Knowledge check 6501: Module 8

  • Question 1

Needs Grading

Scenario 1: Acute Lymphoblastic Leukemia (ALL)

An 11-year-old boy is brought to the clinic by his parents who states that the boy has not been eating and listless. The mother also notes that he has been easily bruising without trauma as he says he is too tired to go out and play. He says his bones hurt sometimes. Mother states the child has had intermittent fevers that respond to acetaminophen.

Maternal history negative for pre, intra, or post-partum problems.

PMH: Negative. Easily reached developmental milestones.

PE: reveals a thin, very pale child who has bruises on his arms and legs in no particular pattern.

LABS: CBC revealed Hemoglobin of 6.9/dl, hematocrit of 19%, and platelet count of 80,000/mm3. The CMP demonstrated a blood urea nitrogen (BUN) of 34m g/dl and creatinine of 2.9 mg/dl.

DIAGNOSIS: acute leukemia and renal failure and immediately refers the patient to the Emergency Room where a pediatric hematologist has been consulted and is waiting for the boy and his parents.

CONFIRMED DX: acute lymphoblastic leukemia (ALL) was made after extensive testing.

Question

1.     Explain what ALL is?  

 

  • Question 2
Scenario 1: Acute Lymphoblastic Leukemia (ALL)

An 11-year-old boy is brought to the clinic by his parents who states that the boy has not been eating and listless. The mother also notes that he has been easily bruising without trauma as he says he is too tired to go out and play. He says his bones hurt sometimes. Mother states the child has had intermittent fevers that respond to acetaminophen.

Maternal history negative for pre, intra, or post-partum problems.

PMH: Negative. Easily reached developmental milestones.

PE: reveals a thin, very pale child who has bruises on his arms and legs in no particular pattern.

LABS: CBC revealed Hemoglobin of 6.9/dl, hematocrit of 19%, and platelet count of 80,000/mm3. The CMP demonstrated a blood urea nitrogen (BUN) of 34m g/dl and creatinine of 2.9 mg/dl.

DIAGNOSIS: acute leukemia and renal failure and immediately refers the patient to the Emergency Room where a pediatric hematologist has been consulted and is waiting for the boy and his parents.

CONFIRMED DX: acute lymphoblastic leukemia (ALL) was made after extensive testing.

Question

1.     Why does ARF occur in some patients with ALL? 

  • Question 3

Needs Grading

Scenario 2: Sickle Cell Disease (SCD)

A 15-year-old male with known sickle cell disease (SCD) present to the ER in sickle cell crisis. The patient is crying with pain and states this is the third acute episode he has had in the last 10-months. Both parents are present and appear very anxious and teary eyed. A diagnosis of acute sickle cell crisis was made.

Question

1.     Explain the pathophysiology of acute SCD crisis. Why is pain the predominate feature of acute crises?  

 

  • Question 4

 

Scenario 2: Sickle Cell Disease (SCD)

A 15-year-old male with known sickle cell disease (SCD) present to the ER in sickle cell crisis. The patient is crying with pain and states this is the third acute episode he has had in the last 10-months. Both parents are present and appear very anxious and teary eyed. A diagnosis of acute sickle cell crisis was made.

Question

1.     Discuss the genetic basis for SCD.

  • Question 5

Needs Grading

Scenario 3: Hemophilia

8-month infant is brought into the office due to a swollen right knee and excessive bruising. The parents have noticed bruising about a month ago but thought the bruising was due to the attempts to crawl. They became concerned when the baby woke up with a swollen knee. Infant up to date on all immunizations, has not had any medical problems since birth and has met all developmental milestones.

FH: negative for any history of bleeding disorders or other major genetic diseases.

PE: within normal limits except for obvious bruising on the extremities and right knee. Knee is swollen but no warmth appreciated. Range of motion of knee limited due to the swelling.

DIAGNOSIS: hemophilia A.

Question

1.     What is the pathophysiology of Hemophilia 

Solution: 

  • Question 1

Needs Grading

Scenario 1: Acute Lymphoblastic Leukemia (ALL)

An 11-year-old boy is brought to the clinic by his parents who states that the boy has not been eating and listless. The mother also notes that he has been easily bruising without trauma as he says he is too tired to go out and play. He says his bones hurt sometimes. Mother states the child has had intermittent fevers that respond to acetaminophen.

Maternal history negative for pre, intra, or post-partum problems.

PMH: Negative. Easily reached developmental milestones.

PE: reveals a thin, very pale child who has bruises on his arms and legs in no particular pattern.

LABS: CBC revealed Hemoglobin of 6.9/dl, hematocrit of 19%, and platelet count of 80,000/mm3. The CMP demonstrated a blood urea nitrogen (BUN) of 34m g/dl and creatinine of 2.9 mg/dl.

DIAGNOSIS: acute leukemia and renal failure and immediately refers the patient to the Emergency Room where a pediatric hematologist has been consulted and is waiting for the boy and his parents.

CONFIRMED DX: acute lymphoblastic leukemia (ALL) was made after extensive testing.

Question

1.     Explain what ALL is?  

Correct Answer:  

Acute lymphoblastic leukemia (ALL) is a malignant (clonal) disease of the bone marrow in which early lymphoid precursors proliferate and replace the normal hematopoietic cells of the marrow. ALL is the most common type of cancer and leukemia in children in the United States. The malignant cells of acute lymphoblastic leukemia (ALL) are lymphoid precursor cells (ie, lymphoblasts) that are arrested in an early stage of development. This arrest is caused by an abnormal expression of genes, often as a result of chromosomal translocations or abnormalities of chromosome number. These aberrant lymphoblasts proliferate, reducing the number of the normal marrow elements that produce other blood cell lines (red blood cells, platelets, and neutrophils). Consequently, anemia, thrombocytopenia, and neutropenia occur, although typically to a lesser degree than is seen in acute myeloid leukemia. Lymphoblasts can also infiltrate outside the marrow, particularly in the liver, spleen, and lymph nodes, resulting in enlargement of the latter organs.

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