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leukemias.ppt

This document provides information about leukemia, including its types and treatments. It defines leukemia as cancer of the white blood cells that develops in the bone marrow. There are four main types classified as either acute or chronic, and affecting either lymphocytic or myeloid cells. Symptoms can include fatigue, infections, and bruising. Diagnosis involves blood and bone marrow tests. Treatments include chemotherapy, radiation, bone marrow transplants, and new drugs that target specific genetic mutations in leukemia cells. Research continues on developing more effective treatments and potential cures.

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Leukemia
Leukemia
About the Disease  Leukemia, lymphoma and myeloma are cancers that originate in the bone marrow (leukemia & myeloma) or in lymphatic tissues (lymphoma).
Different Types of Blood Cancers  Leukemia  Non-Hodgkin Lymphoma  Hodgkin Lymphoma  Myeloma  Myelodysplastic Syndromes
What is Leukemia?  Leukemia is cancer found in the blood cells  There are many types of Leukemia  They are classified by how quickly they progress and what type of cell they affect  Leukemia is causes when there is an imbalance of healthy unhealthy blood cells in the body  This occur when one cell awry and the body begins to produce large numbers of this cell
What Is Leukemia?  Cancer of the white blood cells  Acute or Chronic  Affects ability to produce normal blood cells  Bone marrow makes abnormally large number of immature white blood cells called blasts
What is Leukemia  Greek word which means “white blood”  Leukemia is when cells spread rapidly and destroy living tissue.  It grows/invades the bone marrow which is the factory of blood and replaces normal blood elements with cancer cells.  Cancer cells replace all bone marrow cells which causes infection and bleeding problems.  Leukemia is basically white blood cells that don’t work well and cause trouble.
Continued  Millions of immature and useless white blood cells are produced which makes it harder to kill cancer cells and preserve the good/healthy ones.  Leukemia causes change in cells, DNA, and gene.  If the blood matches with donator then you are curried.  Bone marrow is spongy tissue that fills in the center core of bone.  There are 4 different types of Leukemia.
Types of Leukemia  Based on how quickly the disease develops it is classified as either acute or chronic  In Acute Leukemia the white blood cells tend to develop more rapidly and very immature  In Chronic Leukemia the cells tend to develop more slowly  They are also classified by which type of white bloods cells are affected  If the lymphoid cells are affected the disease is referred to as Lymphocytic Leukemia  If the myeloid cells are affected it is called Myelongenous Leukemia
Types of Leukemia  Acute lymphoblastic Leukemia (ALL)  Acute myeloblastic Leukemia (AML)  Chronic lymphocyte Leukemia (CLL)  Chronic myeloid Leukemia (CML)
Demographics of Leukemia Patients (2001 Data) ALL 11% CLL 26% AML 31% CML 15% others 17% Total Reported Cases = 31,500 Sources from Leukemia, Lyphoma, Myeloma Facts 2001 CLL=Chronic Lymphocytic ALL=Acute Lymphocytic CML=Chronic Mylogenous AML=Acute Mylogenous
Chronic and Acute Chronic Leukemia:  Progress slowly (runs a slow course)  Not immediately fatal. Acute Leukemia:  Progress rapidly (runs a fast course)  Life expectancy short without treatment.
Lymphocyte and Myeloid Lymphocyte:  Increase in white blood cells produced in lymph nodes and bone marrow.  Strikes without any warning. Myeloid:  Increase in white blood cells produced exclusively in the bone marrow.  Strikes without any warning.
Acute Myeloid Leukemia (AML):  Mixed group of disease  It means “marrow like” and in this context it simply means arising from developing blood cells.  This type of leukemia runs a rapid course.
Acute Lymphoblast Leukemia (ALL):  Group of different diseases  A complexity of which is still trying to be unraveled  Reached a point where not all are being treated the same.  This type of Leukemia runs a rapid course.
Chronic Myeloid Leukemia (CML):  Characterized by increased production of granulocytes in the bone marrow.  Usually associated with a specific chromosomal abnormality called the Philadelphia chromosome  Progresses slowly
Chronic Lymphocyte Leukemia (CLL):  This type of cancer is so rare it could be said not to arise at all in the first two decades of life.  Starts of in the Bone marrow  This type of cancer runs a slow course giving more time to live.
