Pharm 18- Diabetic Drugs

Question 1

Where is the pancreas found?

Answer 1

“Tucked in” the angle formed by the gastric pylorus and the proximal duodenum

Question 2

Two functions of the pancreas

Answer 2

Exocine (various digestive enzymes)

Endocrine

Question 3

What does the endocrine pancreas produce?

Answer 3

Insulin ("fed" state)
Glucagon ("hungry" state)
Gastrin
Somatostatin
Many others

Question 4

What secretes insulin?

Answer 4

Beta cells

Question 5

What does insulin do?

Answer 5

causes blood glucose to go down (fed state, you want to stash that energy)

Question 6

What do alpha cells do? Where are they?

Answer 6

Endocrine pancreas; secrete glucagon which causes blood glucose to go up

Question 7

What do delta cells do? Where are they?

Answer 7

Endocrine pancreas; secrete somatostatin which regulates a lot of things

Question 8

What does the exocrine pancreas release?

Answer 8

Bicarb and digestive zymogens to break down fats and proteins

Question 9

Two types of Diabetes

Answer 9

Diabetes insipidus

Diabetes mellitus

Question 10

What is diabetes insipidus?

Answer 10

Doesn’t produce or kidneys don’t respond to vasopressin (ADH); produces a lot of dilute urine no matter how hydrated you are

Question 11

What are the types of diabetes mellitus?

Answer 11

Type 1
Type 2
Type 3 “Other” DM
Gestational DM

Question 12

All DM is characterized as an ___________ or _________ deficiency of what?

Answer 12

Absolute; relative; insulin

Question 13

Type 1 DM

Answer 13

Insulin-Dependent DM (IDDM)

Question 14

Type 2 DM

Answer 14

Non-Insulin Dependent DM (NIDDM)

Question 15

What is an absolute insulin deficiency?

Answer 15

Type 1 DM

Question 16

What is a relative insulin deficiency?

Answer 16

Type 2 DM

Question 17

What type of diabetes is classically childhood diabetes?

Answer 17

Type 1

Question 18

Age of Onset: Type 1 vs Type 2

Answer 18

Type 1: Usually during childhood or puberty

Type 2: Commonly over age 35

Question 19

Nutritional status at time of onset: Type 1 vs Type 2

Answer 19

Type 1: Commonly undernourished

Type 2: Obesity usually present

Question 20

Prevalence: Type 1 vs Type 2

Answer 20

Type 1: 5-10% of diagnosed diabetics

Type 2: 90-95% of diagnosed diabetics

Question 21

Genetic predisposition: Type 1 vs. Type 2

Answer 21

Type 1: Moderate

Type 2: Very strong

Question 22

Defect of deficiency: Type 1 vs Type 2

Answer 22

Type 1: B cells destroyed, eliminate production of insulin

Type 2: Inability of B cells to produce appropriate quantities of insulin; insulin resistance; other defects

Question 23

Which type of diabetes must receive insulin?

Answer 23

Type 1

Question 24

What are the 4 “Classic” symptoms of Type 1 DM

Answer 24

1. Polyphagia (eat a lot)
2. Polyuria (urinate a lot)
3. Polydipsia (drinking)
4. Weight loss
   Others (wounds wont heal, sexual dysfunction, blurred vision bc glucose builds up, etc)

Question 25

Which type of diabetes produce variable amounts of insulin and exhibit insulin resistance?

Answer 25

Type II DM

Question 26

What type of therapy does Type II DM typically require?

Answer 26

Increasing doses of insulin and combination therapy with other antihyperglycemics

Question 27

What causes Type 3 DM: “Other”? What is the course/tx?

Answer 27

Due to side effects of drugs, toxins, viral infections, genetic predisposition, etc.; variable in course/treatment

Question 28

When could Type 4 DM: Gestational occur?

Answer 28

Women may develop extreme insulin resistance during their third trimesters of pregnancy as a result of hormone changes

Question 29

How is Type 4 Diabetes controlled?

Answer 29

Controlled with insulin

Question 30

What happens is Type 4 diabetes is not controlled?

Answer 30

Can lead to extremely large babies, dystocia, and neonatal hypoglycemia

Question 31

Dystocia

Answer 31

difficult birth, typically caused by a large or awkwardly positioned fetus, by smallness of maternal pelvis or by failure of uterus and cervix to contract and expand normally

Question 32

What is insulin?

Answer 32

A small polypeptide consisting of two chains (A and B) connected by a disulfide bond.

Question 33

What is the half-life of insulin?

Answer 33

3-5 minutes

Question 34

Why are plasma insulin levels not an accurate measure of insulin production?

Answer 34

REmoved from the circulation so rapidly (3-5 minutes)

Question 35

What is a better guide for insulin production?

Answer 35

C-protein measurement

Question 36

C-Protein

Answer 36

31 amino acid peptide used to differentiate Type 1 DM from Type 2 DM

Question 37

What is the half-life of C-protein?

Answer 37

30 minutes

Question 38

How many x as much insulin in the blood stream?

Answer 38

5x as much in the blood stream

Question 39

What produces insulin?

Answer 39

B-cells in the pancreas in response to glucose (archetypical “fed state”)

Question 40

What does insulin’s main effect target tissues?

Answer 40

Liver, fat, muscle

Question 41

Insulin exhibits ________ effects on target tissues.

Answer 41

Anabolic

Question 42

Anabolic

Answer 42

construct molecules from smaller units

Question 43

What is insulin increasingly being used for by perfusionists? In conjunction with what?

