Search Results (257)

(1) Background: Wound healing is a highly coordinated process encompassing hemostasis, inflammation, angiogenesis, keratinocyte migration, collagen deposition, and extracellular matrix remodeling. Successful repair also requires adequate nutrient and oxygen delivery through a well-developed vascular supply. Disruption of these processes can occur through aberrations in diverse biological pathways, including extracellular matrix organization, cellular adhesions, angiogenesis, and immune regulation. (2) Methods: We reviewed mechanisms of impaired tissue repair in monogenic disorders by focusing on three categories—connective tissue, hematological/immunological, and aging-related disorders—to illustrate how single-gene defects disrupt inflammation, cellular proliferation, and matrix remodeling. Additionally, we reviewed various polygenic disorders—chronic kidney disease, diabetes mellitus, hypertension, and obesity—to contrast complex multifactorial pathologies with single-gene defects. (3) Results: This review establishes that genetic impediments, despite their distinct etiologies, monogenic and polygenic disorders share critical downstream failures in the wound healing cascade. While monogenic diseases illustrate direct causal links between specific protein deficits and repair failure, polygenic diseases demonstrate how multifactorial stressors overwhelm the body’s regenerative capacity. (4) Conclusions: This review synthesizes current evidence on both monogenic diseases and polygenic contributions to impaired wound healing. These findings highlight that genetic susceptibility is a decisive factor in the ability to restore tissue homeostasis. This underscores the profound impact of genetic background on the efficacy of hemostasis, inflammation, and remodeling. Full article

Therapeutic antibodies have revolutionized hematology, offering targeted and effective treatments for both malignant and non-malignant diseases. In hematologic malignancies, anti-CD20, anti-CD19, anti-CD38, and anti–B-cell maturation antigen (BCMA) antibodies have markedly improved survival outcomes, whereas antibody–drug conjugates and bispecific antibodies continue to expand therapeutic possibilities. Besides cancer, complement inhibitors such as eculizumab, ravulizumab, and the recently approved crovalimab have redefined paroxysmal nocturnal hemoglobinuria and atypical hemolytic uremic syndrome management, and the bispecific antibody emicizumab has transformed prophylaxis in hemophilia A. Furthermore, novel antibody formats such as the trifunctional anti-CD38 × CD3 antibody (Tri-31C2) exhibit enhanced anti-myeloma activity compared to chimeric CD38 antibodies, underscoring the future potential of T-cell–redirecting designs. This review summarizes key developments in therapeutic antibodies for hematological disorders, their action mechanisms, and emerging strategies to further optimize their efficacy and safety. Full article

The liver is a primary metabolic hub and a pivotal target for gene therapy, owing to its capacity for protein secretion, role in metabolic homeostasis and immune tolerance. Liver-directed gene therapies are used to treat numerous inherited metabolic disorders and coagulation factor deficiencies including hemophilia (A and B), Crigler–Najjar syndrome, mucopolysaccharidoses, phenylketonuria, Fabry, Gaucher, Wilson and Pompe diseases. The efficacy and safety of liver-directed gene therapy rely on the use of strong tissue-specific promoters. To date, there are many different liver-specific promoters used in preclinical and clinical studies, including novel completely synthetic promoters. This review provides a comprehensive analysis of the design, engineering and application of liver-specific promoters. Furthermore, we discuss fundamental principles of gene expression regulation in the liver and the physiological and immunological characteristics that make it a suitable target organ for gene therapy delivery. Full article

