Exam 3: Diabetes Mellitus

Question 1

Tropic system

Answer 1

Hormones are stimulated by other hormones.

Question 2

Diabetes Mellitus

Answer 2

Is a multisystem disease affecting carbohydrates, protein and fat metabolism, related to abnormal insulin production and impaired insulin utilization.

Question 3

Insulin is produced by

Answer 3

By beta cells of the islets of langerhan of the pancreas

Question 4

The effect of insulin is to

Answer 4

Decrease blood sugar.

Question 5

Counter Regulatory Hormones Opposed to Insulin include

Answer 5

o Glucagons
o Epinephrine
o Growth Hormone
o Cortisol

Question 6

Too much cortisol can lead to

Answer 6

Hyperglycemia

Question 7

Type I Diabetes Mellitus

Answer 7

Formerly known as “juvenile onset” or “insulin dependent”, most often occur to people who are under 30 years old (11-13)

Question 8

Pathophysiology of Diabetes Mellitus Type I

Answer 8

o Progressive destruction of pancreas B cell d/t autoimmune process
o Develop when the persons pancreas can no longer produce insulin

Question 9

Type II Diabetes Mellitus

Answer 9

• Most prevelant type of diabetes
• Usually occurs in people over 40 years old
• Known as “adult onset”

Question 10

Pathophysiology of Diabetes Mellitus Type II

Answer 10

o Type 2 produces some endogenous insulin.

o The insulin produced is insufficient for the needs of the body or is poorly utilized by the cell or the tissue.

Question 11

3 Metabolic Abnormalities of Diabetes Mellitus Type II

Answer 11

1. Insulin resistance.
2. Decreased ability of the pancreas to produce insulin.
3. Inappropriate glucose production by the liver.

Question 12

Gestational Diabetes

Answer 12

Diabetes that develops during pregnancy (24-28 gestation)

Secondary Diabetes

Question 13

Secondary Diabetes

Answer 13

Diabetes Mellitus due to treatment that produces diabetes. E.g Parenteral nutrition, prednisone and Dilantin.

Question 14

Clinical Manifestations of Diabetes Mellitus Type I

Answer 14

• Polyuria
• Polydipsia
• Polyphagia
• Weight loss
• Weakness and fatigue

Question 15

Diagnostic Studies for DM

Answer 15

• Fasting plasma glucose
• Random or casual plasma glucose
• 2 hour OGTT (oral glucose tolerance test)
• Glycosylated hemoglobin

Question 16

Collaborative Care Goals for DM

Answer 16

• Reduce symptoms
• Promote wellbeing
• Prevent acute complications of hypoglycemia
• Delay onset and progression of long-term complications

Question 17

Focus of Collaborative Care for DM

Answer 17

• Patient Teaching: anticipatory guidance
• Nutritional Therapy
• Drug Therapy: Insulin & Oral hypoglycemic
• Exercise
• Self-monitoring of blood glucose

Question 18

2 Types of Glucose Lowering Agents

Answer 18

1. Insulin

2. Oral hypoglycemic

Question 19

Exogenous Insulin

Answer 19

• Is required for the management of type I diabetes.
• May be given with type II diabetes if glucose cannot be controlled especially during periods of severe stress, such as illness or surgery.
(Stress releases hormones that can stimulate glycolysis for energy = increased glucose in blood. “Fight or flight” response.)

Question 20

Types of Insulin

Answer 20

1. Rapid Acting Insulin (Humolog, Novolog)
2. Short Acting Insulin (Regular)
3. Intermediate Acting Insulin (NPH/Lente)
4. Long Acting (ultralente)
5. Long Acting (lantus)

Question 21

Onset, Peak and Duration: Rapid Acting Insulin

Answer 21

Onset: 15 min
Peak: 60-90 min
Duration: 3-4 hours

Question 22

Onset, Peak and Duration: Short Acting Insulin (Regular)

Answer 22

Onset: 1/2 - 1 hour
Peak: 2-3 hours
Duration: 4-6 hours

Question 23

Onset, Peak and Duration: Intermediate Acting Insulin

Answer 23

Onset: 2 hours
Peak: 6-8 hours
Duration: 12-16 hours

Question 24

Onset, Peak and Duration: Long Acting Insulin (ultralente)

Answer 24

Onset: 2 hours
Peak: 16-20 hours
Duration: 24+

Question 25

Onset, Peak and Duration: Long Acting (lantus)

Answer 25

Onset: 1-2 hours
Peak: none
Duration: 24+

Question 26

What are the oral hypoglycemic agents used to treat DM?

