Mining of mortality-related findings in rare bleeding disorders: A retrospective study from two centers

Background Rare bleeding disorders include inherited coagulation disorders except for von Willebrand disease and hemophilia A and B. These disorders affect both men and women worldwide and mainly have an autosomal recessive pattern of inheritance. Given the paucity of cases of rare bleeding disorders, there are limited data regarding some topics among bleeding disorders. Methods This retrospective study from 2005�2019 collected demographic data and the causes of death among cases with rare bleeding disorders from 2 provinces of Iran. Results Overall, 5 deaths were reported, including 3 cases with factor V deficiency, a case with factor XIII deficiency, and a case with combined factor V and factor VIII deficiencies. The main causes of death were bleeding in the central nervous system (2 cases; 1 with factor V deficiency and 1 with combined factor XIII deficiency). Post-partum hemorrhage was the cause of death in a woman with factor V deficiency while anaphylaxis shock was the cause of death in the case with combined factor V and factor VIII deficiencies. A woman with factor V deficiency died from an internal bleeding episode. Conclusion Gathering data on the causes of death in rare bleeding disorders through worldwide registries can be helpful for the management of this rare group of bleeding disorders. © 2020 Korean Society of Hematology. All rights reserved

Genetic risk factors in patients with deep venous thrombosis, a retrospective case control study on Iranian population

Background: Venous thromboembolism (VTE) could be manifested as deep venous thrombosis (DVT) or pulmonary embolism (PE). DVT is usually the more common manifestation and is usually formation of a thrombus in the deep veins of lower extremities. DVT could occur without known underlying cause (idiopathic thrombosis) which could be a consequence of an inherited underlying risk factor or could be a consequence of provoking events, such as trauma, surgery or acute illness (provoked thrombosis). Our aim in this study was to assess the impact of some previously reported genetic risk factors including, methylenetetrahydrofolate reductase (MTHFR) C677T and A1298C, plasminogen activator inhibitor-1(PAI-1) 4G/5G, prothrombin 20210 and FV Leiden on occurrence of DVT in a population of Iranian patients. Methods: This long-term study was conducted on 182 patients with DVT and also 250 age and sex matched healthy subjects as control group. The diagnosis of DVT was based on patient's history, clinical findings, D-dimer test, and confirmed by Doppler ultrasonography. After confirmation of DVT, both groups were assessed for the five mentioned mutations. The relationship between mutations and predisposition to DVT was calculated by using logistic regression and expressed as an OR with a 95 confidence interval (CI). Results: Our results revealed that FV Leiden (OR 6.7; 95 CI = 2.2 to 20.3; P = 0.001), MTHFR C677T (OR 6.0; 95 CI = 2.2 to 16.4; P < 0.001), MTHFR A1298C (OR 8.3; 95 CI = 4.4 to 15.8; P < 0.001), and PAI-1 4G/5G (OR 3.8; 95 CI = 2.1 to 7.2; P < 0.001) mutations were all significantly associated with an increased risk of DVT. Prothrombin 20210 was found in none of the patients and controls. Conclusion: Our findings suggest that genetic risk factors have a contributory role on occurrence of DVT. © 2015 Hosseini et al

Study of the relationship between HPA-1 and HPA-5 gene polymorphisms and refractory to platelet therapy and recombinant factor VII in glanzmann thrombasthenia patients in Southeast of Iran

Background: Glanzmann Thrombasthenia (GT) is a rare autosomal disease. HPA (Human Platelet Alloantigen) is a surface polymorphic alloantigen of platelets. This study was intended to investigate and compare the polymorphism of HPA-1 and HPA-5 genes in two groups of GT patients, with and without resistance to platelet and recombinant factor VII therapy. Materials and Methods: This case control study was performed on GT patients (n=16) with resistance to platelet therapy and recombinant factor VII and control group of GT patients (n=16) without resistance to platelet therapy and recombinant factor VII. The consent form was completed by each patient. Gene polymorphisms of HPA-1 and HPA-5 were investigated using SSP-PCR, and the obtained data were analyzed using statistical software SPSS16.0. Results: The results indicated no significant relationship between the studied genes and their resistance to platelet therapy and recombinant factor VII. The frequencies of HPA-1 genotype a/a were 98 and 94 in patient and control groups, respectively. The frequency of allele b was found to be less than allele a. The value of this allele was 4 in patient group and 1 in control group. In addition, the HPA-5a/a (98) was the most frequent alloantigen?? (check it) in both groups. Seven percent (7) of the patients had the HPA-5a/b genotype, and the HPA-5b/b was found to be absent in these individuals. Conclusion: According to the results obtained, it could be concluded that these genes play no role in resistance to platelet therapy. © 2018, Tehran University of Medical Sciences (TUMS). All rights reserved

