Double jeopardy, glomangiopericytoma and Glanzmann thrombasthenia resulting in recurrent epistaxis: a case report.

Glanzmann thrombasthenia is a rare bleeding disorder induced by inherited defects of the platelet membrane αIIbß3 glycoprotein. Glomangiopericytoma, on the other hand, is a very rare sinonasal tumor demonstrating a perivascular myoid phenotype. We herein report the first described case in the literature of Glanzmann thrombasthenia and glomangiopericytoma. The patient is a 40-year-old man diagnosed with type 1 Glanzmann thrombasthenia who presented with repetitive and profuse posterior epistaxis initially managed with platelet transfusions and recombinant activated factor VII (rFVIIa). Due to the unresolved epistaxis, nasal endoscopy was performed revealing a vascularized tumor. Subsequently, a sphenopalatine artery embolization followed by a surgical excision of the tumor was performed. The pathology report diagnosis of the tumor was glomangiopericytoma. This case sheds the lights on a very rare cause of epistaxis in a patient with Glanzmann thrombasthenia, with a challenging multidisciplinary management. A local cause of epistaxis should always be considered even in case of a diagnosed bleeding disorder, especially when the bleeding is recurrent.

Effect of c.1431C > T mutation, a causative mutation of Glanzmann's thrombasthenia, on ITGB3 splicing, gene and protein expression.

BACKGROUND/AIM: Recently, it was reported that the non-synonymous c.1431C > T (p. G477=) mutation of the integrin subunit ß3 (ITGB3) gene is the cause of Glanzmann's thrombasthenia (GT). However, the functional consequences of this mutation on the ITGB3 gene and protein expression remain to be elucidated. Therefore, this study was conducted to cover this scientific shortage. METHODS: Peripheral blood samples were collected from Chinese family members (parents and proband and his sister), and DNA was extracted and sequenced using whole-exome and Sanger sequencing. The effect of c.1431C > T mutation on the splicing of mRNA was verified by the in vitro minigene assay and the three variants that resulted from the mutation were cloned into a phage vector and pEGFP-C1 vector, and ITGB3 gene and protein expression was detected in the transfected 293 T cells using qPCR and Western blotting. RESULTS: Minigene splicing assay showed that c.1431C > T mutation causes three kinds of alternative splicing; (1) a 95 bp deletion in the middle of exon10, (2) a 155 bp deletion (95 bp deletion in the middle of exon10 plus a 60 bp deletion in the right side of exon10), and (3) a 261 bp deletion in the right side of exon10. The in vitro expression assay showed that the c.1431C > T variant did not affect the ITGB3 mRNA levels, but directly led to protein truncation and declined expression. CONCLUSION: Due to its significant impact on protein expression, c.1431C > T mutation in ITGB3 could be considered a pathogenic variant of GT. This could enrich the ITGB3 mutation spectrum and provide a base for the genetic diagnosis of GT.

A lethal case of massive hemorrhage after percutaneous liver biopsy in a patient with thrombasthenia.

Percutaneous needle liver biopsy is an important procedure in the diagnosis of and assessment of the severity of liver diseases. Although liver biopsy is considered to be a relatively safe procedure, there are occasional cases of death due to massive bleeding after liver biopsy. Thrombasthenia is a disease in which bleeding occurs in the mucosa and skin due to platelet dysfunction. A 60-year-old female was admitted for a liver biopsy for further investigation after an abnormal liver function test. She was diagnosed with thrombasthenia and was being treated with oral tranexamic acid and carbazochrome. Blood tests showed little decrease of platelet count and no abnormalities of blood coagulability. Approximately ten hours after the liver biopsy, the patient complained of nausea and lightheadedness, followed by decreased blood pressure and decreased consciousness. An emergent abdominal CT scan showed a large amount of blood in the abdominal cavity. The patient died despite multidisciplinary treatment, and a forensic autopsy was performed. At internal examination, approximately 2,620 mL of dark red blood was accumulated in the abdominal cavity. A puncture wound led 1.8 cm into the liver from the surface of the liver, and no major vascular damage was observed. The cause of death was considered to be blood loss due to bleeding from the puncture wound. Even if the platelet count is normal, such as in a case of thrombasthenia, the risk of bleeding should not be underestimated. Careful attention should be paid when performing liver biopsy in a patient with risk factors.

SINE-VNTR-Alu retrotransposon insertion as a novel mutational event underlying Glanzmann thrombasthenia.