Answer 26

• sulfonyloreas (1st generation: orinase, 2nd generation: micronase/glucotrol)
• Meglitinides (prancing)
• Biguanides (metformin/glucophage)
• Alpha glucosidase inhibitors
• Thiazolidinediones (avandia and something else)

Question 27

Sulfonyloreas

Answer 27

Orinase, Micronase, Glucotrol, Glyburide

Increases insulin production

Question 28

Meglitinides

Answer 28

Prandin

Increases insulin production in the pancreas.

Question 29

Biguanides

Answer 29

Metformin/Glucophage
Decreases glucose production by the liver.
Increases insulin sensitivity at the tissue.

Question 30

Alpha Glucosidase Inhibitors

Answer 30

Acarbose

• Decreases absorption of carbohydrates in the small intestine.
• Taken with the first bite of each meal

Question 31

Thiazolidinediones

Answer 31

Actos, Avandia

• Insulin sensitizers
• Increases glucose uptake in muscle; decreased endogenous glucose production.

Question 32

Nutritional Therapy for DM

Answer 32

• Person can eat the same food as non diabetics
• Meal planning based on the individuals food intake and balance with insulin and exercise
• Reduce total fat, saturated fat and simple sugar
• Spacing meal
• Weight reduction 5-7% to improve glycemic control

Question 33

Exercise for DM

Answer 33

• Increases insulin sensitivity thus lowering blood glucose level
• Regular reduces triglyceride in LDL

Question 34

Patient using hypoglycemic agent should schedule exercise

Answer 34

• 1 hour after meal or have 10-15 g carb before exercise

- Small carb snacks every 30 min during exercise.

Question 35

Nursing Therapeutics for DM: Health Promotion

Answer 35

Routine screening for diabetes for all over weight adults over 45

Question 36

Nursing Therapeutics for DM: Acute Interventions

Answer 36

o Control hyperglycemia in times of stress
o If glucose is greater than 240 mg/dL, urine should be tested for ketones
o Do not stop hypoglycemic agent/insulin during times of illness
o Patient on oral hypoglycemic can be given insulin 48 hours prior to surgery
o Monitor for s/s of hypoglycemia

Question 37

Nursing Therapeutics for DM: Ambulatory or Home Care

Answer 37

o Promote self care
o Provide emotional support
o Patient to wear medical identification

Question 38

Complications of DM

Answer 38

Arise from events associated with hyperglycemia and insufficient insulin
o	DKA (diabetic ketoacidosis)
o	HHNS (Hyperosmolar Hyperglycemia Non Ketotic Syndrome)

Question 39

Diabetic Ketoacidosis is caused by

Answer 39

Profound deficiency of insulin.

Question 40

DKA is characterized by

Answer 40

o Hyperglycemia
o Ketosis
o Acidosis
o Dehydration

Question 41

DKA: Clinical Manifestations

Answer 41

• Dehydration
• Tachycardia
• Lethargy
• Anorexia
• Kussmaul respirations: remove CO2 d/t increased ketones (decrease acidity)
• Acetone breath
• Arterial blood glucose above 250 mg/dL
• PH lower than 7.35

Question 42

DKA: Collaborative Care

Answer 42

• IV administration of rapid acting insulin
• IV fluids, electrolyte replacement, I&O
• Labs: glucose, ketones in urine
• ECG, Assess CV and Respiration
• Ensure patent airway
• O2 therapy
• IV fluid resuscitation with 0.9% NaCl 1L/hr until BP is stable and urine output of 30-60 ml/hr
• Insulin drip 0.1 u/kg/hr
• Potassium to correct hypokalemia/Bicarb pH < 7.0

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Question 43

HHNS

Answer 43

• Is life threatening
• Can occur in the patient with DM who is able to produce enough insulin to prevent DKA but not enough to prevent severe hyperglycemia osmotic diuresis and ECF depletion.
• Occurs with patient diagnosed of type II diabetes Mellitus.

