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©2011 MFMER | slide-1
20019 Update on Acute Myeloid Leukemia: When and If a Transplant is an OptionJames M. Foran, MD FRCPCAssociate Professor of OncologyChair, Acute Leukemia & Myeloid Neoplasms Disease Group,
Mayo Clinic Cancer CenterJacksonville, FL
AA•MDS International Foundation, 2019 Patient & Family ConferenceMayo Clinic, Jacksonville FL, November 16th, 2019
©2011 MFMER | slide-2
What is Leukemia?
• Greek: “White Blood”
• Cancer of bone marrow (blood-producing) cells• Immature primitive BM cells, proliferative - acute
• Abnormal Complete Blood Count
• Short-term survival without therapy
• Prognosis varies greatly • Requires detailed pathology review & diagnosis
©2011 MFMER | slide-3
AML
ALL
Siegel, CA: A Cancer Journal for Clinicians 69:7-34, 2019
AML (2019)
Cases: 21,450
Deaths:10,920
©2011 MFMER | slide-5
Epidemiology of LeukemiaRelevance in the Clinic
• The causes of cancer are largely unknown in individual patients
• Deeply relevant to patients and their families• “Why did this happen to me?” 1
• Impact of the cause on the disease course• Risk of recurrence
• Interventions, appropriate lifestyle changes, etc.
• Recognition of Familial Risk
• Impact of specific leukemia risk factors on genetics, prognosis and outcome after diagnosis largely unstudied
1Dizon DS: ASCO Connection, 09 April 2015
©2011 MFMER | slide-6
AML EpidemiologyExposures Identified in Case-Control Studies
Relative Risk of developing
AMLObesity 2-foldAcetaminophen 1-2Aspirin Lower ?Smoking 2Farm/Ruralhabitat
2
Benzene 2-10Ulcerative Colitis 4Chemo/Radiation 2-10
Ross, Cancer Epidemiology Biomark & Prev. 13:1810, 2004. Sandler, JNCI 85:1994, 1993Sinner, Cancer Epidemiol Biomark & Prev. 14:2446, 2005. Natelson, Am J Hematol 82:826, 2007Ross, Cancer Epidemiol Biomark & Prev. 20:1741, 2011. Johnson, Ca Caus. & Contr. 23:1083, 2012
Some risk factors that have been associated with AML development identified in Population-Based Case-Control Studies• Not proof of
causality, but suggests increased risk
• Further studies ongoing
©2011 MFMER | slide-7
©2011 MFMER | slide-8
Normal Bone Marrow Biopsy
©2011 MFMER | slide-9
AML BM biopsy
©2011 MFMER | slide-10
Acute Leukemia
• Complications of Leukemia:• Infection Rapid onset, esp. if neutropenia• Bleeding Low platelets, low fibrinogen DIC• Clotting Hypercoagulable, even if low platelets• Fatigue Anemia, transfusions• Leukostasis “Sludging” - confusion, stroke, bleed,
cardiopulmonary symptoms
• Importance of coordinated clinic evaluation & hospital care• Acute Leukemia Must see in 24-48 hours whenever possible• Frequently direct hospital transfer , or being admitted for
urgent evaluation and initiation of treatment • ~4 week intensive “remission induction” therapy
©2011 MFMER | slide-11
Principles of AML Treatment
• Improve symptoms and suffering from AML• Cure whenever possible• Treatment is better than no treatment for almost
all patients• Allogeneic transplant
©2011 MFMER | slide-12
©2011 MFMER | slide-13
Suspect AML Diagnosis No mitogen used for
hematologic analysis
PT Greipp 9-16-15 HKSH
©2011 MFMER | slide-14
FISH analysis• does not require dividing cells• site-specific• higher resolution (~100 Kb)
Chromosome analysis• requires dividing cells • whole genome coverage• low resolution (~5 Mb)
Microarray analysis• does not require dividing cells• whole genome coverage• 2.6M copy number markers• 750k SNPs• high resolution (~25-50 Kb)
Cytogenetic Testing
PT Greipp 9-16-15 HKSH
What is a mutation?
…TTGAGTCG….
…TTGAGTAG….
©2011 MFMER | slide-16
Mutations
• A mutation is a change that occurs in our DNA sequence, either due to mistakes when the DNA is copied, or as the result of environmental factors such as UV light and cigarette smoke.
