Gastrointestinal System - PHA106 Pharmaceutical Biosciences 1 PDF
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Summary
These lecture notes cover the gastrointestinal system, including its parts, functions, and chemical events. They also cover the histology of the organs in the digestive system.
Full Transcript
PHA106 Pharmaceutical Biosciences 1 GASTROINTESTINAL SYSTEM Learning outcomes Knowledge of the function and structure of GIT Understanding of the role of the different organs of the GIT Knowledge of the chemical events of digestion Functions of the digestive system...
PHA106 Pharmaceutical Biosciences 1 GASTROINTESTINAL SYSTEM Learning outcomes Knowledge of the function and structure of GIT Understanding of the role of the different organs of the GIT Knowledge of the chemical events of digestion Functions of the digestive system Ingestion Mechanical processing Movement of food Chemical digestion Absorption Excretion Organs of the Digestive System Two main groups Gastrointestinal tract (GIT) or alimentary canal: Mouth Pharynx Oesophagus Stomach Small and Large intestine Accessory structures: Teeth Tongue Glandular organs involved in secretions aiding chemical digestion of food Histology of the digestive tract Mucosa Inner lining Mucous membrane – epithelium & lamina propria Submucosa Muscularis externa Peristalsis Serosa Mouth Buccal/oral cavity Lips Vestibule of the mouth Oral cavity proper Hard palate/soft palate Tongue Salivary glands Parotid, submandibular, sublingual Teeth Pharynx Throat Shared by digestive & respiratory system Nasopharynx lined by ciliated columnar epithelium Eustachian tube Pharyngeal tonsil Oropharynx Epiglottis Squamous epithelium Laryngopharynx Connects to oesophagus Squamous epithelium Laryngopharynx Oesophagus Oesophagus Oesophagus 25 cm long hollow muscular tube Transports solids/liquids from pharynx to stomach Enters abdominal cavity through oesophageal hiatus in diaphragm Mucosa & submucosa in large folds Squamous epithelium Stomach 4 functions Storage of food Mechanical breakdown of food Chemical breakdown of food Production of intrinsic factor Chyme 4 regions Cardia Fundus Body Pylorus Oesophagus Histology of the stomach Columnar epithelium Mucus covers entire surface Gastric pits Gastric glands Parietal cells – intrinsic factor, HCl, alkaline tide Chief cells – pepsinogen Pyloric glands Small intestine Digests & absorbs nutrients – 90% Duodenum Jejunum Ileum Position stabilised in peritoneal cavity by mesentery Circular folds present in intestine Villi present on mucosa, brush border Columnar epithelium Circular fold Structure of villi Extensive network of capillaries Carry nutrients via hepatic portal vein to liver Absorption of nutrients Lacteal – lymphatic capillary Villi are mobile – contractions of muscularis mucosae Increases absorption Goblet cells secrete mucus Capillaries Pancreas Exocrine organ of the GIT Produces digestive enzymes & buffers Enter duodenum via pancreatic duct Endocrine functions also Liver/gallbladder This will be discussed in a separate lecture Large intestine Stores digestive waste & absorbs water Bacteria provide source of vitamins 1.5 m long Frames small intestine 3 sections Caecum Colon Rectum Large intestine Caecum collects material from ileum Begins compaction Appendix attaches to caecum Colon has a large diameter & thin walls – expansion Ascending Transverse Descending Sigmoid Rectum last 15 cm of GIT Temporary storage of faeces Large intestine Large intestine walls are thin Lack villi Abundant mucus cells No enzymes produced Physiology of large intestine 10% absorption occurs here Reabsorption of water Bacterial residents produce vitamin K, biotin & B5 Bilirubin converted to urobilin/stercobilin Chemical events of digestion CHO digestion & absorption Salivary amylases break down starch into di and tri- saccharides Pancreatic a-amylase breaks down remaining complex CHO Maltase/sucrase/lactase in brush border convert disaccharides to monosaccharides Monosaccharides absorbed into bloodstream by facilitated diffusion & cotransport mechanisms Chemical events of digestion Lipid digestion & absorption Lingual lipase & pancreatic lipase Break down triglycerides into fatty acids & monoglycerides Bile salts improve digestion by emulsifying the lipid into tiny droplets Micelles form Diffusion of lipids across plasma membrane Chylomicrons diffuse into lacteal Chemical events of digestion Protein digestion & absorption Only occurs after food has been mechanically processed First protease to act is pepsin (pH 1.5-2.0) Pancreatic proteases – trypsin, chymotrypsin, elastase, carboxypeptidase Amino acids absorbed into bloodstream by facilitated diffusion & cotransport mechanisms Chemical events of digestion Water absorption Inactive process occurring along an osmotic gradient Osmotic equilibrium must be maintained Intestinal cells continuously absorb nutrients & ions Solute conc. in lumen decreases Causes water to move out of lumen into surrounding tissues Chemical events of digestion Ion absorption Na ions – absorbed by diffusion, co-transport or active transport Ca ions - active transport Lipid-soluble vitamins ADEK – absorbed from micelles with dietary lipids Water-soluble vitamins B & C – absorbed by diffusion across epithelium Exception vitamin B12 – is absorbed by active transport when bound to intrinsic factor Age-related changes Rate of proliferation of epithelial stem cells declines Smooth muscle tone decreases Cumulative damage to GIT Cancer rates increase Dehydration Summary Knowledge of the function and structure of GIT Understanding of the role of the different organs of the GIT Knowledge of the chemical events of digestion Additional reading Martini 11th edn. Chapter 24