Low in‑hospital mortality rate in patients with COVID‑19 receiving thromboprophylaxis: data from the multicentre observational START‑COVID Register

Abstract COVID-19 infection causes respiratory pathology with severe interstitial pneumonia and extra-pulmonary complications; in particular, it may predispose to thromboembolic disease. The current guidelines recommend the use of thromboprophylaxis in patients with COVID-19, however, the optimal heparin dosage treatment is not well-established. We conducted a multicentre, Italian, retrospective, observational study on COVID-19 patients admitted to ordinary wards, to describe clinical characteristic of patients at admission, bleeding and thrombotic events occurring during hospital stay. The strategies used for thromboprophylaxis and its role on patient outcome were, also, described. 1091 patients hospitalized were included in the START-COVID-19 Register. During hospital stay, 769 (70.7%) patients were treated with antithrombotic drugs: low molecular weight heparin (the great majority enoxaparin), fondaparinux, or unfractioned heparin. These patients were more frequently affected by comorbidities, such as hypertension, atrial fibrillation, previous thromboembolism, neurological disease,and cancer with respect to patients who did not receive thromboprophylaxis. During hospital stay, 1.2% patients had a major bleeding event. All patients were treated with antithrombotic drugs; 5.4%, had venous thromboembolism [30.5% deep vein thrombosis (DVT), 66.1% pulmonary embolism (PE), and 3.4% patients had DVT + PE]. In our cohort the mortality rate was 18.3%. Heparin use was independently associated with survival in patients aged ≥ 59 years at multivariable analysis. We confirmed the high mortality rate of COVID-19 in hospitalized patients in ordinary wards. Treatment with antithrombotic drugs is significantly associated with a reduction of mortality rates especially in patients older than 59 years

The genomic landscape of myeloid neoplasms with myelodysplasia and its clinical implications

This article will review the most recent advances in the understanding of the genetic basis of myeloid neoplasms with myelodysplasia and will discuss its clinical implications. Recurrent somatic mutations have been identified in about 90% of patients with myeloid neoplasms with myelodysplasia, involving genes of RNA splicing, DNA methylation, histone modification, transcription regulation, DNA repair, signal transduction, and cohesin complex. Somatic mutations are acquired in a linear manner in a multipotent hematopoietic stem cell, resulting in a growth advantage at the stem cell level and in defective differentiation and maturation of hematopoietic precursors. Recently, evidence has been provided of age-related hematopoietic clones, driven by mutations of genes recurrently mutated in myeloid neoplasms. These hematopoietic clones may represent either premalignant clones with the potential to progress to myeloid neoplasm or small malignant clones at a preclinical stage. The available evidence clearly indicates that greater understanding of the molecular basis of myeloid neoplasms with myelodysplasia has relevant implications in the classification of these disorders, as well as in predicting disease risk and response to specific treatment modalities, and may open avenues of research leading to novel therapeutic options and personalized treatment in the individual patient

Thrombopoietin is not uniquely responsible for thrombocytosis in inflammatory disorders

A few studies in patients with reactive thrombocytosis identified levels of the hormone higher than expected, and suggested that TPO behaves as an acute-phase protein and was responsible for increased platelet count. At the opposite, other studies did not find any significant rise of the hormone in patients who similarly developed reactive thrombocytosis. To gain further information on this topic, we compared TPO levels and platelet counts in two series of patients hospitalized for acute illnesses: one with strong elevation of both erythrocyte sedimentation rate (ESR) and C-reactive protein (CRP), and the other with normal values. Within the group of subjects with high ESR and CRP, 38 had normal platelet counts, while 15 had thrombocytosis. No thrombocytosis was observed in control patients. Patients with high acute phase indexes had significantly higher TPO levels and platelet counts than control patients. We identified significant positive correlations between ESR and CRP, and between TPO and CRP. Interestingly, no significant relationship between platelet counts and TPO levels was find. When we grouped patients with acute-phase reaction according to absence or presence of thrombocytosis, we found similar TPO values. Conversely, positive correlations between platelet count and IL-6 and between TPO and IL-6 have been identified. All together our results confirm that TPO acts as an acute phase protein but exclude the possibility that it is uniquely responsible for thrombocytosis of inflammatory disorders, which might recognize in IL-6 a credible candidate as a cooperating factor

