating essential nutrients. Here are some of its most important functions: Albumin Production: Albumin is a protein that keeps fluids in the bloodstream from leaking into surrounding tissue. It also carries hormones, vitamins, and enzymes through the body. Bile Production: Bile is a fluid that is critical to the digestion and absorption of fats in the small intestine. Filters Blood: All the blood leaving the stomach and intestines passes through the liver, which removes toxins, byproducts, and other harmful substances. 26
  • 56. Regulates Amino Acids: The production of proteins depend on amino acids. The liver makes sure amino acid levels in the bloodstream remain healthy. Regulates Blood Clotting: Blood clotting coagulants are created using vitamin K, which can only be absorbed with the help of bile, a fluid the liver produces. Resists Infections: As part of the filtering process, the liver also removes bacteria from the bloodstream. Stores Vitamins and Minerals: The liver stores significant amounts of vitamins A, D, E, K, and B12, as well as iron and copper. Processes Glucose: The liver removes excess glucose (sugar) from the bloodstream and stores it as glycogen. As needed, it can convert glycogen back into glucose.
  • 57. Muscular movement involves the gastrointestinal tract / digestive system:- Peristalsis • It is a wavelike movement that occurs from the oropharynx to the rectum which allowing the gastrointestinal tract to push food particles toward the anus. Mixing • Mixing is a motion in the oral cavity and stomach that allows the gastrointestinal tract to repeatedly break down food into smaller particles using mechanical digestion.  Segmentation • In the regions of the small intestine contracting and relaxing occurs independently that allowing the small intestine to digest and absorb more efficiently.
  • 59.
  • 61. ATP (Adenosine triphosphate) • ATP is a nucleotide composed of (1) the nitrogenous base adenine, (2) the pentose sugar ribose, and (3) three phosphate radicals. • Under the physical and chemical conditions of the body, each of these high energy bonds contains about 12,000 calories of energy per mole of ATP, which is many times greater than the energy stored in the average chemical bond, thus giving rise to the term high-energy bond. • The high-energy phosphate bond is very labile so that it can be split instantly on demand whenever energy is required to promote other intracellular reactions. • When ATP releases its energy, a phosphoric acid radical is split away and adenosine diphosphate (ADP) is formed.
  • 62. • This released energy is used to energize virtually many of the cell’s other functions, such as synthesis of substances and muscular contraction. • To reconstitute the cellular ATP as it is used up, energy derived from the cellular nutrients causes ADP and phosphoric acid to recombine to form new ATP, and the entire process repeats over and over again. • For these reasons, ATP has been called the energy currency of the cell because it can be spent and remade continually, having a turnover time of only a few minutes.
  • 63. • The initial event is removal of an electron from the hydrogen atom, thus converting it to a hydrogen ion. • The terminal event is combination of hydrogen ions with oxygen to form water plus the release of tremendous amounts of energy to large globular proteins, called ATP synthetase, that protrude like knobs from the membranes of the mitochondrial shelves. • Finally, the enzyme ATP synthetase uses the energy from the hydrogen ions to cause the conversion of ADP to ATP. • The newly formed ATP is transported out of the mitochondria into all parts of the cell cytoplasm and nucleoplasm, where its energy is used to energize multiple cell functions.
  • 64. Role of ATP  Energy from ATP is used to promote three major categories of cellular functions: • Transport of substances through multiple membranes in the cell, • Synthesis of chemical compounds throughout the cell, and mechanical work. • To supply energy for the transport of sodium through the cell membrane, • To promote protein synthesis by the ribosomes, • To supply the energy needed during muscle contraction. • In addition to membrane transport of sodium, energy from ATP is required for membrane transport of potassium ions, calcium ions, magnesium ions, phosphate ions, chloride ions, urate ions, hydrogen ions, and many other ions and various organic substances. Membrane transport is so important to cell function that some cells—the renal tubular cells, for instance—use as much as 80 percent of the ATP that they form for this purpose alone.
