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Epidemiology

• Most common type of acute leukemia and the second most common type in adults
  • 32% of all adult leukemia cases
  • Only 1% of all adult cancers deaths in the US
    • Around 12,000 deaths per year in US
• 3-5 cases per 100,000 population
• Around 20,000 patients per year in the US get diagnosed
  • 2% annual increase in cases from 2007-2016
• Mean age of diagnosis is 65 years and increases with age

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Pathophysiology

• Malignancy of myeloid precursor cells
  • Multipotential hematopoietic stem cell –> common myeloid progenitor –> myeloblast

• 2 main models
  • Occurs at one of several developmental stages
  • Occurs within the primitive multipotent cells
• Two-hit hypothesis of leukemogenesis
  • Class I mutation
    • Confers a proliferative advantage
  • Class II mutation
    • Impairs hematopoietic differentiation
• Mechanisms of Genetic Damage
  • Chemotherapy
    • 3-5 years after alkylating agent-induced damage
  • Ionizing radiation
    • Induces double strand breaks
    • Typically > 20 Gy (grays)
  • Chemical exposure
    • Benzene is classically associated with AML
  • Infections
    • Human T-lymphocyte virus type I (HTLV-1

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Signs and Symptoms

• Constitutional
  • Fatigue, weakness, dyspnea
  • Fever
• Skin (13% of patients)
  • Easy bruisability, ecchymoses
  • Pallor
• HEENT
  • Gingival bleeding, oral candidiasis
  • Papilledema, retinal infiltrates
  • Lymphadenopathy
• Abdomen (10% of patients)
  • Organomegaly
    • Spleen and liver
• Musculoskeletal (4% of patients)
  • Polyarthritis and arthralgias
  • Bone pain

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Emergency Presentations

• Pancytopenia
• Tumor lysis syndrome
  • Hyperkalemia, hyperphosphatemia, hyperuricemia, AKI
• Bleeding
• New onset CNS symptoms

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Diagnostic Studies

• CBC
  • Leukocytosis or leukopenia
    • 20% of patients have > 100,000 cells/microL
    • 25-40% of patients have < 5,000 cells/microL
  • Thrombocytopenia
    • 75% of patients have < 100,000 cells/microL
    • 25% of patient have < 25,000 cells/microL
• Peripheral Blood
  • 95% of patients will have circulating myeloblasts
    • Immature cells with large, prominent nuclei and variable amount of pale blue cytoplasms
    • May have Auer rods present
  • Myeloperoxidase reaction
    • Simple means of determining if the blasts are myeloid

• Flow Cytometry
  • Can assist in detecting circulating myeloblasts
• Bone Marrow Biopsy
  • This is the key component in the diagnosis of AML
  • It gives a general overview of the degree of involvement, allows for cell differential count to determine the percentage of blasts in the marrow, and provides a detailed cytologic evaluation of the blasts
  • Cell Origin
    • Identifies if myeloid, monocytic, erythroid, or megakaryocytic
    • Differentiates the blasts of lymphoid lineage
  • Infiltration
    • Diagnosis of AML is > 20% blasts of the total cellularity
• HLA Typing in patients who are potential candidates for bone marrow transplantation

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Diagnosis

• Requires both of the following criteria:
  • Documentation of bone marrow infiltration
    • > 20% blasts in bone morrow
  • Myeloid origin
    • Presence of Auer rods, (+) myeloperoxidase reaction, or presence of myeloid markers on immunophenotyping

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Treatment

• Goals
  • Complete remission (<5% blasts)
    • Appropriate goal for most AML patients
• Pretreatment evaluation
  • Comorbid conditions
    • Heart disease, renal insufficiency, liver disease
  • Physical function and performance status
    • ECOG Scale most commonly used

• Two distinct treatment phases
  • Induction
    • Combination therapy (7 and 3 regimen)
      • Cytarabine
        • Interferes with DNA synthesis
        • 7 day continuous infusion
      • Anthracycline
        • Daunorubicin, idarubicin
          • Inhibition of topoisomerase II
            • Leads to DNA breaks
        • Day 1, 2, and 3
    • Bone marrow biopsy 7-10 days after induction to re-assess
  • Postremission management
    • Continuing chemotherapy
    • Hematopoietic cell transplant

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Prognosis

• Overall 5-year survival is 15%
  • Decreases with age
    • 53% 5-year survival in 15-24yo to 13% in 70-79yo
• Genetic subtypes
  • Karyotypes
  • Gene mutations

