Cancer in buccal mucosa in patients with Fanconi anemia: Report of six cases.

INTRODUCTION: Fanconi anemia (FA) is a recessive hereditary disease characterized by bone marrow failure, and the treatment is hematopoietic stem cell transplantation (HSCT). Patients diagnosed with FA are more predisposed to develop oral squamous cell carcinoma (SCC), and this risk increases in transplant patients. The clinical characteristics of the oral manifestations of SCC in this group of patients do not differ from the lesions present in patients without the disease; however, they can be diagnosed in young patients and less common locations, such as, for example, in the buccal mucosa. OBJECTIVE: To report a case series of patients diagnosed with FA with oral SCC. METHOD: Included in this case series are six patients diagnosed with SCC in the buccal mucosa with similar clinical characteristics. FINAL CONSIDERATIONS: There are still difficulties in establishing the natural history of oral lesions in patients with FA. Thus, disclosing a series of cases with similar changes may be relevant to improving and refining the multidisciplinary team's clinical view of suspected SCC or oral potentially malignant disorders (OPMD), providing surveillance and timely management.

Management of Fanconi anemia beyond childhood.

Fanconi anemia (FA) has long been considered a severe inherited bone marrow failure (BMF) disorder of early childhood. Thus, management of this multisystem disorder has previously been unfamiliar to many hematologists specializing in the care of adolescents and young adults (AYA). The increased diagnosis of FA in AYA patients, facilitated by widely available germline genomic testing, improved long-term survival of children with FA following matched sibling and alternative donor hematopoietic stem cell transplantation (HSCT) performed for BMF, and expanding need in the near future for long-term monitoring in patients achieving hematologic stabilization following ex vivo gene therapy are all reasons why management of FA in AYA populations deserves specific consideration. In this review, we address the unique challenges and evidence-based practice recommendations for the management of AYA patients with FA. Specific topics addressed include hematologic monitoring in AYA patients yet to undergo HSCT, management of myeloid malignancies occurring in FA, diagnosis and management of nonhematologic malignances and organ dysfunction in AYA patients with FA, and evolving considerations for the long-term monitoring of patients with FA undergoing gene therapy.

Identification of a robust DNA methylation signature for Fanconi anemia.

Fanconi anemia (FA) is a clinically variable and genetically heterogeneous cancer-predisposing disorder representing the most common bone marrow failure syndrome. It is caused by inactivating predominantly biallelic mutations involving >20 genes encoding proteins with roles in the FA/BRCA DNA repair pathway. Molecular diagnosis of FA is challenging due to the wide spectrum of the contributing gene mutations and structural rearrangements. The assessment of chromosomal fragility after exposure to DNA cross-linking agents is generally required to definitively confirm diagnosis. We assessed peripheral blood genome-wide DNA methylation (DNAm) profiles in 25 subjects with molecularly confirmed clinical diagnosis of FA (FANCA complementation group) using Illumina's Infinium EPIC array. We identified 82 differentially methylated CpG sites that allow to distinguish subjects with FA from healthy individuals and subjects with other genetic disorders, defining an FA-specific DNAm signature. The episignature was validated using a second cohort of subjects with FA involving different complementation groups, documenting broader genetic sensitivity and demonstrating its specificity using the EpiSign Knowledge Database. The episignature properly classified DNA samples obtained from bone marrow aspirates, demonstrating robustness. Using the selected probes, we trained a machine-learning model able to classify EPIC DNAm profiles in molecularly unsolved cases. Finally, we show that the generated episignature includes CpG sites that do not undergo functional selective pressure, allowing diagnosis of FA in individuals with reverted phenotype due to gene conversion. These findings provide a tool to accelerate diagnostic testing in FA and broaden the clinical utility of DNAm profiling in the diagnostic setting.

Graft-versus-host disease and other cutaneous manifestations in pediatric patients transplanted for Fanconi anemia.