BACKGROUND: Glanzmann thrombasthenia (GT) is an autosomal recessive platelet aggregation disorder caused by mutations in ITGA2B or ITGB3. OBJECTIVES: We aimed to assess the phenotype and investigate the genetic etiology of a GT pedigree. METHODS: A patient with bleeding manifestations and mild mental retardation was enrolled. Complete blood count, coagulation, and platelet aggregation tests were performed. Causal mutations were identified via whole exome and genome sequencing and subsequently confirmed through polymerase chain reaction and Sanger sequencing. The transcription of ITGB3 was characterized using RNA sequencing and reverse transcription polymerase chain reaction. The αⅡb and ß3 biosynthesis was investigated via whole blood flow cytometry and in vitro studies. RESULTS: GT was diagnosed in a patient with defective platelet aggregation. Novel compound heterozygous ITGB3 variants were identified, with a maternal nonsense mutation (c.2222G>A, p.Trp741∗) and a paternal SINE-VNTR-Alu (SVA) retrotransposon insertion. The 5' truncated SVA element was inserted in a sense orientation in intron 11 of ITGB3, resulting in aberrant splicing of ITGB3 and significantly reducing ß3 protein content. Meanwhile, both the expression and transportation of ß3 were damaged by the ITGB3 c.2222G>A. Almost no αⅡb and ß3 expressions were detected on the patient's platelets surface. CONCLUSION: Novel compound heterozygous ITGB3 mutations were identified in the GT pedigree, resulting in defects of αⅡbß3 biosynthesis. This is the first report of SVA retrotransposon insertion in the genetic pathogenesis of GT. Our study highlights the importance of combining multiple high-throughput sequencing technologies for the molecular diagnosis of genetic disorders.

High Rates of Anti-αIIbß3 Antibodies Produced by a Glanzmann Thrombasthenia Patient after First and Unique Red Blood Cells Administration.

Immunization against the platelet αIIbß3 glycoprotein due to blood transfusion represents one of the most severe complications in Glanzmann thrombasthenia (GT) disease. Anti-αIIbß3 isoantibodies development may lead to ineffective platelet transfusion and can, in case of pregnancy, cross the placenta leading to fetal thrombocytopenia. We describe here the case of a girl with type I GT who developed high rates of anti-αIIbß3 isoantibodies after first and unique blood transfusion. Surprisingly, this patient had only received red blood cell concentrates and immunization was presumably stimulated by the residual presence of platelets in concentrates. This study emphasizes the need for regular anti-αIIbß3 antibodies screening in GT, even though patients have never been previously transfused with platelet concentrates.

Glanzmann thrombasthenia: an uncommon cause of acute upper gastrointestinal bleeding.

The major function of platelets is to contribute to hemostasis. If an impairment in their production and/or function occurs, abnormal bleeding can develop. An 18-year-old male presented to our hospital after four episodes of hematemesis. His medical history was relevant for Glanzmann thrombasthenia diagnosed during early childhood. On initial examination, he appeared pale and with normal blood pressure. His complete blood count included a hemoglobin concentration of 11.0 g/dL, additional laboratory tests were within the normal ranges. The initial approach consisted of a high dose of proton pump inhibitors. Hours later, esophagogastroduodenoscopy revealed diffuse oozing bleeding from gastric mucosa with no other visible lesions such as peptic ulcers or varices.

Glanzmann thrombasthenia: Use of hemocoagulase (BotroClot) for arrest of bleeding during a primary tooth endodontic procedure.

The Rationale: Glanzmann thrombasthenia is a rare platelet disorder affecting 0.0001% of the population. Dentists may often be unaware of this condition, and manipulation of soft tissue can lead to grave consequences, which may even result in fatality. Patient Concerns: In this case report, a 4-year-old patient with Glanzmann thrombasthenia reported to the department with a chief complaint of a discoloured tooth. Clinical Findings: On examination, 51 was nonvital, and pulpectomy was the treatment planned. The non-vital anterior tooth was treated with a pulpectomy procedure. There was uncontrolled bleeding during the procedure. Treatment: A topical solution of BotroClot was used to arrest the bleeding, and obturation was completed following that. The post-operative period was uneventful. Take-away Lessons: Case report explored the use of a topical hemostatic agent to arrest bleeding from the canal. This case report warrants eliciting a thorough medical history before any dental procedure.