Risk Factors  As of now we do not know the exact cause of Leukemia  Exposure to these have been identified as risk factors  High energy radiation  Some genetic syndromes  People working with chemical benzene for a long period of time
Causes  High level radiation/toxin exposure  Viruses  Genes  Chemicals  Mostly unknown  Can’t be caught
Development of Leukemia in the Bloodstream Stage 1- Normal Stage 2- Symptoms Stage 3- Diagnosis Stage 4- Worsening Stage 5a- Anemia Stage 5b- Infection Legend White Cell Red Cell Platelet Blast Germ Sources from Leukemia, by D. Newton and D. Siegel
Effects On the Body  Attacks the immune system  Infections  Anemia  Weakness  No more regular white blood cells, red blood cells, and platelets  Blasts clog blood stream and bone marrow
Symptoms  When there are excessive white blood cells - -> Infections  When there are few red blood cells: Paleness --> Anemia  When there are few platelets --> Excessive bleeding
Signs Of Leukemia Most of the symptoms of leukemia are similar to those of a common illness such as the flu. The symptoms will vary according to the type of leukemia.  Tired  Frequent infections  Easy bruising or bleeding  Bone tenderness  Headache  Enlarged lymph nodes  Low red blood count  Pale skin  Poor appetite
Tests For Diagnosis  Finger prick  Blood sample  Blood dye  Bone marrow sample  Spinal Tap/Lumbar Puncture
Diagnosis  As immature cells increase in the body leads to lower amounts of red blood cells and platelet cells  The low amounts of red blood cells cause patient to be tired and pale  Low amounts of platelet cells cause the patient to easily bruise or bleed  During a physical exam the doctor detects swollen spleen, liver, or lymph nodes  Then there is a blood test conducted to see if it is leukemia  The type of Leukemia is determined after bone marrow is extracted and tested
Diagnosis  Most commonly leukemia is diagnosed by a blood test to count the number of red cells, white cells and platelets. A biopsy of the bone marrow may also be performed
Pictures Of Blood Normal human blood White Cell Red Cell Platelet Blood with leukemia Blasts Red Cell Platelet White Cell Sources from Arginine.umdnj.edu Sources from beyond2000.com
Diagnosis Requires all of the following diagnostic components: a) Documentation of bone marrow infiltration b) Myeloid origin of the leukemic cells c) FAB/WHO classification of the leukemia d) Karyotypic analysis
Differential Diagnosis  chronic myelogenous leukemia  other myeloproliferative disorders  reactive leukocytosis: leukemoid reaction  acute leukemia
Philadelphia Chromosome t(9;22)(q34;q11)
BCR-ABL Gene Product
BCR-ABL p210 Fusion Protein Activity  Higher tyrosine kinase activity. – Increases progenitor cells, reduces the pool of stem cells. Semin Hematol 1988;25:1-19. – Defective cytoadherence. Hematol Oncol Clin North Am 1988;12:1-29. – Suppression of apoptosis. Blood 1994;83:1575-85.
BCR-ABL p210 Fusion Protein Evidence of its role in CML  In vitro: cause factor-independent, leukemogenic cell growth in hematopoietic cell lines.  In vivo: generate in mice CML-like syndrome. Science 1990;247:824-30.
FAB Classifications M0: minimally differentiated M1: without maturation M2: with maturation. May have t(8;21) translocation. M3: promyelocytic. Good prognosis. Can be associated w/ t(15;17). M4: myelomonocytic; assoc. w/ t(16;16) or inv(16)(p13q22). M5: monoblastic M6: erythroleukemia M7: megakaryoblastic. Poor overall survival.
Clinical Course  Median survival: 3.5~8 yr.  Chronic phase: 3~4 yr.  Accelerated phase (15%): 3~6 mo, then enters acute phase.  Acute phase (blast crisis), 25% in each year, findings: blasts > 30%, cytogenetic changes other than Ph chromosome, progression likes acute leukemia. 70% enters AML, 30% ALL.
Prognosis “Good risk”: favorable karyotype, including t(8;21), t(15;17), inv(16)/t(16;16)/del(16q) or FAB subtype M3 “Poor risk”: adverse karyotype or resistant disease after first course of chemo (i.e. >15% blasts in post-tx bone marrow bx) 5-yr survival for good, standard, and poor risk patients 70, 48, and 15% respectively. Relapse rates are 33, 50, and 78% respectively.