• Disrupt normal gene activity and cause diseases, like cancer• Can contribute to prognosis with standard therapies• * Some gene mutations can be targeted
AML is a complex biological disease
Sai-Juan Chen, Nature Genetics 45,586, 2013
Lindsley et al, Blood 125:1367, 2015
Mutations & Genetic Subtypes in AML
• Guide prognosis and therapy
• Targetable mutations• Commonly multiple
mutations in AML
• Insights into biology and epidemiology of AML
©2011 MFMER | slide-19
Why do Prognostic Factors Matter in AML?
• Give healthcare providers & patients and their families insights into what to expect • Based upon what happened to those with similar AML features before them
• As therapies change, prognosis changes
• Relevant to determine eligibility for available treatments• Depends on the therapy
• Individualize prognosis, and possibly therapy whenever possible• Determining timing & selection for therapy
• e.g. low intensity vs. low intensity chemotherapy or even allogeneic transplantation
• Addition of novel therapies• Clinical Trial eligibility
©2011 MFMER | slide-20
AML biology predicts response to cytarabine + anthracycline chemotherapy
Risk status Cytogenetics Molecular abnormalities
Better risk inv(16) or t(16;16) ort(8;21) without c-KIT mutation, t(15;17)
Normal karyotype withNPM-1 mutation in the absence of FLT-3 ITD orIsolated biallelic CEBPα
Intermediate risk Normal karyotypeTrisomy 8 alonet(9;11)Other not defined
t(8;21), inv(16), t(16;16) with c-KIT mutation
Poor risk Complex (≥3 clonal abnl)Monosomal karyotype-5, 5q-, -7, 7q-11q23 (not t(9;11))Inv(3), t(3;3)t(6;9), t(9;22)
Normal karyotype with FLT-3 ITD mutation
Adapted from NCCN Guidelines. Acute Myeloid Leukemia
©2011 MFMER | slide-21
Modern Treatment Paradigmof AML
Complete response?
Induction therapy
Risk Stratify
Complete response
Relapse?
Primary refractory
Salvage therapy
Consolidation chemotherapy
Allogeneic transplantRisk
Stratify
©2011 MFMER | slide-22
“ Diseases desperate grown,by desperate appliances are reliev’d,
or not at all ”
(HAMLET III. 9)
• First large randomized study • Established ‘7&3’ (Cytarabine x 7 days, and
Daunorubicin x 3 days) as the standard remission induction therapy in younger adults
Rai et al Blood 58:1203 1981
Relative survival by time and age for Acute Myeloid Leukemia based on SEER data.
Klepin H et al; Journal of Clinical Oncology 32:2541, 2014
AML over 40 Years:
Change in overall survival [UK NCRI]
A: Age <60 years
B: Age >60 years
Burnett A. JCO 2011;29:487-494
©2011 MFMER | slide-26
Advances in 1st line Intensive Treatment
• VyxeosTM - New chemotherapy formulation for ‘secondary AML’ (arising after prior chemo or radiation, or prior MDS)
• MylotargTM – Antibody targeting a common leukemia cell surface marker called CD33, linked to a toxin -‘immunotoxin’
• Midostaurin (RydaptTM)– oral inhibitor for FLT3 mutations with chemotherapy
• Gilteritinib - oral inhibitor for FLT3 mutations after relapse• Ivosidenib - IDH1 mutation-targeted
CPX-351 Uses a Nano-Scale Delivery Complex
• 100 nm bilamellar liposomes• 5:1 molar ratio of cytarabine
to daunorubicin• 1 unit = 1.0 mg cytarabine plus 0.44 mg
daunorubicin
27
Patients Treated With CPX-351 Exhibited Statistically Significant Improvements in Response Rate
Note: Percentages reflect number with endpoint out of column total. Odds ratios are calculated with the 7+3 arm as the reference group.P-value is from a comparison of rates between treatment arms and is based on the Mantel-Haenszel test stratifying by age and AML type.
37.3
47.7
25.6
33.3
0
20
40
60
CR CR + CRi
CPX-351 (n=153) 7+3 (n=156)
Patie
nts
(%)
p = 0.040
p = 0.016
1.69 (1.03, 2.78) 1.77 (1.11, 2.81)Odds Ratio (95% Conf. Int.)
28Lancet et al, J. Clin Oncol 2018
S
H
HOO
OCH 3
NH O
O
OCH 3
N
EtO
OHOCH 3HOCH 3
OCH 3HN
HO
OO
OH
CH3S
CH 3
OCH 3
OCH 3
I
O
O
OO
O
CH3
S
O
NHN
Me Me
Me
OO
HN
hP67.6
• hP67.6 - humanized anti-CD33 antibody• Linker• Calicheamicin
Gemtuzumab-ozogamicin (MylotargTM)
©2011 MFMER | slide-30
Gemtuzumab Ozogamicin (MylotargTM)
• Benefit in significantly lowering the relapse rates by approximately 10-15%• Day 1, 4, and 7 added to ‘7&3’ intensive chemotherapy
• Most benefit in patients with ‘Better’ or ‘Intermediate’ risk cytogenetics• Probably not very helpful in ‘Adverse’ cytogenetics
• Must watch for Liver toxicity, especially in patients who may ultimately go to allogeneic transplant
• ‘VOD’ – veno-occlusive disease, a post-BMT complication
©2011 MFMER | slide-31
What is FLT3?
