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Flashcards in chapter 25 - Digestive system Deck (122)
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1
Q

Digestive system

A
digestive tract (alimentary canal) and accessory organs (Fig 25.1)
•	digestive tract includes: oral cavity, pharynx, esophagus, stomach, small intestine and large intestine
•	accessory organs = teeth, tongue, salivary glands, liver and pancreas
2
Q

Functions of digestive systems

A

• processing of food
o ingestion = entry of food and liquids into digestive tract via the oral cavity
o mechanical processing = physical breakdown of ingested substances
 tongue (squishing), teeth (tearing, grinding), and propulsive motion of digestive tract (mixing, swirling and churning)
o digestion = chemical and enzymatic breakdown of macromolecules (carbohydrates, lipids, protein) into units that can be absorbed
o secretion = acids, enzymes and buffers released by lining of digestive tracts and accessory organs
o absorption = movement of organic molecules, electrolytes, vitamins and water across digestive epithelium and into interstitial fluid of digestive tract
o excretion = movement of waste products into digestive tract – primarily via liver
o compaction = progressive dehydration of indigestible materials and organic wastes forming feces
o defecation = elimination of feces from the body

3
Q

defense against

A

o corrosive effects of digestive acids and enzymes
o mechanical stresses – e.g. abrasion
o pathogens

4
Q

how many layers

A

• 4 major layers with variations along tract related to specific functions of each organ

5
Q

• Mucosa

A

= inner lining

6
Q

o mucous membrane

A

– loose (areolar) connective tissue covered by epithelium moistened by glandular secretion
 epithelium = simple columnar or non-keratinized stratified squamous depending on location
 lamina propria = underlying layer of areolar tissue
• contains blood vessels, sensory nerve ending, lymphatic fibers, smooth muscle fibers and scattered mucosa associated lymphatic tissue (MLAT = leukocytes)

7
Q

o plicae

A

organization of mucosa in certain areas into transverse or longitudinal folds
 increase surface area for absorption

8
Q

o muscularis mucosae

A

two thin concentric layers of smooth muscle below the lamina propria
 contraction changes shape of lumen and plicae
 separates mucosa from submucosa

9
Q

• Submucosa

A

dense irregular connective tissue

o contains large blood vessels, lymphatics, and in some areas exocrine glands

10
Q

o submucosal (Meissner’s) plexus

A
nerve network (with neuron cell bodies) 
	along outer margin of submucosa
	action affects muscularis mucosae and glandular secretions
11
Q

• Muscularis Externa

A

= layer dominated by smooth muscle fibers
o smooth muscle = small spindle-shaped cells (5-10 µm diameter, 30-200 µm length)
 non-striated – contractile proteins not organized into sarcomeres, involuntary muscle
 arranged in sheets, electrically connected by gap junctions

12
Q

smooth muscle can be activated by

A
  • motor neurons
  • local chemicals, hormones, carbon dioxide or oxygen levels
  • physical factors – stretching, irritation
  • pacemaker cells – undergo spontaneous depolarizations
13
Q

o movements produced

A

 peristalsis = waves of muscular contraction that move bolus (small mass of food) along length of digestive tract
• circular smooth muscle contracts behind bolus, then longitudinal forcing bolus forward
 segmentation = mediated mainly by circular smooth muscle contractions that move and churn but do not produce net movement in any particular direction

14
Q

o myenteric (Auerbach’s) plexus

A

plexus = nerve network
 between inner circular and outer longitudinal smooth muscle layers
 parasympathetic activation increases muscular tone and stimulates contraction
 sympathetic output inhibits muscular activity resulting in relaxation
 myenteric reflexes = short reflexes that do not involve the central nervous system

15
Q

o sphincters

A

= thickened areas of circular smooth muscle that act as valves
 located in specific areas to prevent materials moving in wrong direction or from one area to the next at inappropriate times

16
Q

• Serosa

A

visceral peritoneum - serous membrane that covers most of the outer wall of the digestive tract

17
Q

o mesenteries

A

fused, double-sheets of peritoneum – visceral with parietal peritoneum
 areolar connective tissue between allows access route for passage of blood vessels, nerves and lymphatics to and from digestive tract
 stabilize relative positions of attached organs and prevents entanglement of intestines during digestive movements or sudden changes in body position

18
Q

 greater omentum =

A

large pouch of mesentery extends from inferior margin of stomach between body wall and anterior surface of small intestine
• loose connective tissue between layers contains thick layer of adipose tissue (Fig 25.10)
• may serve as energy reserve and insulator reducing heat loss across anterior abdominal wall

