"Pharmacology Oral Glycemics I & II Ruth Weinstock"

Question 1

What causes type 1 DM?

Answer 1

Autoimmune destruction of insulin- producing pancreatic beta cells
Insulin therapy is required

Question 2

How does a healthy pancreas work in the islets of Langerhans?

Answer 2

α-cells secrete glucagon • β-cells secrete insulin

Question 3

How do the islets of Langerhans work in a person with T2DM?

Answer 3

α-cells dysfunction: secrete inappropriately high levels of glucagon

Fewer β-cells: secrete insufficient levels of insulin

β-cell mass declines over time

T2DM Is Marked by Blunted Insulin Response and Inadequate Glucagon Suppression After Meals

Question 4

What are the functions of glucagon-like hormone (GLP-1)?

Answer 4

• Enhances glucose-dependent insulin secretion
• Slows gastric emptying
• Suppresses glucagon secretion
• Promotes satiety
• Receptors in the islet cells, CNS, elsewhere
• Metabolized rapidly (half-life 2-3 min) by DPP-4 (dipepetidyl peptidase-4)

Question 5

T/F: GLP-1 release is reduced in T2DM?

Answer 5

True

Without insulin, effect of eating produces hyperglycemia

Question 6

What is the first line pharmacological therapy for T2DM?

Answer 6

At the time of type 2 diabetes diagnosis, initiate metformin therapy along with lifestyle interventions, unless metformin is contraindicated

In newly diagnosed type 2 diabetes patients with markedly symptomatic and/ or elevated blood glucose levels or A1C, consider insulin therapy, with or without additional agents, from the
outset

Question 7

If noninsulin monotherapy is unsuccessful in the treatment of T2DM, what is the next step?

Answer 7

add a second oral agent, a GLP-1 receptor agonist, or insulin

Question 8

Class: Metformin

*Tx of Hyperglycemia in T2DM

Answer 8

Biguanide

Question 9

MOA: Metformin

*Tx of Hyperglycemia in T2DM

Answer 9

Reduces hepatic glucose production by Activating AMP-kinase and inhibits mitochondrial isoform of glycerophosphate dehydrogenase

Question 10

What are the advantages of metformin?

*Tx of Hyperglycemia in T2DM

Answer 10

No weight gain (weight neutral)
• No hypoglycemia
• Reduction in cardiovascular events and mortality
• Possibly less cancer

Question 11

What are the disadvantages of metformin?

*Tx of Hyperglycemia in T2DM

Answer 11

Gastrointestinal side effects (diarrhea, abdominal cramping, anorexia)
• Lactic acidosis (rare)
• Vitamin B12 deficiency

Question 12

In what patient population is metformin contraindicated?

*Tx of Hyperglycemia in T2DM

Answer 12

In patients with reduced kidney function

Question 13

Class: Glibenclamide/Glyburide

*Tx of Hyperglycemia in T2DM

Answer 13

Sulfonylureas (2nd generation)

Question 14

Class: Glipizide

*Tx of Hyperglycemia in T2DM

Answer 14

Sulfonylureas (2nd generation)

Question 15

Class: Gliclazide

*Tx of Hyperglycemia in T2DM

Answer 15

Sulfonylureas (2nd generation)

Question 16

Class: Glimepiride

*Tx of Hyperglycemia in T2DM

Answer 16

Sulfonylureas (2nd generation)

Question 17

What is the MOA of the sulfonylureas drugs?
•  Glibenclamide/Glyburide 
•  Glipizide
•  Gliclazide
•  Glimepiride

*Tx of Hyperglycemia in T2DM

Answer 17

Closes K-ATP channels on beta cell plasma membranes to increase insulin secretion

Question 18

T/F: The sulfonylureas drugs are well tolerated.

*Tx of Hyperglycemia in T2DM

Answer 18

True
•  Glibenclamide/Glyburide 
•  Glipizide
•  Gliclazide
•  Glimepiride

Question 19

What are the disadvantages of the sulfonylureas drugs?