The therapeutic clotting factor VIII (FVIII) is known for its particular immunogenicity, with nearly 30% of hemophilic patients developing neutralizing antibodies against the infused protein. The root cause of this immunogenicity is still not well understood, but intrinsic factors, such as FVIII byproducts, have been linked to the immunological response elicited. Bioengineering of the FVIII molecule has been improving its recombinant (rhFVIII) production in many aspects, mainly enhancing its expression and stability. Assessment of immunogenicity for novel recombinant isoforms is crucial for further development and scaling-up processes, particularly due to the unpredictable antigenic properties and their impact on neutralizing antibody formation. In the present study, we describe a bioengineered human recombinant FVIII (rhFVIII-H6A), which induces lower immunogenicity in a murine model of hemophilia A. The rhFVIII-H6A product is characterized by a B-domain-deleted heavy chain (HCh), with the C-terminal of the B-domain fused to the light chain (BΔ-LCh). Compared to plasma-derived FVIII (pdFVIII) and rhFVIII reference products, treating hemophilic mice with rhFVIII-H6A induced lower levels of anti-FVIII antibody formation, including those with inhibitory neutralizing activity, while no difference was observed in the functional activity of rhFVIII-H6A in reverting the in vivo hemophilia phenotype. In addition, our results indicate that deleting the major part of the B-domain from the HCh might lower the immunogenicity of novel rhFVIII products. Full article

Hemophilia B is a hereditary bleeding disorder caused by mutations localized throughout the F9 gene. Existing gene therapy products containing AAV vectors have significant limitations. Replacement therapy with coagulation factor FIX infusions is not an optimal way of treatment, as patients still have periodic bleeding and require frequent transfusions. Moreover, approximately 5% of adult patients with hemophilia B develop inhibitory antibodies to recombinant forms of FIX. Therefore, it is important to develop universal CRISPR/Cas gene therapy approaches for F9 editing using non-viral delivery systems to enable gene reversion to a functional sequence at an early stage of disease development and establishment of the patients’ immune system. In this study, a unique approach of F9 prime-editing was tested for the first time. This method is estimated to edit 7.3% of pathogenic F9 mutation types. Specifically, it targets the gene region encoding amino acids 374 V to 408 Q, which accounts for approximately 9.35% of patients with hemophilia B. An advantage of this gene therapy approach is the absence of the need to change Primer Binding Site (PBS) or Reverse Transcriptase Template (RTT) sequences until going from preclinical to clinical trials, as well as the introduction of gain of function mutations in order to compensate for the low prime-editing frequencies and enhance the effect of treatment in vivo. Full article

Hemophilia A (HA) is an X-linked recessive bleeding disorder that predominantly affects males but rarely manifests clinically in females. We report an unusual case of a woman with HA carrying a de novo heterozygous F8 variant, skewed X chromosome inactivation (XCI), and mosaic monosomy X without the Turner syndrome phenotype. DNA was extracted from whole blood. After excluding F8 inversions and large rearrangements, Sanger sequencing of coding regions was performed. XCI was assessed by STR analysis of the AR gene. Haplotypes were identified by fragment analysis of three polymorphic sites. Karyotyping was performed using G-banding. A heterozygous missense variant in the F8 gene, c.6545G>A (p.Arg2182His), was detected with allelic imbalance. STR analysis confirmed ~93% skewed XCI. Karyotyping revealed mosaicism: 45,X [7]/46,XX [14]. Neither parent carried the c.6545G>A variant or karyotype aberrations. We suggest that 46,XX cells carried c.6545G/A with preferential inactivation of the normal X chromosome, whereas 45,X0 cells carried the mutant allele only. The limited proportion of active normal X chromosomes led to a mild rather than severe phenotype. This case highlights complex genetic mechanisms underlying HA in females and underscores the importance of comprehensive molecular and cytogenetic testing for accurate diagnosis, clinical management, and genetic counseling. Full article