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The Cottage Physician (1893)

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References

1. Acute myeloid leukemia statistics.  Cancer.net.  Accessed on 03/22/2020 [link]
2. Blum W, Bloomfield CD. Acute Myeloid Leukemia. In: Jameson J, Fauci AS, Kasper DL, Hauser SL, Longo DL, Loscalzo J. eds. Harrison’s Principles of Internal Medicine, 20e New York, NY: McGraw-Hill; . http://accessmedicine.mhmedical.com.ezproxy.uthsc.edu/content.aspx?bookid=2129&sectionid=192017732. Accessed March 22, 2020.
3. Siegel RL, Miller KD, Jemal A. Cancer Statistics, 2017. CA: a cancer journal for clinicians. 2017; 67(1):7-30. [pubmed]
4. Reilly JT. Pathogenesis of acute myeloid leukaemia and inv(16)(p13;q22): a paradigm for understanding leukaemogenesis? British journal of haematology. 2005; 128(1):18-34. [pubmed]
5. Levine EG, Bloomfield CD. Leukemias and myelodysplastic syndromes secondary to drug, radiation, and environmental exposure. Seminars in oncology. 1992; 19(1):47-84. [pubmed]
6. Shuryak I, Sachs RK, Hlatky L, Little MP, Hahnfeldt P, Brenner DJ. Radiation-induced leukemia at doses relevant to radiation therapy: modeling mechanisms and estimating risks. Journal of the National Cancer Institute. 2006; 98(24):1794-806. [pubmed]
7. Austin H, Delzell E, Cole P. Benzene and leukemia. A review of the literature and a risk assessment. American journal of epidemiology. 1988; 127(3):419-39. [pubmed]
8. Shah A, Andersson TM, Rachet B, Björkholm M, Lambert PC. Survival and cure of acute myeloid leukaemia in England, 1971-2006: a population-based study. British journal of haematology. 2013; 162(4):509-16. [pubmed]

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Question

You get a page from a gastroenterologist asking for a consult for platelet transfusion prior to an elective colonoscopy scheduled for tomorrow. The patient is a 56yo male, with a history of ITP and HTN. This procedure is for screening purposes only and the patient has not had any melena, hematochezia, or rectal bleeding. Platelet count is 97 x 10⁹ per liter and the rest of the CBC is within normal limits.

1. Does this patient meet the platelet transfusion threshold?
   1. If so, how much would you transfuse?
2. If you were worried about bleeding, what are the other tests you could order to assess platelet function?

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Answer

1. The short answer is no, as he is not actively bleeding nor has any signs of anemia from chronic blood loss. Guidelines for platelet transfusions in preparation of invasive procedures is as follows:
   • < 100,000/microL for neurosurgery or ocular surgery
   • < 50,000/microL for most major surgery
   • < 50,000/microL for therapeutic endoscopic procedures
   • < 20,000/microL for low risk diagnostic endoscopic procedures
   • < 30,000/microL for bronchoscopy
   • < 20,000/microL for central line placement
   • < 20,000/microL for lumbar puncture with hematologic malignancy
   • < 50,000/microL for lumbar puncture without hematologic malignancy
   • < 80,000/microL for epidural anesthesia
   • < 20,000/microL for bone marrow biopsy
2. The best way to assess platelet function is from a platelet function assay. This is generally determined by your facility’s lab, so it would be a good idea to talk with your lab to see what they use and how to interpret.

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References

1. Kumar A, Mhaskar R, Grossman BJ, et al. Platelet transfusion: a systematic review of the clinical evidence. Transfusion. 2015; 55(5):1116-27; quiz 1115. [pubmed]
2. Warner MA, Woodrum D, Hanson A, Schroeder DR, Wilson G, Kor DJ. Preprocedural platelet transfusion for patients with thrombocytopenia undergoing interventional radiology procedures is not associated with reduced bleeding complications. Transfusion. 2017; 57(4):890-898. [pubmed]

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Question

You get a page from a gastroenterologist asking for a consult for platelet transfusion prior to an elective colonoscopy scheduled for tomorrow. The patient is a 56yo male, with a history of ITP and HTN. This procedure is for screening purposes only and the patient has not had any melena, hematochezia, or rectal bleeding. Platelet count is 97 x 10⁹ per liter and the rest of the CBC is within normal limits.

1. Does this patient meet the platelet transfusion threshold?
   1. If so, how much would you transfuse?
2. If you were worried about bleeding, what are the other tests you could order to assess platelet function?