Your search keyword '"Chalmers, E."' showing total 6 results

1. Correlation between phenotype and genotype in a large unselected cohort of children with severe hemophilia A

Author

Carcao, Manuel D., primary, van den Berg, H. Marijke, additional, Ljung, Rolf, additional, Mancuso, Maria Elisa, additional, Altisent, C, additional, Auerswald, G, additional, Chalmers, E, additional, Chambost, H, additional, Cid, A, additional, Claeyssens, S, additional, Clausen, N, additional, Fischer, K, additional, Kliniek, Van Creveld, additional, van Geet, Ch, additional, Peerlinck, K, additional, Kobelt, R, additional, Kreuz, W, additional, Escuriola, C, additional, Kurnik, K, additional, Liesner, R, additional, Ljung, R, additional, Mäkipernaa, A, additional, Molinari, A, additional, Muntean, W, additional, Oldenburg, J, additional, Garrido, R Pérez, additional, Petrini, P, additional, Platokouki, H, additional, Rafowicz, A, additional, Santagostino, E, additional, Mancuso, ME, additional, Thomas, A, additional, Williams, M, additional, Gouw, SC, additional, van den Berg, HM, additional, Kenet, G, additional, Carcao, M, additional, and Rivard, G, additional

Published

2013

2. Prospective Analysis of Bruising in Children with and without an Inherited Bleeding Disorder.

Author

Hamilton, M., primary, Jenkins, B., additional, Dunstan, F., additional, Kemp, A., additional, Liesner, R., additional, Chalmers, E., additional, Hanley, J., additional, Jungmann, A., additional, Thomas, A., additional, and Collins, P., additional

Published

2006

3. Novel manifestations of immune dysregulation and granule defects in gray platelet syndrome.

Author

Sims MC, Mayer L, Collins JH, Bariana TK, Megy K, Lavenu-Bombled C, Seyres D, Kollipara L, Burden FS, Greene D, Lee D, Rodriguez-Romera A, Alessi MC, Astle WJ, Bahou WF, Bury L, Chalmers E, Da Silva R, De Candia E, Deevi SVV, Farrow S, Gomez K, Grassi L, Greinacher A, Gresele P, Hart D, Hurtaud MF, Kelly AM, Kerr R, Le Quellec S, Leblanc T, Leinøe EB, Mapeta R, McKinney H, Michelson AD, Morais S, Nugent D, Papadia S, Park SJ, Pasi J, Podda GM, Poon MC, Reed R, Sekhar M, Shalev H, Sivapalaratnam S, Steinberg-Shemer O, Stephens JC, Tait RC, Turro E, Wu JKM, Zieger B, Kuijpers TW, Whetton AD, Sickmann A, Freson K, Downes K, Erber WN, Frontini M, Nurden P, Ouwehand WH, Favier R, and Guerrero JA

Subjects

Biopsy, Blood Proteins genetics, Case-Control Studies, Cohort Studies, Cytoplasmic Granules metabolism, Diagnosis, Differential, Gene Frequency, Genetic Association Studies, Humans, Immune System physiology, Immune System Diseases blood, Immune System Diseases diagnosis, Immune System Diseases genetics, Immune System Diseases pathology, Mutation, Cytoplasmic Granules pathology, Genetic Heterogeneity, Gray Platelet Syndrome classification, Gray Platelet Syndrome genetics, Gray Platelet Syndrome immunology, Gray Platelet Syndrome pathology, Immune System pathology, Phenotype