D835 (~8% AML)
D589-599 ITD (20-25% AML)
• Flt3 mutations: approximately 33% of AML patients, causes abnormal leukemia signaling and proliferation
• Independent adverse prognostic factor, contributes to relapseGilliland, Blood 100:1532, 2002
Nazha, Haematologica 97:1242, 2012
• FLT3 is an important growth factor receptor
• Necessary for normal signaling and growth of bone marrow stem cells
©2011 MFMER | slide-32
FLT3 Inhibitors
• Bind to mutant FLT3 receptor to ‘shut down’ signaling• Midostaurin – showed ~10% advantage in survival in
large randomized study if FLT3 mutation• FDA-approved in 1st line with 7&3 chemotherapy
• Sorafenib - possibly helpful with low intensity chemo• Not FDA-approved in AML
• For relapsed AML with FLT3 mutation• Gilteritinib – complete remissions, targets both FLT3
mutations• FDA-approved
©2011 MFMER | slide-33
Principles of Incorporating New Agents
• New targeted agents with a clear survival advantage should be administered, in accordance with their approval
• New agents should not be routinely combined until there is data showing safety and superior outcomes
• There is still a group for whom standard therapy alone is appropriate
• If possible, await FLT3 mutation status and cytogenetic risk group whenever possible before starting therapy
• sometimes must start therapy with ‘best guess’
©2011 MFMER | slide-34
Age Population Cytogenetics Dosing AlloHCT Candidate
Midostaurin Any(<60 yr)
FLT3-ITD or TKD mutant
Diploid, other Days 8-21
Yes
VyxeosTM Any(60-75)
tAML or sAML(* AML-MRC)
MDS-Related Days 1,3,5 Yes
Gemtuzumab Any CD33-positive *Favorable, or Intermediate(*CBF)
Days 1,4,7 Yes(D1 only?)
Tagraxofusp-erzs
Any BPDCN Any Days 1-5 Yes
Decitabine (combo)
Any (>60)
TP53mut ComplexCytogenetics with TP53mut
D1-5or D1-10
Yes
Standard‘7&3’
Any CD33-negative Adverse, non-MRC
7&3 Yes
Intensive Remission Induction Therapy for AMLMayo Clinic Guidelines for Incorporating New Agents
©2011 MFMER | slide-35
Age-Specific AML Incidence Rates
Juliusson, Blood 2009.
0
20
40
60
80
100
120
140
160
180
200
16-24 25-29 30-34 35-39 40-44 45-49 50-54 55-59 60-64 65-69 70-74 75-79 80-84 85-89 90+
Inci
denc
e
Patient Age (yrs)
Males Females All
Frequency of remission induction therapy
©2011 MFMER | slide-36
Who is Unfit?