*Tx of Hyperglycemia in T2DM

Answer 19

• Relatively glucose-independent stimulation of insulin secretion: Hypoglycemia, including episodes necessitating hospital admission and causing death
• Weight gain
• May blunt myocardial ischemic preconditioning

Question 20

Class: Repaglinide

*Tx of Hyperglycemia in T2DM

Answer 20

Meglitinides

Question 21

Class: Nateglinide

*Tx of Hyperglycemia in T2DM

Answer 21

Meglitinides

Question 22

MOA: Meglitinides (Repaglinide, Nateglinide)

*Tx of Hyperglycemia in T2DM

Answer 22

Same as the sulfonylureas: Closes KATP channels on β-cell plasma membranes to increase insulin secretion

Question 23

What are the advantages of the Meglitinides (Repaglinide and Nateglinide) over the sufonylureas drugs?

*Tx of Hyperglycemia in T2DM

Answer 23

Accentuated effects around meal ingestion (short- acting)

Question 24

What are the side effects of the Meglitinides (Repaglinide and Nateglinide)?

*Tx of Hyperglycemia in T2DM

Answer 24

• Hypoglycemia
• Weight gain
• May blunt myocardial ischemic preconditioning
• Dosing frequency (before each meal)

Question 25

Class: Pioglitazone

*Tx of Hyperglycemia in T2DM

Answer 25

Thiazolidinediones (Glitazones)

Question 26

MOA: Pioglitazone

*Tx of Hyperglycemia in T2DM

Answer 26

Activates the nuclear transcription factor PPAR-γ to increase peripheral insulin sensitivity

Question 27

What are the advantages of Pioglitazone?

*Tx of Hyperglycemia in T2DM

Answer 27

• No hypoglycemia
• HDL cholesterol ↑
• Triglycerides ↓
• Possible reduction in myocardial infarctions

Question 28

What are the disadvantages of Pioglitazone?

*Tx of Hyperglycemia in T2DM

Answer 28

• Weight gain
• Edema
• Heart failure
• Bone fractures
• Increased bladder cancer risk

Question 29

Class: Rosiglitazone

*Tx of Hyperglycemia in T2DM

Answer 29

Thiazolidinediones (Glitazones)

Question 30

Rosiglitazone is similar to pioglitazone in its MOA, but has different disadvantages. What are they?

*Tx of Hyperglycemia in T2DM

Answer 30

•  LDL cholesterol ↑ 
•  Weight gain
•  Edema
•  Heart failure
•  Bone fractures
•  Increased cardiovascular events (mixed
evidence)

Question 31

Rosiglitazone is contraindicated in patients with what condition?

*Tx of Hyperglycemia in T2DM

Answer 31

Heart disease

Question 32

Class: Acarbose

*Tx of Hyperglycemia in T2DM

Answer 32

α-Glucosidase inhibitors

Question 33

Class: Miglitol

*Tx of Hyperglycemia in T2DM

Answer 33

α-Glucosidase inhibitors

Question 34

MOA: α-Glucosidase inhibitors (Acarbose and Miglitol)

*Tx of Hyperglycemia in T2DM

Answer 34

Inhibits intestinal alpha-glucosidase in order to slow intestinal carbohydrate digestion and thus glucose absorption

Question 35

What are the advantages of the α-Glucosidase inhibitors (Acarbose and Miglitol)?

*Tx of Hyperglycemia in T2DM

Answer 35

• Nonsystemic medication
• Postprandial glucose ↓
• Weight neutral
• No hypoglycemia

Question 36

What are the disadvantages of the α-Glucosidase inhibitors (Acarbose and Miglitol)?

*Tx of Hyperglycemia in T2DM

Answer 36

• Gastrointestinal side effects (gas, flatulence, diarrhea, abdominal fullness and discomfort)
• Dosing frequency
• Modest reduction in A1c

Question 37

Class: Exenatide

*Tx of Hyperglycemia in T2DM

Answer 37

GLP-1 receptor agonists (incretin mimetics)

Dose Exenatide twice daily or weekly - injectible

Question 38

Class: Liraglutide

*Tx of Hyperglycemia in T2DM

Answer 38

GLP-1 receptor agonists (incretin mimetics)

Dose Liraglutide daily - injectible

Question 39

Class: Albiglutide

*Tx of Hyperglycemia in T2DM

Answer 39

GLP-1 receptor agonists (incretin mimetics)

Dose Albiglutide weekly - injectible

Question 40

Class: Dulaglutide

*Tx of Hyperglycemia in T2DM

Answer 40

GLP-1 receptor agonists (incretin mimetics)

Dose Dulaglutide weekly - injectible

Question 41

MOA: GLP-1 receptor agonists (incretin mimetics):
•  Exenatide
•  Liraglutide
•  Albiglutide
•  Dulaglutide