Question 44

Collaborative Care for HHNS

Answer 44

• IV administration of 0.9% or 0.45% NaCl rate dependent on cardiac status
• Regular insulin given IV
• When blood sugar falls approximately 250 mg/dL, IVF is given with glucose to prevent hypoglycemia.

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Question 45

Other complications of DM

Answer 45

• Hypoglycemia
• Blood glucose drops to < 70 mg/dl
• Nephropathy
• Neuropathy
• Angiopathy
• Retinopathy

Question 46

Management of Hypoglycemia for a Conscious patient

Answer 46

o Administer 15-20g of quick carb (juice) 6-8 oz, soda, life saver, syrup or honey
o Repetition of tx 15 min if no improvement
o Long acting carb once glucose is above 70

Question 47

Management of Hyperglycemia for an Unconscious patient

Answer 47

o SQ or IM of 1 mg glucagons

o IV 50 mL of 50% glucose (need to make sure it is not infiltrated. Can be necrotizing.)

Question 48

What is a normal blood glucose?

Answer 48

70-120 mg/dL

Question 49

Insulin: Action

Answer 49

Promotes transportation of glucose from the blood to the cell -> decreases glucose in blood stream.

Question 50

Why is insulin called the anabolic/storage hormone?

Answer 50

Increased insulin after a meal leads to the conversion of glucose to glycogen in liver and muscle.
Gluconeogenesis is then inhibited leading to an increase in fat deposition of adipose tissue and increased protein synthesis.

Question 51

What tissues are dependent on insulin?

Answer 51

Skeletal muscle and adipose tissue

Question 52

The fall in insulin level during normal overnight fasting facilitates

Answer 52

The release of stored glucose from the liver, protein from muscle and fat from adipose tissue.

Question 53

Counter regulatory hormones to insulin work by

Answer 53

• increasing blood glucose levels by stimulating glucose production and output by the liver
• decrease the movement of glucose into the cells

Question 54

Glucagon

Answer 54

Made in alpha cells in the pancreas

Stimulates glycolysis and gluconeogenesis to increase glucose levels.

Question 55

Epinephrine

Answer 55

Released in response to stress -> fight or flight
Your body needs energy during fight or flight, energy comes from glucose so the result will be an increase in glucose levels.

Question 56

Cortisol

Answer 56

Natural corticosteroid from adrenal cortex released in response to stress.

Question 57

How do corticosteroids work?

Answer 57

• Increase glucose levels by hepatic gluconeogenesis and inhibits protein synthesis.
• Also, decreases glucose in fasting state and causes free fatty acids (comes from the breakdown of fatty acids)

Question 58

How is diabetes related to genetics?

Answer 58

Related to human leukocyte antigens (HLA).

Question 59

Idiopathic diabetes

Answer 59

Form of type 1 diabetes that is INHERITED

-Hispanic, African or Asian ancestry

Question 60

Latent autoimmune diabetes

Answer 60

• Slowly progression autoimmune form of type 1.

- People over the age of 35 and NOT obese

Question 61

What causes polyuria in diabetes Mellitus?

Answer 61

D/t increased blood glucose and release of more glucose from the kidneys. (Water wants to follow glucose so the release prevents water reabsorption)

Question 62

What causes polydipsia in diabetes Mellitus?

Answer 62

D/t decreased water reabsorption -> cellular dehydration

Question 63

What causes polyphagia in diabetes Mellitus?

Answer 63

D/t having no glucose in the cells -> cellular starvation

Question 64

What causes weight loss in diabetes Mellitus?

Answer 64

D/t cell starvation.

Fat and protein are used as an energy source.

Question 65

What causes weakness and fatigue in diabetes Mellitus?

Answer 65

D/t not having energy to utilize.

Question 66

What happens during the early stages of insulin resistance?

Answer 66

Hyperinsulinemia d/t pancreas responding to high glucose and secreting more insulin.

Question 67

How do adipokines lead to diabetes Mellitus?

