The most common symptoms of AEL are related to pancytopenia (a shortage of all types of blood cells), including fatigue, infections, and mucocutaneous bleeding. Almost half of people with AEL exhibit weight loss, fever and night sweats at the time of diagnosis. Almost all people with AEL are anemic, and 77% have a hemoglobin level under 10.0 g/dl. Signs of thrombocytopenia are found in about half of people with AEL.

Acute myeloblastic leukemia is a form of myeloid leukemia affecting myeloblasts.

More specifically, it can refer to:

- Minimally differentiated acute myeloblastic leukemia (M0 in FAB) -

- Acute myeloblastic leukemia without maturation (M1 in FAB) -

- Acute myeloblastic leukemia with maturation (M2 in FAB) -

Acute erythroid leukemia or Di Guglielmo syndrome is a rare form of acute myeloid leukemia (less than 5% of AML cases) where the myeloproliferation is of erythroblastic precursors. It is defined as type "M6" under the FAB classification.

Most initial symptoms of leukemia are similar to symptoms for irregular bone-marrow function. Typically, most symptoms do not occur during the early stages of leukemia, and children may experience different symptoms. The following are symptoms of leukemia that lead doctors to look for different types of juvenile leukemia:

A specific histochemical reaction, cyanide-resistant peroxidase, permits identification of leukemic blast cells with eosinophilic differentiation and diagnosis of acute eosinoblastic leukemia in some cases of AML with few identifiable eosinophils in blood or marrow.

Very rarely, chloroma can occur without a known pre-existing or concomitant diagnosis of acute leukemia, acute promyleocytic leukemia or MDS/MPS; this is known as primary chloroma. Diagnosis is particularly challenging in this situation (see below). In almost all reported cases of primary chloroma, acute leukemia has developed shortly afterward (median time to development of acute leukemia 7 months, range 1–25 months). Therefore, primary chloroma could be considered an initial manifestation of acute leukemia, rather than a localized process, and could be treated as such. Where disease development or markers indicate progresses to acute promyleocytic leukemia (AML3) treatment should be tailored to this form of disease.

Chloromas may occur in virtually any organ or tissue. The most common areas of involvement are the skin (also known as "leukemia cutis") and the gums. Skin involvement typically appears as violaceous, raised, nontender plaques or nodules, which on biopsy are found to be infiltrated with myeloblasts

Other tissues which can be involved include lymph nodes, the small intestine, the mediastinum, the lung, epidural sites, the uterus, the ovaries, and the orbit of the eye. Symptoms of chloroma at these sites are related to their anatomic location; chloromas may also be asymptomatic and be discovered incidentally in the course of evaluation of a person with acute myeloid leukemia.

Central nervous system involvement, as described above, most often takes the form of "meningeal leukemia", or invasion of the subarachnoid space by leukemic cells. This condition is usually considered separately from chloroma, as it requires different treatment modalities. True chloromas (i.e. solid leukemic tumors) of the central nervous system are exceedingly rare, but has been described.

Childhood leukemia is a type of leukemia, usually acute lymphocytic leukemia (ALL), and a type of childhood cancer. The cure rate of childhood leukemia is generally higher than adult leukemia, approaching 90%, although some side effects of treatment last into adulthood. The older aggressive treatments of cranial irradiation and anthracyclines (such as doxorubicin) caused increased risk of solid tumors, heart failure, growth retardation, and cognitive defects.

Leukemia is a hematological malignancy or a cancer of the blood. It develops in the bone marrow, the soft inner part of bones where new blood cells are made. When a child has leukemia, the bone marrow produces white blood cells that do not mature correctly. Normal healthy cells only reproduce when there is enough space for them. The body will regulate the production of cells by sending signals of when to stop production. When a child has leukemia, the cells do not respond to the signals telling them when to stop and when to produce cells, regardless of the available space.

Acute leukemia or acute leukaemia is a family of serious medical conditions relating to an original diagnosis of leukemia. In most cases, these can be classified according to the lineage, myeloid or lymphoid, of the malignant cells that grow uncontrolled, but some are mixed and for those such an assignment is not possible.