19
Q

 lesser omentum

A

= between stomach, proximal duodenum and liver
 peritonitis = inflammation of peritoneal membrane that interferes with normal functioning of affected organs
• ascites = accumulation of fluid in peritoneal lining creates characteristic abdominal swelling

20
Q

o areas not covered by serosa

A

adventitia - dense network of collagen fibers that attaches pharynx, esophagus and rectum to adjacent structures

21
Q

Oral (Buccal) Cavity

• allows:

A

o analysis of material before swallowing
o mechanical processing of food
o lubrication by mixing mucous and salivary secretions
o limited digestion of carbohydrates

22
Q

• oral cavity is lined by

A

oral mucosa
non-keratinized stratified squamous epithelium
o provides protection from abrasion

23
Q

• lateral walls

A

cheeks – mucosa, buccal fat pads and buccinator muscles

24
Q

• anterior border

A

labia (lips) and gingiva = ridge of oral mucosa

o vestibule = space between cheeks, lips and teeth

25
Q

• roof

A

hard and soft palates
o hard palate = mucosa over maxilla and palatine bones
 separates oral cavity from nasal cavity
o soft palate = mucosa, palatoglossus and palatopharyngeal muscles
 separates oral cavity from nasopharynx
 closes off nasopharynx while swallowing

26
Q

 uvula

A

dangles from posterior margin and help prevent food from entering nasopharynx

27
Q

 palatine tonsils

A

– lie between the pharyngeal arches

28
Q

• floor

A

tongue and support from mylohyoid muscle

29
Q

o tongue

A

 contains two groups of skeletal muscles – intrinsic and extrinsic
• extrinsic muscles - perform all gross movements of tongue
• intrinsic muscles – alter shape of tongue and aid extrinsic muscles
• both controlled by hypoglossal nerve (CN XII)

30
Q

tongue aid in

A

 aids in mechanical processing (compression) of food
 manipulation of food to assist in chewing and to prepare in swallowing
 provides sensory analysis of food by touch, temperature and taste receptors
 secretion of mucins and lingual lipase - enzyme that aids in fat digestion
 anterior body, posterior root

31
Q

 dorsum

A

surface and contain fine projections called papillae
• provide additional friction that aid in movement of materials by tongue
• contain taste buds

32
Q

 lingual frenulum

A

thin fold of mucous membrane that connects inferior surface of tongue to mucosa of oral floor
• prevents excessive movements of tongue

33
Q

• ankyloglossia

A

condition (“tongue-tied”) that arises when frenulum too restrictive

34
Q

• Salivary glands

A

= accessory organs that empty saliva into oral cavity (Fig 25.5)
o saliva lubricates mouth, moistens food, dissolves chemicals that stimulate taste buds, helps control populations of oral bacteria

35
Q

o parotid salivary gland

A

largest – produces 25% of saliva
 extends from inferior surface of zygomatic arch over the superficial surface of masseter muscle
 serous cells produce thick secretion containing salivary amylase – begins digestion of complex carbohydrates
 parotid ducts empty into vestibule at level of second upper molar

36
Q

o sublingual salivary glands

A

produces 5% of saliva
 mucous cells covered by mucous membrane on floor of mouth
 ducts empty on either side of lingual frenulum

37
Q

o submandibular salivary glands

A

produces 75% of saliva
 serous and mucous cells located in glands located along medial surface of mandible in floor of mouth
 ducts empty of either side of lingual frenulum posterior to teeth

38
Q

o secretions controlled by

A

autonomic nervous system – parasympathetic nerves increase and sympathetic nerves decrease secretions

39
Q

o mump virus

A

– preferentially targets salivary glands and usually occurs between age 5–9
 infection of post adolescent males can affect testes causing sterility
 infection of pancreas may produce temporary or permanent diabetes
 mumps vaccine has almost eliminated disease in Canada and US

40
Q

• Teeth

A
accessory organs (Fig 25.7)
o	aid in mechanical breakdown of food through mastication (chewing)
41
Q

o dentine (dentin)

A

= mineralized matrix (similar to bone) that makes up bulk of tooth – does not contain living cells

42
Q

o pulp cavity

A

– contains living cells with cytoplasmic extensions the extend into the dentin
 spongy and highly vascular

