Content on this page:
Content on this page:
Evaluation
Risk
Stratification
All patients should be
categorized at baseline according to risks associated with myelofibrosis as it
is necessary for deciding on treatment options. The Dynamic International Prognostic Scoring System (DIPSS), DIPSS-Plus, Mutation-Enhanced International Prognostic
Scoring System for patients aged ≤70 (MIPSS-70) and MIPSS-70 Plus are
prognostic scoring systems used for
the risk stratification of patients with myelofibrosis.
DIPSS-Plus is the
recommended tool for risk stratification during the course of treatment if molecular testing is not available. DIPSS is an option
if karyotyping is not available.
MIPSS-70 or mutation- and karyotype-enhanced IPSS (MIPSS-70+ Version 2.0) are the preferred
prognostic scoring systems for patients with primary myelofibrosis.
Myelofibrosis secondary to polycythemia vera and essential thrombocythemia
prognostic model (MYSEC-PM) is the method used for patients diagnosed with post-polycythemia
vera myelofibrosis or post-essential thrombocythemia myelofibrosis.
Prognostic Scoring Systems for Patients with Primary
Myelofibrosis
Mutation-enhanced International
Prognostic Scoring System (MIPSS-70) for Patients with Primary Myelofibrosis
Aged ≤70 Years
This
stratifies patients into low-risk, intermediate-risk, and high-risk with
corresponding median OS of 28 years, 7 years, and 2 years
respectively and 5-year OS rates of 95%, 70%, and 29%
respectively.
| Prognostic Variable | Points |
| Hemoglobin <10 g/dL | 1 |
| Leukocytes >25 x 109/L | 2 |
| Platelets <100 x 109/L | 2 |
| Circulating blasts ≥2% | 1 |
| Bone marrow fibrosis grade ≥2 | 1 |
| Constitutional symptoms | 1 |
| CALR type-1 unmutated genotype | 1 |
| High-molecular risk (HMR) mutations (presence of a mutation in any of these genes: ASXL1, EZH2, SRSF2, or IDH1/2) | 1 |
| ≥2 HMR mutations | 2 |
Mutation and Karyotype-enhanced IPSS (MIPSS-70+ Version 2.0)
Mutation and karyotype-enhanced
IPSS stratifies patients into low-risk, intermediate-risk, high-risk, and very
high-risk with corresponding median OS rates of not reached, 10.3 years, 7.0 years, 3.5 years, and 1.8 years
respectively and 10-year survival rates of 86&, 50%, 30%, and <3%
respectively.
| Prognostic Variable | Points |
| Severe anemia (hemoglobin <9 g/dL in men and <8 g/dL in women) | 2 |
| Moderate anemia (hemoglobin 9-10.9 g/dL in men and 8-9.9 g/dL in women) | 1 |
| Circulating blasts ≥2% | 1 |
| Constitutional symptoms | 2 |
| Absence of CALR-1 type mutation | 2 |
| HMR mutations (presence of mutation in any of these genes: ASXL1, EZH2, SRSF2 U2AF1 Q157, or IDH1/2) | 2 |
| ≥2 HMR mutations | 3 |
| Complex karyotype1 | 3 |
| Very-high-risk (VHR) karyotype2 | 4 |
1Includes any abnormal karyotype other than normal karyotypes or sole
abnormalities of 20q-, 13q-, +9, chromosome 1 translocation/duplication, or -Y
or sex chromosome abnormality other than -Y
2Includes
single or multiple abnormalities of -7, i(17q), inv(3)/3q21, 12p-/12p11.2,
11q-/11q23, or other autosomal trisomies excluding +8/+9 (+21, +19)
Dynamic International Prognostic
Scoring Systems (DIPSS)
DIPSS may be used at any
time during the course of the disease. This stratifies patients
into low-risk, intermediate 1-risk, intermediate-2-risk and high-risk with
corresponding median survival rates of not reached, 14 years, 4 years, and 1.5
years respectively.
| Prognostic Variable | Points | ||
| 0 | 1 | 2 | |
| Age | ≤65 years | >65 years | - |
| WBC count | ≤25 x 109/L |
>25 x 109/L |
- |
| Hemoglobin | ≥10 g/dL |
- | <10 g/dL |
| Peripheral blood blast | <1% |
≥1% | - |
| Consitutional symptoms | None | Present | - |
Dynamic International Prognostic
Scoring Systems-Plus (DIPSS-Plus)
DIPSS-Plus is a refined prognostic scoring system
for primary myelofibrosis that incorporates prognostic information from
karyotype, platelet count, and transfusion status and is an alternative if
molecular testing is not available. It stratifies patients into low-risk,
intermediate-1-risk, intermediate-2-risk, and high-risk with corresponding
median survival rates of 15.4 years, 6.5 years, 2.9 years, and 1.3
years respectively.