Treatment  As of yet there is no cure for Leukemia  Many advances have been made in the past couple years  The survival rate of children with Acute Lymphocytic is around 82% Treatments include:  Chemotherapy  Radiotherapy  Immunotherapy  Bone marrow transplant
Research  New drugs  Cord blood and planceta
Treatment  Depending on the type of cancer treatments may vary. Treatments of leukemia may include chemotherapy, radiation therapy, or bone marrow transplant. They also treat leukemia patients with the infusion of healthy blood cells and platelets. During and after the treatment blood counts are done to see if the patient is being controlled or in remission.
Treatments  Blood and marrow stem cell transplantation.  Research.  Development of new drugs.  Immunotherapy.  Vaccines.  Reversal of multidrug resistance.  Gene therapy.
Management (1)  Chronic phase – Hydroxyurea or busulfan, relieves symptoms and control of disease. – Interferon-a: 20% cytogenetic response, prolongation of survival. . It can gain 20 more months survival than C/T. This advantage must be weighed against its significant side effects.
Management (2) BMT or PBSCT  Allogeneic bone marrow transplantation in the chronic phase is the only therapy known to cure CML 5YS > 50%, relapse < 20%, 20~40% BMT related death in the first year.  It should be done as soon as possible for patients – Chronic phase. – <50 years old. – Has an HLA-identical sibling.
Management (3) STI571  STI 571:Inhibitors of the BCR-ABL fusion proteins (tyrosine kinase)  After six months of therapy with Glivec (STI571), preliminary findings showed that half of 290 patients tested were improving. They had what's known as a cytogenic remission -- a reduction in the 'Philadelphia Chromosome' which causes the disease.  "In these patients we found a very high response rate, there was some response seen in 91 percent of the patients," said Dr. Talpaz of the M.D. Anderson Cancer Center. "Some of the patients returned to the chronic phase of the disease."
Allogeneic Stem Cell Transplantation  eradicates of the marrow cells (marrow- ablating C/T or R/T)  implantation of allogeneic stem cells  homing of the stem cells to the marrow cavity  growth of the stem cells and recovery of the blood cells
Complications of SCT  rejection, graft failure  graft-versus-host disease  infection  VOD  obliterative bronchiolitis  sepsis  relapse of disease
GVHD (Graft versus Host Disease)  Immunologic reaction of donor lymphocytes to “foreign” antigens present on the surface of host cells  “foreign” antigens: – HLA antigens – “minor” antigens not detected by current typing techniques
Acute GVHD (1) incidence  Within the first 3 months after BMT  20~50% of HLA-identical, 80% of HLA non- identical recipients  incidence increases with – patient age – degree of HLA disparity
Acute GVHD (2)manifestations  Histology: lymphocytic infiltration of the epidermis and GI tract  fever  dermatitis: diffuse macular dermatitis, bullas, desquamation  enteritis: cramping abdominal pain, watery to bloody diarrhea  hepatitis: jaundice, cholestasis, hepatocellular necrosis  infection: frequently related to mortality  hyperacute GVHD (no prophylaxis): 7 days after BMT: exfoliative dermatitis, shock, hyperpyrexia
Chronic GVHD (1) incidence  develops > 3 months after BMT  20~50% of allografts, usually following acute GVHD  20~30% develops de novo, without prior acute GVHD
Chronic GVHD (2) manifestations like collagen diseases  skin: pigmentation, sclerosis  mucosa: lichenoid oral plaque, esophagitis, polyserositis, oral and eye sicca syndrome  liver: elevated ALP and GOT in 90% cases  chronic wasting due to anorexia  chronic pulmonary disease: 10~20% (diffuse interstitial pnuemonitis and obliterative bronchiloitis)  death usually caused by infection, low mortality related to de novo onset & less tissue involvement.
Blast Crisis  30% ALL, 70% AML  Treatment likes de novo acute leukemia with poor success.  Chance of achieving remission is possible in ALL, which may last 4~8 months, but low in AML.  Survival is usually 2~4 months.
CML in Blast Crisis

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leukemias.ppt

  • 1.
  • 2.
  • 3.