Gastrointestinal bleeding in a newborn infant with congenital factor X deficiency and COVID-19—A common clinical feature between a rare disorder and a new, common infection

Dear Editors, Congenital factor X (FX) deficiency is an extremely rare, bleeding disorder with an estimated incidence of one per 1 million. Patients with severe FX deficiency (FX:C < 1%) demonstrate a wide spectrum of serious clinical presentations, including hemarthrosis, hematoma, gastrointestinal (GI) bleeding, intracranial hemorrhage (ICH), and umbilical cord bleeding.1 In fact, severe FX deficiency, with a high rate of life‐threatening bleeding, is the second‐most severe, rare coagulation factor deficiency (RCFD) after FXIII deficiency.1, 2 Although homozygotes are at risk of severe bleeding, heterozygotes usually are asymptomatic, but postsurgical bleeding or bleeding after childbirth may occur.1, 2 Other risk factors can increase the risk of bleeding in FX deficiency, and coronavirus disease 2019 (COVID‐19), a new medical challenge, could affect the patient's bleeding or thrombotic tendency.3 COVID‐19, which is caused by severe acute respiratory syndrome coronavirus 2 (SARS‐CoV‐2) presents an enormous challenge for everyone, especially for those with underlying risk factors such as cardiovascular disease, diabetes, obesity, and renal failure. Age and male sex are other risk factors.4 Limited data are available regarding the effect of COVID‐19 on patients with congenital bleeding disorders (CBDs), particularly RCFDs.5 It has been shown that hypercoagulability‐related adverse consequences are less common among patients with CBDs, at least in those with moderate‐to‐severe deficiency, but further studies, including our ongoing work on a large number of patients, are required.5 Although there are several reports of newborns among infected pregnant mothers, this is the first report of such a case in an RCFD. This case report may help medical professionals to better manage similar cases. A 19‐year‐old pregnant woman was infected with SARS‐CoV‐2 early in the 9th month of pregnancy. Reverse transcriptase‐polymerase chain reaction (RT‐PCR) confirmed the infection. The patient had been in close contact with family members with confirmed COVID‐19. The patient had cough and fever. Due to the mild presentation, she was given Azithromycin and advised to isolate herself at home. The symptoms resolved within 14 days. At end of her 9th month, three days prior to the planned cesarean section, she was rechecked for SARS‐CoV‐2 infection; her RT‐PCR was negative. She successfully underwent cesarean section without complications and delivered a healthy full‐term baby. Therefore, mother and newborn discharged the following morning. In the evening, the baby experienced bloody vomiting and was hospitalized for further assessment, which showed GI bleeding. At admission, laboratory tests showed a positive C‐reactive protein (CRP) (qualitative), a low hemoglobin level, and prolonged prothrombin time (PT), and activated partial thromboplastin time (APTT) (Table 1). He was hospitalized in the neonate intensive care unit (NICU) for 10 days. Due to the risk of SARS‐CoV‐2 infection, on the third day after admission he was tested by RT‐PCR, which was positive. The neonate received 30 mL frozen plasma (FFP) six times over 10 days, which resolved the GI bleeding. Tranexamic acid (TXA) was administered at a dose of 10 mg/kg every 8 hours. Due to lack of COVID‐19 symptoms, he did not receive any special treatment for the disorder. After 10‐day hospitalization in the NICU, the neonate was sent to an isolation room for 5 days, during which his condition stabilized, after which he was discharged in stable condition. He has had no complications during the past two months after discharge. Since the child's father and two other first‐degree family members have severe FX deficiency, and the parents of the baby are closely related, the mother and the baby were checked for FX deficiency. Routine coagulation tests, and FX:C assay performed by STA Compact automatic coagulometer (Stago, Paris, France), revealed a severe deficiency in the baby, and a mild deficiency, compatible with heterozygote FX deficiency, in the mother (Table 1). Table 1. Laboratory characteristics of mother and baby with factor X deficiency and COVID‐19 Test Proband (2nd day after birth) Proband (7th day after birth) Proband (2 months after hospital discharge) Mother (about 3 1/2 months after SARS‐CoV‐2 infection) WBC × 109/L 14.2 (8‐24)b 9.43 (5‐21) 10.79 (6‐18) 8.7 (3.6‐10.6) RBC × 109/L 2.5 (4.36‐5.96) 2.78 (4.2‐5.8) 3.50 (3.4‐5) 4.41 (3.8‐5.2) Hb (g/dL) 8.2 (16.4‐20.8) 9.2 (15.2‐20.4) 10.2 (10.6‐16.4) 13.6 (12‐15) HCT (%) 24.6 (48‐68) 27 (50‐64) 29.2 (32‐50) 41.4 (35‐49) Lymphocyte × 109/L 6.4 (1.3‐11) 4.3 (1.2‐11.3) 8.21 (2.5‐13) 2.22 (1‐3.2) Neutrophil × 109/L 4.9 (2.6‐17) 2.9 (1.5‐12.6) 1.85 (1.2‐8.1) 5.75 (1.7‐7.5) Platelet × 109/L 370 (150‐450) 331 (150‐450) 334 (150‐450) 276 (150‐450) PT (sec) >60 (PTC: 12.6) 90 (PTC: 12.6) >60 (PTC: 10) 13 (PTC: 10) APTT (sec) >120 (APTTC: 31) 100 (APTTC: 30) >120 (APTTC: 32) 37 (APTTC: 32) CRP (Quantitative) Trace Negative NC NC FX:C level NC NC <1% (50%‐150%) 