Hemophilia is associated with a high financial burden on individuals, healthcare systems, and society. The development of inhibitors significantly increases the socioeconomic burden of the diseases. This study aimed to review and describe the burden of hemophilia with inhibitors, providing a reference scenario to assess the impact of new products in the real word. Two systematic literature reviews were performed to collect data on (i) health economics and (ii) health‐related quality of life evidences in hemophilic patients with inhibitors. The costs associated with patients with hemophilia and inhibitors are more than 3 times greater than the costs incurred in those without inhibitors, with an annual cost per patient that can be higher than €1 000 000. The costs of bypassing agents account for the large majority of the total healthcare direct costs for hemophilia treatment. The quality of life is more compromised in patients with hemophilia and inhibitors compared to those without inhibitors, in particular the physical domains, whereas mental domains were comparable to that of the general population. The development of an inhibitor has a high impact on costs and quality of life. New treatments have the potential to change positively the management and socioeconomic burden of hemophilia with inhibitors.
In Italy, the estimated residual risk of TTI is apparently low, particularly for HIV infection. Although the estimated risks are higher for HCV and HBV, the introduction of mandatory viral detection tests for HCV in 2002 should account for an 80 percent reduction in the HCV risk. Moreover, the ongoing HBV vaccination program will contribute to reducing the risk of transfusion-transmitted HBV.
We have evaluated the expression of growth factor receptors (GFRs) on early hematopoietic progenitor cells (HPCs) purified from human adult peripheral blood and induced in liquid suspension culture to unilineage differentiation/maturation through the erythroid (E), granulocytic (G), megakaryocytic (Mk), or monocytic (Mo) lineage. The receptors for basic fibroblast GF (bFGF), erythropoietin (Epo), thrombopoietin (Tpo), and macrophage colony-stimulating factor (MCSF) have been only assayed at mRNA level; the majority of GFRs have been evaluated by both mRNA and protein analyses: the expression patterns were consistent at both levels. In quiescent HPCs the receptors for early-acting [flt3 ligand (FL), c-kit ligand (KL), bFGF, interleukin-6 (IL-6)] and multilineage [IL-3, granulocyte-macrophage CSF (GM-CSF)] HGFs are expressed at significant levels but with different patterns, eg, kit and flt3 are detected on a majority and minority of HPCs, respectively, whereas IL-3Rs and GM-CSFRs are present on almost all HPCs. In the four differentiation pathways, expression of early-acting receptors shows a progressive decrease, more rapidly for bFGFR-1 and flt3 than for c-kit; furthermore, c-kit is more slowly downmodulated in the E and Mk than the G and Mo lineages. As a partial exception, IL-6Rs are still detected through the early or late stages of maturation in the Mk and Mo lineages, respectively. IL-3R expression is progressively and rapidly downmodulated in both E and Mk pathways, whereas it moderately decreases in the Mo lineage and is sustained in the G series. The expression of GM-CSFR is gradually downmodulated in all differentiation pathways, ie, the receptor density markedly decreases but late erythroblasts are still partially GM-CSFR+ and terminal G, Mk and Mo cells are essentially GM-CSFR+. Expression of receptors for late-acting cytokines is lineage-specific. Thus, EpoR, G-CSFR, TpoR, and M-CSFR exhibit a gradual induction followed by a sustained expression in the E, G, MK, and Mo lineages, respectively. In the other differentiation pathways the expression of these receptors is either absent or initially low and there-after suppressed. These observations are compatible with the following multi-step model. (1) The early-acting GFRs are expressed on quiescent HPCs with different patterns, whereas the multilineage GFRs are present on > or = 90% to 95% HPCs. (2) Multilineage GFs, potentiated by early-acting HGFs, trigger HPCs into cycling. HPC proliferation/differentiation is followed by declining expression of the early-acting GFRs and in part of multilineage GFRs (see above). (3) Multilineage GFs trigger the expression of the unilineage GFRs (see Testa U, et al: Blood 81:1442, 1993). Interaction of each unilineage GF with its receptor leads to sustained expression of the receptor (possibly via transcription factors activating the receptor promoter) and thus mediates differentiation/maturation through the pertinent lineage.
In Italy, the surveillance of people with bleeding disorders is based on the National Registry of Congenital Coagulopathies (NRCC) managed by the Italian National Institute of Health (Istituto Superiore di Sanità). The NRCC collects epidemiological and therapeutic data from the 54 Hemophilia Treatment Centers, members of the Italian Association of Hemophilia Centres (AICE). The number of people identified with bleeding disorders has increased over the years, with the number rising from approx. 7000 in 2000 to over 11,000 in 2015. The NRCC includes 4020 patients with hemophilia A and 859 patients with hemophilia B. The prevalence of the rare type 3 vWD is 0.20/100,000 inhabitants. Less common congenital bleeding disorders include the following deficiencies: Factor I (fibrinogen), Factor II (prothrombin), Factor V, Factor VII, Factor X, Factor XI and Factor XIII, which affect 1953 patients. Hepatitis C Virus (HCV) infection affects 1561 patients, more than 200 of whom have two infections (HCV + HIV). Estimated hemophilia-related drug consumption in 2015 was approx. 550 million IU of FVIII for hemophilia A patients and approx. 70 million IU of FIX for hemophilia B patients. The NRCC, with its bleeding disorder data set, is a tool that can provide answers to fundamental questions in public health, monitoring care provision and drug treatment, as well as facilitating clinical and epidemiological research.
The expression of a number of blood coagulation factors (F) (FX, FIX, FVIII, FVII, alpha-, beta-, gamma-fibrinogen chains, protein C, and antithrombin III [AT III]) was analyzed at RNA and protein level in 5- to 10-week-old human embryos and fetuses. FX, FIX, and FVII were also analyzed at protein level. Total and poly(A)+ RNA, extracted from embryonic-fetal (FL) and adult liver (AL), were analyzed by dot and Northern blot hybridization with specific cDNA probes. The results indicate that: (1) the size of the messenger RNAs of these factors is equivalent in FL and AL; (2) in the 5- to 10-week period, their abundance in FL increases from 30% to 50% of the adult level except for FIX (from 2% to 10%) and FX (always 100% of the adult value). Western blot analysis of FIX, FX, and FVII in 5- to 10-week soluble liver proteins and 6- to 8-week plasma showed a low level of FIX versus a higher concentration of both FVII and FX, when compared with corresponding adult values, ie, a liver protein level of 10% versus 100% and a plasma concentration level of 10% versus 40%. Although little is known so far on the activity and the functional role of the clotting factors in early human ontogenic development, these studies suggest an activation of FX via the FVII/tissue factor activity rather than the FIXa/FVIIIa phospholipid complex in human embryonic and early fetal life.
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