• Age• Performance Status• Comorbidity• Some disease related factors which may be more appropriately
treated with lower intensity therapy (e.g. TP53)
©2011 MFMER | slide-37
Operational criteria to define unfitness to intensive chemotherapy in AML1. An age older than 75 years
2. Congestive heart failure or documented cardiomyopathy with an EF ≤50%
3. Documented pulmonary disease with DLCO ≤65% or FEV1 ≤65%, or dyspnea at rest or requiring oxygen, or any pleural neoplasm or uncontrolled lung neoplasm
4. On dialysis and age older than 60 years or uncontrolled renal carcinoma
5.Liver cirrhosis Child B or C, or documented liver disease with marked elevation of transaminases (>3 times normal values) and an age older than 60 years, or any biliary tree carcinoma or uncontrolled liver carcinoma or acute viral hepatitis
6. Active infection resistant to anti-infective therapy
7.Current mental illness requiring psychiatric hospitalization, institutionalization or intensive outpatient management, or current cognitive status that produces dependence (as confirmed by the specialist) not controlled by the caregiver
8. ECOG performance status ≥3 not related to leukemia
9. Any other comorbidity that the physician judges to be incompatible with conventional intensive chemotherapy
Ferrara F. et al, Leukemia 27:997, 2013
©2011 MFMER | slide-38
Low Intensity Therapy for AML• Older patients (>75), or those who are not fit for intensive
therapy due to comorbid disease • Represents the largest proportion of patients with AML
• Survival often short without therapy, ~4 months• Low-dose cytarabine (LDAC) - advantage over BSC
• Azacitidine or Decitabine - possibly better • Newer oral versions in development• Possible role in maintenance
• Improve survival, but not curative• Convert AML into a more chronic or subacute course• Occasional remissions but stable AML is meaningful
©2011 MFMER | slide-39
Low Intensity Combination Therapies
• How to improve outcome?• Many clinical trials ongoing, HMA combination•Novel targets:
• HDAC inhibitors• NEDD8 inhibitors • Monoclonal antibodies (e.g. CD33-based)• Mutations (e.g. IDH1, IDH2, FLT3)• Apoptosis (BCL2)• Immune [BiTE’s, Checkpoint inhibitors]
• Many others….! clinicaltrials.gov
©2011 MFMER | slide-40
Venetoclax
• Oral BCL2 inhibitor• FDA-approved
• Targeting BCL2 (and possibly MCL1) expression is important in some patients with AML
• Remission in ~20% with relapsed AML• Addition to low intensity therapy (azacitidine) appears to
increase complete remission rate in 1st line setting
©2011 MFMER | slide-41
• Isocitrate dehydrogenase (IDH)
• critical enzyme of citric acid cycle
• IDH2 mutations: 9–13% of AML
• IDH1 mutations: 6–10% of AML
• IDH mutations:• Aberrant methylation
• i.e. DNA not ‘read’ properly• Impaired cellular differentiation
• i.e. cells ‘stuck’ as blasts• Drives leukemia
IDH Mutations as a Target in AML
Tumor cell
Mitochondrion
αKG
IDH2
Isocitrate
Citrate
Citrate
Isocitrate
αKG
IDH1
Epigenetic changesImpaired cellular
differentiation
IDH2mutant 2-HG
IDH1 mutantNADPH
NADPH
1Based on literature analysis. Estimates will continue to evolve with future data. 2Dang et al. Nature 2009;462:739-44.
©2011 MFMER | slide-42
Sept 10, 2009 First patient treated Sept 2013
July 20, 2018Aug 1, 2017
Mar 16, 2010
Enasidenib Ivosidenib
BEAT AML STUDY DESIGN
Patient Registration
Consent
Bone Marrow Sample
Genomic Screening
< 1 Week (7 days)
Assign Treatment by Marker
Diagnostics Assessed:• Cytogenetics-locally with central review (Dr. N. Heerema)• Broad NGS genomic analysis (Foundation Medicine)• FLT3 ITD and TKD (PCR based assay, Invivoscribe)
Treatment Assigned: Centrally (JCB, RL, BD)
Targeted Agent or
Combination
Novel Agent
Primary Endpoint: CR; CRi
Initiationof Trial
Initiation of Trial
Assignment based on:• Best option for patient (curability) –
top to bottom
• Dominant clone at VAF > .3
• If no dominant clone at VAF > .3, go to .2
• If no dominant clone at VAF > 0.2, then top to bottom for assignment
Feasibility: Mims et al: Abstr 1489
HOW IS THERAPY ASSIGNED?Core Binding Factor
NPM1 mutation/FLT3 WT
MLL rearrangements
IDH2 mutations
IDH1 mutations TP53 mutations complex
w no TP53 mutation
FLT3 mutations
TET2/WT1 mutations
Marker Negative
BEAT AML ACTIVE STUDIES
AML Subtype DrugCBF Samalizumab (CD200 Ab) + induction
NPM1 + FLT3-ITD Entospletinib (Syk inhibitor) + induction (fit)Entospletinib (Syk inhibitor) monotherapy (unfit)
MLL rearranged Entospletinib (Syk inhibitor)Entospletinib + Aza
