Publication Date:
2014-12-06
Description:
Background: In 1994 Severe Chronic Neutropenia International Registry (SCNIR) opened for enrollment of patients with at least 3 absolute neutrophil counts (ANC) less than 0.5 x 109/L during a three month period. At that time severe chronic neutropenia (SCN) was categorized as cyclic, congenital, autoimmune or idiopathic based largely on clinical criteria. A randomized trial had established effectiveness of treatment with granulocyte colony-stimulating factor (G-CSF), but long-term consequences of such treatment were unknown. Hypothesis: We began the SCNIR based on the hypothesis that underlying pathophysiology, natural history of patients with chronic neutropenia and benefits and risk of G-CSF therapy could only be accurately established through an international registry with long term follow-up of patients with these rare hematological disorders. Methods: SCNIR enrollment requires informed consent, ANC90%) of severe outcomes (e.g. MDS/AML, failure to respond to G-CSF, death from infections, need for stem cell transplant) often many years after SCNIR enrollment and beginning G-CSF therapy. GSD1 patients improve with G-CSF treatment, but experience splenomegaly and continued problems with infections or complications. The SCNIR through a SDS sub-registry is redefining Shwachman-Diamond syndrome; only about one-half of enrollees have “classic” presentation and a substantial number with “classic presentation” lack mutations in SBDS. The SCNIR is participating in an NIH trial of a CXCR4 antagonist for treatment of WHIM syndrome, as an example of molecularly targeted treatment for this rare disease. The SCNIR is also the key resource for discovery of genetic causes for congenital neutropenia, e.g., G6PC3, HAX1, and TCIRG1 and others, recognition of differences in frequency of autosomal dominant and recessive SCN in populations of Europe and North America and identifying congenital neutropenia cases of unknown cause. Genetic testing has also broadened the clinical spectrum of these disorders. Conclusions: Through the efforts of patients, families, physicians, nurses and investigators, and with support from the NIH, industry, and private philanthropy, chronic neutropenia is now far better understood at the genetic, molecular and cellular level than 20 years ago. Treatment responses to G-CSF are well characterized; novel therapies are emerging; and the prognosis for patients with SCN appears to be improving. The knowledge gained through the SCNIR and availability of G-CSF has redefined clinicians’ approach to chronic neutropenia. The SCNIR is a model of international research collaboration to understand rare diseases in hematology and other areas of medicine. Broad enrollment criteria, physician, patient and family participation, a dedicated staff, and continuing cooperation underlie success of the SCNIR and this model to understanding rare diseases. Disclosures Dale: Amgen: Consultancy, Honoraria, Research Funding. Boxer:Amgen: Equity Ownership. Morrow:Amgen: Employment.
Print ISSN:
0006-4971
Electronic ISSN:
1528-0020
Topics:
Biology
,
Medicine
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