Forms of acute leukemia include:

- Acute myeloid leukemia

- Acute erythroid leukemia

- Acute lymphoblastic leukemia

- T-cell acute lymphoblastic leukemia

- Adult T-cell leukemia/lymphoma

- (Precursor)T-lymphoblastic leukemia/lymphoma

- "Blast crisis" of chronic myelogenous leukemia

Monocytic leukemia is a type of myeloid leukemia characterized by a dominance of monocytes in the marrow. When the monocytic cells are predominantly monoblasts, it can be subclassified into acute monoblastic leukemia.

Monocytic leukemia is almost always broken down into "acute" and "chronic":

- acute monocytic leukemia

- chronic myelomonocytic leukemia

Acute eosinophilic leukemia (AEL) is a rare subtype of acute myeloid leukemia with 50 to 80 percent of eosinophilic cells in the blood and marrow. It can arise de novo or may develop in patients having the chronic form of a hypereosinophilic syndrome. Patients with acute eosinophilic leukemia have a propensity for developing bronchospasm and heart failure from endomyocardial fibrosis. Hepatomegaly and splenomegaly are more common than in other variants of AML.

M2 is a subtype of AML (Acute Myeloid Leukemia).

It is also known as "Acute Myeloblastic Leukemia with Maturation".

Acute myelomonocytic leukemia (AMMoL) is a form of acute myeloid leukemia that involves a proliferation of CFU-GM myeloblasts and monoblasts.

It is classified under "M4" in the French-American-British classification (FAB).

It is classified under "AML, not otherwise classified" in the WHO classification.

Translocations have been observed.

Progression from myelodysplastic syndrome has been reported.

Acute myeloblastic leukemia (AML) is a group of malignant bone marrow neoplasms of myeloid

precursors of white blood cells. Acute myelomonocytic leukemia (AML-M4) is a common type of pediatric AML. However, the condition is rare and represents approximately 3% of all leukemias during childhood and has an incidence of 1.1 – 1.7 per million per year. The symptoms may be aspecific: asthenia, pallor, fever, dizziness and respiratory symptoms. More specific symptoms are bruises and/or (excessive) bleeding, coagulation disorders (DIC), neurological disorders and gingival hyperplasia. Diagnostic methods include blood analysis, bone marrow aspirate for cytochemical, immunological and cytogeneticalanalysis, and cerebrospinal fluid (CSF) investigations. A characteristic chromosomal abnormalityobserved in AML-M4 is inv(16). Treatment includes intensive multidrug chemotherapy and in selected cases allogeneic bone marrow transplantation. Nevertheless, outcome of AML remains poor with an

overall survival of 35-60%. Children with AML-M4 carrying the inv(16) abnormality have a better prognosis (61% 5-year overall survival). New therapeutics are required to increase the probability of cure in this serious disorder.

Acute mast cell leukemia is a rapidly progressive disorder with leukemic mast cells in blood and in large numbers in marrow. The common signs and symptoms include fever, headache, flushing of face and trunk. The typical cutaneous mast cell infiltrates of urticaria pigmentosa are usually not present before, during, or after diagnosis in patients who have mast cell leukemia. Symptoms include abdominal pain, bone pain, and peptic ulcer which are more prevalent than in other subtypes of acute myeloid leukemia. These former symptoms are due to release of a substance called histamine from neoplastic mast cells. Enlargement of the liver and spleen, or hepatosplenomegaly is characteristic. The mast cells release also many anticoagulants like heparin which can lead to serious bleeding. Liver and splenic dysfunction also contributes to hemorrhage. Involvement of the bone can lead to osteoporosis. Abdominal ultrasound or computerized tomography (CT) scanning is used to look for hepatosplenomegaly and lymphadenopathy. Plain radiography and bone densitometry can be used to assess bone involvement and the presence of osteoporosis. Endoscopy and biopsy can be useful if gut involvement is suspected.

Minimally differentiated acute myeloblastic leukemia is a subtype of AML. It is classified as M0 by FAB. It represents 2–3% of all cases of AML. Although minimally differentiated AML was recognized earlier, criteria for FAB M0 were developed in 1991. The blasts in these cases cannot be recognized as myeloid based on morphology and cytochemistry, but immunophenotyping demonstrates myeloid antigens.