43
Q

o root

A

– portion below the gingiva (gums)
 contains root canal with apical foramen that allows dental artery, vein and nerve to service pulp cavity
 periodontal ligament = dense regular fibrous connective tissue that anchor root into the alveolus (part of the alveolar margin of the maxilla and mandible) = gomphosis (joint)
 cement (cementum) covers dentin of root – provide protection and anchoring for periodontal ligament

44
Q

o neck

A

boundary between root and crown

45
Q

o crown

A

visible portion of tooth that projects above the gingiva (gums)
 enamel = densely packed crystals of calcium phosphate that cover the crown
• hardest biologically manufactured substance that requires adequate amounts of calcium, phosphates and vitamin D during childhood for proper formation

46
Q

o types of teeth (anterior to posterior):

incisors

A

 incisors – shovel-shaped, single root teeth located in front – allow nipping, cutting

47
Q

 cuspids (canines)

A

– conical with sharp ridge and point and single root – allow tearing and slashing

48
Q

 bicuspids (premolars)

A

– flattened crowns with prominent ridges, one or two roots – allow grinding, crushing and mashing

49
Q

 molars

A

– very large flattened crowns with prominent ridges, three or more roots – allow crushing and grinding

50
Q

o dental succession

A

o dental succession – two sets of teeth
 primary dentition = 1st set of temporary teeth
• deciduous teeth = 20 primary, milk or baby teeth
 adult dentition = 2nd set
• permanent teeth = 32 – 3rd molar (wisdom tooth) erupts after the age of 17 (if at all)

51
Q

• bolus

A

shredded food moistened with saliva and formed into small oval mass that can be swallowed

52
Q

Pharynx

A

common passageway for food, liquids and air

• extends between the internal nares and larynx (entry to trachea)

53
Q

• nasopharynx

A

= superior portion connected to posterior portion of nasal cavity and separated from oral cavity by soft palate
o lined by pseudostratified ciliated columnar epithelium containing numerous mucous cells
o pharyngeal tonsil located on posterior wall
o lateral walls contain opening of auditory tubes

54
Q

• oropharynx

A

between soft palate and base of the tongue at the level of the hyoid bone
o lined by non-keratinized stratified squamous epithelium

55
Q

• laryngopharynx

A

area between hyoid bone and epiglottis
o lined by non-keratinized stratified squamous epithelium
o epiglottis = shoehorn-shaped elastic cartilage (covered with mucous membrane) that projects superior to the glottis (opening of the larynx and entry to trachea) (Fig 24.6)
• during swallowing larynx is elevated and epiglottis folds back over glottis preventing entry of liquids or solid food into the respiratory passages

56
Q

Esophagus

A
  • hollow muscular tube approximately 25 cm (1ft) long and 2 cm (0.75 in) in diameter\
  • that transports food and liquids to the stomach
  • located posterior to trachea in the thorax
57
Q

• esophageal hiatus

A

opening in the diaphragm through which esophagus passes to enter peritoneal cavity
• histological modifications of the esophageal wall

58
Q

o mucosa

esophagus

A

non-keratinized stratified squamous epithelium that resists abrasion from food bolus

59
Q

o submucosa contains

A

scattered esophageal glands = simple, branched tubular mucous producing glands

60
Q

esophagus : outer layer

A

o contains adventitia (fibrous outer layer) instead of serosa

61
Q

• swallowing process divided into 3 parts

A

buccal phase, pharyngeal phase and esophageal phase

62
Q

o buccal phase

A

voluntarily controlled
 extrinsic muscles of tongue compression of food bolus against hard palate and retraction of tongue forces bolus into pharynx

63
Q

o pharyngeal phase

A

< 1second - involuntary reflexes initiated once bolus enters oropharynx
 palatal muscle raise the soft palate and adjacent portions of the pharyngeal wall preventing entry of food into the nasopharynx
 elevation of larynx (palatopharyngeus and stylopharyngeus muscles) and folding of epiglottis direct bolus past closed glottis
 pharyngeal constrictors (superior, middle and inferior) that push bolus toward esophagus

64
Q

o esophageal phase

A

– involuntary reflexes
 allow opening of upper esophageal (or cardiac) sphincter
 once food bolus passes through upper esophageal sphincter – sphincter closes and food is propelled toward stomach by peristaltic waves (contractions of esophageal smooth muscle)
 followed by opening of lower esophageal sphincter and entry into the stomach

65
Q

• achalasia

A

condition where shallowed bolus descends relatively slowly along esophagus due to abnormally weak peristaltic waves and does not trigger opening of lower esophageal sphincter
o food materials accumulate at the base of the esophagus and repeated secondary peristaltic waves cause discomfort
o treatment = weakening of lower esophageal sphincter by cutting circular smooth muscle at base or using a balloon catheter and expanding balloon until muscle layers tear