  • 65. • In addition to synthesizing proteins, cells make phospholipids, cholesterol, purines, pyrimidines, and a host of other substances. Synthesis of almost any chemical compound requires energy. • For instance, a single protein molecule might be composed of as many as several thousand amino acids attached to one another by peptide linkages; the formation of each of these linkages requires energy derived from the breakdown of four high-energy bonds; thus, many thousand ATP molecules must release their energy as each protein molecule is formed. Indeed, some cells use as much as 75 percent of all the ATP formed in the cell simply to synthesize new chemical compounds, especially protein molecules; this is particularly true during the growth phase of cells. • The final major use of ATP is to supply energy for special cells to perform mechanical work. Each contraction of a muscle fiber requires expenditure of tremendous quantities of ATP energy. • Other cells perform mechanical work in other ways, especially by ciliary and ameboid motion. The source of energy for all these types of mechanical work is ATP.
  • 66. CREATINE PHOSPHATE • Phosphocreatine, also known as Creatine phosphate (CP) or PCr (Pcr), is a phosphorylated creatine molecule that serves as a rapidly mobilizable reserve of high-energy phosphates in skeletal muscle, myocardium and the brain to recycle adenosine triphosphate, the energy currency of the cell. • In the kidneys, the enzyme AGAT(Arginine Glycine amidinotransferase) catalyzes the conversion of two amino acids — arginine and glycine — into guanidinoacetate (also called glycocyamine or GAA), which is then transported in the blood to the liver. A methyl group is added to GAA from the amino acid methionine by the enzyme GAMT, forming non-phosphorylated creatine. • This is then released into the blood by the liver where it travels mainly to the muscle cells (95% of the body's creatine is in muscles), and to a lesser extent the brain, heart, and pancreas.
  • 67. • Once inside the cells it is transformed into phosphocreatine by the enzyme complex creatine kinase, which makes it able to donate its phosphate group to convert adenosine diphosphate (ADP) into adenosine triphosphate (ATP). • This process is an important component of all vertebrates' bioenergetic systems. For instance, while the human body only produces 250 g of ATP daily, it recycles its entire body weight in ATP each day through creatine phosphate. • Creatine phosphate can be broken down into creatinine, which is then excreted in the urine. A 70 kg man contains around 120 g of creatine, with 40% being the unphosphorylated form and 60% as creatine phosphate. Of that amount, 1–2% is broken down and excreted each day as creatinine. • Phosphocreatine can anaerobically donate a phosphate group to ADP to form ATP during the first two to seven seconds following an intense muscular or neuronal effort.
  • 68. • Conversely, excess ATP can be used during a period of low effort to convert creatine to phosphocreatine. The reversible phosphorylation of creatine (i.e., both the forward and backward reaction) is catalyzed by several creatine kinases. • The presence of creatine kinase (CK-MB, MB for muscle/brain) in blood plasma is indicative of tissue damage and is used in the diagnosis of myocardial infarction. • The cell's ability to generate phosphocreatine from excess ATP during rest, as well as its use of phosphocreatine for quick regeneration of ATP during intense activity, provides a spatial and temporal buffer of ATP concentration. • In other words, phosphocreatine acts as high-energy reserve in a coupled reaction; the energy given off from donating the phosphate group is used to regenerate the other compound - in this case, ATP. • Phosphocreatine plays a particularly important role in tissues that have high, fluctuating energy demands such as muscle and brain.
  • 69. BMR • The Basal Metabolic Rate (BMR) is the energy required by an awake individual during physical, emotional and digestive rest. It is the minimum amount of energy required to maintain life or sustain vital functions like the working of the heart, circulation, brain function, respiration, etc. • The metabolic rate during sleep is less than BMR. Basal metabolic energy required to support the basic processes of life, including circulation, respiration, temperature maintenance, etc. • It excludes digestion and voluntary activities. BMR constitutes the largest proportion (2/3) of a person’s daily expenditure.