    About the Disease Leukemia, lymphoma and myeloma are cancers that originate in the bone marrow (leukemia & myeloma) or in lymphatic tissues (lymphoma).
  • 4.
    Different Types ofBlood Cancers  Leukemia  Non-Hodgkin Lymphoma  Hodgkin Lymphoma  Myeloma  Myelodysplastic Syndromes
  • 5.
    What is Leukemia? Leukemia is cancer found in the blood cells  There are many types of Leukemia  They are classified by how quickly they progress and what type of cell they affect  Leukemia is causes when there is an imbalance of healthy unhealthy blood cells in the body  This occur when one cell awry and the body begins to produce large numbers of this cell
  • 6.
    What Is Leukemia? Cancer of the white blood cells  Acute or Chronic  Affects ability to produce normal blood cells  Bone marrow makes abnormally large number of immature white blood cells called blasts
  • 7.
    What is Leukemia Greek word which means “white blood”  Leukemia is when cells spread rapidly and destroy living tissue.  It grows/invades the bone marrow which is the factory of blood and replaces normal blood elements with cancer cells.  Cancer cells replace all bone marrow cells which causes infection and bleeding problems.  Leukemia is basically white blood cells that don’t work well and cause trouble.
  • 8.
    Continued  Millions ofimmature and useless white blood cells are produced which makes it harder to kill cancer cells and preserve the good/healthy ones.  Leukemia causes change in cells, DNA, and gene.  If the blood matches with donator then you are curried.  Bone marrow is spongy tissue that fills in the center core of bone.  There are 4 different types of Leukemia.
  • 9.
    Types of Leukemia Based on how quickly the disease develops it is classified as either acute or chronic  In Acute Leukemia the white blood cells tend to develop more rapidly and very immature  In Chronic Leukemia the cells tend to develop more slowly  They are also classified by which type of white bloods cells are affected  If the lymphoid cells are affected the disease is referred to as Lymphocytic Leukemia  If the myeloid cells are affected it is called Myelongenous Leukemia
  • 10.
    Types of Leukemia Acute lymphoblastic Leukemia (ALL)  Acute myeloblastic Leukemia (AML)  Chronic lymphocyte Leukemia (CLL)  Chronic myeloid Leukemia (CML)
  • 11.
    Demographics of Leukemia Patients(2001 Data) ALL 11% CLL 26% AML 31% CML 15% others 17% Total Reported Cases = 31,500 Sources from Leukemia, Lyphoma, Myeloma Facts 2001 CLL=Chronic Lymphocytic ALL=Acute Lymphocytic CML=Chronic Mylogenous AML=Acute Mylogenous
  • 12.
    Chronic and Acute ChronicLeukemia:  Progress slowly (runs a slow course)  Not immediately fatal. Acute Leukemia:  Progress rapidly (runs a fast course)  Life expectancy short without treatment.
  • 13.
    Lymphocyte and Myeloid Lymphocyte: Increase in white blood cells produced in lymph nodes and bone marrow.  Strikes without any warning. Myeloid:  Increase in white blood cells produced exclusively in the bone marrow.  Strikes without any warning.
  • 14.
    Acute Myeloid Leukemia (AML): Mixed group of disease  It means “marrow like” and in this context it simply means arising from developing blood cells.  This type of leukemia runs a rapid course.
  • 15.
    Acute Lymphoblast Leukemia (ALL): Group of different diseases  A complexity of which is still trying to be unraveled  Reached a point where not all are being treated the same.  This type of Leukemia runs a rapid course.
  • 16.
    Chronic Myeloid Leukemia (CML): Characterized by increased production of granulocytes in the bone marrow.  Usually associated with a specific chromosomal abnormality called the Philadelphia chromosome  Progresses slowly
  • 17.
    Chronic Lymphocyte Leukemia (CLL): This type of cancer is so rare it could be said not to arise at all in the first two decades of life.  Starts of in the Bone marrow  This type of cancer runs a slow course giving more time to live.
  • 18.
    Risk Factors  Asof now we do not know the exact cause of Leukemia  Exposure to these have been identified as risk factors  High energy radiation  Some genetic syndromes  People working with chemical benzene for a long period of time
  • 19.
    Causes  High levelradiation/toxin exposure  Viruses  Genes  Chemicals  Mostly unknown  Can’t be caught
  • 20.