66
Q

• acid reflux

A

brief, limited reflux of stomach contents into lower part of esophagus after meals producing burning sensation
o increased incidence with abdominal obesity, pregnancy and reclining after large meals

67
Q

• esophagitis

A

inflammation of esophagus from frequent or prolonged acid reflux
o few defences against attack by acids and digestive enzymes resulting in inflammation, esophageal erosion and intense discomfort
o GERD = gastroesophageal reflux disease – elevating head of bed and medication reduce symptoms
Stomach

68
Q

Stomach
shape ?
what does it do ?

A

• J- shaped organ extends between levels of T7 and L3
o occupies left hypogastric, epigastric and portions of umbilical and left lumbar regions of abdominopelvic cavity (Fig 25.11)
• allows bulk storage of ingested food
• mechanically breaks down food
• chemical digestion is initiated

69
Q

• chyme

A

stomach

resultant food composition from actions of stomach = viscous, acidic and soupy mixture

70
Q

• short lesser curvature

A

– forms medial surface of organ (Fig 25.10)
o lesser omentum = small pocket of mesentery between lesser curvature and liver

stomach

71
Q

• long greater curvature

A

forms lateral surface

o greater omentum = large pouch of mesentery hangs from greater curvature of stomach

72
Q

• divided into four regions

A

o cardia = superior and medial portion at the junction of the esophagus and stomach
o fundus = region superior to gastroesophageal junction that contacts the inferior and posterior surface of the diaphragm
o body = largest regions important for mixing ingested food with gastric secretions
o pylorus – divided into pyloric antrum – connected to body of stomach, and pyloric canal – connects to the duodenum (proximal segment of small intestine)
 pyloric sphincter – regulates release of chyme into duodenum

73
Q

• rugae

A

prominent longitudinal folds of mucosa in relaxed stomach – flattens as stomach expands

74
Q

• muscularis mucosa and muscularis externae

A

contain an extra muscular layer

o outer longitudinal layer, middle circular layer, inner oblique layer – strengthens and aids in mixing and churning

75
Q

• simple columnar epithelium

A

lines all regions of stomach
o secrete mucus that forms a sheet like covering of the luminal surface to protect the epithelium from acids and enzymes in the gastric lumen

76
Q

• gastric pits

A

small depressions of the mucosa (Fig 25.12)
o mucous necks cells and at neck (top of) gastric pits
 regenerative stem cells replace mucous cells that are continuously shed into the lumen

77
Q

• gastric glands (

A

continuations of gastric pits into the lamina propria of the fundus and body of stomach
o simple branched tubular glands that contain 4 types of secretory cells

 mucous neck cells

78
Q

 mucous neck cells

A

at the entry to the gland = simple columnar epithelial cells
• secrete mucus
 parietal (oxyntic) cells

79
Q

 parietal (oxyntic) cells

A

– along the sides of the gland = pyramid-shaped cells
• secrete hydrochloric acid and intrinsic factor
o HCl lower pH of gastric juice, kills microorganisms and activates secretions of chief cells
o intrinsic factor – protein required to protect and help absorb vitamin B12

80
Q

 chief (zymogen) cells

A

columnar cells at the base of the gland
• secrete pepsinogen – an inactive enzyme that is activated to pepsin by the low pH in the lumen
• initiates protein digestion

81
Q

 enteroendocrine cells

A

– scattered between parietal and chief cells
• produce a variety of secretions depending on the region
• G cells – predominant in pyloric region – secrete hormone gastrin
o stimulates secretory activity of parietal and chief cells and promotes smooth muscle contraction
• S cells – in duodenal mucosa – secrete secretin = hormone that stimulates liver, pancreas and duodenal glands allowing release of HCO3- (bicarb) that neutralizes the acid
• I cells – in duodenal mucosa - secrete cholecystokinin (CCK) – inhibits gastric secretion and motility; enhances intestinal motility and secretions from liver and pancreas

82
Q

• production of acid and enzymes by gastric mucosa controlled:

A

o directly by autonomic nervous system (increased by parasympathetic activity and decreased by sympathetic activity)
o indirectly by local hormones released in response to food in the stomach (e.g. gastrin)

83
Q

• gastritis

A

inflammation of the gastric mucosa
o can develop after swallowing drugs, alcohol, aspirin; severe emotional or physical distress, bacterial infections, ingestion of strong acid or alkaline chemicals

