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Significance of metabolism in medicine ● hereditary enzyme defects ● diabetes, atherosclerosis, gout ● antimetabolites in the chemotherapy of cancers and.

Published byBryan Taylor Modified over 9 years ago

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Presentation on theme: "Significance of metabolism in medicine ● hereditary enzyme defects ● diabetes, atherosclerosis, gout ● antimetabolites in the chemotherapy of cancers and."— Presentation transcript:

1 Significance of metabolism in medicine ● hereditary enzyme defects ● diabetes, atherosclerosis, gout ● antimetabolites in the chemotherapy of cancers and infections ● inactivation and elimination of xenobiotics and drugs

2 Catabolic and anabolic reactions © Michael Palmer 2014

3 Diversity of metabolism: pathways in plants and bacteria © Michael Palmer 2014

4 Types of foodstuffs ● carbohydrates ● protein ● fat ● nucleic acids

5 Breakdown of foodstuffs: Overview © Michael Palmer 2014

6 The digestive system © Michael Palmer 2014

7 Intestinal organs: functional overview © Michael Palmer 2014

8 The portal circulation © Michael Palmer 2014

9 Liver tissue structure © Michael Palmer 2014

10 Blood flow and bile flow within the liver lobule © Michael Palmer 2014

11 The stomach: functions of gastric acid ● HCl, pH 1–2 ● secreted by specialized cells in the mucous membrane (parietal cells) ● kills germs contained in food; patients with lack of gastric acid are at increased risk of intestinal infection ● denatures food proteins and makes them accessible to cleavage by proteases

12 Gastric acid and pepsin in protein digestion © Michael Palmer 2014

13 Function of the exocrine pancreas ● secretion of digestive enzymes ○ amylase ○ proteases, peptidases ○ lipases ○ DNAse, RNAse ● secretion of bicarbonate to neutralize gastric acid

14 Roles of bile in digestion ● Bile acids solubilize triacylglycerol and make it accessible to pancreatic lipase ● Bicarbonate contributes to the neutralization of gastric acid

15 The small intestine © Michael Palmer 2014

16 Microscopic structure of the small intestine © Michael Palmer 2014

17 Amylose and amylopectin are polymers of α-D- glucose © Michael Palmer 2014

18 Amylase breaks down starch to maltose and isomaltose © Michael Palmer 2014

19 Mechanism of glucose uptake from the gut © Michael Palmer 2014

20 The large intestine ● Anaerobic milieu—99% of all bacteria in the large intestine are strict anaerobes ● Bacteria degrade non-utilized foodstuffs, reducing osmotic activity of gut content ● Mucous membrane recovers water and electrolytes ● Bacterial metabolism releases potentially toxic products (e.g. ammonia), which are taken up and inactivated by the liver

21 © Michael Palmer 2014

22 A more realistic metabolic map © Michael Palmer 2014

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