Background: Hemophilia A and B are hereditary bleeding disorders that result in recurrent joint and muscle hemorrhages, leading to hemophilic arthropathy, muscle atrophy, and disability. Recent evidence suggests that physiotherapeutic interventions, including resistance training and manual therapy, may mitigate these effects, although comprehensive studies remain limited. This case series aimed to describe the outcomes of an eight-week physiotherapy program combining progressive resistance training and manual therapy in four adolescent boys (aged 11–17 years) with severe hemophilia. Methods: The program targeted joint function, muscle strength, ultrasound findings, and pain, with additional exploratory evaluation of neuroinflammatory and endothelial biomarkers: interleukin-18 (IL-18), C-C motif chemokine ligand 2 (CCL2), soluble intercellular adhesion molecule-1 (ssICAM-1), β-nerve growth factor (β-NGF), and soluble receptor for advanced glycation end-products (sRAGE). Results: After the intervention, Hemophilia Joint Health Score (HJHS) total scores decreased by 35–62%, indicating functional improvement, while muscle strength increased across most joints. No progression of arthropathy was observed on ultrasound (HEAD-US). IL-18 and ssICAM-1 levels decreased on average by 42% and 29%, respectively, whereas β-NGF and sRAGE increased by 39% and 11%, suggesting potential anti-inflammatory and neuroprotective responses. Conclusions: These descriptive findings indicate that individualized physiotherapy may serve as a supportive component of hemophilia care, while biomarker monitoring provides exploratory insight into treatment-related physiological responses. Full article

Background: Total knee arthroplasty (TKA) is the gold standard for advanced hemophilic arthropathy. However, surgical management in hemophilic patients is complex due to joint deformities, bleeding risk, and systemic comorbidities. This study aimed to compare the surgical outcomes and cost-effectiveness of TKA in hemophilic versus non-hemophilic patients. Methods: This prospective study included 50 patients treated between 2010 and 2024 at Elias University Hospital, Romania. Group 1 included 20 male patients with severe hemophilia (2 with inhibitors); Group 2 included 30 non-hemophilic male patients. Data collection was standardized and conducted preoperatively, at 6 and 12 months postoperatively, and annually thereafter for up to 14 years following surgery. The mean follow-up duration across the cohort was 7.3 ± 3.9 years (range: 0.5–14 years), allowing for consistent long-term evaluation of clinical and functional outcomes. Study included operative time, transfusion requirements, hospitalization length, perioperative complications, functional outcomes (Knee Society Score—KSS), quality of life (EQ-5D), and cost per quality-adjusted life year (QALY). Results: Hemophilic patients had significantly longer operative times (154.5 vs. 88.7 min; p < 0.001), higher transfusion rates (45% vs. 20%, p < 0.047), and longer hospital stays (mean 12.3 vs. 6.6 days). Perioperative complications occurred in 90% of hemophilic patients (anemia requiring transfusion: 45%; compressive hematomas: 10%; wound dehiscence: 15%) compared to 10% in controls. Non-hemophilic patients achieved superior postoperative functional scores. Mean preoperative KSS was 32.25 ± 11.24 and postoperatively, the mean score increased to 98 ± 1.34. The mean preoperative KSS in the hemophilic group was 31 ± 13.93 and postoperative KSS was 74.5 ± 19.92. The cost per QALY was €2506 in the hemophilic group versus €1258 in controls. The economic assessment was conducted from the hospital perspective, focusing on direct medical costs incurred during hospitalization and the perioperative period. Cost components included factor replacement therapy, surgical and anesthesia costs, hospital stay, laboratory investigations, blood transfusions, and management of postoperative complications. Conclusion: Although TKA improves quality of life and function in hemophilic patients, it is associated with higher complication rates and costs. These findings highlight the need for careful patient selection and informed consent when considering TKA in hemophilic patients. Full article