| Prognostic Variable | Points |
| DIPSS low-risk |
0 |
| DIPSS intermediate-risk 1 (INT-1) |
1 |
| DIPSS intermediate-risk 2 (INT-2) |
2 |
| DIPSS high-risk |
3 |
| Platelets <100 x 109/L |
1 |
| Transfusion need | 1 |
| Unfavorable karyotype1 |
1 |
1Includes complex karyotype or sole or 2 abnormalities which include trisomy 8, 7/7q-, i(17q), 5/5q-, 12p-, inv(3), or 11q23 rearrangement
Risk Stratification
Based on the different scoring systems, patients can be
classified into the following:
MIPSS-70
- Low risk = 0-1 point
- Intermediate risk = 2-4 points
- High risk = ≥5 points
MIPSS-70+ version 2.0
- Very low risk = 0 point
- Low risk = 1-2 points
- Intermediate risk = 3-4 points
- High risk = 5-8 points
- Very high risk = ≥9 points
DIPSS
- Low risk = 0 point
- Intermediate-1 risk = 1-2 points
- Intermediate-2 risk = 3-4 points
- High risk = 5-6 points
DIPSS-Plus
- Low risk = 0 point
- Intermediate-1 risk = 1 point
- Intermediate-2 risk = 2 or 3 points
- High risk = 4-5 points
MYSEC-PM
- Low risk = ≤11 points
- Intermediate-1 risk = 12-13 points
- Intermediate-2 risk = 14-15 points
- High risk = ≥16 points
Prognostic Scoring
Systems for Patients with Post-Polycythemia Vera and Post-Essential Thrombocythemia
Myelofibrosis
Myelofibrosis Secondary to Polycythemia
Vera and Essential Thrombocythemia-Prognostic Model (MYSEC-PM)
MYSEC-PM stratifies
patients into low-risk, intermediate-1-risk, intermediate-2-risk, and high-risk
and corresponding median survival of not reached, 9 years, 4 years, and
2 years respectively.
| Prognostic Variable | Points |
| Age at diagnosis | 0.15 per patient’s year of age |
| Hemoglobin <11 g/dL |
2 |
| Circulating blasts ≥3% |
2 |
|
Absence
of CALR-1 type mutation
|
2 |
|
Platelets
<150 x 109/L
|
1 |
| Constitutional symptoms | 1 |
Assessment of Symptom Burden
The assessment of symptom burden is recommended
for all patients at baseline and during the course of treatment. Myelofibrosis
Symptom Assessment Form (MS-SAF) is a 20-item questionnaire used to assess myelofibrosis-associated
symptoms including fatigue; constitutional symptoms such as night sweats, bone
pain, fever, itching, and weight loss; symptoms associated with splenomegaly
which include abdominal pain or discomfort, early satiety, inactivity, and
cough; and quality of life.
Myeloproliferative Neoplasm Symptom Assessment Form
Total Symptom Score (MPN-SAF TSS)
MPN-SAF
TSS is a recommended assessment tool for symptoms at baseline and for
monitoring symptom status during the course of treatment. Assessment is done by
the patients themselves and scoring is from 0 (absent) to 10 (worst) on the
following symptoms: Fatigue (tiredness or weariness) during the past 24 hours,
early satiety, abdominal discomfort, inactivity, problems with concentration
compared to before the onset of disease, night sweats, itching or pruritus, bone
pain not associated with joint pain or arthritis, fever, and unintentional
weight loss in the last 6 months. This represents the sum of all individual
scores which can range from 0-100.
Principles of Therapy
The choice of treatment for
patients with myelofibrosis is based on the risk score, presence of
symptoms, and stage of the disease.
Goals of Treatment
The
goals of treatment in myelofibrosis are to control symptoms, decrease the risk
of hemorrhage and thrombosis, decrease the risk of progression, and improve
quality of life.
Therapeutic Recommendations
A clinical trial is recommended for all patients. Observation is an option for
asymptomatic and symptomatic patients with lower-risk myelofibrosis. Pharmacological
therapy is the preferred treatment option for patients with symptomatic
splenomegaly.