84
Q

Helicobacter pylori

A

bacterium associated with ulcer formation = distinct erosion of the stomach lining
 symptoms = burning pain and bleeding
 responsible for 50-80% of gastric ulcers and 95% of duodenal ulcers
 treated by antacids (neutralize acid), drugs that inhibit acid production, dietary restrictions (limit intake of acidic beverages and eliminate foods that promote acid production (caffeine, spices) and limit alcohol consumption (damage mucosal cells))

85
Q

o peptic ulcer

A

erosion by digestive juices and enzymes in the proximal portions of the small intestine
 due to excessive exposure to acid or inadequate production of alkaline mucus (that neutralizes acidic chyme)

86
Q

Small Intestine

A

• approximately 6 m (20 ft) in length – position stabilized by mesenteries attached to dorsal body wall
o blood vessels, nerves and lymphatics reach segments of small intestine through mesenteries
o parasympathetic innervation via vagus nerve; sympathetic innervation via fibers from superior mesenteric ganglion

87
Q

primary role of small intestine

A

• primary role = digestion and absorption of nutrients

o 90% of nutrient absorption occurs in small intestine

88
Q

small intestine contains

A

o circular folds (plicae circularis) = series of transverse folds of mucosa that greatly increases surface area (Fig 25.14, 25.15)
o intestinal villi = finger-like projections of mucosa (Fig 25.14)
 covered by simple columnar epithelium with scattered mucus secreting goblet cells
 microvilli = extensions of the plasma membrane on the apical surface of epithelial cells

o intestinal crypts = indentations at the bases of the villi
 base contains stem cells that continuously divide to replace cell on the surface that are continuously shed
 enteroendocrine cells – produce several enzymes and hormones
o lamina propria – contains numerous lymphatic cells, extensive network of capillaries, nerve endings and a terminal central lacteal
 lacteal = wide terminal lymphatic vessel that transports large lipid-protein complexes (chylomicrons) that cannot enter the capillaries

89
Q

3 subdivisions of small intestine

A

o duodenum
o jejunum
o ileum

90
Q

o duodenum

A

shortest (25 cm / 10 in) and widest portion of small intestine that is connected proximally to the pylorus of the stomach
 entry of chyme into the duodenum regulated by the pyloric sphincter
 hepatopancreatic ampulla = muscular chamber formed from bile duct (delivers bile from the liver) and pancreatic duct (delivers digestive enzymes from the pancreas) that enters ½ way along the length of the duodenum (Fig 25.21)
 submucosa contains duodenal submucosal (Brunner’s) glands (Fig 25.15) – produce alkaline mucous that protects epithelium and neutralizes acidic chyme

91
Q

o jejunum

A

2.5 m (8 ft) between duodenum and ileum

 performs bulk of chemical digestion and nutrient absorption

92
Q

o ileum

A

3.5 m (12 ft) that ends at the ileocaecal valve – control flow of materials from small intestine into large intestine
 aggregated lymphoid nodules (Peyer’s patches) = large masses of lymphatic tissue in the submucosa (Fig 25.15)
• especially abundant at distal end of ileum to protect against migration of resident E.coli in the lumen of the large intestine

93
Q

• neural reflexes involving

small intestine

A

submucosal and myenteric plexuses control movement of small intestine
o influenced by parasympathetic and sympathetic innervation

94
Q

what control the secretory output of the small intestine

A

• hormonal and CNS

95
Q

Large Intestine

A
  • 1.5 m (5 ft) begins at the ileum and ends at the anus
  • reabsorbs water and electrolytes
  • compacts contents into feces
  • absorbs important vitamins produced by bacterial action
  • stores fecal matter prior to defecation
  • wall thinner than small intestine and lacks villi
  • intestinal crypts deeper than small intestine and dominated by goblet cells
  • large lymphoid nodules scattered throughout lamina propria and extend into submucosa
  • materials move very slowly from cecum to transverse colon via peristaltic contractions and haustral churning
96
Q

what is more abundant than small intestine

A

• goblet cells more abundant than small intestine

97
Q

• mass movements

A

powerful contractions from transverse colon to rectum that happens a few times per day

98
Q

large intestine divided into 3 parts

A

cecum
colon
rectum

99
Q

o cecum

A

expanded pouch at entry into large intestine
 appendix (vermiform appendix) – attached to posteriomedial surface
• muscosa and submucosa dominated by lymphoid nodules