*Tx of Hyperglycemia in T2DM

Answer 41

Activates GLP-1 receptors to:
• Insulin secretion ↑ (glucose-dependent)
• Glucagon secretion ↓ (glucose-dependent)
• Slowsgastricemptying
• Satiety ↑

Question 42

What are the advantages of the GLP-1 receptor agonists (incretin mimetics)?
•  Exenatide
•  Liraglutide
•  Albiglutide
•  Dulaglutide

*Tx of Hyperglycemia in T2DM

Answer 42

Weight reduction;

Potention for improved beta-cell mass/function

Question 43

What are the disadtantages of the GLP-1 receptor antagonists (incretin mimetics)?
•  Exenatide
•  Liraglutide
•  Albiglutide
•  Dulaglutide

*Tx of Hyperglycemia in T2DM

Answer 43

• Gastrointestinal side effects (nausea, vomiting, diarrhea) • Cases of acute pancreatitis observed
• Hypoglycemia(less than sulfonylureas)
• Caution with renal insufficiency
• C-cellhyperplasia/medullary thyroid tumors in animals (liraglutide)
• Injectable
• Long-term safety unknown-
–increased pancreatic cancer

Question 44

Class: Sitagliptin

*Tx of Hyperglycemia in T2DM

Answer 44

DPP-4 inhibitors (incretin enhancers)

Question 45

Class: Alogliptin

*Tx of Hyperglycemia in T2DM

Answer 45

DPP-4 inhibitors (incretin enhancers)

Question 46

Class: Saxagiptin

*Tx of Hyperglycemia in T2DM

Answer 46

DPP-4 inhibitors (incretin enhancers)

Question 47

Class: Linagliptin

*Tx of Hyperglycemia in T2DM

Answer 47

DPP-4 inhibitors (incretin enhancers)

Question 48

MOA: DDP-4 inhibitors (incretin enhancers) (the gliptins)

*Tx of Hyperglycemia in T2DM

Answer 48

Inhibit DDP-4 activity to:
•  Active GLP-1 concentration ↑ and 
Active GIP concentration ↑
•  Insulin secretion ↑
•  Glucagon secretion ↓

Question 49

What are the advantages of DDP-4 inhibitors?
•  Sitagliptin
•  Alogliptin
•  Saxagliptin
•  Linagliptin 

*Tx of Hyperglycemia in T2DM

Answer 49

No hypoglycemia;

Weight neutral

Question 50

What are the disadvantages of the DDP-4 inhibitors?
•  Sitagliptin
•  Alogliptin
•  Saxagliptin
•  Linagliptin 

*Tx of Hyperglycemia in T2DM

Answer 50

• Occasional reports of urticaria/angioedema; URIs, headache, arthralgias
• Cases of pancreatitis observed
• Long-term safety unknown

Question 51

Class: Canaglifozin

*Tx of Hyperglycemia in T2DM

Answer 51

SGLT2 (sodium glucose cotransporter 2) inhibitor

Question 52

Class: Dapaglifozin

*Tx of Hyperglycemia in T2DM

Answer 52

SGLT2 (sodium glucose cotransporter 2) inhibitor

Question 53

Class: Empaglifozin

*Tx of Hyperglycemia in T2DM

Answer 53

SGLT2 (sodium glucose cotransporter 2) inhibitor

Question 54

MOA: SGLT2 (sodium glucose cotransporter 2) inhibitor
• Canagliflozin
• Dapagliflozin
• Empagliflozin

*Tx of Hyperglycemia in T2DM

Answer 54

Reduces glucose resorption in the kidney; α cell agonist in order to increase urinary glucos excretion and increase glucagon secretion

Question 55

What are the advantages of 
•  Canagliflozin 
•  Dapagliflozin 
•  Empagliflozin
?

*Tx of Hyperglycemia in T2DM

Answer 55

Ho hypoglycemia;

Weight loss possible

Question 56

What are the disadvantages of
•  Canagliflozin 
•  Dapagliflozin 
•  Empagliflozin
?

*Tx of Hyperglycemia in T2DM

Answer 56

• Volume depletion (hypotension, renal impairment); hyperkalemia; ketoacidosis
• Genital mycotic infections; UTIs
• Hypersensitivity; increased LDL-chol
• Reduced bone density, increased bone fracture risk
• Long-term safety unknown; avoid in renal insufficiency

Question 57

Class: Colesevelam

*Tx of Hyperglycemia in T2DM

Answer 57

bile acid sequestrant

Question 58

MOA: Colesevelam

*Tx of Hyperglycemia in T2DM

Answer 58

Reduces hepatic glucose production

Question 59

What are the advantages of Colesevelam?

