Unit 9.1 Antidiabetics PDF

Summary

This document provides an overview of antidiabetic medications, including various types of insulin, and their implications for nursing practice. It includes information on diabetes mellitus, hemoglobin A1c, insulin administration, and different treatment approaches.

Full Transcript

Antidiabetics

NUR 210/BSL 101
Unit 9
DIABETES MELLITUS
Chronic disease of deficient glucose
metabolism
Insufficient insulin secretion from pancreatic beta
cells
Impaired insulin use
Major symptoms: polyuria, polydipsia, polyphagia
Types
Type 1 - insulin-dependent
Type 2 - insulin resistant
Body tissues do not respond to the action of
insulin.
Insulin receptors are unresponsive.
Insulin receptors are deficient in numbers.
Secondary - due to medications (glucocorticoids,
thiazide, diuretics, epinephrine)
Gestational - due to hormonal changes during
pregnancy
Hemoglobin A1c - HbA1c
Derivative of the interaction of glucose with
hemoglobin in red blood cells (RBCs)
Used for diagnosis of diabetes as
recommended by the ADA
RBCs have a lifespan of approximately
120 days - HbA1c level reflects the
average glucose level for up to 3 months
Treatment goal is to keep the diabetic Hemoglobin
client’s HbA1c below 7%
HbA1c level of 5% = no diabetes
5.7% to 6.4% indicates prediabetes
6.5% or greater = diabetes mellitus
 Action
Insulin promotes uptake of glucose, amino acids, and fatty acids
Promote use of glucose by body cells, store glucose as glycogen in
muscles and liver for future glucose needs
Use
Reduce blood glucose in diabetes
Galen values: 70-110
Hypoglycemia
Headache, dizziness, confusion, slurred speech, hunger, weakness
Nervousness, anxiety, agitation
Tremors, sweating
Insulin Flushing, lethargy
Redness, irritation or swelling at injection site
Adverse Reactions
Tachycardia, palpitations, hypoglycemic reaction
Shock, anaphylaxis, ketoacidosis
Interactions
Decreased glucose with aspirin, oral anticoagulants, alcohol, other
hypoglycemics, beta blockers
Increased glucose with thiazides, glucocorticoids, oral contraceptives,
thyroid drugs, smoking
Contraindications
Hypoglycemia
Allergy
Insulin Shock vs. Diabetic Ketoacidosis

Insulin Shock - Diabetic Ketoacidosis -
Hypoglycemic Reaction Hyperglycemic Reaction
Headache, lightheadedness Extreme thirst
Nervousness, apprehension, tremor Polyuria
Excess perspiration; cold, clammy skin Fruity breath odor
Tachycardia Kussmaul breathing (deep, rapid, labored,
distressed, dyspneic)
Slurred speech Rapid, thready pulse
Memory lapse, confusion, seizures Dry mucous membranes, poor skin turgor
Blood glucose 250 mg/dL
INSULIN TYPES
Rapid-acting - Insulin lispro (Humalog)
Onset of action (15-30 minutes)
Peak (30 minutes to 90 minutes)
Duration (3 to 5 hours)
Short-acting insulin (clear) - Insulin Regular
Onset of action (30 minutes)
Peak (1.5 to 3.5 hours)
Duration (4 to 12 hours)
INSULIN TYPES
Intermediate-acting (cloudy) - NPH Insulin
Onset of action (1 to 2 hours)
Peak (4 to 12 hours)
Duration (14 to 24 hours)
Long-acting - Insulin glargine
Onset of action (1 to 1.5 hours)
Duration (24 hours)
Administered at bedtime
Insulin Types - Combinations

Composed of short/intermediate acting or
rapid/intermediate acting
Humulin or Novolin 70/30 (NPH 70%,
insulin regular 30%)
NPH 50%, regular 50%
Can be mixed in other strengths
Have two onsets, two peaks, two durations
Knowledge Check

You have a client order for NPH and Lispro for 0800 AM and your client
is scheduled for a procedure at 1300 PM and will be NPO at lunch.
Which of the following is the correct action regarding administration of the
0800 insulin dose?
A. Hold both Lispro and NPH
B. Hold the Lispro and give NPH
C. Hold the NPH and give Lispro
D. Give both – monitor glucose, no interaction expected
 CGMs continually monitor your blood glucose (blood
sugar), giving you real-time updates through a device
that is attached to your body.
They have become popular and more accurate over
CONTINUOUS the years and are now considered a viable treatment
option for people with diabetes.
GLUCOSE MONITOR