100
Q

o colon

A

 haustra = series of pouches in the wall of the colon
 taeniae coli = 3 longitudinal bands of smooth muscle
 omental appendices = sacs of fat along the serosa of the colon

101
Q

colon subdivied in4 regions

A
  • ascending colon – ascends along right lateral and posterior abdominal wall to inferior surface of liver
  • transverse colon – curves anteriorly from right to left – passes inferior to great curvature of stomach
  • descending colon – begins near the spleen and proceeds inferiorly along left side of abdomen
  • sigmoid colon = S-shaped curve that begins at the left iliac fossa and end at the rectum passing posterior to urinary bladder
102
Q

o rectum

A

= last 15 cm (6 in) of digestive tract
 anal canal – at distal end and contains small longitudinal folds
• hemorrhoids = veins in lamina propria and submucosa that become distended
 anus – contains stratified keratinized epithelium
• internal anal sphincter = thickened circular smooth muscle in muscularis externa – under involuntary control
• external anal sphincter = ring of skeletal muscle encircling distal end of anal canal – under voluntary control

103
Q

Liver

A

= largest visceral organ
• mainly in right hypochondriac and epigastric regions
• ability to regenerate after injury depending on appropriate vascular supply

104
Q

• liver important in metabolic regulation

A

o regulates circulating levels of carbohydrates, lipid and amino acids
o removes circulating toxins and metabolic waste products
o fat-soluble vitamins (A, D, K, and E) absorbed and stored in liver

105
Q

• liver important in hematological regulation

A

o large blood reservoir (receives 25% of cardiac output)
o removes old or damaged RBCs
o contributes to osmotic regulation by producing albumin
o makes many of the clotting factors, plasma transport proteins and complement proteins

106
Q

• synthesis and secretion of bile

A

o made by hepatocytes of liver and stored in gallbladder
o excreted into duodenum
= water, minor amount of ion, bilirubin (bile pigment derived from hemoglobin), lipids (known as bile salts)

107
Q

what is deep to visceral perineum

A

• tough fibrous capsule deep to visceral perineum

108
Q

how does the posterior wall looks like

A
  • anterior surface smooth and follows curve of body wall

* posterior surface contains impressions of stomach, small intestine, right kidney and large intestine

109
Q

liver : 4 lobes

A

right, left caudate and quadrate

110
Q

• falciform ligament

liver

A

division between left and right lobe

o round ligament - thickening along lower margin = remnants of fetal umbilical vein

111
Q

• blood delivery

A

= hepatic portal vein and hepatic artery proper

112
Q

• blood return

A

– hepatic veins drain into inferior vena cava

113
Q

• liver lobule

A

series of irregular plates of hepatocytes arranged like spokes of a wheel
o bile canaliculi = narrow channels between cells
o portal areas (hepatic triads) = locations where blood enters sinusoids from small branch of hepatic portal vein and hepatic artery and bile leaves via small branch of bile duct
o central vein – receives blood from sinusoids between plates
o Kupffer cells = phagocytic cells that along with endothelial cells line the sinusoids

114
Q

• right and left hepatic ducts

liver

A

collect bile from all the bile ducts of liver lobes join to form

115
Q

• common hepatic duct

A

leaves liver and can flow into
o common bile duct that empties into duodenum
o enter cystic duct that leads to gallbladder

116
Q

Gallbladder

A
  • hollow, pear-shaped muscular organ that stores and concentrates bile
  • contains mucosa with narrow folds (mucosal crypts), lamina propria and muscularis externa
117
Q

Pancreas

A
  • posterior to stomach extending laterally from duodenum toward spleen
  • covered by thin, transparent connective tissue capsule
  • has rich blood supply
118
Q

head, tail and body of pancreas

A

• head lies within the loop formed by the duodenum, body extends toward spleen, tail short and rounded

119
Q

pancreas :

what kind of secretion ?

A

• primary exocrine organ producing digestive enzymes

o compound tubuloacinar gland

120
Q

• partitions of connective tissue divide tissue into distinct lobules

A

o ducts branch repeatedly within lobule and end in pancreatic acini
 lined with simple cuboidal epithelium
 secrete mixture of water, ions and pancreatic digestive enzymes
• lipases digest lipids, carbohydrases (pancreatic amylase) digest sugars and starches, nucleases breakdown nucleic acids, and proteolytic enzymes (proteinases, peptidases) degrade proteins

121
Q

o pancreatic islets

A

o pancreatic islets = endocrine portion scattered between acini = 1% of gland

122
Q

• pancreatic duct

A

delivers secretions to duodenal ampulla