OBJECTIVE: The aim of this study was to elaborate a specific protocol for the assessment and early identification of skin lesions in pediatric patients with Fanconi anemia undergoing hematopoietic stem cell transplantation. METHODS: This is a longitudinal, retrospective, and descriptive study. The medical records of 136 pediatric patients with Fanconi anemia who underwent hematopoietic stem cell transplantation between 2008 and 2018 at the Clinical Hospital of the Federal University of Paraná were reviewed. A specific protocol was created for data collection, which included age, sex, skin color, age at diagnosis of Fanconi anemia, transplantation data, family history of consanguinity, and pre- and post-transplant complications. In addition, the data included the presence of graft-versus-host disease of the skin and other organs, its classification, type of lesion, location, and also skin lesions not related to graft-versus-host disease. RESULTS: Among the skin manifestations in pre-transplant period, café-au-lait spots stood out (32.4%). At least one organ was affected by graft-versus-host disease in 55.1% of patients; the most common involvement being the mouth, followed by the skin. Rash and erythema were the most frequently observed cutaneous manifestations of graft-versus-host disease. CONCLUSION: A high prevalence of cutaneous manifestations of the disease was observed, as well as cutaneous manifestations of graft-versus-host disease. The protocol developed gathers relevant and standardized information for the follow-up of patients with Fanconi anemia undergoing hematopoietic stem cell transplantation, ensuring greater reliability of the information, and its implementation will allow the prospective evaluation of patients.

The utility of multiple genomic technologies for interpretation of modern next generation sequencing: A novel case of three FANCA gene variants resulting in autosomal recessive Fanconi anaemia.

Fanconi anaemia (FA) is a rare autosomal recessive condition resulting in changes in the FANC gene family. This report describes a case of Fanconi anaemia in a family with complex biallelic variants. The patient is a 32-year-old female diagnosed with FA on cascade testing during childhood with chromosome breakage studies. On examination she had a fixed deformity of the right thumb and the proximal interphalangeal joint was immobile. Her brother shared this radial abnormality and had FA, requiring a bone marrow transplant. She presented in adulthood seeking further BRCA advice and had next generation sequencing that showed three variants in the FANCA gene. One allele a known pathogenic change, the other had two sequence variants in tandem that have been reported as variants of uncertain significance. There is one other unrelated case of these two variants occurring together in cis, resulting in Fanconi anaemia. This case is an interesting example of three variants in the FANCA gene, one allele with a pathogenic deletion and the other with a single complex allele made up of two missense variants of uncertain significance, likely manifesting with FA. It highlights the utility of different genetic technologies in the interpretation of next generation sequencing.

An acquired BMF with FANCL gene heterozygous mutation: Case report.

RATIONALE: Bone marrow failure (BMF) includes inherited and acquired BMFs. Acquired BMF can be secondary to various factors, such as autoimmune dysfunction, benzene, drugs, radiation, viral infection and so on. Fanconi anemia (FA) complementation group L (FANCL) is an E3 ubiquitin ligase that participates in the repair of DNA damage. Homozygous or compound heterozygous mutations of FANCL can lead to the onset of FA, which is one of the most common inherited BMFs. PATIENT CONCERNS AND DIAGNOSES: Here, we report a case of acquired BMF. This patient had a history of benzene exposure for half a year before the onset of the disease, and presented with progressive pancytopenia, especially the reduction of erythrocytes and megakaryocyte, without malformation. Interestingly, this patient and his brother/father had a heterozygous (non-homozygous/compound heterozygous) mutation (Exon9, c.745C > T, p.H249Y) in the FANCL gene. INTERVENTIONS AND OUTCOMES: The patient successfully underwent unrelated and fully compatible umbilical cord blood hematopoietic stem cell transplantation. LESSONS SUBSECTIONS: We report for the first time an acquired BMF case with FANCL gene heterozygous mutation, and the mutation site (Exon9, c.745C > T, p.H249Y) has never been reported. This case suggests that heterozygous mutations in FANCL gene may be associated with increased susceptibility to acquired BMF. Based on current reports and this case, we speculate that heterozygous mutations in the FA complementation gene may exist in a certain proportion of tumor and acquired BMF patients, but have not been detected. We recommend routine screening for FA complementation gene mutations in tumor and acquired BMF patients in clinical practice. If positive results are found, further screening can be conducted on their families.

Beyond current treatment of Fanconi Anemia: What do advances in cell and gene-based approaches offer?