American Diabetic Association
(2024)
Insulin Delivery Devices

Methods of insulin administration
Insulin pumps
Insulin pen injectors
Insulin jet injectors
Insulin Pump

Wireless Pump
Insulin Administration and Storage
Insulin – given SQ, absorbs faster in
abdomen
Only use insulin syringe - U-100
Do not shake insulin - roll
Do not apply heat or massage injection site
Keep unopened inulin in refrigerator
Remove from refrigerator 30 minutes
before injection to decrease tissue irritation
May store open insulin at room
temperature for 30 days or in the
refrigerator for 3 months
Avoid storing insulin in direct sunlight or at
high temperatures
 Adjusted doses dependent on individual blood
glucose
Usually done before eating and at bedtime
Usually uses rapid or short-acting insulin

Example
Sliding-Scale Insulin
151-200 2 units insulin lispro
201-250 4 units insulin lispro
251-300 6 units insulin lispro
301-350 8 units insulin lispro
Insulin Orders
Initial 70/30 Insulin Dosing
 Assessment
Take a medication/medical history
Assess the type of insulin and dosage
Vital signs
Blood glucose reading, A1C lab
Signs and symptoms of hypo/hyperglycemia
Nursing interventions/Teaching
Nursing process: Monitor vital signs and glucose levels, HgbA1c
Instruct client to report hypoglycemia and
Insulin hyperglycemia & that hypoglycemia more likely during
the peak time of insulin
Teach how to stop a hypoglycemic event
Encourage compliance with diet, insulin, exercise
Advise client to wear medical alert tag
Teach client how to check blood glucose
Teach client how to administer insulin and rotate sites to
prevent lipodystrophy
Lipodystrophy
 Onset of diabetes mellitus at age 40 years or older
Guidelines for Oral Diagnosis of diabetes for less than 5 years
Antidiabetic Therapy for Normal weight or overweight
Type 2 Diabetes Fasting blood glucose 200 mg/dL or less
Less than 40 units of insulin required per day
Normal renal and hepatic function
 Used to treat type 2 diabetes
Action (increases insulin)
Stimulates pancreatic beta cells to secrete more insulin
Decrease glucose production
Makes cells more receptive to insulin
Side Effects/Adverse reactions
Oral Antidiabetic Drugs Drowsiness, headache, confusion, visual disturbances,
GI disturbances, anxiety
Sulfonylureas Adverse Reactions
Glipizide Hypoglycemia, tachycardia
Seizures, coma respiratory depression
Contraindications
Liver or kidney dysfunction
Interactions
Alcohol – Antabuse type reaction
Beta blockers
Green tea – increases hypoglycemia
Many other
 Uses
Control blood sugar in type 2 diabetes
Action (decreases sugar)
Decrease hepatic production of glucose from stored
glycogen
Diminishes increase in serum glucose after meals
Oral Antidiabetic Drugs Decreases postprandial hyperglycemia
Biguanides Decreases glucose absorption from small intestine
Increases insulin receptor sensitivity
Metformin
Increases peripheral glucose uptake at the cellular level
Side effects/ Adverse reactions
Dizziness, fatigue, headache
Agitation
Bitter or metallic taste
Weight loss
GI symptoms – abdominal pain, bloating, discomfort
 Adverse Reactions
Hypoglycemia (not as common)
Lactic acidosis
Contraindications
Hold medication 48 hours before and after client
Oral Antidiabetic Drugs receives contrast dye or client may have lactic
Biguanides acidosis or acute renal failure
Hepatic/renal dysfunction
Metformin
Interactions
Many
IV contrast dye
Green tea increases hypoglycemia
Can cause liver dysfunction
Knowledge Check
Metformin is ordered daily for a client. He is scheduled for a CT scan at noon.
He had a dose this am. The nursing actions
A. proceed as planned
B. notify the MD to re-schedule the procedure
C. proceed and hold dose tomorrow
D. Reschedule for next week
SGLT2 Inhibitors - AKA Gliflozins
