histamine/PG COPY

Question 1

loratadine

Answer 1

second gen H1 blocker

• H1 receptor mediated response
  
  • Nervous system
    
    • Uticarial response, insect stings
    • Reqpiratory neuron signaling
  • CV
    
    • Vasodilation mediated by increased NO release (very similar to how ACH cuases reaction in vascular endothelium)
    • Reflex tachycardia
    • Edema: increased permeability of post capillary vessels
  • Bronchiolar SM
    
    • Bronchoconstriction (particularly in asthmatic patients)
  • GI smooth muscle
    
    • Contraction of intestinal smooth emucels (high doses produce diarrhea)

Question 2

misoprostol

Answer 2

PGE1 analogue

1st and 2nd trimester abortion

• Misoprostol - Methyl analog of PGE1
  
  • Binds to PG receptors on parietal cells to inhibit acid secretion
    
    • NSAIDs inhibit production of PG - but you can replace the PG in the stomach to stop the ulcers from forming
  • Use
    
    • Prevent NSAIDs ulcers from forming
  • AE
    
    • Diarrhea and abdominal pain
  • May cause abortion by stimulating uterine contractions
• Misoprostol (PGE1 derivative) - cryoprotective

Reatment of ulcer approved for the treatment of NSAID induced ulcer

Combined with mifepristone for terminating early pregnancy

Question 3

nedocromil

Answer 3

histamine release inhibitors

• Three main things that use it
  
  • Basophils/mast cells
    
    • High levels in potential sites of injury (nose, mouth, feet, blood vessels)
    • Cross linking of IgE on surface (via antigens) cause degranulation
      
      • There is feedback on the H2 receptors to inhibit more release
    • Released histamine
      
      • Type 1 allergic reactions - hay fever, acute uticaria
      • Inflammatory and immune modulation
        
        • Blood vessel dialation
        • Complement activation
        • Cytokine release
        • T cell and B cell modulation
  • Brain
    
    • Neurotransmitter function
  • Enterochromaffin like cells (ECL) in stomach
    
    • Activate acid production
  • Chemical induced histamine release
    
    • Morphine and tubocurarine
    • Compound 48/80
      
      • Drug used in the lab - it just makes the mast cells release histamine
    • Mast cell injury
• There is no clinical use of histamine - toxic effects overshadow clinical benefit
• How to modulate histamine clinicaly
  
  • Phsyiologic counteraction - epinephrine
  • Inhibitors of histamine release: cromolyn
  • Pharamcologic blockade of histamine receptros
    
    • Block them with antagonists

Question 4

ziluteon

Answer 4

leukotriene inhibitor

asthma

Question 5

ranitidine

Answer 5

H2 blocker

• H2 receptor mediated response
  
  • CV
    
    • Higher dosese of histamine - cAMP dependent vasodilation and direct cardiac stimulation
      
      • Increase contractility and HR
    • H2 antagonists have little effect on cardiac function - you would have to give them in really high concentrations
  • Secretory tissue
    
    • Stimulation of parietal cells - gastric acid secretion
    • Ranitidine, cimetidine, nizatidine, famotidine
• Clinical uses of H2 receptor antagonists
  
  • Reduceing gastric acid secretion
    
    • PUD, GERD,
  • Effective doses generally don’t impact
    
    • Intesitnal secretion
    • Other peripheral H2 receptor mediated effects (HR etc)

Question 6

CHLORPHENIRAMINE

Answer 6

first gen H1 blocker

• H1 receptor mediated response
  
  • Nervous system
    
    • Uticarial response, insect stings
    • Reqpiratory neuron signaling
  • CV
    
    • Vasodilation mediated by increased NO release (very similar to how ACH cuases reaction in vascular endothelium)
    • Reflex tachycardia
    • Edema: increased permeability of post capillary vessels
  • Bronchiolar SM
    
    • Bronchoconstriction (particularly in asthmatic patients)
  • GI smooth muscle
    
    • Contraction of intestinal smooth emucels (high doses produce diarrhea)