  • 70. FACTORS THAT AFFECT BMR • Age –metabolism slows with age due to loss of muscle tissue, but also due to due to hormonal and neurological changes. • Growth – infants and children have higher energy demands per unit of body weight due to the energy demands of growth • Body composition – more lean muscle tissue (muscle burns kilojoules rapidly) higher BMR • Environmental temperature : if temp is very low or very high, , body has to work harder to maintain its normal body temp. which inc. the BMR • Fasting/starvation, lowers BMR • Malnutrition, lowers BMR • Thyroxine – regulates BMR
  • 71. NORMAL VALUE FOR BMR • For adult men normal value for BMR is 34-37 kcal/square meter/hour, and • For adult women, 30-35 kcal/Sq.m./hour. • For easier calculations, BMR for an adult is fixed as 24 kcal/ kg body weight/day.
  • 72. DISORDERS OF THE DIGESTIVE SYSTEM • Jaundice - It is the excess accumulation of bile pigments in the bloodstream. In jaundice, there is a yellow discoloration of the skin, the whites of the eyes as well as the mucous membranes. This is caused by the increased amount of bilirubin in the blood, which is a byproduct of the breakdown of RBC’s in the body. Normally liver is involved in the metabolism and excretes bilirubin, in the form of bile. Any disruption in this metabolism causes jaundice. It is a most common form of the disease hepatitis.
  • 73. • Nausea and Vomiting - When there is irritation in the stomach, sometimes the stomach contents get ejected from the mouth. This is a reflex action and is called as vomiting. There is a forceful discharge of the stomach contents that come out of the mouth. The uneasiness that usually comes before vomiting is nausea. Vomiting and nausea are generally the symptoms of conditions such as food poisoning, stomach flu, gallbladder disease, ulcers, overeating etc. • Peptic Ulcers - Peptic ulcers are holes or breaks in the protective lining of the duodenum or stomach. Duodenal ulcers, stomach ulcers are the types of ulcers, according to the position where they occur. Oesophagal ulcers also occur at times, due to alcohol abuse or exposure to certain antibiotics.
  • 74. • Diarrhoea - It is the abnormal frequency of the bowel movement. There is an increased liquidity of faecal discharge. The stools are loose and watery. It is generally caused by viruses that cause the infection of the gut. • Gallstones - These are small pieces of solid material that we find in the gallbladder. When they block the bile duct, it causes immense pain and needs to treated immediately. • Gastroesophageal Reflux Disease (GERD) - GERD is a gastroesophageal reflux disease. In this disease, the lower esophageal sphincter that does not allow the food bolus to come back to the food pipe gets weakened, due to which stomach acid gets leaked and comes up into our esophagus. This causes heartburn, and in the long term, the lining of the esophagus gets affected. • Crohn’s disease - Crohn's disease is an inflammatory disease of the digestive tract that affects approximately half a million Americans. It is a type of inflammatory bowel disease (IBD). It is most commonly found in the small intestine, but it can affect any part of the digestive tract.
  • 75. Question bank 2 marks questions: 1. Name the four layers that make up Alimentary Canal? 2. Define digestion? 3.Mention the organs of digestive system? 4.What are the function of saliva, small intestine, large intestine? 5.Name all the enzyme secreted by pancreas? 6.Name all the enzyme involved in digestion? 7.What is gastroenterology and proctology? 8.What do you mean by GERD? 9.What do you mean by Crohn’s disease? 10. Define: Peptic Ulcer, Diarrhoea, Jaundice. 11.Write full form of ATP, CP, BMR. 12.Write the role of CP. 13. Write the role of BMR. 14. What are the BMR value of adult male and female? 15. Which digestive hormones is secreted from small intestine?
  • 76. 5 marks question 1.Explain anatomy and physiology of stomach? 2. Mention salivary glands , its location and function of saliva 3.Write anatomy and physiology of liver? 4. Explain digestion mechanism in small intestine? 5. Discuss digestion and absorption of carbohydrates , proteins and fats? 6. Explain phases of gastric acid secretion? 7. Discuss anatomy and physiology of large intestine? 8. Write a note on pancreas. 9. Write the formation and role of ATP. 10. Write the formation and role of CP.
  • 77. 10marks question 1. Draw a labelled diagram of digestive system and explain in detail about small intestine.(structure, function,digestion process and hormone release) 2.Write a detail note on digestive organs. 3. Write the function of digestive system.
  • 78. 27