Abstract

Gray platelet syndrome (GPS) is a rare recessive disorder caused by biallelic variants in NBEAL2 and characterized by bleeding symptoms, the absence of platelet α-granules, splenomegaly, and bone marrow (BM) fibrosis. Due to the rarity of GPS, it has been difficult to fully understand the pathogenic processes that lead to these clinical sequelae. To discern the spectrum of pathologic features, we performed a detailed clinical genotypic and phenotypic study of 47 patients with GPS and identified 32 new etiologic variants in NBEAL2. The GPS patient cohort exhibited known phenotypes, including macrothrombocytopenia, BM fibrosis, megakaryocyte emperipolesis of neutrophils, splenomegaly, and elevated serum vitamin B12 levels. Novel clinical phenotypes were also observed, including reduced leukocyte counts and increased presence of autoimmune disease and positive autoantibodies. There were widespread differences in the transcriptome and proteome of GPS platelets, neutrophils, monocytes, and CD4 lymphocytes. Proteins less abundant in these cells were enriched for constituents of granules, supporting a role for Nbeal2 in the function of these organelles across a wide range of blood cells. Proteomic analysis of GPS plasma showed increased levels of proteins associated with inflammation and immune response. One-quarter of plasma proteins increased in GPS are known to be synthesized outside of hematopoietic cells, predominantly in the liver. In summary, our data show that, in addition to the well-described platelet defects in GPS, there are immune defects. The abnormal immune cells may be the drivers of systemic abnormalities such as autoimmune disease., (© 2020 by The American Society of Hematology.)

Published

2020

4. Safety of dabigatran etexilate for the secondary prevention of venous thromboembolism in children.

Author

Brandão LR, Albisetti M, Halton J, Bomgaars L, Chalmers E, Mitchell LG, Nurmeev I, Svirin P, Kuhn T, Zapletal O, Tartakovsky I, Simetzberger M, Huang F, Sun Z, Kreuzer J, Gropper S, Brueckmann M, and Luciani M

Subjects

Adolescent, Child, Child, Preschool, Dabigatran pharmacokinetics, Endpoint Determination, Female, Follow-Up Studies, Humans, Infant, Kaplan-Meier Estimate, Male, Risk Factors, Time Factors, Dabigatran adverse effects, Dabigatran therapeutic use, Secondary Prevention, Venous Thromboembolism drug therapy, Venous Thromboembolism prevention & control

Abstract

This open-label, single-arm, prospective cohort trial is the first phase 3 safety study to describe outcomes in children treated with dabigatran etexilate for secondary venous thromboembolism (VTE) prevention. Eligible children aged 12 to <18 years (age stratum 1), 2 to <12 years (stratum 2), and >3 months to <2 years (stratum 3) had an objectively confirmed diagnosis of VTE treated with standard of care (SOC) for ≥3 months, or had completed dabigatran or SOC treatment in the DIVERSITY trial (NCT01895777) and had an unresolved clinical thrombosis risk factor requiring further anticoagulation. Children received dabigatran for up to 12 months, or less if the identified VTE clinical risk factor resolved. Primary end points included VTE recurrence, bleeding events, and mortality at 6 and 12 months. Overall, 203 children received dabigatran, with median exposure being 36.3 weeks (range, 0-57 weeks); 171 of 203 (84.2%) and 32 of 203 (15.8%) took capsules and pellets, respectively. Overall, 2 of 203 children (1.0%) experienced on-treatment VTE recurrence, and 3 of 203 (1.5%) experienced major bleeding events, with 2 (1.0%) reporting clinically relevant nonmajor bleeding events, and 37 (18.2%) minor bleeding events. There were no on-treatment deaths. On-treatment postthrombotic syndrome was reported for 2 of 162 children (1.2%) who had deep vein thrombosis or central-line thrombosis as their most recent VTE. Pharmacokinetic/pharmacodynamic relationships of dabigatran were similar to those in adult VTE patients. In summary, dabigatran showed a favorable safety profile for secondary VTE prevention in children aged from >3 months to <18 years with persistent VTE risk factor(s). This trial was registered at www.clinicaltrials.gov as #NCT02197416., (© 2020 by The American Society of Hematology.)

