Myelofibrosis

Myelofibrosis
Classification and external resources
ICD-10 C94.5, D47.1
ICD-9 289.83
ICD-O: 9932, M9961/3
OMIM 254450
DiseasesDB 8616
MeSH D055728

Myelofibrosis, also known as myeloid metaplasia, chronic idiopathic myelofibrosis, osteomyelofibrosis and primary myelofibrosis is a disorder of the bone marrow. It is currently classified as a myeloproliferative disease in which the proliferation of an abnormal type of bone marrow stem cell results in fibrosis, or the replacement of the marrow with collagenous connective tissue fibers.[1]

Contents

History and terminology

Myelofibrosis was first described in 1879 by Gustav Heuck.[2][3]

Older terms include "myelofibrosis with myeloid metaplasia" and "agnogenic myeloid metaplasia". The World Health Organization utilizes the name "chronic idiopathic myelofibrosis", while the International Working Group on Myelofibrosis Research and Treatment calls the disease "primary myelofibrosis". Eponyms for the disease are Heuck-Assmann disease or Assmann's Disease, for Herbert Assmann,[4] who published a description under the term "osteosclerosis" in 1907.[5]

It was characterised as a myeloproliferative condition in 1951 by Dameshek.[6][7]

Signs and symptoms

Clinical Course

Morphology

The principal site of extramedullary hematopoiesis in myeloid metaplasia with primary myelofibrosis is the spleen which is usually markedly enlarged, sometimes weighing as much as 4000 g. As is always true when splenomegaly is massive, multiple subcapsular infarcts are often present. Histologically the spleen contains normoblast, granulocyte precursor and megakaryocytes, which are often prominent in terms of their numbers and bizarre morphology. Sometimes disproportional activity of any one of the three major cell lines is seen.

The liver is often moderately enlarged, with foci of extramedullary hematopoiesis. Microscopically, lymph nodes also contain foci of hematopoiesis, but these are insufficient to cause enlargement.

The bone marrow in a typical case is hypocellular and diffusely fibrotic. Both early and late in disease, megakaryocytes are often prominent and are usually dysplastic.

Pathophysiology

The bone marrow is replaced by collagen fibrosis, impairing the patient's ability to generate new blood cells resulting in a progressive pancytopenia. It is usually reactive following other myeloproliferative disorders, such as polycythemia rubra vera or essential thrombocytosis. Extramedullary haematopoeisis occurs as the haemopoetic cells migrate away from the bone marrow, to the liver and spleen. Patients often have hepatosplenomegaly and poikilocytosis.

In primary myelofibrosis, a progressive scarring (fibrosis) of the bone marrow occurs. As a result, blood forms in sites other than the bone marrow, such as the liver and spleen. This causes an enlargement of these organs. The cause and risk factors are unknown. It commonly occurs in the spent phase of Polycythemia rubra vera, possibly in response to the medication hydroxyurea poisoning the marrow and blood.

Treatment

On November 16, 2011, the FDA apporved Jakafi (ruxolitinib), the first drug to specifically treat patients with the bone marrow disease myelofibrosis. Jakafi is a kinase inhibitor indicated for treatment of patients with intermediate or high-risk myelofibrosis, including primary myelofibrosis, post-polycythemia vera myelofibrosis and post-essential thrombocythemia myelofibrosis. The only known cure is allogeneic stem cell transplantation, but this approach involves significant risks.[8] Other treatment options are largely supportive, and do not alter the course.[9] These options may include regular folic acid,[10] allopurinol[11] or blood transfusions.[12] Dexamethasone, alpha-interferon and hydroxycarbamide may play a role.[13][14][15]

Lenalidomide and thalidomide may be used in its treatment, though they can cause gout and leave the patient susceptible to diseases such as pneumonia.[15]

Frequent blood transfusions may also be required.[12] If the patient is diabetic and is taking sulfonylureas medication this should be stopped periodically to rule out drug-induced thrombocytopenia.