    Development of Leukemiain the Bloodstream Stage 1- Normal Stage 2- Symptoms Stage 3- Diagnosis Stage 4- Worsening Stage 5a- Anemia Stage 5b- Infection Legend White Cell Red Cell Platelet Blast Germ Sources from Leukemia, by D. Newton and D. Siegel
  • 21.
    Effects On theBody  Attacks the immune system  Infections  Anemia  Weakness  No more regular white blood cells, red blood cells, and platelets  Blasts clog blood stream and bone marrow
  • 22.
    Symptoms  When thereare excessive white blood cells - -> Infections  When there are few red blood cells: Paleness --> Anemia  When there are few platelets --> Excessive bleeding
  • 23.
    Signs Of Leukemia Mostof the symptoms of leukemia are similar to those of a common illness such as the flu. The symptoms will vary according to the type of leukemia.  Tired  Frequent infections  Easy bruising or bleeding  Bone tenderness  Headache  Enlarged lymph nodes  Low red blood count  Pale skin  Poor appetite
  • 24.
    Tests For Diagnosis Finger prick  Blood sample  Blood dye  Bone marrow sample  Spinal Tap/Lumbar Puncture
  • 25.
    Diagnosis  As immaturecells increase in the body leads to lower amounts of red blood cells and platelet cells  The low amounts of red blood cells cause patient to be tired and pale  Low amounts of platelet cells cause the patient to easily bruise or bleed  During a physical exam the doctor detects swollen spleen, liver, or lymph nodes  Then there is a blood test conducted to see if it is leukemia  The type of Leukemia is determined after bone marrow is extracted and tested
  • 26.
    Diagnosis  Most commonlyleukemia is diagnosed by a blood test to count the number of red cells, white cells and platelets. A biopsy of the bone marrow may also be performed
  • 27.
    Pictures Of Blood Normalhuman blood White Cell Red Cell Platelet Blood with leukemia Blasts Red Cell Platelet White Cell Sources from Arginine.umdnj.edu Sources from beyond2000.com
  • 29.
    Diagnosis Requires all ofthe following diagnostic components: a) Documentation of bone marrow infiltration b) Myeloid origin of the leukemic cells c) FAB/WHO classification of the leukemia d) Karyotypic analysis
  • 30.
    Differential Diagnosis  chronicmyelogenous leukemia  other myeloproliferative disorders  reactive leukocytosis: leukemoid reaction  acute leukemia
  • 31.
  • 32.
  • 33.
    BCR-ABL p210 FusionProtein Activity  Higher tyrosine kinase activity. – Increases progenitor cells, reduces the pool of stem cells. Semin Hematol 1988;25:1-19. – Defective cytoadherence. Hematol Oncol Clin North Am 1988;12:1-29. – Suppression of apoptosis. Blood 1994;83:1575-85.
  • 34.
    BCR-ABL p210 FusionProtein Evidence of its role in CML  In vitro: cause factor-independent, leukemogenic cell growth in hematopoietic cell lines.  In vivo: generate in mice CML-like syndrome. Science 1990;247:824-30.
  • 35.
    FAB Classifications M0: minimallydifferentiated M1: without maturation M2: with maturation. May have t(8;21) translocation. M3: promyelocytic. Good prognosis. Can be associated w/ t(15;17). M4: myelomonocytic; assoc. w/ t(16;16) or inv(16)(p13q22). M5: monoblastic M6: erythroleukemia M7: megakaryoblastic. Poor overall survival.
  • 45.
    Clinical Course  Mediansurvival: 3.5~8 yr.  Chronic phase: 3~4 yr.  Accelerated phase (15%): 3~6 mo, then enters acute phase.  Acute phase (blast crisis), 25% in each year, findings: blasts > 30%, cytogenetic changes other than Ph chromosome, progression likes acute leukemia. 70% enters AML, 30% ALL.
  • 46.
    Prognosis “Good risk”: favorablekaryotype, including t(8;21), t(15;17), inv(16)/t(16;16)/del(16q) or FAB subtype M3 “Poor risk”: adverse karyotype or resistant disease after first course of chemo (i.e. >15% blasts in post-tx bone marrow bx) 5-yr survival for good, standard, and poor risk patients 70, 48, and 15% respectively. Relapse rates are 33, 50, and 78% respectively.