Manejo de la trombastenia de Glanzmann durante el embarazo: reporte de un caso y revisión de la literatura / Management of Glanzmann's thrombasthenia during pregnancy: a case report and literature review

Resumen Objetivo: Reportar el caso de una paciente con trombastenia de Glanzmann que recibe manejo con transfusión de plaquetas con factor VII activado y realizar una revisión de la literatura referente al tratamiento y el pronóstico de esta patología durante la gestación. Método: Se presenta el caso de una paciente de 27 años con trombastenia de Glanzmann y embarazo de 33 semanas, con cesárea al término sin complicaciones. Se realizó una búsqueda en las bases de datos Medline vía PubMed, Lilacs, SciELO y ScienceDirect; se incluyeron reportes de caso, series de casos y revisiones bibliográficas hasta 2021. Resultados: Se encontraron 21 artículos, con 23 casos reportados. Los embarazos se presentaron entre la tercera y la cuarta décadas de la vida, siendo la mayoría pacientes con anticuerpos frente a antígenos plaquetarios (43,4% de los casos). El principal manejo fue con transfusión plaquetaria. Conclusiones: La trombastenia de Glanzmann durante el embarazo es infrecuente y se asocia a eventos hemorrágicos. La presencia de anticuerpos frente a antígenos plaquetarios condiciona el manejo con mayor riesgo de complicaciones perinatales. No tiene un enfoque terapéutico unificado, siendo el de elección la transfusión de plaquetas y como segunda línea el factor VII activado.

Abstract Objective: To report the case of a patient with Glanzmann's thrombasthenia who receives management with platelet transfusion with activated factor VII and a literature review regarding the treatment and prognosis of this pathology during pregnancy. Method: We present the case of a 27 year old patient with Glanzmann's thrombasthenia and a 33-week pregnancy, with a cesarean section at term without complications. Medline databases were searched via PubMed, Lilacs, SciELO and ScienceDirect; case reports, case series and bibliographic reviews were included until 2021. Results: A total of 21 articles were found, with 23 reported cases; the pregnancies occurred between the third and fourth decades of life, the majority being patients with anti-platelet antigen antibodies in 43.4% of the cases. The main management was with platelet transfusion. Conclusions: Glanzmann's thrombasthenia during pregnancy is rare and is associated with hemorrhagic events. The presence of anti-platelet antigen antibodies conditions management with a higher risk of perinatal complications. It does not have a unified therapeutic approach, with platelet transfusion being the management of choice and activated factor VII as second line.

[Effects of the ITGA2B Nonsense Mutation (c.2659C > T, p.Q887X) on Platelet Function in a Mouse Model of Glanzmann's Thrombasthenia Generated with CRISPR/Cas9 Technology].

OBJECTIVE: To construct a mouse model of Glanzmann's thrombasthenia (GT) with ITGA2B c.2659 C>T (p.Q887X) nonsense mutation by CRISPR/Cas9 technology, and then further explore the expression and function of glycoprotein αIIbß3 on the surface of platelet membrane. METHODS: The donor oligonucleotide and gRNA vector were designed and synthesized according to the ITGA2B gene sequence. The gRNA and Cas9 mRNA were injected into fertilized eggs with donor oligonucleotide and then sent back to the oviduct of surrogate mouse. Positive F0 mice were confirmed by PCR genotyping and sequence analysis after birth. The F1 generation of heterozygous GT mice were obtained by PCR and sequencing from F0 bred with WT mice, and then homozygous GT mice and WT mice were obtained by mating with each other. The phenotype of the model was then further verified by detecting tail hemorrhage time, saphenous vein bleeding time, platelet aggregation, expression and function of αIIbß3 on the surface of platelet. RESULTS: The bleeding time of GT mice was significantly longer than that of WT mice (P<0.01). Induced by collagen, thrombin, and adenosine diphosphate (ADP), platelet aggregation in GT mice was significantly inhibited (P<0.01, P<0.01, P<0.05). Flow cytometry analysis showed that the expression of αIIbß3 on the platelet surface of GT mice decreased significantly compared with WT mice (P<0.01), and binding amounts of activated platelets to fibrinogen were significantly reduced after thrombin stimulation (P<0.01). The spreading area of platelet on fibrinogen in GT mice was significantly smaller than that in WT mice (P<0.05). CONCLUSION: A GT mouse model with ITGA2B c.2659 C>T (p.Q887X) nonsense mutation has been established successfully by CRISPR/Cas9 technology. The aggregation function of platelet in this model is defective, which is consistent with GT performance.