*Tx of Hyperglycemia in T2DM

Answer 59

• No hypoglycemia

* LDL cholesterol ↓

Question 60

What are the disadvatages of colesevalem?

*Tx of Hyperglycemia in T2DM

Answer 60

•  Constipation
•  Triglycerides ↑
•  May interfere with absorption of other
medications
•  Modest reduction in A1c

Question 61

Hypoglycemia is most common when taking what medication?

Answer 61

• Most common with treatment with sulfonylurea drugs and insulin
• More common in type 1 vs. type 2 diabetes
• Increased risk if over 60 years old, impaired renal function, poor nutrition, liver disease, increased physical activity, longer duration of diabetes

Question 62

What is the preferred treatment for hypoglycemia?

Answer 62

• Glucose (15–20 g) preferred treatment for conscious individual with hypoglycemia
• Glucagon should be prescribed for all individuals at significant risk of severe hypoglycemia and caregivers/family members instructed in administration

Question 63

When is glucagon therapy indicated for hypoglycemia?

Answer 63

• Given only if unconscious or unable to swallow - patient never gives to self
• Turn on side - nausea, vomiting, call 911
• type 1 should always have prescription
• type 2 with previous severe low blood sugar

Question 64

How is severe hypoglycemia treated in a hospital setting?

Answer 64

IV dextrose

Question 65

What are some causes of oral therapy inadequacy in diabetes mgmt?

Answer 65

Dietary noncompliance;
Physical inactivity;
Stress;
Insulin resistance;
Simultaneous use of diabetogenic drugs;
Progressive beta-cell dysfunction (insulin deficiency)

Question 66

T/F: A1C can still rise 0.2-0.3% yearly with stable oral monotherapy

Answer 66

True

This rate is the same as for diet alone, sulfonylureas, and metformin treatment

Question 67

Amylin is a protein released with insulin from beta cells in response to eating. It is deficient in T1DM with variable levels in T2DM. What is its action?

Answer 67

– Slows gastric emptying
– Suppresses postprandial glucagon secretion
– May reduce appetite

Question 68

Class: Pramlintide

Answer 68

Amylin analog

Question 69

MOA: Pramlintide

Answer 69

• Reduces post-prandial glucose levels (inhibits glucagon production, slows gastric emptying)
• Use with short/rapidly acting insulin

Question 70

In what patient population if Pramlintide indicated?

Answer 70

For use in adults with insulin-requiring diabetes

Question 71

What is a major side effect of Pramlintide?

Answer 71

Significant risk of hypoglycemia

Question 72

What are the side effects of Pramlintide?

Answer 72

GI side effects, especially nausea;

Significant risk of hypoglycemia

Question 73

What are the advantages of Pramlintide?

Answer 73

May reduce appetite and promote weight loss

Question 74

When is insulin therapy indicated in patients?

Answer 74

All patients with T1DM;
T2DM with:
- Glucose toxicity
- Insufficient endogenous insulin production
- Contraindication to oral therapy
– Significant hyperglycemia at presentation
– Hyperglycemia on maximal doses of oral agents
Decompensation ie
– Acute injury, stress, infection, myocardial ischemia
– Severe hyperglycemia with ketonemia and/or ketonuria
– Uncontrolled weight loss
– Use of diabetogenic medications (eg, corticosteroids)
– Surgery
– Pregnancy
– Serious renal or hepatic disease

Question 75

Intermediate-acting insulin is also known as:

Answer 75

– NPH (N= neutral pH, P= protamine zinc,

H=origin in Hagedorn’s laboratory)

Question 76

Class:
Lispro insulin;
Aspart insulin;
Glulisine insulin

Answer 76

rapid-acting insulin analogs

amino acid changes speed absorption

Question 77

Class:
Detemir insulin (rDNA origin);
Neutral protamine insulin (NPL);
Neutral protamine aspart (NPA)

Answer 77

Intermediate-acting insulin analogs

Question 78

Class: Glargine insulin

Answer 78

Long-acting insulin analog (basal insulin)

Question 79

Class: Degludec insulin

Answer 79

Ultra-long acting basal insulin analog

Low 24 hour variability

Question 80

What is an advantage of degludec/aspart 70/30?

