GIS27 Diarrhoea - Nutritional, Fluid And Electolyte Consequences

Question 1

Fluid movement in the GI tract

Answer 1

Daily intake: 1-2 L fluid

Daily secretion (from salivary glands, stomach, bile, pancreas, small intestine) into lumen: 7L

• 85% of water and Na absorbed by small intestine
• about 1.5L enter the colon; 95% absorbed by large intestine
• overall 99% of fluid absorbed, 1% excreted in faeces

Question 2

Intestinal fluid absorption and secretion

Answer 2

• absorption and secretion go simultaneously

Absorption:

• predominates in ***Enterocytes
• most fluid absorption at ***jejunum
• water absorption is a passive process due to active electrolyte transport, esp Na

Secretion:
- secretion predominates in ***Crypt cells of small intestine and colon

—> normally absorption > secretion, resulting in net absorption
—> secretion > absorption —> diarrhoea

Question 3

Route of absorption

Answer 3

1. Paracellular:
   Transmucosal movement of **H2O and **ions through:

• Tight junctions:
  —> impermeable to macromolecules
  —> permeability (leakiness of epithelium) to H2O and ions varies —> ***higher in duodenum, lower in colon
• Lateral intercellular spaces

Difference in ionic composition and osmolality between lumen and plasma depends on leakiness (higher difference for less leaky epithelium):
—> small intestine: leaky —> **isosmotic
—> large intestine: less leaky —> **conc gradient exist

2. Transcellular: across both apical and basolateral membranes

Question 4

Intestinal transport of electrolytes

Answer 4

Absorption:

• Na
• Cl
• K
• H2O

Secretion:

• Na
• Cl
• K

Question 5

Sodium absorption by intestine (transcellular only)

Answer 5

• Na salts (main driving force) account for most of the actively absorbed solutes in chyme
• 95% reabsorbed, remainder excreted
• absorbed along entire length of intestine
• mostly in **small intestine, highest rate in **jejunum
• rate ***enhanced by glucose, galactose and amino acids presence in the lumen

Mechanism in small intestine:

Apical membrane:

1. ***Co-transport with organic solutes e.g. glucose, a.a (secondary active transport of glucose by low [Na] in cell created by Na/K-ATPase)
2. Na/H exchanger + HCO3/Cl exchanger

Basolateral membrane:
1. ***Na/K-ATPase

Mechanism in colon:

Apical membrane:

1. Diffusion through ***ENaC channel
2. Na/H exchanger + HCO3/Cl exchanger

Basolateral membrane:
1. ***Na/K-ATPase

Question 6

Chloride absorption + HCO3 secretion (trans + paracellular)

Answer 6

1. Paracellular
   - ***paracellular diffusion of Cl
   —> Na absorption provides electrical potential difference (less +ve charge in lumen —> negativity repel Cl into blood via paracellular route)
2. Transcellular
   - ***Cl/HCO3 exchanger (generation of HCO3 within cell by hydration of CO2 which is catalysed by carbonic anhydrase) (Cl into cell, HCO3 into lumen)
   —> coupled to Na transport through the Na/H exchanger (Na into cell, H into lumen)

Question 7

H2O absorption (trans + paracellular)

Answer 7

• almost 99% H2O and ions in ingested food and GI secretions are absorbed
• mostly in small intestine
• H2O absorption is ***secondary and dependent on solute absorption —> passive, driven by osmotic forces
• largely determined by
  1. **permeability of apical and basolateral membrane
  2. **paracellular pathways to H2O

Small intestine

• leaky epithelium
• ***solvent drag (bulk transport)
• isotonic absorption

Large intestine

• tight epithelium
• ***hypertonic absorption (H2O absorption slower than solute absorption)
• lumen become hypotonic (cell is more hypertonic)

Question 8

Intestinal secretion of NaCl and H2O (trans + paracellular)

Answer 8

Secretion of NaCl and H2O by ***Crypt cells in small and large intestine

• secretion stimulated after meals, assists in digestion and absorption
• secretagogues stimulated by Ca (ACh) / cAMP (Secretin)

Basolateral membrane:
1. NaKCl2 co-transport (**NKCC1) allows neutral influx of Na, K and Cl into cell
—> energy dependent; coupled to **Na/K-ATPase

Apical membrane: 2 types of Cl channels

1. **Ca activated Cl channels (stimulated by **ACh)
2. **cAMP activated Cl channels (cystic fibrosis transmembrane conductance regulator **CFTR) (stimulated by Secretin)
   —> activated by phosphorylation mediated by cAMP-dependent protein kinase A
   —> identical to Cl channel in apical membrane of pancreatic acinar cells
   —> ***Cystic fibrosis: impaired intestinal + pulmonary + pancreatic secretion

Paracellular:

1. Na into lumen via paracellular pathway (***follow Cl movement)
2. H2O flows along ***osmotic gradient

Question 9

Potassium absorption (paracellular) + secretion (transcellular)

Answer 9

K absorption (luminal K: from diet + secretory fluid):
- Passive diffusion through ***paracellular pathway (caused by absorption of H2O)

K secretion (active secretion in colon):

• Basolateral membrane: ***Na/K ATPase
• Apical membrane: permeable to K, K exit at apical membrane
• ***Aldosterone stimulate colonic Na reabsorption and K secretion

Question 10

Balance between absorption and secretion

Answer 10

Importance of Secretion:

• assists in digestion and absorption (lubrication etc.)
• stimulated after meals

Normally:
—> Absorption rate > Secretion rate (net absorption)
—> Volume of fluid entering colon well below maximum absorptive capacity of colon

If secretion rate > absorption rate:
—> volume of fluid exceed absorptive capacity —> diarrhoea / loss of fluid

Question 11

Diarrhoea

Answer 11

• Increase daily stool weight >200g in adults, abnormal increase in stool liquidity and frequency
• secretion > absorption
• Acute: **<2 weeks, Chronic: **>1 month

Question 12

Causes of diarrhoea

Answer 12

1. Impaired absorption by small / large intestine
   —> inflammatory disease (Crohn’s)
   —> mucosal disease (Coeliac disease)
2. Secretory diarrhoea
   —> inflammation of small and large intestine from infection by virus / bacteria (enteritis)
   —> Enterotoxins from vibrio cholerae / E. coli
   —> Increased secretion of Cl ions by activation of CFTR
3. Osmotic diarrhoea
   —> presence of un-reabsorbable, osmotic solutes in gut lumen (lactase deficiency / lactose intolerance)
4. Increased intestinal motility
   —> accelerates transit through intestine —> limiting time available for absorption (IBS)

Question 13

Consequences of diarrhoea

Answer 13

1. Dehydration
2. Electrolyte + acid-base disturbances

• ***Hypokalaemia
  —> secretion of K in secretory diarrhoea
• ***Hyperchloraemic acidosis (少左Cl, 多左HCO3)
  —> increased secretion of HCO3 (metabolic acidosis)
  —> increased secretion of Cl stimulates Cl/HCO3 exchanger —> secretion of HCO3 couple to absorption of Cl —> hyperchloremia
• Hyper/Hyponatremia/no change in Na (depend on relative loss of Na and fluid replacement)
  3. Malnutrition
• bidirectional (acute diarrhoea make malnutrition worse)
  —> direct loss of protein + other nutrients
  —> poor appetite, vomiting, deliberate withholding of food resulting in poor intake
  —> malabsorption of macro and micronutrients, ↓ intestinal transit time during diarrhoea
• poor nutrition
  —> poor absorption of glucose and a.a
  —> less Na absorbed
  —> more serious and prolonged diarrhoea

Question 14

Oral rehydration therapy

Answer 14

• WHO reduced osmolarity of ORS formula
  —> ↓ need for unscheduled IV infusion, ↓ stool volume, ↓ vomiting, avoid osmotic diarrhoea
  —> concern: potential risk of Hyponatremia
• Glucose essential: ***promote absorption of Na and H2O in the intestine
• K: replaces ***large K loss associated with acute diarrhoea, preventing serious hypokalaemia
• Citrate: prevent correct ***base deficit acidosis

Question 15

***Summary

Answer 15

Na:

• **Absorption (transcellular):
  1. Co-transport with organic solutes (by Na/K ATPase)
  2. Na/H exchanger + Cl/HCO3 exchanger
  3. ENaC
  4. Na/K-ATPase

Secretion (trans + paracellular):

1. NKCC coupled to Na/K-ATPase
2. Na into lumen via paracellular pathway (follow Cl movement)

K:
Absorption (paracellular):
1. Passive diffusion (caused by absorption of H2O)

Secretion (colon; transcellular):

1. Na/K-ATPase
2. Apical membrane permeable to K

Cl:
Absorption (trans+paracellular):
1. Paracellular diffusion of Cl
2. Cl/HCO3 exchanger + Na/H exchanger (transcellular)

• **Secretion (transcellular):
  1. NKCC coupled to Na/K-ATPase
  2. Ca activated Cl channels (stimulated by ACh)
  3. cAMP activated Cl channels (cystic fibrosis transmembrane conductance regulator CFTR) (stimulated by secretin)

H2O:
Absorption (trans+paracellular):
1. Small intestine (leaky epithelium)
- solvent drag (bulk transport)
- isotonic absorption
2. Large intestine (tight epithelium)
- hypertonic absorption (H2O absorption slower than solute absorption)
- lumen become hypotonic

Secretion (paracellular):
1. Paracellular (H2O flows along osmotic gradient)

HCO3:
Secretion (transcellular):
***1. Cl/HCO3 exchanger + Na/H exchanger