Iron overload-related heart failure in a patient with transfusion-dependent myelodysplastic syndrome reversed by intensive combined chelation therapy

Patients with transfusion-dependent myelodysplastic syndromes (MDS) have an increased risk of cardiac events, due to both chronic anemia and iron overload. Here, we report the recovery of cardiac function after an intensive iron chelation therapy in a MDS patient who had developed heart failure due to iron overload

Clinical relevance of murine double minute 2 single nucleotide polymorphisms 309 in familial myeloproliferative neoplasm.

We analyzed MDM2 SNP 309 in a large cohort of patients with familial MPN and did not find an effect of the polymorphism on disease susceptibility, age at disease onset, disease progression, and association with JAK2 (V617F) mutation. Germline genetic variants other than MDM2 polymorphisms might be involved in the genetic predisposition to familial MPN

Inappropriately low hepcidin levels in patients with myelodysplastic syndrome carrying a somatic mutation of SF3B1

Contains fulltext : 118639.pdf (publisher's version ) (Open Access)Somatic mutations of the RNA splicing machinery have been recently identified in myelodysplastic syndromes. In particular, a strong association has been found between SF3B1 mutation and refractory anemia with ring sider-oblasts, a condition characterized by ineffective erythropoiesis and parenchymal iron overload. We studied the relationship between SF3B1 mutation, erythroid activity and hepcidin levels in myelodysplastic syndrome patients. Erythroid activity was evaluated through the proportion of marrow erythroblasts, soluble transferrin receptor and serum growth differentiation factor 15. Significant relationships were found between SF3B1 mutation and marrow erythroblasts (P=0.001), soluble transferrin receptor (P=0.003) and serum growth differentiation factor 15 (P=0.033). Serum hepcidin varied considerably, and multivariable analysis showed that the hepcidin to ferritin ratio, a measure of adequacy of hepcidin levels relative to body iron stores, was inversely related to the SF3B1 mutation (P=0.013). These observations suggest that patients with SF3B1 mutation have inappropriately low hepcidin levels, which may explain their propensity to parenchymal iron loading

Application of a diagnostic algorithm for inherited thrombocytopenias to 46 consecutive patients

BACKGROUND AND OBJECTIVES: The Italian Gruppo di Studio delle Piastrine recently developed a diagnostic algorithm to assist clinicians in the diagnosis of inherited thrombocytopenias. This algorithm is based on the simplest possible diagnostic investigations and can also be used in centers that are not highly specialized. The aim of the present study was to validate this diagnostic algorithm by applying it to a case series of genetic thrombocytopenias. DESIGN AND METHODS: The diagnostic algorithm was applied retrospectively to 46 consecutive patients observed during the last five years at a single institution. Twenty-eight were affected by defined illnesses or their variants, while 18 had a disorder that did not fit the criteria for any known genetic thrombocytopenia. The study was based on the evaluation of clinical records and laboratory tests. RESULTS: The diagnostic algorithm recognized: 4 homozygous and 4 heterozygous Bernard-Soulier syndromes, 11 MYH9-related diseases, one von WillebrandOs disease type 2B, one gray platelet syndrome and one X-linked thrombocytopenia with thalassemia. Moreover, it identified 4 patients with the clinical and laboratory features of heterozygous Bernard-Soulier syndrome not caused by mutations in the coding region of the GPIbalpha, GPIbbeta, GPIX or GPV genes, and two patients with the clinical phenotype of MYH9-related disease but without MYH9 mutations. Since the diagnostic flow chart did not allow prompt recognition of two subjects with MYH9-related disease, we introduced a small change to the previously proposed flow chart to obviate this defect. INTERPRETATION AND CONCLUSIONS: The diagnostic algorithm correctly diagnosed 26 of 28 patients with known disorders or phenotypic variants of known disorders. By a simple modification of the investigation sequence, its sensitivity reached 100%. The algorithm also identified 18 patients with new, as yet uncharacterized forms of genetic thrombocytopenia

Application of a diagnostic algorithm for inherited thrombocytopenias to 46 consecutive patients.