Answer 80

Reduced hypoglycemia compared with other premixed insulins

Question 81

What are the advantages of premixed insulin?

Answer 81

– Convenient
– Potentially longer shelf life – avoids problem of protamine-bound insulin exchanged with lispro/aspart/Regular
– Fewer dosing errors
– Simple (pens)

Question 82

T/F: Premixed insulins are rarely used in T1DM.

Answer 82

True

Question 83

What are the disadvantages of premixed insulins?

Answer 83

– Loss of flexibility in matching to
• Carbohydrate intake
• Physical activity
– Harder to treat short-term hi or low blood glucose levels
– Lack of clinical outcome data – Hypoglycemia risk

Question 84

When not in a hospital setting, insulin is typically administered how?

Answer 84

SubQ

Question 85

Inhaled insulin is contraindicated in what patient populations?

Answer 85

COPD and asthma

may cause FEV decrease;
long term risks unknown

Question 86

What are the regional differences in insulin absorption?

Answer 86

– Abdomen > arm > buttocks > thigh
– Rotate sites within region
– Use specific regions for specific times of day

Question 87

What is split-mix insulin therapy?

Answer 87

2x a day at breakfast and dinner, can include bedtime dose

Disadvantages
– Not very physiological
– Greater likelihood of nocturnal hypoglycemia given peak of presupper NPH
– Greater chance of fasting hyperglycemia

Question 88

What is the basal/bolus insulin concept?

Answer 88

• Basal insulin
– Suppresses glucose production between meals and
overnight
– Usually 40% to 50% of daily needs

• Bolus insulin (mealtime)
– Matched to carbohydrate intake, premeal glucose,
anticipated activity
– Limits hyperglycemia after meals
– Usually 10% to 20% of total daily insulin requirement at each meal

Question 89

What are the side effects of insulin therapy?

Answer 89

Hypoglycemia;
Weight gain;
Allergic rxn (local or systemic);
Liphypertrophy;
Lipoatrophy (atrophy of subcutaneous fat at the injection site)

Question 90

Continuous Subcutaneous Insulin Infusion (CSII) Systems infuse what kind of insulin?

Answer 90

rapid-acting

in-dwelling catheter

Question 91

What insulin therapy has shown the greatest reduction in A1C levels in those with the highest starting A1C?

Answer 91

Insulin pump therapy

• Glycemic control as good as with multiple daily injections if not better
• ↓ severe hypoglycemia, especially if history of severe hypoglycemia
• Good patient satisfaction
• Greater QOL and lifestyle flexibility
• More expensive than injection therapy

Question 92

What is “IOB?”

Answer 92

• Insulin-on-board (IOB): amount of insulin from last bolus not yet absorbed

Question 93

Define “stacking.”

Answer 93

Insulin bolus when there is IOB

Question 94

Define “sensitivity factor.”

Answer 94

Correction factor: amount of glucose lowering expected from one unit of insulin

Question 95

What are the major obstacles to optimal insulin therapy?

Answer 95

• Hypoglycemia
• Hyperglycemia
• Glycemic excursions/glucose variability

Question 96

When should patients monitor their glucose?

Answer 96

– Prior to meals and snacks
– Occasionally postprandially
– At bedtime
– Prior to exercise
– When they suspect low blood glucose
– After treating low blood glucose until they are normoglycemic
– Prior to critical tasks such as driving

Question 97

T/F: A normal A1C may be the result of hypoglycemic events in uncontrolled DM patients.

Answer 97

True - emphasizes the need for continuous BG monitoring

Question 98

What patients are candidates for CGM?

Answer 98

• Repeated hypoglycemia
• Hypoglycemic unawareness
• Discrepancies between A1C and SMBG • Pregnancy
• Unable to achieve goals

Question 99

Summarize treatment goals in T1DM.

Answer 99

•  Diet, physical activity, education 
•  Basal/bolus insulin therapy with:
– Multiple daily injections or
– Insulin pump therapy
•  Sensor-augmented insulin therapy in selected patients

Question 100

Summarize treatment goals in T2DM.

Answer 100

1. Diet, exercise and education
2. Unless contraindicated, metformin is the optimal 1st line drug
3. After metformin, combination therapy with 1-2 other oral/injectible agents is reasonable; minimize side effects
4. Ultimately, many patients will require insulin therapy alone or in combination with other agents to maintain BG control