Diabetes Student Notes PDF

Summary

These notes provide an overview of diabetes, including definitions, etiology, and pathophysiology for different types of diabetes, their respective complications. The material discusses normal insulin metabolism. The information within the document may serve as a helpful guide for students studying diabetes in a nursing context.

Full Transcript

Diabetes
(Lewis book chapter posted in Brightspace)

NURS 300
 Diabetes Definition
Chronic multisystem disease related to
Abnormal insulin production
Impaired insulin utilization
Or both
The long-term complications of diabetes make it a
devastating disease.
Diabetes is the leading cause of:
Adult blindness
End-stage renal disease
Nontraumatic lower limb amputations
Major contributing factor
Heart disease
Stroke
 Etiology and Pathophysiology
Two most common types
Type 1
Type 2

Other types
Gestational
Prediabetes
Secondary diabetes
 Etiology and Pathophysiology
Normal insulin metabolism
Produced by the B cells beta cells
Islets of Langerhans of the pancreas
Released continuously into bloodstream in small
increments with larger amounts released after food intake
Stabilizes glucose range to 70 to 120 mg/dl

Insulin
Promotes glucose transport from bloodstream across cell
membrane to cytoplasm of cell
Decreases glucose in the bloodstream
 Etiology and Pathophysiology
Insulin Involvement of many body systems

↑ Insulin after a meal
Stimulates storage of glucose as glycogen in liver and muscle
Inhibits gluconeogenesis - the process of synthesizing
glucose in the body from non-carbohydrate sources
Enhances fat deposition
↑ Protein synthesis
Normal Insulin Secretion

Fig. 49-1
 Etiology and Pathophysiology
Counterregulatory hormones – Increase blood glucose
levels by stimulating glucose production & output by the
liver, & by decreasing the movement of glucose into the
cells.
Oppose effects of insulin
Increase blood glucose levels
Provide a regulated release of glucose for energy
Help maintain normal blood glucose levels
Examples
Glucagon, epinephrine, growth hormone, cortisol
 Type 1 Diabetes Mellitus
Formerly known as “juvenile onset” or “insulin dependent”
diabetes

Most often occurs in people under 30 years of age

Peak onset between ages 11 and 13

5-10% of all diabetics

Now occurring in younger children
 Type 1-Etiology and Pathophysiology
End result of long-standing process body compensates
for a long time
Immune- mediated disease
Body’s own T cells attack & destroy pancreatic beta (β)-cells,
which are the source of insulin.
Auto antibodies to the islet cells cause a reduction of 80% to

I iii
90% of normal cell function before hyperglycemia
manifestations occur

Causes
Genetic predisposition
Related to human leukocyte antigens (HLAs)
Exposure to a virus
Idiopathic diabetes – not related to autoimmunity but strongly
inherited
 Type 1- Onset of Disease
Long preclinical period Ollaus
before
for a long time
any symptoms

Antibodies for βcell distruction present for
months to years before symptoms occur
Manifestations develop when pancreas can no
longer produce insulin
Rapid onset of symptoms
Present at ER with ketoacidosis
 Type 1-Onset of Disease
may
pullingme
History of recent, sudden, weight loss

Classic symptoms
Polydipsia – excessive thirst
Polyuria – production of abnormally large amounts of urine
Polyphagia – Increased appetite

Will require exogenous insulin to sustain life
 Type 1 - Clinical Manifestations
Classic symptoms
Polyuria (frequent urination)
Polydipsia (excessive thirst)
Polyphagia (excessive hunger)
Weight loss – body cannot get glucose and uses other energy
sources such as fat
Weakness & fatigue – body cells lack needed energy from
glucose
Nonspecific symptoms
May have classic symptoms of type
Fatigue 3 lethargic
Recurrent infections
Recurrent vaginal yeast infections
Prolonged wound healing
Visual changes
 Type 2 Diabetes Mellitus
Most prevalent type of diabetes - over 90% of patients
with diabetes
Usually occurs in people over 35 years of age
80% to 90% of patients are overweight
Prevalence increases with age
Genetic basis
Greater in some ethnic populations
African Americans, Asian Americans, Hispanic Americans,
and Native Americans
Native Americans and Alaskan Natives: Highest rate of
diabetes in the world
 Etiology and Pathophysiology
Pancreas continues to produce some endogenous (self made)
insulin
notworking effertively
Insulin produced is either insufficient or poorly utilized by
tissues or both

Obesity (abdominal/visceral)
Most powerful risk factor

Genetic mutations
Lead to insulin resistance
Increased risk for obesity
 Etiology and Pathophysiology
Four major metabolic abnormalities
1. Insulin resistance
Body tissues do not respond to insulin
Insulin receptors either unresponsive or insufficient in
number
Results in hyperglycemia
2. Pancreas ↓ ability to produce insulin
β cells fatigued from compensating
β -cell mass lost
 Etiology and Pathophysiology
1. Inappropriate glucose production from liver
Liver’s response of release of glucose is haphazard
and does not correspond to body’s needs
Not considered a primary factor in development of
type 2
2. Alteration in production of hormones and adipose
tissue (adipokines)
Adipokines play a role in glucose & fat metabolism
Contribute to pathophysiology of type 2 diabetes
 Type 2 - Onset of Disease

Gradual onset

Person may go many years with undetected hyperglycemia

Osmotic fluid/electrolyte loss from hyperglycemia may
become severe
Hyperosmolar coma
Altered Mechanisms in Type 1 and Type 2 Diabetes

Fig. 49-2
 Prediabetes
Prediabetes – at increased risk for developing diabetes
Not high enough for diabetes diagnosis
Increase risk for developing type 2 diabetes
If no preventive measure taken—usually develop diabetes within 10 years

Long-term damage already occurring
Heart, blood vessels see a cardiologist

Usually present with no symptoms

Must watch for diabetes symptoms
Polyuria
Polyphagia
Polydipsia

Maintaining healthy weight, exercising regularly, & a healthy diet reduce the
risk of developing diabetes
 Secondary Diabetes
Results from Another medical condition
Cushing syndrome
Hyperthyroidism
Pancreatitis
Parenteral nutrition
Cystic fibrosis
Hematochromatosis

Treatment of a medical condition that causes abnormal blood
glucose level
Corticosteroids (Prednisone)
Thiazides
Phenytoin (Dilantin)
Atypical antipsychotics (clozapine)

Usually resolves when underlying condition treated
 Diagnostic Studies
Random plasma glucose
Normal 70-120 mg/dL
Diabetes ≥200 mg/dL

Fasting plasma glucose (no caloric intake for 8 hours)
Normal