Lowers blood sugar levels by preventing kidneys from
reabsorbing sugar - extra sugar is excreted in urine
Indications
Type II diabetes
Reduce risk of CVD with T2D
Heart failure
Chronic kidney disease (without dialysis)
Pharmacokinetics
Oral administration - can be taken with food
Highly protein bound
Long half-life = daily dosing
Contraindications
Pregnancy
Bexagliflozin (Brenzavvy)
Chronic renal disease with dialysis
Side/Adverse Effects Canagliflozin (Invokana)
Volume depletion - frequent urination Dapagliflozin (Farxiga)
Genitourinary infections
Empagliflozin (Jardiance)
Decreased effect with rifampin, phenytoin,
phenobarbital, antivirals Ertugliflozin (Steglatro)
 Medication review
Diuretics
Medications that affect renal function
Nursing Implications/ Monitor blood glucose
Monitor kidney function
Client Teaching Administer at same time daily
SGLT2 Inhibitors Maintain hydration
Empagliflozin Monitor HgA1c for long-term effectiveness
(Jardiance) Contact provider if
Painful urination
Severe pelvic/back pain
Genital itching/discharge
Flu-like symptoms
Swelling, pain in feet lower extremities - exacerbation of
peripheral vascular disease associated with diabetes
Glucagon-Like Peptide Agonists (GLP-1 Agonists)
Agents that act like incretin hormones Dulaglutide (Trulicity) (weekly)
Bind to GLP-1 receptors and stimulate Exenatide extended release (Bydureon BCise) (weekly)
glucose dependent insulin release acting as Exenatide (Byetta) (twice daily)
an antihyperglycemic Semaglutide (Ozempic, Wegovy) (weekly)
Suppress appetite and inhibit glucagon Semaglutide (Rybelsus) (taken by mouth once daily)
secretion Liraglutide (Victoza, Saxenda) (daily)
Slow gastric emptying preventing steep rise Lixisenatide (Adlyxin) (daily)
in post-prandial blood glucose levels Tirzepatide (Mounjaro) (weekly)
Released after eating and augment the Albiglutide (Tanzeum) (weekly)
secretion of insulin released from pancreatic
beta cells
Stimulates pancreas to secrete insulin when
blood sugar levels are high
 Action
Enhance insulin secretion
Increase beta-cell responsiveness
Suppress glucagon secretion
Slow gastric emptying
Reduce food intake
GLP-1 Agonist Long half-life
Indications
Semaglutide Type 2 diabetes
(Ozempic/Rybelsus) Obesity
Cardiovascular disease
Administration
Weekly (Sub-Q); daily (oral)
Side Effects
Nausea, vomiting, diarrhea, constipation, heartburn, belching
Injection site itching, redness
Early satiety
 Adverse Effects
Hypoglycemia - low risk
Cholecystitis
Thyroid tumor
Tachycardia
Jaundice
Pancreatitis
GLP-1 Agonist Contraindications
Pregnancy
Semaglutide History of thyroid cancer - family or client
(Ozempic/Rybelsus) History of pancreatitis
Severe renal dysfunction
Cautions
Renal impairment
Interactions
Metformin/insulin - increased risk of hypoglycemia
Delayed gastric emptying may affect absorption of other drugs
Antidepressants - hypoglycemia
Antibiotics - hypoglycemia
 Use contraception in female client of childbearing age
Monitor HgA1c for long term effectiveness
Continue periodic glucose checks
Monitor renal function
GLP-1 Agonist
Client Teaching
Nursing Implications Injection technique
Signs/symptoms of hypoglycemia
Discontinue prior to elective procedures - decreases risk of
aspiration due to delayed gastric emptying
Diet/lifestyle modifications
Contact provider for severe abdominal pain,
signs/symptoms of jaundice
 Hyperglycemic hormone secreted by the alpha
cells of the islets of Langerhans
Increases blood sugar by stimulating
glycogenolysis in liver
Used to treat insulin-induced hypoglycemia when
other methods of providing glucose are not available
or client non-responsive
Hyperglycemic Agents Route of administration
Glucagon Parenteral use (subQ, IM, and IV)
Works in about 10 minutes