scholarly journals 102 Patients with Primary Autoimmune Neutropenia : An Analysis of the European Severe Chronic Neutropenia International Registry (SCNIR)

Blood ◽  
2019 ◽  
Vol 134 (Supplement_1) ◽  
pp. 1039-1039
Author(s):  
Fabian Frömling ◽  
Sabine Mellor-Heineke ◽  
Natali Gerschmann ◽  
Lena Röbbel ◽  
Julia Skokowa ◽  
...  
Keyword(s):  
Bone Marrow ◽  
Early Childhood ◽  
Genetic Analysis ◽  
Antibiotic Prophylaxis ◽  
Autoimmune Neutropenia ◽  
Antibody Testing ◽  
Congenital Neutropenia ◽  
Severe Infections

Background: Primary Autoimmune Neutropenia (AIN) is the most frequent type of neutropenia in children with a prevalence of 1/100,000 between infancy and 10 years of age. Primary AIN is caused by anti-neutrophil antibodies binding to neutrophil-specific antigens, resulting in a decrease of circulating neutrophils in the blood, but normal numbers of mature neutrophils in the bone marrow. Typically, primary AIN is present from infancy on until spontaneous remission in early childhood, when anti-neutrophil antibodies disappear. Patients with primary AIN show severe to moderate neutropenia but only rarely suffer from serious infections. Patients remain in the registry for follow up after normalization of blood counts to evaluate late secondary events. Aims: Here we describe the cohort of AIN pts with positive anti-neutrophil antibody testing documented by the European Branch of the SCNIR. We analyzed the course of neutropenia, the frequency of G-CSF treatment for AIN, the incidence of severe bacterial infections and administration of AB prophylaxis. Methods: We identified 102 primary AIN patients within the neutropenia cohort documented by the European Branch of the SCNIR since 1994. We classified primary AIN by positive anti-neutrophil antibody testing (95 pts) or severe neutropenia in peripheral blood with normal bone marrow morphology in patients with age under 5 years (7 pts). Results: Primary AIN has been identified in 102 (61 female; 41 male) pts. The median age of the cohort is 5.18 years (range 1.37-22.71 years), with 630.28 pt years under observation. Median age at diagnosis was 12.07 months (range 0.9-70 months). All pts are currently alive, 40 patients already resolved from primary AIN at a median age of 3.02 years (range 0.83-9.08 years). Median follow-up time after neutropenia had resolved was 2.25 years (range 0-9.27 years). Sixteen of 102 pts (15.7%) received intermittent G-CSF treatment with a median dose of 4.5 µg/kg/day compared to 4.77 µg/kg/day for the congenital neutropenia cohort of the SCNIR Europe. Analysis of infections (tab.1) showed less minor and severe infections comparing to congenital neutropenia (CN) pts. Life-threatening infections like liver abscesses were not seen in primary AIN patients but in 1.8% of CN pts. Twelve AIN pts (11.7%) have received antibiotic prophylaxis for prevention of infection, 6 pts intermittent and 6 pts continuously. However, antibiotic prophylaxis was usually stopped before termination of AIN. Due to the milder course of infections most AIN pts were able to go to Kindergarten and to live a normal life. In 3 pts additional auto-immune related diseases were identified (autoimmune thrombocytopenia, allergic colitis and Kawasaki syndrome) during AIN. Sixteen of 102 AIN patients received genetic analysis, with no mutation being detected. In addition to the 102 AIN pts we identified another 31 CN pts who have initially been classified as AIN due to positive anti-neutrophil antibodies, but who were later genetically confirmed as CN (15 ELANE+, 8 HAX1+, 2 SBDS+, 2 CXCR4+, 2 CSF3R+, 1 G6PC3+). This proportion of pts showed more and more severe infections compared to primary AIN. Genetic testing has been performed in these pts due to ongoing infections and prolonged neutropenia until school age. Conclusions: Pts suffering from primary AIN present with severe to moderate neutropenia. A minority of pts might require G-CSF treatment on demand/interventionally due to antibiotic resistant infections, but long-term G-CSF treatment is regularly not indicated. Primary AIN is a self-limiting condition and in most pts neutropenia resolves until early childhood. Accumulation of secondary diagnoses like autoimmune related diseases, though postulated, has not been confirmed for AIN pts by our data. In AIN pts with severe infections, or prolonged neutropenia CN should be ruled out by genetic analysis and/or bone marrow morphology. Registries are needed to document long-term data on primary AIN pts to analyse potential additional features of primary AIN, possibly other accompanying autoimmune diseases. Disclosures No relevant conflicts of interest to declare.