Mast cell leukemia is an extremely aggressive subtype of acute myeloid leukemia that usually occurs "de novo" but can, rarely, evolve from transformation of chronic myeloid leukemia into the more aggressive acute myeloid leukemia. In a small proportion of cases, acute mast cell leukemia may evolve from a more progressive form of systemic mastocytosis. The diagnosis of acute mast cell leukemia by the WHO criteria includes the requirement for a prevalence of 20% neoplastic mast cells in marrow and 10% in blood. If the mast cells represent less than 10% of blood cells, the tumor is called "aleukemic" mast cell leukemia.

In acute myeloblastic leukemia (M0), the blasts are agranular and nonreactive when stained for myeloperoxidase activity, and Auer rods are not seen. The blasts react with antibodies to myeloperoxidase and antibodies to CD13, CD33, and CD34. Human leukocyte antigen (HLA)-DR is positive in most patients. Occasional cases require in situ hybridization to identify the myeloperoxidase gene315 or genomic profiling for early myeloid-associated genes. Abnormal and unfavorable karyotypes (e.g., loss of the long arm of chromosome 5 (5q-) and 7q-) and higher expression of the multidrug resistance glycoprotein (p170) are frequent. In general, minimally differentiated acute myeloblastic leukemia has a poor prognosis.

Symptomatic Hyperleukocytosis (Leukostasis) is defined by a tremendously high blast cell count along with symptoms of decreased tissue perfusion. Leukostasis is associated with people who suffer from bone and blood disorders and is very common among people suffering from acute myeloid leukemia or chronic myeloid leukemia. Leukostasis is a pathlogic diagnosis that inhibits efficient flow to the microvasculature of the body. Continued and untreated leukostasis presents respiratory and neurological distress simultaneously and is a medical emergency, with untreated patient mortality rates reaching a minimum of 20 and a maximum of 40 percent.. A leukemia blood cell count greater than 50 x 10^9/ L ((50,000 / microL) or 100 x 10^9 L / (100,000/ microL) signifies hyperleuckocytosis. Symptoms of leukostasis start when blood levels of leukocytes reach over 100 x 10^9 / L (100,000 / microL). As stated before, these counts are critical and associated with Leukemias.

When a patient is suffering from symptomatic leuckocytosis, specifically caused by a form a leukemia, it is extremely common to find leukostasis in all their organs. The majority of the time a patient dies from neurological complications (40% of patients die due to neurological conditions) as opposed to particular organ damage. The lungs alone account for approximately 30 percent of leukostasis fatalities. All other organs combined attribute to 30 percent of deaths, with the major outliers being neurological and respiratory failure equating to 70 percent of all death rates. Damage to the microvasculature of the body is the primary cause of death by leukostasis. Microvasculatre damage to the lungs is only second to neurological damage because the body is already suffering from hypoxic conditions, which leads to lung tissue damage as the second leading cause of fatalities.

Pulmonary signs - Dyspnea and Hypoxia with or without diffuse interstitial or alveolar infiltrates on imaging studies.

Neurological signs - visual changes, headache, dizziness, tinnitus, gait instability, confusion, somnolence, coma.

The most common symptom is the patient is usually febrile, which is often linked with inflammation and possible infection.

Less common symptoms include electroencephalographic, signs of myocardial ischemia / right ventricular overload, increased renal insufficiency, priapism, acute limb ischemia and bowel infarction.

Acute myeloid leukemia (AML) is a type of cancer affecting blood cells that eventually develop into non-lymphocyte white blood cells. The disease originates from the bone marrow, the soft inner portion of select bones where blood stem cells develop into either lymphocyte or in this particular condition, myeloid cells. This acute disease prevents bone marrow cells from properly maturing, thus causing an accumulation of immature myeloblast cells in the bone marrow.

Acute myeloid leukemia is more lethal than chronic myeloid leukemia, a disease that affects the same myeloid cells, but at a different pace. Many of the immature blast cells in acute myeloid leukemia have a higher loss of function and thus, a higher inability to carry out normal functions than those more developed immature myeloblast cells in chronic myeloid leukemia (O’Donnell et al. 2012). Acute in acute myeloid leukemia means that the amounts of blast cells are increasing at a very high rate. Myeloid refers to the type of white blood cells that are affected by the condition.