Goals of Clinical Trials
The
goals of clinical trials are to decrease bone marrow fibrosis, improve cytopenias
and symptom burden, restore transfusion independence, and delay or prevent
progression to acute myeloid leukemia.
Pharmacological therapy
Interferons
Example
drugs: Interferon alfa, Peginterferon alfa-2a, Peginterferon alfa-2b
Peginterferon alfa-2a may be a treatment option
in symptomatic lower-risk MF patients. It may have activity in lower-risk MF
but are not recommended for higher-risk MF. Interferon alfa has
limited use in the treatment of myelofibrosis-associated splenomegaly.
JAK2 Inhibitors
Fedratinib
Fedratinib is a selective JAK2
and FMS-like tyrosine kinase 3 (FLT3) inhibitor
that is approved for the treatment of patients with higher-risk
(intermediate-2-risk or high-risk) myelofibrosis. It is a treatment option for
patients with higher-risk myelofibrosis with platelet counts of ≥50 x 109/L
with symptomatic splenomegaly and/or constitutional symptoms who are ineligible
for transplant or for whom transplant is not currently feasible.
Momelotinib
Momelotinib is a selective JAK2 inhibitor and activin A receptor
type 1/activin receptor-like kinase-2 (ACVR1/ALK2) inhibitor. It may be
used as initial and subsequent therapy in symptomatic lower-risk MF patients
with loss of response or without response after initial therapy (eg clinical
trial, Ruxolitinib, Peginterberon alfa-2a, Hydroxyurea). It is a treatment
option for patients with higher-risk MF with platelet counts <50 x 109/L
ineligible for transplant or with platelet counts ≥50 x 109/L with
symptomatic splenomegaly and/or constitutional symptoms who are ineligible for
transplant or for whom transplant is not currently feasible. Lastly, it is also
a treatment option for patients with higher-risk MF (intermediate- or
high-risk) with anemia.
Pacritinib
Pacritinib is an oral
protein kinase inhibitor targeting JAK2, interleukin 1
receptor-associated kinase 1 (IRAK1) and FLT3. It is a preferred treatment option for
patients with higher-risk myelofibrosis with platelet counts of <50 x 109/L
ineligible for transplant. It is a treatment option
for patients with higher-risk MF with platelet counts ≥50 x 109/L
with symptomatic splenomegaly and/or constitutional symptoms who are ineligible
for transplant or for whom transplant is not currently feasible.
Ruxolitinib
Ruxolitinib is an oral
protein kinase inhibitor targeting JAK signaling. It is approved for the treatment
of patients with higher-risk (intermediate-risk or high-risk) myelofibrosis. It
is a first-line treatment for myelofibrosis-associated splenomegaly and other myelofibrosis-associated
symptoms in patients with higher-risk myelofibrosis. It is a treatment option for patients with higher-risk MF with platelet
counts ≥50 x 109/L with symptomatic splenomegaly and/or
constitutional symptoms who are ineligible for transplant or for whom
transplant is not currently feasible. It may be a
treatment option for symptomatic patients with low-risk myelofibrosis.
Controlled
Myelofibrosis Study with Oral JAK Inhibitor Treatment (COMFORT) I and II
studies have shown that continuous treatment in patients with intermediate-2-risk
and high-risk myelofibrosis is associated with significant benefits in
particular reduction in spleen size, improvement of disease-related symptoms, quality of life, and OS. It is an alternative for Hydroxyurea-resistant patients with
splenomegaly.
Treatment Recommendations Based
on Risk Stratification and Symptom Burden Assessment
Lower-risk Myelofibrosis
Symptomatic patients may receive Ruxolitinib, Peginterferon alfa-2a, Pacritinib for patients
with platelets <50 x 109/L and Momelotinib.
Hydroxyurea
(Hydroxycarbamide) is a treatment option for symptomatic patients with
hyperproliferative manifestations (eg thrombocytosis or leukocytosis) of myelofibrosis.
Cytoreductive therapy may be used for symptomatic patients with high platelet
counts. It is also a treatment option for myelofibrosis-associated splenomegaly.
Higher-risk Myelofibrosis
The options for treatment
of patients ineligible for allogeneic hematopoietic stem cell transplant is
based on the platelet count. Fedratinib or Momelotinib
or Pacritinib or Ruxolitinib or enrollment in clinical
trials are treatment options for patients with platelet counts of ≥50
x109/L. Patients with platelet counts <50 x 109/L
are recommended for Pacritinib (preferred) or Momelotinib therapy or
enrollment in clinical trials.