IDH2+ EnasidenibEnasidenib + Aza
IDH1+ Ivosidenib + AzaTP53+ Entospletinib (Syk inhibitor) + Decitabine;
TP53 - Complex Karotype (> 3 abn) Entospletinib (Syk inhibitor) + Decitabine TP53+ Pevonedistat (Nedd8 inhibitor) + Aza
FLT3-ITD+ or FLT3-TKD+ Gilteritinib monotherapy or + DecitabineTet2/WTI BI 836858 (CD33 Ab) + Aza
Marker Negative BI 836858 (CD33 Ab) + Aza
©2011 MFMER | slide-46
Barrett, Ann Transl Med, 2017
Antibody-based therapeutic strategies for AML
Role of immune ‘checkpoint’inhibitors remains uncertain in AML
©2011 MFMER | slide-47
Evaluation for Allogeneic TransplantationA Balance of Hope and Reality
• Not for everybody• Can be curative, but not always, and can expose to significant risks• Must be ‘fit’, and must have a donor and a caregiver
• In general much harder for older patients over 65-70 years• Provides significant reduction in risk of relapse
• More effective if AML under control with low blast count• Control of any infections
• Improved outcomes in Modern Era• High resolution/molecular HLA typing for Unrelated Donors• Reduced intensity conditioning allows us to treat older adults• Improvements in Supportive Care
• Increased availability of donors [unrelated, and alternative donors]47
©2011 MFMER | slide-48
Selection at BMT Center
• Patient-centered evaluation and discussion • Decision taken together with BMT physicians
• Balance MDS risks and prognosis with risks/benefits of Allogeneic BMT • Leukemia risk & remission status• Patient eligibility
• Comorbid disease, psycho-social assessment, consent• Donor availability, caregiver support, type of healthcare insurance
• Strict national standards, recognized indications1
• FACT [Foundation for Accreditation of Cellular Therapy]• reviewed and accredited every 3 years
• Stem Cell Therapeutic Outcomes Database *
481Majhail et al, BBMT 21:1863, 2015
* http://bloodcell.transplant.hrsa.gov
©2011 MFMER | slide-49
AML biology predicts response to cytarabine + anthracycline chemotherapy
Risk status Cytogenetics Molecular abnormalities
Better risk inv(16) or t(16;16) ort(8;21) without c-KIT mutation, t(15;17)
Normal karyotype withNPM-1 mutation in the absence of FLT-3 ITD orIsolated biallelic CEBPα
Intermediate risk Normal karyotypeTrisomy 8 alonet(9;11)Other not defined
t(8;21), inv(16), t(16;16) with c-KIT mutation
Poor risk Complex (≥3 clonal abnl)Monosomal karyotype-5, 5q-, -7, 7q-11q23 (not t(9;11))Inv(3), t(3;3)t(6;9), t(9;22)
Normal karyotype with FLT-3 ITD mutation
Adapted from NCCN Guidelines. Acute Myeloid Leukemia
©2011 MFMER | slide-50
Supportive CareBlood Product Support
PRBC HGB >7g/dLSymptomatic anemiaINDIVIDUALIZE !
Platelets Maintain >10k, or bleeding>30K if bleeding or DIC >50K if procedure>100k if CNS/Brain bleeding
Blood products Cryoprecipitate, FFP
Granulocytes Rarely done
©2011 MFMER | slide-51
Supportive CareInfection
Leading Cause of Death*especially if Neutropenia (ANC <1,000/μL)
Temp >101.40 F Antibiotics to cover ‘Gram Negatives Rods’(e.g. Cefepime, Zosyn, Imipenem)
Prophylaxis Antibacterial: e.g. LevofloxacinAntifungal: ‘Azoles’Antiviral: e.g. Valacyclovir
©2011 MFMER | slide-52
Patient Support & Palliative Care in Acute Leukemia
• Hospice and palliative care underutilized in leukemia• Pain less common than other ‘solid’ cancers• Infection & antibiotics• Transfusion support• More intensive inpatient care often needed as leukemia
progresses
• Caregiver support - who cares for the caregiver?• Social work initiatives• Post-BMT support
52
©2011 MFMER | slide-53
Pearls of Wisdom
• Almost all patients benefit from therapy• Depends on scenario and patients needs• Set individual patient goals
• Current treatments still not adequate for many• We must work together to advance AML treatments and
outcomes• Clinical trials
• Precision Medicine
©2011 MFMER | slide-54
Acknowledgments
AML Clinical Team - Mayo Clinic Florida • Dana Raulerson, RN MSN, Deb Fischer, PA, & Nicole Gannon, PA• Jennifer Higginbotham, RN & Virginia Lesperance, RN MSN• Michelle Walsh MSW
Physicians• Phoenix, AZ Jeanne Palmer, MD, James Slack MD• Jacksonville, FL James Foran, MD, Hemant Murthy, MD• Rochester, MN Mark Litzow, MD, Aref Al-Kali, MD, Naseema Gangat, MD
Search ‘Leukemia’ at mayoclinic.org
"The best interest of the patient is the only interest to be
considered, and in order that the sick may have the benefit
of advancing knowledge, a union of forces is necessary."
1910: Dr. William J. Mayo Rush Medical College commencement address PT Greipp 9-16-15 HKSH