Answer 67

Adipokines cause chronic inflammation -> insulin resistance -> Type II DM

Question 68

Clinical Manifestations of DM Type II

Answer 68

May have same symptoms as Type I

• Fatigue
• Recurrent infection
• Prolonged wound healing
• Visual changes
• Chronic O2 deficiency
• Neuropathy

Question 69

What causes visual changes in diabetes Mellitus?

Answer 69

Lens of the eye needs proteins to stay clear -> w/o protein the lean becomes opaque.
This happens because the body is using protein as energy source because it cannot use glucose d/t insulin insufficiency.

Question 70

What causes chronic O2 deficiency in DM?

Answer 70

D/t unmanaged glucose sticking to hemoglobin as manifested by clubbing.

Question 71

How does Cushing’s syndrome lead to DM?

Answer 71

Increased release of cortisol

Question 72

How does pancreatitis lead to DM?

Answer 72

Decreased insulin production.

Question 73

How can hyperthyroidism lead to DM?

Answer 73

Increased GI glucose absorption from hepatic gluconeogenesis

Question 74

Prediabetes: Impaired fasting glucose is

Answer 74

100-125 mg/dL

Question 75

Prediabetes: Impaired glucose tolerance test

Answer 75

140-199 mg/dL

Question 76

Fasting Plasma Glucose

Answer 76

No caloric intake for at least 8 hours.

If >126 mg/dL -> Diabetes

Question 77

Random or Casual Plasma Glucose

Answer 77

Any time of day without regard to the time of last meal.

If >200 + 3 P’s -> Diabetes.

Question 78

2 Hour Oral Glucose Tolerance Test

Answer 78

• Uses glucose load of 75 g -> Patient drinks juice and then blood glucose level is measured during a 2 hour period.
• If it remains >200 mg/dL -> Diabetes.

Question 79

What are factors that can falsely elevate OGTT?

Answer 79

Severe restriction of carbohydrates and activity like bed rest, acute illness and medications (contraceptives and corticosteroids)

Question 80

HgA1C

Answer 80

Measures the amount of glucose attached to hgb in its lifetime.
Shows overall glucose control for the past 90-120 days.

Question 81

For patients with diabetes, the ideal A1C goal is

Answer 81

<7%

Question 82

HgA1C indicates diabetes when

Answer 82

Levels are >6.5%.

Question 83

Basal insulin

Answer 83

Keeps blood glucose at a consistent level during periods of fasting.

Question 84

Bonus insulin

Answer 84

Taken at meal time to keep blood glucose under control following a meal.

Question 85

Insulin storage considerations

Answer 85

Left at room temperature for up to 4 weeks unless the room temperature is higher than 86 degrees F.
Extra should be stored in the refrigerator.

Question 86

Lipodystorphy

Answer 86

A condition that produces lumps and dent sin the skin from repeated injection in the same spot.

Question 87

Somogyi Effect

Answer 87

-A rebound effect in which an overdose of insulin induces hypoglycemia that leads to rebound hyperglycemia.
-Counter Regulatory hormones are released, stimulating lipolysis, gluconeogenesis, glycolysis which in turn produce rebound hyperglycemia and ketosis.
(Growth hormone, epinephrine, cortisol and glucagon are secreted)

Question 88

Dawn Phenomenon

Answer 88

• Hyperglycemia in the morning.
• Counterregulatory hormones are released during morning hours which lead to hyperglycemia -> growth hormone and cortisol are secreted.

Question 89

DM Patients undergoing surgery or radiography involving contrast medium are instructed to

Answer 89

Temporarily discontinue metformin before surgery or the procedure

Question 90

Hypoglycemia

Answer 90

Occurs when there is too much insulin.
Blood glucose drops to <70 mg/dL
Affects mental functioning.

Question 91

Hypoglycemia can mimic

Answer 91

Alcohol intoxication

Question 92

Nephropathy

Answer 92

Microvascular complication associated with damage to the small blood vessels that supply the glomeruli of the kidney.

Question 93

Neuropathy

Answer 93

Nerve damage that occurs because of the metabolic derangement associated with DM

Question 94

Angiopathy

Answer 94

Organ disease from damage to blood vessels secondary to chronic hyperglycemia

Question 95

Retinopathy

Answer 95

Refers to the process of microvascular damage to the retina as a result of chronic hyperglycemia, presence of nephropathy and HTN in patients with DM