Fanconi anemia (FA) is a rare inherited disorder that mainly affects the bone marrow. This condition causes decreased production of all types of blood cells. FA is caused by a defective repair of DNA interstrand crosslinks and to date, mutations in over 20 genes have been linked to the disease. Advances in science and molecular biology have provided new insight between FA gene mutations and the severity of clinical manifestations. Here, we will highlight the current and promising therapeutic options for this rare disease. The current standard treatment for FA patients is hematopoietic stem cell transplantation, a treatment associated to exposure to radiation or chemotherapy, immunological complications, plus opportunistic infections from prolonged immune incompetence or increased risk of morbidity. New arising treatments include gene addition therapy, genome editing using CRISPR-Cas9 nuclease, and hematopoietic stem cell generation from induced pluripotent stem cells. Finally, we will also discuss the revolutionary developments in mRNA therapeutics as an opportunity for this disease.

[Chinese expert consensus on the diagnosis and treatment of Fanconi anemia (version 2022)].

Fanconi anemia (FA) is an autosomal recessive or X-linked hereditary bone marrow failure disease, in which mutations or deletions of FA-related genes lead to abnormalities in DNA repairment after damage and DNA cross-linking repair. The most common mutation genes include FANCA, FANCC, FANCG, FANCE and FANCF. FA is a disorder with high phenotypic and genotypic heterogeneity and mainly manifests as congenital somatic dysplasia, progressive cytopenia and increased risk of malignant tumors. In recent years, the survival of FA patients has greatly improved with the progress of FA management strategy and treatment. In order to better guide the clinical practice of doctors in China, the Red Blood Cell Disease (Anemia) Group of Chinese Society of Hematology of the Chinese Medical Association reached the"Chinese expert consensus on the diagnosis and treatment of Fanconi anemia (version 2022)"by widely collecting experts' suggestions and referring to the latest literature of FA, aiming to further standardize the diagnosis and treatment of FA in China.

Phenotypes of adults with Fanconi anaemia.

The long-term outcomes of adults with Fanconi anaemia (FA) have improved with advances in haematopoietic stem cell transplantation (HSCT) and more detailed follow-up and screening guidelines. The phenotype of those who survive to adulthood may differ from the typical presentation of FA. We collected retrospective clinical data on adults with FA who received their care at the Cincinnati Children's Hospital Medical Center. In our final cohort of 52 patients, there were 29 females and 23 males, with median (range) age of 21 (18-37) years. Overall, 42 patients (81%) were alive at last follow-up. In all, 36 adults (69%) had undergone HSCT, including eight who had developed myelodysplasia or acute myeloid leukaemia. Eight (15%) developed squamous cell carcinoma. Endocrine complications were common, including hypothyroidism (42%), diabetes (10%), low body mass index (31%) and low bone mineral density (51%). The majority of adults with FA were employed (52%) or full-time students (13%). A significant subset of patients with FA are surviving into adulthood without requiring HSCT. Endocrine abnormalities and the development of solid tumours complicate adulthood. With improved survival outcomes following HSCT and more aggressive malignancy screening protocols, ongoing longitudinal analysis will be important to further characterise this cohort and the phenotype of untransplanted adults with FA.

Inherited bone marrow failure syndromes: a review of current practices and potential future research directions.

PURPOSE OF REVIEW: Recent advances in diagnosis and treatment of inherited bone marrow failure syndromes (IBMFS) have significantly improved disease understanding and patient outcomes. Still, IBMFS present clinical challenges that require further progress. This review aims to provide an overview of the current state of diagnosis and treatment modalities of the major IBMFS seen in paediatrics and present areas of prioritization for future research. RECENT FINDINGS: Haematopoietic cell transplantation (HCT) for IBMFS has greatly improved in recent years, shifting the research and clinical focus towards cancer predispositions and adverse effects of treatment. Each year, additional novel genes and pathogenic variants are described, and genotype-phenotype mapping becomes more sophisticated. Moreover, novel therapeutics exploring disease-specific mechanisms show promise to complement HCT and treat patients who cannot undergo current treatment options. SUMMARY: Research on IBMFS should have short-term and long-term goals. Immediate challenges include solidifying diagnostic and treatment guidelines, cancer detection and treatment, and continued optimization of HCT. Long-term goals should emphasize genotype-phenotype mapping, genetic screening tools and gene-targeted therapy.