  • 47.
    Treatment  As ofyet there is no cure for Leukemia  Many advances have been made in the past couple years  The survival rate of children with Acute Lymphocytic is around 82% Treatments include:  Chemotherapy  Radiotherapy  Immunotherapy  Bone marrow transplant
  • 48.
    Research  New drugs Cord blood and planceta
  • 49.
    Treatment  Depending onthe type of cancer treatments may vary. Treatments of leukemia may include chemotherapy, radiation therapy, or bone marrow transplant. They also treat leukemia patients with the infusion of healthy blood cells and platelets. During and after the treatment blood counts are done to see if the patient is being controlled or in remission.
  • 50.
    Treatments  Blood andmarrow stem cell transplantation.  Research.  Development of new drugs.  Immunotherapy.  Vaccines.  Reversal of multidrug resistance.  Gene therapy.
  • 51.
    Management (1)  Chronicphase – Hydroxyurea or busulfan, relieves symptoms and control of disease. – Interferon-a: 20% cytogenetic response, prolongation of survival. . It can gain 20 more months survival than C/T. This advantage must be weighed against its significant side effects.
  • 52.
    Management (2) BMT orPBSCT  Allogeneic bone marrow transplantation in the chronic phase is the only therapy known to cure CML 5YS > 50%, relapse < 20%, 20~40% BMT related death in the first year.  It should be done as soon as possible for patients – Chronic phase. – <50 years old. – Has an HLA-identical sibling.
  • 53.
    Management (3) STI571  STI571:Inhibitors of the BCR-ABL fusion proteins (tyrosine kinase)  After six months of therapy with Glivec (STI571), preliminary findings showed that half of 290 patients tested were improving. They had what's known as a cytogenic remission -- a reduction in the 'Philadelphia Chromosome' which causes the disease.  "In these patients we found a very high response rate, there was some response seen in 91 percent of the patients," said Dr. Talpaz of the M.D. Anderson Cancer Center. "Some of the patients returned to the chronic phase of the disease."
  • 54.
    Allogeneic Stem CellTransplantation  eradicates of the marrow cells (marrow- ablating C/T or R/T)  implantation of allogeneic stem cells  homing of the stem cells to the marrow cavity  growth of the stem cells and recovery of the blood cells
  • 55.
    Complications of SCT rejection, graft failure  graft-versus-host disease  infection  VOD  obliterative bronchiolitis  sepsis  relapse of disease
  • 56.
    GVHD (Graft versus HostDisease)  Immunologic reaction of donor lymphocytes to “foreign” antigens present on the surface of host cells  “foreign” antigens: – HLA antigens – “minor” antigens not detected by current typing techniques
  • 57.
    Acute GVHD (1)incidence  Within the first 3 months after BMT  20~50% of HLA-identical, 80% of HLA non- identical recipients  incidence increases with – patient age – degree of HLA disparity
  • 58.
    Acute GVHD (2)manifestations Histology: lymphocytic infiltration of the epidermis and GI tract  fever  dermatitis: diffuse macular dermatitis, bullas, desquamation  enteritis: cramping abdominal pain, watery to bloody diarrhea  hepatitis: jaundice, cholestasis, hepatocellular necrosis  infection: frequently related to mortality  hyperacute GVHD (no prophylaxis): 7 days after BMT: exfoliative dermatitis, shock, hyperpyrexia
  • 59.
    Chronic GVHD (1)incidence  develops > 3 months after BMT  20~50% of allografts, usually following acute GVHD  20~30% develops de novo, without prior acute GVHD
  • 60.
    Chronic GVHD (2) manifestationslike collagen diseases  skin: pigmentation, sclerosis  mucosa: lichenoid oral plaque, esophagitis, polyserositis, oral and eye sicca syndrome  liver: elevated ALP and GOT in 90% cases  chronic wasting due to anorexia  chronic pulmonary disease: 10~20% (diffuse interstitial pnuemonitis and obliterative bronchiloitis)  death usually caused by infection, low mortality related to de novo onset & less tissue involvement.
  • 61.
    Blast Crisis  30%ALL, 70% AML  Treatment likes de novo acute leukemia with poor success.  Chance of achieving remission is possible in ALL, which may last 4~8 months, but low in AML.  Survival is usually 2~4 months.
  • 62.