The continuation of JAK inhibitors near
the start of conditioning therapy is recommended in patients eligible for
allogeneic hematopoietic stem cell transplant to reduce splenomegaly and
improve other disease-related symptoms.
Management of
Myelofibrosis-Associated Anemia
Anemia is a negative
prognostic risk factor for a patient’s survival. Coexisting causes of anemia
(hemolysis, bleeding, and iron, vitamin B12, and folate deficiency) should be
ruled out and treated before other treatment options are considered. Transfusion
of leuko-reduced RBC is recommended for symptomatic anemia. JAK inhibitors (eg Fedratinib, Momelotinib, Pacritinib, Ruxolitinib) may be continued to reduce splenomegaly and improve other
disease-related symptoms. Enrollment in clinical trials should be considered
for all patients with myelofibrosis-associated anemia and is the preferred
option for patients with serum EPO of ≥500 mU/mL. The treatment options are based on the presence or absence of symptomatic splenomegaly and/or
constitutional symptoms.
Erythropoiesis-stimulating
Agents (ESAs)
Example
drugs: Darbepoetin alfa, Epoetin alfa
ESAs are recommended for the
treatment of anemia and should be continued in patients with anemia response,
although it is not effective for transfusion-dependent anemia. Combining these agents with Ruxolitinib is a treatment option for
patients with anemia and symptomatic splenomegaly and/or constitutional
symptoms controlled or not controlled on a JAK inhibitor and serum EPO <500
mU/mL. These are treatment options for patients with anemia without symptomatic
splenomegaly and/or constitutional symptoms and with serum EPO <500 mU/mL.
Androgens
Example
drugs: Danazol, Fluoxymesterone, Methandrostenolone, Nandrolone, Oxymetholone,
Testosterone enanthate
Danazol is a synthetic
attenuated androgen and is the androgen of choice to improve hemoglobin
concentration in patients with myelofibrosis and transfusion-dependent anemia.
It has been shown to decrease spleen size and improve platelet counts. Androgens in combination with Ruxolitinib is a treatment option for
patients with anemia and symptomatic splenomegaly and/or constitutional
symptoms controlled or not controlled on a JAK inhibitor. Androgens are
treatment options for patients with anemia without symptomatic splenomegaly
and/or constitutional symptoms. Monitoring of LFTs and screening for prostate
cancer in men is recommended for patients with Danazol treatment.
JAK
Inhibitors
Example
drugs: Momelotinib, Pacritinib, Ruxolitinib
Momelotinib is a preferred
treatment option for patients with anemia and symptomatic splenomegaly and/or
constitutional symptoms not controlled on a JAK inhibitor and a treatment
option for patients with anemia and symptomatic splenomegaly and/or
constitutional symptoms controlled on a JAK inhibitor and patients with anemia
without symptomatic splenomegaly and/or constitutional symptoms.
Pacritinib is a treatment option for patients with anemia and
symptomatic splenomegaly and/or constitutional symptoms controlled or not
controlled on a JAK inhibitor and patients with anemia without symptomatic
splenomegaly and/or constitutional symptoms. Ruxolitinib in combination with
ESAs or Luspatercept-aamt or Danazol is a treatment option for patients with
anemia and symptomatic splenomegaly and/or constitutional symptoms controlled
or not controlled on a JAK inhibitor.
Immunomodulatory Agents
Example
drugs: Lenalidomide, Thalidomide
Lenalidomide with Prednisone or Thalidomide
with Prednisone may be a treatment option for patients with anemia without symptomatic splenomegaly and/or
constitutional symptoms with del(5q) mutation.
Luspatercept-aamt
Luspatercept is a
recombinant fusion protein that functions as an erythroid maturation agent. It
is a treatment option for patients with anemia without symptomatic splenomegaly
and/or constitutional symptoms. Combination with
Ruxolitinib is a treatment option for patients with anemia and symptomatic
splenomegaly and/or constitutional symptoms controlled or not controlled on a
JAK inhibitor.
Nonpharmacological
Supportive Therapy
Supportive
therapy includes assessment and monitoring of symptom status during the course
of treatment, counseling for the identification, evaluation, and management of
cardiovascular risk factors such as thrombotic and hemorrhagic risk factors,
exercise, diet, and smoking.
Transfusion
Blood
transfusion is part of the supportive therapy for patients with myelofibrosis
and this includes platelet transfusion for thrombocytopenic bleeding or
platelet counts of <10,000 m3 and RBC transfusion for symptomatic
anemia. Transfusion of leukocyte-reduced blood products is recommended for
transplant-eligible patients to prevent HLA autoimmunization and reduce the
risk of cytomegalovirus transmission.