BACKGROUND AND OBJECTIVES: The Italian Gruppo di Studio delle Piastrine recently developed a diagnostic algorithm to assist clinicians in the diagnosis of inherited thrombocytopenias. This algorithm is based on the simplest possible diagnostic investigations and can also be used in centers that are not highly specialized. The aim of the present study was to validate this diagnostic algorithm by applying it to a case series of genetic thrombocytopenias. DESIGN AND METHODS: The diagnostic algorithm was applied retrospectively to 46 consecutive patients observed during the last five years at a single institution. Twenty-eight were affected by defined illnesses or their variants, while 18 had a disorder that did not fit the criteria for any known genetic thrombocytopenia. The study was based on the evaluation of clinical records and laboratory tests. RESULTS: The diagnostic algorithm recognized: 4 homozygous and 4 heterozygous Bernard-Soulier syndromes, 11 MYH9-related diseases, one von WillebrandOs disease type 2B, one gray platelet syndrome and one X-linked thrombocytopenia with thalassemia. Moreover, it identified 4 patients with the clinical and laboratory features of heterozygous Bernard-Soulier syndrome not caused by mutations in the coding region of the GPIbalpha, GPIbbeta, GPIX or GPV genes, and two patients with the clinical phenotype of MYH9-related disease but without MYH9 mutations. Since the diagnostic flow chart did not allow prompt recognition of two subjects with MYH9-related disease, we introduced a small change to the previously proposed flow chart to obviate this defect. INTERPRETATION AND CONCLUSIONS: The diagnostic algorithm correctly diagnosed 26 of 28 patients with known disorders or phenotypic variants of known disorders. By a simple modification of the investigation sequence, its sensitivity reached 100%. The algorithm also identified 18 patients with new, as yet uncharacterized forms of genetic thrombocytopenia

Application of a diagnostic algorithm for inherited thrombocytopenias to 46 consecutive patients.

10BACKGROUND AND OBJECTIVES: The Italian Gruppo di Studio delle Piastrine recently developed a diagnostic algorithm to assist clinicians in the diagnosis of inherited thrombocytopenias. This algorithm is based on the simplest possible diagnostic investigations and can also be used in centers that are not highly specialized. The aim of the present study was to validate this diagnostic algorithm by applying it to a case series of genetic thrombocytopenias. DESIGN AND METHODS: The diagnostic algorithm was applied retrospectively to 46 consecutive patients observed during the last five years at a single institution. Twenty-eight were affected by defined illnesses or their variants, while 18 had a disorder that did not fit the criteria for any known genetic thrombocytopenia. The study was based on the evaluation of clinical records and laboratory tests. RESULTS: The diagnostic algorithm recognized: 4 homozygous and 4 heterozygous Bernard-Soulier syndromes, 11 MYH9-related diseases, one von WillebrandOs disease type 2B, one gray platelet syndrome and one X-linked thrombocytopenia with thalassemia. Moreover, it identified 4 patients with the clinical and laboratory features of heterozygous Bernard-Soulier syndrome not caused by mutations in the coding region of the GPIbalpha, GPIbbeta, GPIX or GPV genes, and two patients with the clinical phenotype of MYH9-related disease but without MYH9 mutations. Since the diagnostic flow chart did not allow prompt recognition of two subjects with MYH9-related disease, we introduced a small change to the previously proposed flow chart to obviate this defect. INTERPRETATION AND CONCLUSIONS: The diagnostic algorithm correctly diagnosed 26 of 28 patients with known disorders or phenotypic variants of known disorders. By a simple modification of the investigation sequence, its sensitivity reached 100%. The algorithm also identified 18 patients with new, as yet uncharacterized forms of genetic thrombocytopenia.nonemixedNORIS P; PECCI A; DI BARI F; DI STAZIO MT; DI PUMPO M; CERESA I; AREZZI N; AMBAGLIO C; SAVOIA A.; BALDUINI CLNoris, P; Pecci, A; DI BARI, F; DI STAZIO, Mt; DI PUMPO, M; Ceresa, I; Arezzi, N; Ambaglio, C; Savoia, Anna; Balduini, C