40% (50%‐150%) Abbreviations: APTT, activated partial thromboplastin time; APTTC, APTT control; CRP, C‐reactive protein; Hb, hemoglobin; HCT, hematocrit; NC, Not checked; PT, prothrombin time; PTC, PT control; RBC, red blood cell; WBC, white blood cell. a Hematological test normal ranges are extracted from Rodak's Hematology: Clinical Principles and Applications, 5th Ed (2016). b Normal values are placed in parentheses. COVID‐19 is an emerging medical challenge that can present more difficulties for those with special conditions, such as pregnant women and newborns. Due to alterations in cellular immunity, pregnant women are more prone to infection by intracellular pathogens like viruses.6 The fetus is also highly susceptible to infection due to immaturity of the immune system.7 Furthermore, the mother's (heterozygote) congenital coagulopathy and that of her newborn (homozygote) were additional potential risk factors, because a disrupted coagulation system is a prominent feature of SARS‐CoV‐2 infection.8 To date, FX deficiency in a newborn has not been cited anywhere as a special condition requiring close attention in the case of SARS‐CoV‐2 infection. According to the few reports to date, SARS‐CoV‐2 infection is a risk factor for severe maternal morbidity. It is worth noting that most of those mothers were discharged without complications.9 From a clinical aspect, fever was the most common symptom (68%) at the time of admission.9 This was also observed in the affected woman of this study. SARS‐CoV‐2 infection can even affect the type of delivery. A systematic review of these women showed that about 92% of deliveries were by cesarean section, less than 10% being the usual vaginal delivery (7 of 85). Fetal distress was mentioned as the most common indication for cesarean section. Our patient underwent a planned cesarean section, due to her previous history. The delivery itself was uneventful, and a healthy baby was delivered, while among other reported cases, a number of complications have been noted.9 As with most other reports, the infant did not have any symptoms at the time of delivery and was discharged the day after birth.9 In a case series of 10 patients, various first clinical presentations were observed, including shortness of breath (n = 6), fever (n = 2), vomiting (n = 1), and rapid heart rate (n = 1).10 In the case at hand, bloody vomiting was the first clinical presentation. In the same case series, one died due to refractory shock, multiple organ failure (MOF), and disseminated intravascular coagulation (DIC). Another patient with severe presentation was managed by intravenous infusions of gamma globulin, platelets, and plasma, which was suggestive of the effectiveness of gamma globulin in severe cases. The author recommended early use of intravenous gamma globulin for passive immunization.10 GI bleeding in our case was successfully managed by administration of FFP and TXA. In addition to thrombotic complication, bleeding is not infrequent in patients affected by COVID‐19, with GI bleeding seemingly the most common hemorrhagic manifestation among adults. GI bleeding, with a frequency of 40%, was observed among neonates from affected mothers.3 On the other hand, GI bleeding is also a relatively common presentation among severely FX deficient patients.1, 2 In fact, GI bleeding can occur in children with severe FX deficiency within the first months of life. It seems that such patients are prone to experience severe bleeding, such as ICH, later in life, in the absence of an appropriate therapeutic strategy, most likely preventative regular secondary prophylaxis.1, 2 In one study of 102 patients with congenital FX deficiency, GI bleeding has been reported in 12% of symptomatic cases.1 In this case, with GI bleeding being a common presentation of SARS‐CoV‐2 infection and congenital FX deficiency, it cannot definitively be attributed to one or the other. Close monitoring of such cases is necessary to decrease related adverse consequences. Although it seems that COVID‐19 is less severe in adults with CBDs, it is a less‐known issue among children and newborns with CBDs. Further reports and studies could provide clarity. Due to their severe bleeding tendency, close monitoring of patients with severe congenital FX deficiency is mandatory, even without potential SARS‐CoV‐2 infection. And close monitoring of neonates with infected mothers is mandatory to prevent severe consequences. Patients with concomitant infection with SARS‐CoV‐2 require even more rigorous preventative and supportive care. ACKNOWLEDGEMENTS We highly appreciate Daisy Morant's valuable aid in improving the English Language of this manuscript. The study was supported and approved by Shahid Beheshti University of Medical Sciences. CONFLICT OF INTEREST The authors have no competing interests. AUTHOR CONTRIBUTIONS A. Dorgalaleh designed the work, performed laboratory analysis, and wrote the manuscript. F Ghazizadeh, M. Baghaipour, A. Dabbagh, Gh. Bahoush, and N Baghaipour performed clinical studies. Sh. Tabibian, M. Jazebi, N. Baghaipour, M. Bahraini, A. Fazeli, and F. Yousefi performed laboratory analysis. All the authors approved the submission