Published

2020

5. Intensity of factor VIII treatment and inhibitor development in children with severe hemophilia A: the RODIN study.

Author

Gouw SC, van den Berg HM, Fischer K, Auerswald G, Carcao M, Chalmers E, Chambost H, Kurnik K, Liesner R, Petrini P, Platokouki H, Altisent C, Oldenburg J, Nolan B, Garrido RP, Mancuso ME, Rafowicz A, Williams M, Clausen N, Middelburg RA, Ljung R, and van der Bom JG

Subjects

Adolescent, Adult, Blood Coagulation Factor Inhibitors blood, Chemoprevention adverse effects, Child, Cohort Studies, Dose-Response Relationship, Drug, Hemophilia A blood, Hemophilia A metabolism, Hemorrhage blood, Hemorrhage epidemiology, Hemorrhage metabolism, Humans, Risk Factors, Severity of Illness Index, Young Adult, Blood Coagulation Factor Inhibitors metabolism, Factor VIII administration & dosage, Factor VIII antagonists & inhibitors, Hemophilia A drug therapy, Hemophilia A epidemiology, Hemorrhage prevention & control

Abstract

The objective of this study was to examine the association of the intensity of treatment, ranging from high-dose intensive factor VIII (FVIII) treatment to prophylactic treatment, with the inhibitor incidence among previously untreated patients with severe hemophilia A. This cohort study aimed to include consecutive patients with a FVIII activity < 0.01 IU/mL, born between 2000 and 2010, and observed during their first 75 FVIII exposure days. Intensive FVIII treatment of hemorrhages or surgery at the start of treatment was associated with an increased inhibitor risk (adjusted hazard ratio [aHR], 2.0; 95% confidence interval [CI], 1.3-3.0). High-dose FVIII treatment was associated with a higher inhibitor risk than low-dose FVIII treatment (aHR, 2.3; 95% CI, 1.0-4.8). Prophylaxis was only associated with a decreased overall inhibitor incidence after 20 exposure days of FVIII. The association with prophylaxis was more pronounced in patients with low-risk F8 genotypes than in patients with high-risk F8 genotypes (aHR, 0.61, 95% CI, 0.19-2.0 and aHR, 0.85, 95% CI, 0.51-1.4, respectively). In conclusion, our findings suggest that in previously untreated patients with severe hemophilia A, high-dosed intensive FVIII treatment increases inhibitor risk and prophylactic FVIII treatment decreases inhibitor risk, especially in patients with low-risk F8 mutations.

Published

2013

6. Incidence of factor VIII inhibitors throughout life in severe hemophilia A in the United Kingdom.

Author

Hay CR, Palmer B, Chalmers E, Liesner R, Maclean R, Rangarajan S, Williams M, and Collins PW

Subjects

Adolescent, Adult, Age Factors, Child, Child, Preschool, Databases, Factual, Female, HIV Seropositivity blood, HIV Seropositivity epidemiology, HIV Seropositivity therapy, Hemophilia A epidemiology, Hemophilia A therapy, Humans, Incidence, Male, Retrospective Studies, Risk Factors, United Kingdom, Blood Coagulation Factor Inhibitors blood, Factor VIII antagonists & inhibitors, Hemophilia A blood

Abstract

The age-adjusted incidence of new factor VIII inhibitors was analyzed in all United Kingdom patients with severe hemophilia A between 1990 and 2009. Three hundred fifteen new inhibitors were reported to the National Hemophilia Database in 2528 patients with severe hemophilia who were followed up for a median (interquartile range) of 12 (4-19) years. One hundred sixty (51%) of these arose in patients ≥ 5 years of age after a median (interquartile range) of 6 (4-11) years' follow-up. The incidence of new inhibitors was 64.29 per 1000 treatment-years in patients < 5 years of age and 5.31 per 1000 treatment-years at age 10-49 years, rising significantly (P = .01) to 10.49 per 1000 treatment-years in patients more than 60 years of age. Factor VIII inhibitors arise in patients with hemophilia A throughout life with a bimodal risk, being greatest in early childhood and in old age. HIV was associated with significantly fewer new inhibitors. The inhibitor incidence rate ratio in HIV-seropositive patients was 0.32 times that observed in HIV-seronegative patients (P < .001). Further study is required to explore the natural history of later-onset factor VIII inhibitors and to investigate other potential risk factors for inhibitor development in previously treated patients.

Published

2011