Answer 43

Hyperkalemia therapy

Often in conjunction with glucose to drive potassium intracellularly

Question 44

What else can you do to lower potassium levels?

Answer 44

Dialysis (not really on bypass)
Z buf; hemoconcentrator
Bicarb will drive potassium intracellularly

Question 45

What types of protocols have become more common since perfusionists have started to seek much “Finer” control of glucose levels on bypass?

Answer 45

Insulin drip and anti-hyperglycemic protocols

Question 46

Types of insulin (Rapid onset/ short acting)

Answer 46

Regular insulin (Humulin R, Novolin R)
Insulin aspart (Novolog)
Insulin glulisin (Apidra)
Insulin Lispro (Humalog)

Given IV or SQ

Question 47

What insulin can be given IV on bypass?

Answer 47

Regular insulin (Humulin R, Novolin R)

Question 48

Types of insulin (Intermediate onset)

Answer 48

Neutral Protamine Hagedorn (NPH) insulin
(Humulin N, Novolin N)
Only given SQ

Question 49

Types of insulin (long acting)

Answer 49

Insulin glargine (Lantus)
INsulin detemir (Levemir)

Do not mix with other types of insulin

Question 50

Fatty-acid side-chain attachments allow long acting insulins to do what?

Answer 50

Cause them to bind albumin for longer action

Question 51

What is the goal of various mixtures compatible insulin?

Answer 51

MInimize hyper- and hypoglycemia

Question 52

ADA recommends diabetics’ blood glucose (BG) maintain a mean of what?

Answer 52

154 mg/ml

Question 53

Long-term BG measurement is via what?

Answer 53

Glycated (Glycosylated) Hb (HbA1c)

Question 54

Normal HbA1c

Answer 54

<5.7%

Question 55

DM target

Answer 55

<7.0%

Question 56

Injectable Antihyperglycemics

Answer 56

Pramlintide (Symlin); B-cells in the islets of langerhans made this

Question 57

What is Amylin?

Answer 57

A polypeptide released by the pancreas in conjuction with insulin

Question 58

How does Amylin work?

Answer 58

With insulin to moderate physiologic glucose levels by slowing gastric emptying and digestion

Question 59

Why is it important for digestion to be slowed in regards to Pramlintide (Symlin)?

Answer 59

Slow digestion allow Pramlintide (Symlin) to spread out glucose absoprtion over a longer period

Question 60

How is Pramlintide (Symlin) given?

Answer 60

SQ at meals

Question 61

What does Pramlintide (Symlin) cause?

Answer 61

Post-prandial satiety which has potential for future uses

Question 62

What are examples of Incretin Mimetics?

Answer 62

Exenatide (Byetta) - Short acting
Liraglutide (Victoza) - Long acting

Both given SQ prior to eating; side effects:GI

Question 63

What are incretins?

Answer 63

Hormones released by the GI tract post-prandially that stimulate the pancrease to release insulin, slow gastric emptying, decrease glucagon release, and encourage B-cell growth

Question 64

What are oral Insulin “Adjuncts”?

Answer 64

Often used as part of progressive combination therapy for Type 2 DM

Question 65

What are some oral insulin “Adjunct” examples?

Answer 65

Insulin Secretagogues
Insulin Sensitizers
Alpha-Glucosidase Inhibitors
Dipeptidyl Peptidase IV inhibitors
Sodium Glucose Co-Transporter Inhibitors (SGLT Inhibitors)

Question 66

How do insulin secretagogues work?

Answer 66

Increase B-cells production of insulin (so critter must still have functioning pancrease), lower hepatic glucose production and increase peripheral insulin sensitivity

Question 67

How do insulin sensitizers work?

Answer 67

Increase peripheral cellular sensitivity to insulin without increasing insulin secretion

Question 68

What do Biguanides work?

Answer 68

Prevents hepatic gluconeogenesis; this is very important because hepatic glucose production is the main source of excessive glucose in Type 2 DM

Question 69

What are biguanides often used in combination with?

Answer 69

Insulin or other oral antiglycemics

Question 70

What is a very common side effect with biguanides?

Answer 70

Diarrhea

Question 71

Thiazolidinediones

Answer 71

Increase intracellular receptors in skeletal muscle, liver, and adipose tissue to become more sensitive to endogenous insulin

Question 72

What are side effects of thiazolidinediones?

Answer 72

Weight gain, liver damage, and increased CV risks

Question 73

How do alpha-glycosidase inhibitors work?

Answer 73

Reversibly inhibiting an enzyme in the small intestines that helps digest polysaccharides into simple sugars. This delays complex sugar digestion which spreads out the post-prandial blood glucose spike. Don’t cause hypoglycemia by themselves but will contribute significantly in the combination RX

Question 74

How do dipeptidyl peptidase-IV inhibitors work?

Answer 74

Work at the cellular level to increase post-prandial insulin release while inhibiting glucagon (insulin’s physiologic antagonist )release

Question 75

SGLT

Answer 75

Sodium Glucose Co-Transporter Inhibitors (SGLT Inhibitors)

Question 76

SGLT2

Answer 76

Low affinity, high capacity transport mechanism in the proximal tubule; designed to capture glucose lost in the renal filtration

Question 77

SGLT2 Inhibitors

Answer 77

Glucose freely lost in the urine with fairly predictable side effects

Question 78

Why was dapaglifozin (Farxiga) not approved in the US?

Answer 78

6-fold increase in bladder cancer; but still extensively used in Europe; Astra Zenica got it approved