Standardization of Prothrombin Time/International Normalized Ratio (PT/INR)

The prothrombin time (PT) represents the most commonly used coagulation test in clinical laboratories. The PT is mathematically converted to the international normalized ratio (INR) for use in monitoring anticoagulant therapy with vitamin K antagonists such as warfarin in order to provide test results that are adjusted for thromboplastin and instrument used. The INR is created using two major PT �correction factors�, namely the mean normal PT (MNPT) and the international sensitivity index (ISI). Manufacturers of reagents and coagulometers have made some efforts to harmonizing INRs, for example, by tailoring reagents to specific coagulometers and provide associated ISI values. Thus, two types of ISIs may be generated, with one being a �general� or �generic� ISI and others being reagent/coagulometer-specific ISI values. Although these play a crucial role in improving INR results between laboratories, these laboratories reported INR values are known to still differ, even when laboratories use the same thromboplastin reagent and coagulometer. Moreover, ISI values for a specific thromboplastin can vary among different models of coagulometers from a manufacturer using the same method for clot identification. All these factors can be sources of error for INR reporting, which in turn can significantly affect patient management. In this narrative review, we provide some guidance to appropriate ISI verification/validation, which may help decrease the variability in cross laboratory reporting of INRs. © 2020 John Wiley & Sons Lt

Prenatal diagnosis in rare bleeding disorders�An unresolved issue?

Intracranial haemorrhage (ICH) is the most dreadful complication, and the main cause of death among patients with rare bleeding disorders (RBD) and prenatal diagnosis (PND) is a preventative lifesaving program. A total of 39 PNDs were reported in the literature through a search on PubMed, EMBASE, SCOPUS and Web of Science databases, most often for congenital factor (F) XIII and FVII deficiencies and rarely in FX, FV deficiencies and afibrinogenemia. The main cause to request a PND is ICH and related morbidity and mortality. Different molecular methods including direct sequencing and linkage analysis as well as polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) for a specific mutation are the most common used methods for PND, while factor assay and combination of molecular and factor assay also were used. In this research, 7 severely affected foetuses were identified during PND including 3 foetuses with FXIII deficiency, 3 with FVII deficiency and 1 with FX deficiency. Out of these 7 cases, intrauterine ICH occurred in 1 case with FXIII deficiency, 1 was electively aborted and 1 case with severe FVII deficiency received intrauterine factor transfusion. Postdelivery ICH was reported for 1 patient with severe FVII deficiency within the first month of life. All other pregnancies were uneventful. © 2018 John Wiley & Sons Lt