Antifibrinolytic Agents
Antifibrinolytic
agents may be given for bleeding that is not responsive to transfusions.
Iron Chelation
Iron
chelation may be performed in lower-risk patients who received >20
transfusions and/or with ferritin of >2,500 ng/dL.
Cytoreductive Therapy
Example
drug: Hydroxyurea
Cytoreductive
therapy is recommended for the management of leukocytosis or thrombocytosis. It
is a treatment option for postsplenectomy myeloproliferation.
Monitoring and Treatment of Infections
Monitoring for signs and
symptoms of infection is recommended and serious infection should be treated
before initiation of Ruxolitinib. Antibiotic prophylaxis and vaccination are
recommended for recurrent infections. Vaccination with recombinant zoster vaccine should be considered for
patients on, or prior to treatment with JAK inhibitor. Growth factors may be considered in patients with recurrent infection and
neutropenia.
Prophylaxis for Tumor Lysis Syndrome
Prophylaxis
for tumor lysis syndrome must be considered in patients undergoing induction
chemotherapy for advanced-stage myelofibrosis or leukemic transformation. This
includes hydration and/or diuresis and management of hyperuricemia with Allopurinol
or Rasburicase. Rasburicase is preferred as an initial treatment in patients with
rapidly increasing blast counts, elevated uric acid, and in the presence of
renal impairment.
Transjugular Intrahepatic Portosystemic Shunts
(TIPS)
TIPS
is an option for patients with an intrahepatic obstruction or to alleviate
symptoms of portal hypertension.
Symptom Management
Pruritus
Patients should be advised to practice sensitive skin care (eg short showers, mild soap,
application of moisturizer). Antihistamines such as Cetirizine or
Diphenhydramine and topical steroids may be considered.
Bone Pain
Other
causes of pain should be evaluated such as arthralgias. Nonsteroidal
anti-inflammatory drugs (NSAIDs) and Loratadine have been used for myelofibrosis-associated
bone pain.
Headache and Tinnitus
Patients
should be evaluated for thrombosis as patients with myelofibrosis have an
increased risk of vascular complications. Low-dose Aspirin (80 to 100 mg/day)
helps to improve vasomotor symptoms. Clopidogrel is an alternative and may be
given alone or in combination with Aspirin.
Surgery
Splenectomy
Splenectomy
is an option for patients with symptomatic splenomegaly refractory to
pharmacological therapy. The indications for splenectomy include severe
thrombocytopenia, splenic abdominal pain and discomfort, symptomatic portal
hypertension (eg bleeding varices, ascites), frequent RBC transfusions, drug-refractory
anemia, severe catabolic symptoms (eg cachexia), and significant splenic
infarction.
Allogeneic Hematopoietic Stem Cell Transplantation
Allogeneic hematopoietic stem cell transplantation is the only
potentially curative treatment option and modality capable of prolonging the
survival of patients with myelofibrosis. This should be considered in patients with refractory,
transfusion-dependent anemia, circulating blast cells >2% in the peripheral
blood, adverse cytogenetics or molecular abnormalities. All patients with
higher-risk myelofibrosis should be evaluated for transplant eligibility. The
selection of recipients for allogeneic hematopoietic stem cell transplantation
is based on performance status, age, presence of major comorbid conditions,
psychosocial status, patient preference, and availability of caregiver. It may
be performed immediately upon diagnosis or a bridging therapy may be given to
reduce marrow blasts to an acceptable level before transplant.
It is the recommended treatment option for higher-risk myelofibrosis patients who are eligible for transplant. It is associated with significant benefit in patients with intermediate-2-risk and high-risk primary myelofibrosis and better outcomes in patients with low-risk or intermediate-risk myelofibrosis although transplant-related morbidity and mortality is high.
It may also be a treatment option for patients with CALR(-)/ASXL(+)
mutation which is associated with poor prognosis. It is also the only curative
option for transplant-eligible with accelerated/ blast phase MPN who achieved a complete
response to induction chemotherapy.
Radiation Therapy
Radiotherapy is an alternative to splenectomy in patients with symptomatic splenomegaly but not eligible for surgery. The patient must have an adequate platelet count of >50 x 109/L. Low-dose irradiation is the preferred treatment for extramedullary hematopoiesis at other sites (eg peritoneum, pleura).