Hematomas en un lactante de 3 meses. La importancia del diagnóstico diferencial / Bruising in a 3-month-old infant. The importance of differential diagnosis

Introducción: el motivo de consulta en Pediatría puede o no estar relacionado con patología subyacente importante, la exploración física exhaustiva en busca de signos de alarma es fundamental. Caso clínico: presentamos el caso de un lactante de 3 meses en el que durante una visita a nuestro servicio de urgencias se detectaron hematomas. Con la sospecha inicial de un posible maltrato, se realizaron varios estudios y el diagnóstico final fue el de tromboastenia de Glanzmann. Discusión: la tromboastenia de Glanzmann es un trastorno hereditario de la función plaquetaria. Se trata de una enfermedad muy poco frecuente de herencia autosómica recesiva. El hemograma y las pruebas de coagulación básicas son normales y el diagnóstico se realiza mediante análisis de pruebas de función plaquetaria y agregometría por transmisión de luz. Conclusiones: la presencia de hematomas en un lactante de corta edad constituye siempre un motivo de investigación. Aunque por su incidencia el maltrato infantil constituye una de las principales causas, no debemos olvidar que se trata de un diagnóstico de exclusión, por lo que deberán descartarse otras patologías en función de los signos y síntomas que presente el paciente (AU)

Introduction: the presenting complaint in a paediatric visit may or not be related to an important underlying disease, so performing an exhaustive physical examination in search of warning signs is essential.Clinical case: we present the case of a 3-month-old infant in whom little bruises in thorax were detected during a visit to our emergency room. Several tests were performed to assess the initial suspicion of physical child abuse, after which the final diagnosis was Glanzmann thrombasthenia.Discussion: Glanzmann thrombasthenia is an inherited platelet function disorder. It is a rare disorder with autosomal recessive inheritance. Complete blood count and basic coagulation tests are normal, and the diagnosis is performed by platelet function testing and light transmission aggregometry.Conclusions: the presence of bruises in infants is always a reason for investigation. Although, given its frequency, child abuse is one of the leading causes, we must not forget that it is a diagnosis of exclusion. Therefore, other pathologies should be ruled out based on the presenting signs and symptoms. (AU)

Elevated CD9 expression as a potential biomarker for diagnosis of Bernard-Soulier syndrome.

Diagnosis of inherited platelet glycoprotein disorders is based on specific laboratory techniques such as aggregometry and flow cytometry. Flowcytometry is a powerful method, but equivocal results are produced in some cases. New cluster of differentiation markers could resolve the diagnostic dilemmas. Abnormal expression of CD9 in Bernard-Soulier syndrome (BSS) is recently reported. We aimed to determine the diagnostic significance of CD9 expression in a cohort of Iranian patients with inherited platelet glycoprotein defects. Twelve BSS, 21 Glanzmann thrombasthenia and 16 healthy controls were included in the present study. Flowcytometric diagnosis of BSS and Glanzmann thrombasthenia was made by analysis of CD41/61 and CD42a/42b CD markers. Moreover, phycoerythrin-labelled anti CD9 was examined in patients and healthy controls. The mean fluorescence intensity (MFI) of CD9 among the three groups was compared using suitable statistical methods and a P value of less than 0.05 considered statistically significant. Mean MFI of CD9 was 990.0 in BSS patients versus 421.2 and 317.3 in individuals with Glanzmann thrombasthenia and healthy controls, respectively (P < 0.05). Between the two-group comparison of means by the Mann-Whitney test revealed a P value of less than 0.001 for BSS group versus GT (2.4-fold) and BSS versus healthy controls (2.9-fold). CD9 molecule also expressed differently in patients with Glanzmann thrombasthenia in comparison with healthy controls (P < 0.001), although with a less magnitude (1.3-fold). According to our findings, CD9 is a potential biomarker for laboratory diagnosis of inherited glycoprotein defects, especially to elucidate the ambiguous results in BSS cases.

Flow cytometric analysis of platelet surface glycoproteins in the diagnosis of thirty-two Turkish patients with Glanzmann thrombasthenia: a multicenter experience

Background/aim: Glanzmann thrombasthenia (GT) is a rare autosomal recessively inherited bleeding disorder characterized by the quantitative (type 1 and type 2) or qualitative (type 3) deficiency in platelet membrane glycoprotein (GP) IIb/IIIa (CD41a/CD61) fibrinogen receptors. In type 1, 2, and 3, CD41a/CD61 expression is 5%, 5%­20% and above 20%, respectively. In this study, diagnosis of GT was confirmed and subgroups were identified in 32 Turkish patients by flow cytometry analysis. Materials and methods: CD41a/CD61 expression levels in platelet-rich plasma (PRP) obtained from peripheral venous EDTA blood samples were analyzed with a BD FACSCanto II flow cytometer (Becton Dickinson, Franklin Lakes, NJ, USA). GT subgroup analysis was performed by counting 50,000 events in the BD FACSDiva Software v6.1.3 program of the instrument. Results: In the present study, in blood samples of 32 patients from 23 families with GT and 22 healthy controls, co-expression levels of CD41a and CD61 in PRP was analyzed. 12 out of 23 families were consistent with type 1 GT (52.2%), 4 were consistent with type 2 GT (17.4%), and 7 were consistent with type 3 GT (30.4%). Conclusion: Especially due to consanguineous marriages, GT with various glycoprotein levels may be detected. As a result of the flow cytometry analysis of the present study with the highest GT patient population in Turkey, type 1 GT patients were the most common subgroup. In the determination of the GT subgroups; especially in the detection of type 3 GT, flow cytometry is the most sensitive glycoprotein analysis method. In addition to light transmission aggregometry, CD41a/CD61 study by flow cytometer confirms diagnosis when mutation analysis cannot be performed.