The Founder Effect? -FXIII Deficiency in Southeast Iran: A Molecular Study Report

Background: Congenital factor XIII (FXIII) deficiency is an extremely rare bleeding disorder (RBD) with different clinical coagulation disorders and great impacts on the perioperative patient outcome. Its prevalence in Southeast Iran is approximately 4,000 times higher than the worldwide prevalence, with Trp187Arg (c.559T&gt; C as the only causative mutation of FXIIID there. We investigated the founder effect of rs1742924, rs4960181, rs3778360 and rs4142290 using haplotype analysis to define the genetic phenomenon in this geographic region. Materials and Methods: In a case-control study, 10 patients with FXIIID and 10 healthy individuals were assessed. Initially, Trp187Arg (c.559T&gt; C) mutation was assessed in all study populations using a PCR-RFLP technique, then haplotype analysis was performed by assessing rs1742924, rs4960181, rs3778360 and rs4142290 polymorphisms. Data were analyzed using a two-proportion z-test. Results: All patients were homozygote for Trp187Arg (c.559T&gt;C), and this mutation was not observed in any form of homozygote or heterozygote in the control group. Polymorphisms in rs1742924, rs4960181, and rs377836 were homozygote (TT, GG, GG, respectively) and T, G, and G alleles distribution in cases and controls with significant difference (P&lt;0.001, P&lt;0.001, and P=0.01 respectively). Rs4142290 polymorphism showed no significant difference between patients and controls (P=0.3). Two types of haplotypes were observed in the case group, and haplotype number 1* was observed among 90% of them, while not observed in the control group. Conclusion: It seems that founder effectors of haplotype number *1 have more antiquity versus other haplotypes, and probably founder effect is responsible for this high prevalence of FXIIID in the southeast of Iran

Bilateral maxillary, sphenoid sinuses and lumbosacral spinal cord extramedullary relapse of CML following allogeneic stem cell transplant

Isolated extramedullary relapse of chronic myelogenous leukemia (CML) after allogeneic stem cell transplant is rare. There is a case report of a child who developed a granulocytic sarcoma of the maxillary and sphenoid sinuses and lumbosacral spinal cord mass 18 months after allogeneic bone marrow transplant for CML. He was presented with per orbital edema and neurological deficit of lower extremities and a mass lesion was found on spinal cord imaging. No evidence of hematologic relapse was identified at that time by bone marrow histology or cytogenetic. The patient died 1 month later with a picture of pneumonia, left ventricular dysfunction and a cardiopulmonary arrest on a presumed underlying sepsis with infectious etiology. Granulocytic sarcoma should be considered in the differential diagnosis of mass lesions presenting after allogeneic bone marrow transplantation for CML, even if there is no evidence of bone marrow involvement. © 2016, Tehran University of Medical Sciences (TUMS). All Rights Reserved

Long term follow up study on a large group of patients with congenital factor XIII deficiency treated prophylactically with fibrogammin P®

Factor XIII deficiency (FXIIID) is an extremely rare hemorrhagic disorder with a prevalence of 1/3-5 million. Management of disease is performed by fresh frozen plasma (FFP), Cryoprecipitate (CP) or FXIII concentrate (Fibrogammin P®). Our objective was to assess safety and effectiveness of Fibrogammin P® in patients with FXIIID. For this purpose we designed this long-term follow up study on a large group of patients with FXIIID. This prospective study was conducted on 213 patients with FXIIID since 2009 to 2013. Administrated dose for Fibrogammin P® according to clinical situations of patients ranged from 10 to 26 IU/kg every 4-6 weeks. All patients in 6-month intervals were checked for human immunodeficiency virus (HIV), hepatitis A, B and C viruses (HAV, HBV, HCV). Twelve percent of participants had at least one ICH episode until 2008 but after administration of Fibrogammin P® did not have any major bleeding or episode of ICH, except in one patient. We also had 7 females with recurrent miscarriage that were managed successfully with a dose of 10 to 26 IU/kg every 4-6 weeks. This dose also was quite successful in management of major and minor surgery. None of the participants showed allergic reaction during treatment. A total of 7155450 IU of Fibrogammin P® were infused but nobody was positive for HIV, HAV, HBV, and HCV. We found that Fibrogammin P® is a safe and effective therapeutic choice in management of FXIIID. © 2016 by School of Pharmacy