Phenotypic and genotypic correlation evaluation of 148 pediatric patients with Fanconi anemia in a Chinese rare disease cohort.

BACKGROUND: Fanconi anemia (FA) is a rare autosomal recessive, X-linked or autosomal dominant disease. Few large-scale FA investigations of rare disease cohorts have been conducted in China. METHODS: We enrolled 148 patients diagnosed with FA according to evidence from the clinical phenotype, family history, and a set of laboratory tests. Next, the clinical manifestations and correlation between the genotype and phenotype of FA pediatric cases were investigated. RESULTS: The most common FA subtype in our cohort was FA-A (51.4 %), followed by FA-D2 and FA-P. Finger (26 %) and skin (25 %) deformities were the most common malformations. Based on family history, blood system diseases (51 %) had the highest incidence rate, followed by digestive system tumours. A set of new or prognosis-related mutation sites was identified. For example, c.2941 T > G was a new most common missense mutation site for FANCA. FANCP gene mutation sites were mainly concentrated in exons 12/14/15. The mutations of FANCI/FANCD2 were mainly located at the α helix and ß corners of the protein complex. FA-A/D1 patients with splicing or deletion mutations showed more severe disease than those with missense mutations. Chromosome 1/3/7/8 abnormalities were closely linked to the progression of FA to leukemia. CONCLUSION: Our study investigated the clinical features and genotype/phenotype correlation of 148 Chinese pediatric FA patients, providing new insight into FA.

Fanconi anemia caused by biallelic inactivation of BRCA2 can present with an atypical cancer phenotype in adulthood.

Inherited biallelic pathogenic variants (PVs) in BRCA2 cause Fanconi Anemia complementation group D1 (FA-D1), a severe pediatric bone marrow failure and high-risk cancer syndrome. We identified biallelic BRCA2 PVs in a young adult with multiple basal cell carcinomas, adult-onset colorectal cancer and small cell neuroendocrine carcinoma, without bone marrow failure. No PVs were identified in any other known cancer susceptibility gene, and there was no evidence of reversion mosaicism. The proband's deceased sister had a classic FA-D1 presentation and was shown to carry the same biallelic BRCA2 PVs. A lymphoblastoid cell line derived from the proband demonstrated hypersensitivity to DNA damaging agents, and bone marrow showed aberrant RAD51 staining. Family expansion demonstrated the presence of BRCA2 related cancers in heterozygous family members. Our data highlight the striking phenotypic differences which can be observed within FA-D1 families and expands the clinical spectrum of FA-D1 to include adult presentation with a constellation of solid tumors not previously thought of as characteristic of Fanconi Anemia. Early recognition of this syndrome in a family could prevent further morbidity and mortality by implementation of hereditary breast and ovarian cancer screening and treatment strategies for heterozygous family members.

Modern management of Fanconi anemia.

In this review, we present a clinical case report and discussion to outline the importance of long-term specific Fanconi anemia (FA) monitoring, and we discuss the main aspects of the general management of patients with FA and clinical complications. While several nontransplant treatments are currently under evaluation, hematopoietic stem cell transplantation (HSCT) remains the only therapeutic option for bone marrow failure (BMF). Although HSCT outcomes in patients with FA have remarkably improved over the past 20 years, in addition to the mortality intrinsic to the procedure, HSCT increases the risk and accelerates the appearance of late malignancies. HSCT offers the best outcome when performed in optimal conditions (moderate cytopenia shifting to severe, prior to transfusion dependence and before clonal evolution or myelodysplasia/acute myeloid leukemia); hence, an accurate surveillance program is vital. Haploidentical HSCT offers very good outcomes, although long-term effects on malignancies have not been fully explored. A monitoring plan is also important to identify cancers, particularly head and neck carcinomas, in very early phases. Gene therapy is still experimental and offers the most encouraging results when performed in early phases of BMF by infusing high numbers of corrected cells without genotoxic effects. Patients with FA need comprehensive monitoring and care plans, coordinated by centers with expertise in FA management, that start at diagnosis and continue throughout life. Such long-term follow-up is essential to detect complications related to the disease or treatment in this setting.