Question 7

clemastine

Answer 7

first gen H1 blocker

• H1 receptor mediated response
  
  • Nervous system
    
    • Uticarial response, insect stings
    • Reqpiratory neuron signaling
  • CV
    
    • Vasodilation mediated by increased NO release (very similar to how ACH cuases reaction in vascular endothelium)
    • Reflex tachycardia
    • Edema: increased permeability of post capillary vessels
  • Bronchiolar SM
    
    • Bronchoconstriction (particularly in asthmatic patients)
  • GI smooth muscle
    
    • Contraction of intestinal smooth emucels (high doses produce diarrhea)

Question 8

rofecoxib

Answer 8

cox2 inhibitor (discontinued)

Question 9

brompheniramine

Answer 9

first gen H1 blocker

• H1 receptor mediated response
  
  • Nervous system
    
    • Uticarial response, insect stings
    • Reqpiratory neuron signaling
  • CV
    
    • Vasodilation mediated by increased NO release (very similar to how ACH cuases reaction in vascular endothelium)
    • Reflex tachycardia
    • Edema: increased permeability of post capillary vessels
  • Bronchiolar SM
    
    • Bronchoconstriction (particularly in asthmatic patients)
  • GI smooth muscle
    
    • Contraction of intestinal smooth emucels (high doses produce diarrhea)
• These are all good at blocking the receptors - but the two generations are differetn in a few ways
  
  • 2nd gen don’t cross BBB - can relieve seasonal allergies without CNS issues
  • Many of the 1st gens have strong anticholinergic activity - this is primarily what cuases the CNS sedation, its also what makes some of them good at preventing motion sickness
  • Duration of action: 1st gen (4-6 hours), 2nd gen (12-24 hours)
• Tox
  
  • Sedation
  • Antimuscarinic: urinary retention, blurred vision

Question 10

dinoprostone

Answer 10

PGE2

given vaginally for abortion

can also be used to incue labor

Question 11

fexofenadine

Answer 11

second gen H1 blocker

• H1 receptor mediated response
  
  • Nervous system
    
    • Uticarial response, insect stings
    • Reqpiratory neuron signaling
  • CV
    
    • Vasodilation mediated by increased NO release (very similar to how ACH cuases reaction in vascular endothelium)
    • Reflex tachycardia
    • Edema: increased permeability of post capillary vessels
  • Bronchiolar SM
    
    • Bronchoconstriction (particularly in asthmatic patients)
  • GI smooth muscle
    
    • Contraction of intestinal smooth emucels (high doses produce diarrhea)

Question 12

ketorolac

Answer 12

NSAID

Question 13

azelastine

Answer 13

Second gen H1 blocker

• H1 receptor mediated response
  
  • Nervous system
    
    • Uticarial response, insect stings
    • Reqpiratory neuron signaling
  • CV
    
    • Vasodilation mediated by increased NO release (very similar to how ACH cuases reaction in vascular endothelium)
    • Reflex tachycardia
    • Edema: increased permeability of post capillary vessels
  • Bronchiolar SM
    
    • Bronchoconstriction (particularly in asthmatic patients)
  • GI smooth muscle
    
    • Contraction of intestinal smooth emucels (high doses produce diarrhea)

Question 14

montelukast

Answer 14

leukotriene inhibitor

asthma

Question 15

meclizine

Answer 15

first gen H1 blocker

• H1 receptor mediated response
  
  • Nervous system
    
    • Uticarial response, insect stings
    • Reqpiratory neuron signaling
  • CV
    
    • Vasodilation mediated by increased NO release (very similar to how ACH cuases reaction in vascular endothelium)
    • Reflex tachycardia
    • Edema: increased permeability of post capillary vessels
  • Bronchiolar SM
    
    • Bronchoconstriction (particularly in asthmatic patients)
  • GI smooth muscle
    
    • Contraction of intestinal smooth emucels (high doses produce diarrhea)

