Case-Based Review

Acute Myeloid Leukemia


 

References

The category “AML with myelodysplasia-related changes” includes AML that has evolved out of an antecedent myelodysplastic syndrome, has ≥ 50% dysplasia in 2 or more lineages, or has myelodysplasia-related cytogenetic changes (eg, –5/del(5q), –7/del(7q), ≥ 3 cytogenetic abnormalities).19 “Therapy-related myeloid neoplasm,” or therapy-related AML, is diagnosed when the patient has previously received cytotoxic agents or ionizing radiation.19

Cases which do not meet the criteria for 1 of the previously mentioned categories are currently classified as “AML, not otherwise specified.” Further subclassification is pursued as per the older FAB scheme; however, no additional prognostic information is obtained in doing so.3,19 Myeloid sarcoma is strictly not a subcategory of AML. Rather, it is an extramedullary mass of myeloid blasts that effaces the normal tissue architecture.16 Rarely, myeloid sarcoma can be present without systemic disease involvement; it is important to note that management of such cases is identical to management of overt AML.16

Finally, myeloid proliferations related to Down syndrome include 2 entities seen in children with Down syndrome.19 Transient abnormal myelopoiesis, seen in 10% to 30% of newborns with Down syndrome, presents with circulating blasts that resolve in a couple of months. Myeloid leukemia associated with Down syndrome is AML that occurs usually in the first 3 years of life and persists if not treated.19

Case 1 Continued

The presence of 15% blasts in the peripheral blood is concerning for, but not diagnostic of, AML. On the other hand, the presence of Auer rods is virtually pathognomonic for AML. Gingival hyperplasia in this patient may be reflective of extramedullary disease. Cytogenetics from the peripheral blood and marrow aspirate show inv(16) in 20 of 20 cells. Molecular panel is notable for mutation in c-KIT. As such, the patient is diagnosed with core-binding factor AML, which per the ELN classification is considered a favorable-risk AML. The presence of c-KIT mutation, however, confers a relatively worse outcome.

Case 2 Continued

Presence of pancytopenia in a patient who previously received cytotoxic chemotherapy is highly concerning for therapy-related myeloid neoplasm. The presence of 12% blasts in the peripheral blood does not meet the criteria for diagnosis of AML. However, marrow specimens show 40% blasts, thus meeting the criteria for an AML diagnosis. Additionally, cytogenetics are notable for the presence of monosomy 7, while a next-generation sequencing panel shows a mutation in TP53. Put together, this patient meets the criteria for therapy-related AML which is an adverse-risk AML according to the ELN classification.

Management

The 2 most significant factors that must be considered when selecting AML therapies are the patient’s suitability for intensive chemotherapy and the biological characteristics of the AML. The former is a nuanced decision that incorporates age, performance status, and existing comorbidities. Treatment-related mortality calculators can guide physicians when making therapy decisions, especially in older patients (≥ 65 years). Retrospective evidence from various studies suggests that older, medically fit patients may derive clinically comparable benefits from intensive and less intensive induction therapies.2527 The biological characteristics of the leukemia can be suggested by morphologic findings, cytogenetics, and molecular information, in addition to a history of antecedent myeloid neoplasms. Recently, an AML composite model incorporating an augmented Hematopoietic Cell Transplantation–specific Comorbidity Index (HCT-CI) score, age, and cytogenetic/molecular risks was shown to improve treatment decision-making about AML; this model potentially could be used to guide patient stratification in clinical trials as well.28 The overall treatment model of AML is largely unchanged otherwise. It is generally divided into induction, consolidation, and maintenance therapies.

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