Cytogenetics in Fanconi Anemia: The Importance of Follow-Up and the Search for New Biomarkers of Genomic Instability.

Fanconi Anemia (FA) is a disease characterized by genomic instability, increased sensitivity to DNA cross-linking agents, and the presence of clonal chromosomal abnormalities. This genomic instability can compromise the bone marrow (BM) and confer a high cancer risk to the patients, particularly in the development of Myelodysplastic Syndrome (MDS) and Acute Myeloid Leukemia (AML). The diagnosis of FA patients is complex and cannot be based only on clinical features at presentation. The gold standard diagnostic assay for these patients is cytogenetic analysis, revealing chromosomal breaks induced by DNA cross-linking agents. Clonal chromosome abnormalities, such as the ones involving chromosomes 1q, 3q, and 7, are also common features in FA patients and are associated with progressive BM failure and/or a pre-leukemia condition. In this review, we discuss the cytogenetic methods and their application in diagnosis, stratification of the patients into distinct prognostic groups, and the clinical follow-up of FA patients. These methods have been invaluable for the understanding of FA pathogenesis and identifying novel disease biomarkers. Additional evidence is required to determine the association of these biomarkers with prognosis and cancer risk, and their potential as druggable targets for FA therapy.

Somatic mosaicism in patients with Fanconi anaemia: Proposal of alternative tissue for inconclusive diagnoses.

INTRODUCTION: Fanconi anaemia (FA) is a rare genetic disorder marked by progressive bone marrow failure, chromosomal fragility, and increased cancer susceptibility. Laboratory diagnosis includes chromosomal instability test and mutation investigation. A total of 15%-25% of all patients may have somatic mosaicism, characterized by two distinct haematopoietic cell populations, one resistant and one sensitive to agents that induce chromosomal breakage, which complicates the diagnosis by a high incidence of reverted cells leading to inconclusive or false-negative results. The study aimed to evaluate the use of bone marrow stromal mesenchymal cells (BM-MSCs) as an alternative, non-haematopoietic tissue for diagnosis. METHODS: Bone marrow mesenchymal stromal cells from 12 patients with positive diepoxybutane (DEB) tests were cultivated and analysed by cytogenetics and mutation investigation. RESULTS: The DEB test was performed at 0.1 and 0.01 µg/ml concentrations, with an index ranging from 0.24 to 1.00. At higher concentration, the metaphases number was lower, probably due to toxicity. Regarding the molecular investigation, all the mutations previously found in peripheral blood were identified on BM-MSC. CONCLUSION: This study demonstrated the possibility of using BM-MSCs as an alternative tissue for cytogenetic and molecular investigation. Future tests using an intermediate DEB concentration may lead to an optimal protocol that could be non-toxic to cells but provides conclusive results.

The incidence and spectrum of congenital hand differences in patients with Fanconi anaemia: analysis of 48 patients.

We analysed the spectrum of congenital hand differences in a cohort of patients with Fanconi anaemia (FA). Data of 48 FA patients at the National Cancer Institute were reviewed focusing on age at diagnosis, type and severity of limb difference and any potential association with other known clinical anomalies that are part of the FA phenotype, specifically VACTERL-H and PHENOS. Twenty-eight patients had an upper limb difference, which always included thumb hypoplasia. Twenty-three patients had bilateral upper limb differences, including varying combinations and severities of thumb hypoplasia, radial dysplasia and thumb duplication. Patients with a limb difference were diagnosed at a younger age (<2 years: 15/28 with limb anomaly versus 4/20 without a limb anomaly). However, 7/28 with limb anomalies, usually thumb hypoplasia, were not diagnosed until after 6 years of age. This study demonstrates the broad spectrum of radial ray anomalies within the FA phenotype along with the possibility of either unilateral or bilateral upper limb differences and adds further merit to consideration of screening for FA in all cases of radial ray anomaly.Level of evidence: II.

Fanconi anaemia: A syndrome with distinct subgroups.