In November 2011, the FDA approved Ruxolitinib as a treatment for Myelofibrosis. Ruxolitinib is a twice daily drug which serves as an inhibitor of JAK 1 and 2.

Epidemiology

The disorder usually develops slowly and is mainly observed in people over the age of 50.[16] It may also develop as a side-effect of treatment with some drugs that target hematological disorders.

References

  1. ^ "myelofibrosis" at Dorland's Medical Dictionary
  2. ^ Lichtman MA (July 2005). "Is it chronic idiopathic myelofibrosis, myelofibrosis with myeloid metaplasia, chronic megakaryocytic-granulocytic myelosis, or chronic megakaryocytic leukemia? Further thoughts on the nosology of the clonal myeloid disorders". Leukemia 19 (7): 1139–41. doi:10.1038/sj.leu.2403804. PMID 15902283. 
  3. ^ Heuck G. Zwei Fälle von Leukämie mit eigenthümlichem Blut-resp Knochenmarksbefund. Virchows Arch (Pathol Anat) 78; 475: 1879.
  4. ^ synd/2799 at Who Named It?,
  5. ^ Stephen M. Ansell (2008). Rare Hematological Malignancies. シュプリンガー・ジャパン株式会社. pp. 28–. ISBN 9780387737430. http://books.google.com/books?id=cR_kOJoN7sYC&pg=PA28. Retrieved 13 November 2010. 
  6. ^ Judith E. Karp (2007). Acute myelogenous leukemia. Humana Press. pp. 385–. ISBN 9781588296214. http://books.google.com/books?id=l0XWHNYyxBYC&pg=PA385. Retrieved 13 November 2010. 
  7. ^ Dameshek W (April 1951). "Some speculations on the myeloproliferative syndromes". Blood 6 (4): 372–5. PMID 14820991. http://www.bloodjournal.org/cgi/pmidlookup?view=long&pmid=14820991. 
  8. ^ Cervantes F (March 2005). "Modern management of myelofibrosis". Br. J. Haematol. 128 (5): 583–92. doi:10.1111/j.1365-2141.2004.05301.x. PMID 15725078. 
  9. ^ Kröger N, Mesa RA (March 2008). "Choosing between stem cell therapy and drugs in myelofibrosis". Leukemia 22 (3): 474–86. doi:10.1038/sj.leu.2405080. PMID 18185525. 
  10. ^ Vener Claudia, Novembrino Cristina, et al, Oxidative stress is increased in primary and post−polycythemia vera myelofibrosis (abstract), Experimental Hematology, 1 Nov 2010, Vol 38 Iss 11, 1058-1065, DOI: 10.1016/j.exphem.2010.07.005.
  11. ^ Narasimhaiah Srinivasaiah, Mohammad K Zia and Vummiti Muralikrishnan, Peritonitis in myelofibrosis: a cautionary tale, Hepatobiliary & Pancreatic Diseases International 2010; 9: 651-653.
  12. ^ a b Tefferi, A., Siragusa, S., et al, Transfusion-dependency at presentation and its acquisition in the first year of diagnosis are both equally detrimental for survival in primary myelofibrosis—prognostic relevance is independent of IPSS or karyotype, American Journal of Hematology, 85(1): 14–17 (2010). doi: 10.1002/ajh.21574.
  13. ^ Barosi, Giovanni, Conventional and Investigational Therapy for Primary Myelofibrosis, in Myeloproliferative Neoplasms, Contemporary Hematology series, 2011 Humana Press, p. 117-138. ISBN 978-1-60761-266-7.
  14. ^ Spivak, Jerry L1; Hasselbalch, Hans, Hydroxycarbamide: a user's guide for chronic myeloproliferative disorders, Expert Review of Anticancer Therapy, Vol. 11(3), Mar. 2011, pp. 403-414.
  15. ^ a b Lacy, M. and Tefferi, A., Pomalidomide therapy for multiple myeloma and myelofibrosis: an update, Leukemia & Lymphoma, April 2011, 52(4), pp. 560-566, (doi:10.3109/10428194.2011.552139).
  16. ^ Primary Myelofibrosis, Merck.