Question 16

desloratadine

Answer 16

second gen H1 blocker

• H1 receptor mediated response
  
  • Nervous system
    
    • Uticarial response, insect stings
    • Reqpiratory neuron signaling
  • CV
    
    • Vasodilation mediated by increased NO release (very similar to how ACH cuases reaction in vascular endothelium)
    • Reflex tachycardia
    • Edema: increased permeability of post capillary vessels
  • Bronchiolar SM
    
    • Bronchoconstriction (particularly in asthmatic patients)
  • GI smooth muscle
    
    • Contraction of intestinal smooth emucels (high doses produce diarrhea)

Question 17

indomethacin

Answer 17

NSAID

Question 18

cetirizine

Answer 18

second gen H1 blocker

• H1 receptor mediated response
  
  • Nervous system
    
    • Uticarial response, insect stings
    • Reqpiratory neuron signaling
  • CV
    
    • Vasodilation mediated by increased NO release (very similar to how ACH cuases reaction in vascular endothelium)
    • Reflex tachycardia
    • Edema: increased permeability of post capillary vessels
  • Bronchiolar SM
    
    • Bronchoconstriction (particularly in asthmatic patients)
  • GI smooth muscle
    
    • Contraction of intestinal smooth emucels (high doses produce diarrhea)

Question 19

salicyclic acid

Answer 19

salicylate NSAID

Question 20

cimetidine, famotidine

Answer 20

H2 blocker

• H2 receptor mediated response
  
  • CV
    
    • Higher dosese of histamine - cAMP dependent vasodilation and direct cardiac stimulation
      
      • Increase contractility and HR
    • H2 antagonists have little effect on cardiac function - you would have to give them in really high concentrations
  • Secretory tissue
    
    • Stimulation of parietal cells - gastric acid secretion
    • Ranitidine, cimetidine, nizatidine, famotidine
• Clinical uses of H2 receptor antagonists
  
  • Reduceing gastric acid secretion
    
    • PUD, GERD,
  • Effective doses generally don’t impact
    
    • Intesitnal secretion
    • Other peripheral H2 receptor mediated effects (HR etc)

Question 21

oxaprozin

Answer 21

NSAID

Question 22

sulindac

Answer 22

NSAID

Question 23

promethazine

Answer 23

first gen H1 blocker

• H1 receptor mediated response
  
  • Nervous system
    
    • Uticarial response, insect stings
    • Reqpiratory neuron signaling
  • CV
    
    • Vasodilation mediated by increased NO release (very similar to how ACH cuases reaction in vascular endothelium)
    • Reflex tachycardia
    • Edema: increased permeability of post capillary vessels
  • Bronchiolar SM
    
    • Bronchoconstriction (particularly in asthmatic patients)
  • GI smooth muscle
    
    • Contraction of intestinal smooth emucels (high doses produce diarrhea)

Question 24

alprostadil

Answer 24

PGE1 (prostaglandin)

relaxes SM
keeps ductus arteriosis opens for neonates awating cardiac surgery

second line treatment for ED

Question 25

celecoxib

Answer 25

COX2 inhibitor

Question 26

diclofenac

Answer 26

NSAID

Question 27

nizatidine

Answer 27

H2 blocker

• H2 receptor mediated response
  
  • CV
    
    • Higher dosese of histamine - cAMP dependent vasodilation and direct cardiac stimulation
      
      • Increase contractility and HR
    • H2 antagonists have little effect on cardiac function - you would have to give them in really high concentrations
  • Secretory tissue
    
    • Stimulation of parietal cells - gastric acid secretion
    • Ranitidine, cimetidine, nizatidine, famotidine
• Clinical uses of H2 receptor antagonists
  
  • Reduceing gastric acid secretion
    
    • PUD, GERD,
  • Effective doses generally don’t impact
    
    • Intesitnal secretion
    • Other peripheral H2 receptor mediated effects (HR etc)

Question 28

naproxen

Answer 28

NSAID

Question 29

idophenpropit

Answer 29

H3 blocker

• H3 receptor mediated responses
  
  • Nervous system
    
    • Presynaptic H3 receptor activation modulates neurotransmitter release
  • Metabolic effects
    