Mutations in RASGRP2 gene identified in patients misdiagnosed as Glanzmann thrombasthenia patients.

INTRODUCTION: Glanzmann thrombasthenia (GT) is a severe inherited platelet function disorder (IPFD), presenting with bleeding diathesis and impaired platelet aggregation, is caused by mutations in the genes ITGA2B or ITGB3. AIM: We aimed to study the genetic cause of IPFD mimicking GT. METHODS: During 2017-2019, 16 patients were referred to our tertiary center with bleeding symptoms, impaired platelet aggregation and normal platelet count and size. RESULTS: Using flow cytometry, 13/16 patients were diagnosed with GT, yet three patients displayed normal surface expression of the integrins αIIbß3 and αvß3, as well as normal integrin αIIbß3 activation following incubation with the activating monoclonal antibody anti-LIBS6, while platelet activation following ADP or epinephrine was impaired. Whole exome sequencing detected 2 variants in RASGRP2 gene in all 3 patients. DISCUSSION: Both RASGRP2 mutations predicted frameshift, premature stop codon (p. I427Mfs*92 and p. R494Afs*54, respectively) and truncated calcium-sensing guanine nucleotide exchange factor [CalDAG-GEFI]- the major signaling molecule that regulates integrin-mediated aggregation and granule secretion, causing IPFD-18. CONCLUSION: Patients who suffer from bleeding diathesis without immune dysregulation, may be mistakenly diagnosed as GT. Further studies are required to confirm the diagnosis of specific IPFD.

Immunization against αIIb ß3 and αv ß3 in Glanzmann thrombasthenia patients carrying the French Gypsy mutation.

Essentials The c.1544+1G>A mutation was identified in Gypsy Glanzmann thrombasthenia (GT) patients. Gypsy GT patients express normal αv ß3 carrying HPA-1b epitopes. To demonstrate HPA-1a alloimmunization by modified antigen capture assays. Gypsy GT patients could develop anti-HPA-1a alloantibodies against ß3 and αv ß3 . ABSTRACT: Background Glanzmann thrombasthenia (GT) is a rare bleeding disorder caused by the absence or the dysfunction of the platelet αIIb ß3 integrin. A founder mutation in the ITGA2B gene was previously identified in French Gypsy patients. Interestingly, this mutation was strongly linked to the human platelet antigen-1b (HPA-1b). The HPA-1bb Gypsy patients are at risk of isoimmunization against αIIb ß3 , as this complex is not expressed at their platelet surface. Tentatively, they would, however, not have an increased risk of developing anti-HPA-1a alloantibodies by exposure of αIIb ß3 on platelets from random platelet transfusions. However, the ß3 chain can also associate with the αv subunit expressed at the platelet surface. Because Gypsy GT patients express normal αv ß3 carrying HPA-1b epitopes, these patients might develop anti-HPA-1a alloantibodies reacting with αv ß3 and/or ß3 . Objectives/Patients/Methods To demonstrate this hypothesis, sera from HPA-1bb (n = 5) and HPA-1ab (n = 1) Gypsy GT patients were investigated by modified antigen capture assay using platelets or stable transfected cells. Furthermore, stable transfected cells expressing either αIIb ß3 or αv ß3 together with soluble monomeric chimeric ß3 (as absorbent) were used to differentiate anti-ß3 and anti-αv ß3 reactivity. Results Only HPA-1bb patients developed alloantibodies reacting with HPA-1a cells. Further analysis showed that HPA-1bb patients developed anti-HPA-1a alloantibodies reacting with ß3 and/or αv ß3 . Conclusion In this study, we found that HPA-1bb patients who failed to express αIIb ß3 on the platelet surface can develop alloantibodies against HPA-1a reacting with ß3 as well as αv ß3 . This is of particular importance as anti-HPA-1a alloantibodies might cause fetal neonatal alloimmune thrombocytopenia and/or platelet transfusion refractoriness.