Acute myeloid leukemia is the most common acute leukemia that is affecting the adult population. The 5-year survival rate for the cancer stands at around 26% (ACS, 2016).

M2 acute myeloblastic leukemia with maturation refers to the subtype of acute myeloid leukemia characterized by the maturation stages of the myeloid cell development and the location of the AML1 gene. One of the hallmarks of M2 subtype acute myeloid leukemia is the formation of a fusion protein, AML1-ETO or RUNX1-RUNX1T1, due to a translocation of chromosome 8 to chromosome 21 or t(8;21) (Miyoshi et al., 1991, Andrieu et al., 1996). This cytogenetic abnormality has been found in 90% of M2 acute myeloblastic leukemia; while the other 10% constitutes a mix of M1 and M4 acute myeloid leukemia (GFHC, 1990).

Another translocation between chromosome 6p23 and chromosome 9q34 is also associated with the M2 subtype. The t(6;9) causes the formation of a fusion oncogene made of DEK (6p23) and CAN/NUP214 (9q34). This rare translocation has a poor prognosis compared to the t(8;21) because 70% of t(6;9) acute myeloid leukemia patients have the FLT3-ITD mutation (Schwartz et al., 1983, Kottaridis, 2001). The FLT-ITD mutation is one of the most lethal mutations in acute myeloid leukemia (Chi et al., 2008).

M2 acute myeloblastic leukemia with maturation, as classified by the FAB system, constitutes 25% of adult AML (Wiki Main article: AML).

Lymphocytosis is an increase in the number of lymphocytes in the blood. In adults, lymphocytosis is present when the lymphocyte count is greater than 4000 per microliter (4.0 x 10(9)/L), in older children greater than 7000 per microliter and in infants greater than 9000 per microliter. Lymphocytes normally represent 20 to 40% of circulating white blood cells.

Lymphocytosis is usually detected when a complete blood count is obtained. If not provided the lymphocyte count can be calculated by multiplying the total white blood cell (WBC) count by the percentage of lymphocytes found in the differential count. The lymphocyte count can also be directly measured by flow cytometry.

Lymphocytosis is a feature of infection, particularly in children. In the elderly, lymphoproliferative disorders, including chronic lymphocytic leukaemia and lymphomas, often present with lymphadenopathy and a lymphocytosis.

Causes of absolute lymphocytosis include:

- acute viral infections, such as infectious mononucleosis (glandular fever), hepatitis and Cytomegalovirus infection

- other acute infections such as pertussis

- some protozoal infections, such as toxoplasmosis and American trypanosomiasis (Chagas disease)

- chronic intracellular bacterial infections such as tuberculosis or brucellosis

- chronic lymphocytic leukemia

- acute lymphoblastic leukemia

- lymphoma

- post-splenectomy state

- smoking

Causes of relative lymphocytosis include: age less than 2 years; acute viral infections; connective tissue diseases, thyrotoxicosis, Addison's disease, and splenomegaly with splenic sequestration of granulocytes.

The crisis is a common complication in sickle-cell patients and can be associated with one or more symptoms including fever, cough, excruciating pain, sputum production, shortness of breath, or low oxygen levels.

Polycythemia (also known as polycythaemia or polyglobulia) is a disease state in which the hematocrit (the volume percentage of red blood cells in the blood) is elevated.

It can be due to an increase in the number of red blood cells ("absolute polycythemia") or to a decrease in the volume of plasma ("relative polycythemia"). Polycythemia is sometimes called erythrocytosis, but the terms are not synonymous, because polycythemia refers to any increase in red blood cells, whereas erythrocytosis only refers to a documented increase of red cell mass.

The emergency treatment of polycythemia (e.g., in hyperviscosity or thrombosis) is by phlebotomy (removal of blood from the circulation). Depending on the underlying cause, phlebotomy may also be used on a regular basis to reduce the hematocrit. Cytostatics such as busulfan and hydroxyurea are sometimes used for long-term management of polycythemia.

Acute chest syndrome is often precipitated by a lung infection, and the resulting inflammation and loss of oxygen saturation leads to further sickling of red cells, thus exacerbating pulmonary and systemic hypoxemia, sickling, and vaso-occlusion.