    • Ongoing studies,

Question 30

cromolyn

Answer 30

histamine release inhibitors

• Three main things that use it
  
  • Basophils/mast cells
    
    • High levels in potential sites of injury (nose, mouth, feet, blood vessels)
    • Cross linking of IgE on surface (via antigens) cause degranulation
      
      • There is feedback on the H2 receptors to inhibit more release
    • Released histamine
      
      • Type 1 allergic reactions - hay fever, acute uticaria
      • Inflammatory and immune modulation
        
        • Blood vessel dialation
        • Complement activation
        • Cytokine release
        • T cell and B cell modulation
  • Brain
    
    • Neurotransmitter function
  • Enterochromaffin like cells (ECL) in stomach
    
    • Activate acid production
  • Chemical induced histamine release
    
    • Morphine and tubocurarine
    • Compound 48/80
      
      • Drug used in the lab - it just makes the mast cells release histamine
    • Mast cell injury
• There is no clinical use of histamine - toxic effects overshadow clinical benefit
• How to modulate histamine clinicaly
  
  • Phsyiologic counteraction - epinephrine
  • Inhibitors of histamine release: cromolyn
  • Pharamcologic blockade of histamine receptros
    
    • Block them with antagonists

Question 31

hydroxyzine

Answer 31

first gen H1 blocker

• H1 receptor mediated response
  
  • Nervous system
    
    • Uticarial response, insect stings
    • Reqpiratory neuron signaling
  • CV
    
    • Vasodilation mediated by increased NO release (very similar to how ACH cuases reaction in vascular endothelium)
    • Reflex tachycardia
    • Edema: increased permeability of post capillary vessels
  • Bronchiolar SM
    
    • Bronchoconstriction (particularly in asthmatic patients)
  • GI smooth muscle
    
    • Contraction of intestinal smooth emucels (high doses produce diarrhea)

Question 32

thioperamide

Answer 32

H3 blocker

• H3 receptor mediated responses
  
  • Nervous system
    
    • Presynaptic H3 receptor activation modulates neurotransmitter release
  • Metabolic effects
    
    • Ongoing studies,

Question 33

dimenhydrinate

Answer 33

first gen H1 blocker

• H1 receptor mediated response
  
  • Nervous system
    
    • Uticarial response, insect stings
    • Reqpiratory neuron signaling
  • CV
    
    • Vasodilation mediated by increased NO release (very similar to how ACH cuases reaction in vascular endothelium)
    • Reflex tachycardia
    • Edema: increased permeability of post capillary vessels
  • Bronchiolar SM
    
    • Bronchoconstriction (particularly in asthmatic patients)
  • GI smooth muscle
    
    • Contraction of intestinal smooth emucels (high doses produce diarrhea)

Question 34

Ibuprofen

Answer 34

NSAID

Question 35

chlorbenpropit

Answer 35

H3 blocker

• H3 receptor mediated responses
  
  • Nervous system
    
    • Presynaptic H3 receptor activation modulates neurotransmitter release
  • Metabolic effects
    
    • Ongoing studies,

Question 36

ketoprofen

Answer 36

NSAID

Question 37

piroxicam

Answer 37

NSAID

Question 38

valdecoxib

Answer 38

cox2 inhibitor (discontinued)

Question 39

aspirin

Answer 39

salicylate NSAID

Question 40

diphenhydramine

Answer 40

first gen H1 blocker

• H1 receptor mediated response
  
  • Nervous system
    
    • Uticarial response, insect stings
    • Reqpiratory neuron signaling
  • CV
    
    • Vasodilation mediated by increased NO release (very similar to how ACH cuases reaction in vascular endothelium)
    • Reflex tachycardia
    • Edema: increased permeability of post capillary vessels
  • Bronchiolar SM
    
    • Bronchoconstriction (particularly in asthmatic patients)
  • GI smooth muscle
    
    • Contraction of intestinal smooth emucels (high doses produce diarrhea)