Stable Long-Term Risk of Leukemia in Patients with Severe Congenital Neutropenia Maintained On G-CSF Therapy.

Blood ◽  
2009 ◽  
Vol 114 (22) ◽  
pp. 3206-3206 ◽  
Author(s):  
Philip S. Rosenberg ◽  
Cornelia Zeidler ◽  
Audrey Anna Bolyard ◽  
Blanche P. Alter ◽  
Mary Ann Bonilla ◽  
...  
Keyword(s):  
Bone Marrow ◽  
Cumulative Incidence ◽  
Bone Marrow Failure ◽  
Severe Congenital Neutropenia ◽  
Congenital Neutropenia ◽  
Hazard Curve ◽  
Number Of Patients ◽  
Increasing Trend

Abstract Abstract 3206 Poster Board III-143 BACKGROUND G-CSF therapy reduces sepsis mortality in patients with severe congenital neutropenia (SCN), but effective therapy has revealed a high syndromic predisposition to myelodysplastic syndrome and acute myeloid leukemia (MDS/AML), particularly in patients who require higher doses of G-CSF. Although the long-term risk of MDS/AML after 10 or more years on therapy remains uncertain, prior data on the limited number of patients with long-term follow-up suggested the hazard rate might be as high as 8%/year after 12 years on G-CSF. METHODS We updated prospective follow-up of 374 well-characterized patients with SCN on long-term G-CSF enrolled in the Severe Chronic Neutropenia International Registry (Blood. 2006 Jun 15; 107(12):4628-35). We ascertained event-free time, deaths from sepsis, and MDS/AML events that accrued since our previous report. Follow-up was censored for patients who received a bone marrow transplant. RESULTS The update yielded 3590 person-years of follow-up versus 2043 in the prior report; among patients treated for 10 or more years, there were 849 person-years versus just 67 previously. In all, there were 61 MDS/AML events and 29 deaths from sepsis, versus prior totals of 44 and 19, respectively. After including up-to-date follow-up, the estimated annual hazard of death from sepsis remained qualitatively stable, at 0.81%/year (95% Confidence Interval, CI: 0.56 – 1.16%/year). Similarly, during the first five years after the start of G-CSF therapy, the updated estimate of the hazard curve for MDS/AML showed the same increasing trend as the previous estimate. However, in contrast to the prior estimate that showed a subsequent increasing trend over time (with a large margin of error), the updated hazard curve attained a plateau: after 10 years on G-CSF, the estimated hazard of MDS/AML was 2.3%/year (95% CI: 1.7 – 2.9%/year). Although this aspect of the natural history appears less dire than first suggested, after 15 years on G-CSF, the cumulative incidence was 10% (95% CI: 6 – 14%) for death from sepsis and 22% (95% CI: 17 – 28%) for MDS/AML. Furthermore, for the subset of patients who failed to achieve at 6 months an absolute neutrophil count at or above the median value for the cohort (2188 cells/μL) despite doses of G-CSF at or above the median (8 μg/kg/day), the cumulative incidence after 15 years on G-CSF was 18% (95% CI: 7 – 28%) for death from sepsis and 34% (95% CI: 21 – 47%) for MDS/AML. With additional follow-up, the association of G-CSF dose at 6 months with the relative hazard of MDS/AML became more strongly statistically significant (P = 0.003 versus P = 0.024; the hazard of MDS/AML increased by 1.24-fold (95% CI: 1.08-1.43-fold) per doubling of the dose of G-CSF). CONCLUSIONS For SCN patients maintained on G-CSF therapy, the hazard of MDS/AML over the long-term falls significantly below the range suggested by preliminary data. The updated hazard estimate of 2.3%/year after 10 years on G-CSF (which includes both MDS and AML events) is similar to that for other inherited bone marrow failure syndromes with a high intrinsic risk of AML, notably Fanconi anemia and dyskeratosis congenita. Nonetheless, the cumulative incidence of both MDS/AML and sepsis death rises to very high levels, and the data continue to support the hypothesis that SCN patients with higher G-CSF requirements are also at higher risk of leukemia. Disclosures Boxer: Amgen Inc.: Equity Ownership. Dale:Amgen Inc.: Consultancy, Honoraria, Research Funding, Speaker.

