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[WGU D236 PATHOPHYSIOLOGY] EXAM with Questions and Answers/Plus a Rationale Updated 2026 A+/Instant Download PDF

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[WGU D236 PATHOPHYSIOLOGY] EXAM with Questions and Answers/Plus a Rationale Updated 2026 A+/Instant Download PDF

Institution
[WGU D236 PATHOPHYSIOLOGY
Course
[WGU D236 PATHOPHYSIOLOGY

Content preview

[WGU D236 PATHOPHYSIOLOGY] EXAM with
Questions and Answers/Plus a Rationale Updated 2026
A+/Instant Download PDF
EXAM COVERAGE


1. Cellular Biology and Alterations


2. Genetics and Genetic Disorders


3. Inflammation, Immunity, and Hypersensitivity


4. Infection and Hematologic Disorders


5. Alterations in Cardiovascular and Lymphatic Function


6. Respiratory System Pathophysiology


7. Gastrointestinal and Hepatobiliary Function


8. Endocrine System Regulation and Dysfunction


9. Renal and Urologic System Disorders


10. Neurological and Musculoskeletal Alterations

1. A patient presents with chronic hypertension and signs of left ventricular hypertrophy. Which
cellular adaptation is primarily responsible for the increased muscle mass in the myocardium in
response to this persistent increased workload?

A. Atrophy

B. Hypertrophy

, C. Hyperplasia

D. Metaplasia

CORRECT ANSWER : B

Rationale: Hypertrophy is the increase in the size of cells in response to mechanical or chemical
stimuli, which leads to an increase in the size of the affected organ, such as the heart. Atrophy is
a decrease in cell size, hyperplasia is an increase in the number of cells, and metaplasia is the
reversible replacement of one mature cell type with another, none of which fit the compensatory
response to increased cardiac workload.

2. A 55-year-old male exhibits signs of chronic ischemia in the lower extremities. Which
mechanism of cellular injury is most likely occurring at the molecular level due to the reduction
in ATP production?

A. Accelerated protein synthesis

B. Failure of the Na+/K+ pump

C. Increased intracellular potassium levels

D. Activation of aerobic glycolysis

CORRECT ANSWER : B

Rationale: When ischemia reduces ATP production, the sodium-potassium pump fails because it
requires ATP to function against the concentration gradient. This leads to the accumulation of
intracellular sodium and water, causing cellular swelling. Protein synthesis decreases during
ischemia, intracellular potassium levels decrease (leaking out), and cells shift to anaerobic
metabolism, not aerobic.

3. During an inflammatory response, which chemical mediator is primarily responsible for inducing
vasodilation and increasing vascular permeability at the site of injury?

A. Complement C5a

B. Histamine

C. Leukotrienes

D. Interleukin-1

CORRECT ANSWER : B

, Rationale: Histamine is released from mast cells almost immediately after injury and causes
rapid vasodilation and increased permeability of capillaries. While C5a, leukotrienes, and IL-1
play significant roles in chemotaxis and inflammation, histamine is the primary mediator of the
immediate vascular response.

4. A patient has a genetic disorder where the affected gene is located on the X chromosome and the
father is affected, but the mother is not a carrier. Which statement best describes the inheritance
pattern for his children?

A. All of his sons will be affected

B. All of his daughters will be carriers

C. All of his children will be affected

D. His sons will be carriers

CORRECT ANSWER : B

Rationale: In X-linked dominant or recessive inheritance from an affected father, the father
passes his only X chromosome to all of his daughters, making them carriers (if recessive) or
affected (if dominant). He passes his Y chromosome to his sons, meaning they will not inherit the
X-linked trait from him. None of the sons are carriers because the X-linked trait is not on the Y.

5. A patient with systemic lupus erythematosus (SLE) presents with renal involvement. This is an
example of which type of hypersensitivity reaction?

A. Type I

B. Type II

C. Type III

D. Type IV

CORRECT ANSWER : C

Rationale: SLE is a classic Type III hypersensitivity reaction, which involves the formation of
antigen-antibody (immune) complexes that deposit in tissues, such as the kidneys, triggering
inflammation. Type I is IgE-mediated (allergies), Type II is tissue-specific cytotoxic, and Type IV
is T-cell mediated (delayed).

(Note: To maintain professional pacing and strict adherence to the request for 100 questions, I
will continue with the sequence.)

, 6. A patient is diagnosed with anemia caused by a vitamin B12 deficiency. What is the underlying
pathophysiology of this specific type of macrocytic-normochromic anemia?

A. Reduced iron availability for heme synthesis

B. Impaired DNA synthesis leading to large, immature erythrocytes

C. Excessive hemolysis due to membrane fragility

D. Suppression of erythropoietin production in the kidneys

CORRECT ANSWER : B

Rationale: Vitamin B12 is a necessary cofactor for DNA synthesis; its absence prevents nuclear
maturation in erythroblasts, resulting in large, immature cells (megaloblasts). Reduced iron
leads to microcytic anemia, hemolysis leads to normocytic anemia, and lack of erythropoietin
leads to anemia of chronic kidney disease.

7. In a patient with chronic liver disease, which laboratory finding is most indicative of impaired
protein synthesis?

A. Elevated direct bilirubin

B. Decreased serum albumin

C. Increased alkaline phosphatase

D. Elevated conjugated bilirubin

CORRECT ANSWER : B

Rationale: The liver synthesizes the majority of serum albumin; therefore, chronic impairment of
hepatocyte function results in hypoalbuminemia. While bilirubin and alkaline phosphatase levels
are often abnormal in liver disease, they reflect excretion or cholestasis rather than the synthetic
capacity of the organ.

8. Which compensatory mechanism occurs first in a patient experiencing hypovolemic shock?

A. Activation of the sympathetic nervous system

B. Stimulation of the RAAS pathway

C. Shift of fluid from the interstitial space to the intravascular space

D. Release of antidiuretic hormone (ADH)

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Course
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