Fanconi anaemia (FA) is an inherited bone marrow failure syndrome (IBMFS) with a high cancer predisposition rate. Traditional diagnoses are made before age 10 years due to bone marrow failure (BMF) and characteristic birth defects. Up to 10% of published cases were adults at diagnosis. We hypothesized that FA subgroups diagnosed in childhood are distinct from those diagnosed as adults. We classified patients by age at diagnosis of FA as FA-PED (<18 years) or FA-ADULT (≥18 years). The National Cancer Institute IBMFS cohort included 178 FA-PED and 26 FA-ADULT cases. We compared various features; the cumulative incidences of first adverse events (severe BMF leading to haematopoietic cell transplant or death, leukaemia, or solid tumours) were compared using competing-risk analyses. FA-ADULT lacked the 'typical' FA features (birth defects and early-onset BMF or leukaemia), were mainly female, had more patients with FANCA genotype, and had or developed more head and neck squamous-cell carcinoma (HNSCC) and/or gynaecological cancers compared with FA-PED, albeit at similar ages in both subgroups. FA-ADULT is a distinct subgroup that remained unrecognized during childhood. Centres for adult haematology-oncology should consider FA diagnosis in patients with early-onset HNSCC or gynaecological cancer with or without haematologic problems.

Etiologies of hearing loss in Fanconi Anemia.

OBJECTIVES: We aim to describe types of hearing loss associated with Fanconi anemia patients who underwent a bone marrow transplant (BMT) to identify possible etiologies of hearing loss. Additionally, we hope to investigate hearing loss early in life as a potential predictor of needing a BMT surgery. Fanconi anemia is a rare autosomal recessive disease that is the most common inherited bone marrow failure syndrome, characterized by bone marrow failure and multiple congenital anomalies, including hearing loss. This is the largest study to date reviewing types of hearing loss in patients with Fanconi anemia, specifically in those who have undergone BMTs. METHODS: A retrospective chart review of patients diagnosed with Fanconi anemia at a single institution, tertiary, referral-based children's hospital with a bone marrow transplant team specializing in Fanconi anemia was conducted from 4/19/1976 to 10/19/2015. History, physical examination, audiometry, and imaging findings were reviewed in patients with and without history of bone marrow transplant. Patient hearing levels, as measured by pure tone audiometry at 500 Hz, 1, 2, and 4 kHz, were evaluated. Patients were grouped by transplant status and results and were assessed to determine type and degree of hearing loss. Statistical analysis was performed to compare the likelihood of bone marrow transplant procedures in Fanconi anemia patients with normal and abnormal hearing. RESULTS: There were 252 patients with Fanconi anemia identified via diagnosis search in institutional electronic medical records using CPT codes and cross referencing with the Fanconi Anemia database, 58 of whom had available audiometric data. Of the 58 Fanconi anemia patients with available audiograms, 21 (36%) had abnormal audiograms; 37 patients had normal audiograms. Twenty out of 21 (95%) patients who had abnormal audiograms had undergone bone marrow transplants. Thirty-one of 37 (84%) patients with normal audiograms had received bone marrow transplants. Statistical analysis showed that patients with hearing loss were more likely to require a BMT in the future (OR = 3.87, p = 0.05). Of the patients with abnormal audiograms and a bone marrow transplant (n = 20), 14 (70%) had conductive hearing loss, 5 (25%) had mixed hearing loss, and 1 patient (5%) had sensorineural hearing loss. 13 of 20 patients (65%) had bilateral hearing loss and eight of 20 (40%) had unilateral hearing loss. Of those patients with conductive hearing loss (n = 15), the most common etiologies were Eustachian tube dysfunction (47%), external auditory canal stenosis (33%), and abnormal middle ear anatomy (13%). CONCLUSIONS: Hearing loss is a common finding in Fanconi anemia patients who have undergone BMTs with conductive hearing loss being the most common audiologic manifestation in our cohort of patients. This demonstrates the necessity of frequent hearing screenings in this population and close collaboration with audiology throughout patient care. Our study indicates that hearing status early in life may be a predictor of needing a bone marrow transplant in the future. Further studies should explore the long-term impact of BMT surgery on hearing status.