scholarly journals Neutropenia in children: acquired neutropenia

2021 ◽  
pp. 66-76
Author(s):  
A.P. Volokha ◽  
Keyword(s):  
Bone Marrow ◽  
Systemic Disease ◽  
Laboratory Finding ◽  
Congenital Infection ◽  
Bone Marrow Aspiration ◽  
Autoimmune Neutropenia ◽  
Severe Congenital Neutropenia ◽  
Congenital Neutropenia ◽  
Severe Infections ◽  
Benign Course

Neutropenia is defined as a reduction in the absolute neutrophil count (ANC) below 1,500 cells/mcl in the blood. Neutropenia is a common laboratory finding in children. It is important to distinguish transient and benign causes from severe congenital neutropenia. Neutropenia can be classified in asymptomatic (mild), moderate, and severe form, the susceptibility to infection depending on ANC. Neutropenia can be either acquired or congenital. Infection, drugs, and immune disorders are the most common acquired causes while congenital causes are rare and confined mostly to infants and children. Transient neutropenia often accompanies viral infections in children, manifested in the period of acute viremia. Young children are characterized by autoimmune neutropenia (AIN), which has a benign course and a favorable prognosis. Autoimmune neutropenia is characterized by a decrease in the number of neutrophils as a result of the destruction of neutrophils in the peripheral blood by antineutrophil antibodies. The duration of AIN is usually 3–5 years. This is a self-limiting disease that in most cases does not require treatment. Despite the benign course, serious infectious complications can occur. Treatment of myeloid growth factors should be started after a previous bone marrow aspiration biopsy in children with severe infections or requiring surgical intervention. High doses of intravenous immunoglobulin and corticosteroids may be effective in treating AIN in patients with life-threating infections. The danger to the patient depends on the etiology, ANC and bone marrow status. The risk of infections is significantly increased in patients with ACN less than 500 cells/μ1. The most common loci of infections include the oral mucosa, skin, perirectal area, perineum. Oral ulcers and gingivitis are characteristic signs of clinically significant neutropenia, requiring the exclusion of its congenital causes. Severe infections in patients with neutropenia are caused by pyogenic or intestinal bacteria and Candida species. It is important to distinguish between transient or benign causes and severe congenital neutropenia or neutropenia associated with serious haematological or systemic disease. Clarification of the cause of neutropenia is important for determining management and prognosis. No conflict of interest was declared by the author. Key words: neutropenia, children, immunodeficiency, autoimmune neutropenia.

scholarly journals Satisfactory long-term clinical outcomes after bone marrow stimulation of osteochondral lesions of the talus

2021 ◽  
Author(s):  
Quinten G. H. Rikken ◽  
Jari Dahmen ◽  
Sjoerd A. S. Stufkens ◽  
Gino M. M. J. Kerkhoffs
Keyword(s):  
Bone Marrow ◽  
Clinical Outcomes ◽  
Degenerative Changes ◽  
Osteochondral Lesions ◽  
Ankle Osteoarthritis ◽  
Bone Marrow Stimulation ◽  
Marrow Stimulation ◽  
The Mean

Abstract Purpose The purpose of the present study was to evaluate the clinical and radiological outcomes of arthroscopic bone marrow stimulation (BMS) for the treatment of osteochondral lesions of the talus (OLTs) at long-term follow-up. Methods A literature search was conducted from the earliest record until March 2021 to identify studies published using the PubMed, EMBASE (Ovid), and Cochrane Library databases. Clinical studies reporting on arthroscopic BMS for OLTs at a minimum of 8-year follow-up were included. The review was performed according to the PRISMA guidelines. Two authors independently conducted the article selection and conducted the quality assessment using the Methodological index for Non-randomized Studies (MINORS). The primary outcome was defined as clinical outcomes consisting of pain scores and patient-reported outcome measures. Secondary outcomes concerned the return to sport rate, reoperation rate, complication rate, and the rate of progression of degenerative changes within the tibiotalar joint as a measure of ankle osteoarthritis. Associated 95% confidence intervals (95% CI) were calculated based on the primary and secondary outcome measures. Results Six studies with a total of 323 ankles (310 patients) were included at a mean pooled follow-up of 13.0 (9.5–13.9) years. The mean MINORS score of the included studies was 7.7 out of 16 points (range 6–9), indicating a low to moderate quality. The mean postoperative pooled American Orthopaedic Foot and Ankle Society (AOFAS) score was 83.8 (95% CI 83.6–84.1). 78% (95% CI 69.5–86.8) participated in sports (at any level) at final follow-up. Return to preinjury level of sports was not reported. Reoperations were performed in 6.9% (95% CI 4.1–9.7) of ankles and complications related to the BMS procedure were observed in 2% (95% CI 0.4–3.0) of ankles. Progression of degenerative changes was observed in 28% (95% CI 22.3–33.2) of ankles. Conclusion Long-term clinical outcomes following arthroscopic BMS can be considered satisfactory even though one in three patients show progression of degenerative changes from a radiological perspective. These findings indicate that OLTs treated with BMS may be at risk of progressing towards end-stage ankle osteoarthritis over time in light of the incremental cartilage damage cascade. The findings of this study can aid clinicians and patients with the shared decision-making process when considering the long-term outcomes of BMS. Level of evidence Level IV.

Long-term Follow-up of Bladder Cancer Patients with Disseminated Tumour Cells in Bone Marrow

2011 ◽  
Vol 60 (2) ◽  
pp. 231-238 ◽  
Author(s):  
Margitta Retz ◽  
Jens Rotering ◽  
Roman Nawroth ◽  
Alexander Buchner ◽  
Michael Stöckle ◽  
...  
Keyword(s):  
Bone Marrow ◽  
Bladder Cancer ◽  
Cancer Patients ◽  
Tumour Cells ◽  
Long Term Follow Up ◽  
Disseminated Tumour Cells

scholarly journals Nontransplant therapy for bone marrow failure

Hematology ◽  
2016 ◽  
Vol 2016 (1) ◽  
pp. 83-89 ◽  
Author(s):  
Danielle M. Townsley ◽  
Thomas Winkler
Keyword(s):  
Bone Marrow ◽  
Aplastic Anemia ◽  
Bone Marrow Failure ◽  
Clonal Evolution ◽  
Single Agent ◽  
Telomere Attrition ◽  
Long Term Follow Up ◽  
Treatment Naïve

Abstract Nontransplant therapeutic options for acquired and constitutional aplastic anemia have significantly expanded during the last 5 years. In the future, transplant may be required less frequently. That trilineage hematologic responses could be achieved with the single agent eltrombopag in refractory aplastic anemia promotes new interest in growth factors after years of failed trials using other growth factor agents. Preliminary results adding eltrombopag to immunosuppressive therapy are promising, but long-term follow-up data evaluating clonal evolution rates are required before promoting its standard use in treatment-naive disease. Danazol, which is traditionally less preferred for treating cytopenias, is capable of preventing telomere attrition associated with hematologic responses in constitutional bone marrow failure resulting from telomere disease.

Long-term follow-up of children with vesicoureteral reflux with and without antibiotic prophylaxis

2005 ◽  
Vol 37 (11-12) ◽  
pp. 842-845 ◽  
Author(s):  
H Georgaki-Angelaki ◽  
S Kostaridou ◽  
G. L Daikos ◽  
A Kapoyiannis ◽  
Z Veletzas ◽  
...  
Keyword(s):  
Antibiotic Prophylaxis ◽  
Vesicoureteral Reflux ◽  
Long Term Follow Up
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