Chronic hemophilic synovitis (CHS), driven by hemosiderin-laden macrophages from recurrent hemarthrosis, is a major cause of joint damage in hemophilia. Platelet-rich plasma (PRP) is a promising regenerative therapy for joint diseases. This study investigated PRP’s ability to modulate macrophage polarization from a pro-inflammatory (M1) to a pro-resolving, tissue-repairing (M2) phenotype in CHS. We analyzed synovial fluid (SF) from CHS patients (N = 22), both pre- and post-PRP treatment. Ex vivo analysis revealed a predominant M1 profile with an increased proportion of CD11⁺CD14⁺CD64^hi compared with CD206⁺ or CD163⁺ M2 macrophages in CHS SF. In vitro experiments showed that CHS SF skewed monocyte-derived macrophages toward an M1 inflammatory program, evaluated by flow cytometry, qPCR, and ELISA. However, adding PRP significantly modulated the pro-inflammatory macrophage program, promoting an M2 tissue repair profile. Furthermore, a random forest machine learning algorithm, applied to public scRNAseq data, confirmed PRP’s macrophage reprogramming effect. Functional assays also showed increased TGF-β secretion and macrophage fusion when challenged with neutrophil extracellular traps (NETs). A small patient follow-up cohort treated with intra-articular PRP showed similar results, including normalization of cellular content and reduced CD64/CD206 expression. These findings indicate that PRP treatment effectively shifts SF-associated M1 macrophages to an M2-like phenotype, highlighting its potential as a therapeutic strategy for CHS. Full article

Hemophilic pseudotumor (HP) is a rare but severe complication of hemophilia, characterized by progressive bleeding in the muscles, joints, and bone tissue, which can lead to lytic lesions. Its prevalence is approximately 1–2% among patients with hemophilia. This report presents a male patient with mild hemophilia A who developed an intraosseous lesion in the posterior region of the right maxilla, with a prior history of endodontic treatment in the area. Surgical excision was performed and, following clinicopathological correlation, the lesion was diagnosed as HP. Background/Objectives: This review aims to identify previously reported cases of HP located in the maxilla. Methods: The study protocol followed the Preferred Reporting Items for Systematic Review and Meta-Analyses (PRISMA) guidelines. The databases PubMed, Scopus, and ScienceDirect were searched, and Google Scholar was used to identify gray literature. The Joanna Briggs Institute (JBI) tool was employed to assess the risk of bias and the quality of the included reports and case series. Results: A total of 1487 publications were identified using specific keywords. After removing duplicates and non-relevant titles/abstracts, 42 full-text articles were reviewed. Of these, 10 met the inclusion criteria: 7 case reports and 3 case series, comprising 13 cases of HP in the maxilla, including the case presented here. Although rare in the maxillofacial region, when it does occur, it is more commonly seen in the mandible and is often linked to prior trauma. In this case, endodontic treatment may have triggered lesion development. Conclusions: This report highlights that, although uncommon, HP can manifest with involvement of the maxilla, and that specific dental interventions may represent potential triggering events. Full article

Objective: This study aimed to analyze pharmacokinetic and clinical parameters (bleeding rates and joint health) before and after switching from standard half-life (SHL) factor VIII (FVIII) to extended half-life (EHL) PEGylated turoctocog alfa pegol in patients with severe/moderate hemophilia A (HA) on prophylaxis, one year prior to and following the switch in a real-world setting. Methods: A single-center, comparative, observational, sequential, retrospective, multidisciplinary study was designed. The population pharmacokinetic parameters were estimated using the WAPPS-Hemo^® platform. The annualized bleeding rate (including total and joint bleeds), joint health (Hemophilia Joint Health Score), FVIII consumption, administration frequency, and treatment costs were analyzed. Results: Eight patients with severe (n = 7) or moderate (n = 1) HA on prophylaxis were included after switching to turoctocog alfa pegol. With this regimen, the median FVIII half-life was 16.8 (15.2–19.1) hours, the area under the curve (AUC) was 18,182 (12,879–21,214) IU·h/dL, and the incremental recovery was 2.2 IU/dL per (1.6–2.4) IU/kg. The patients required a median of 2.0 infusions per week (2.0–2.0), corresponding to a weekly consumption of 57.8 (54.2–61.1) IU/kg. Clinically, the prophylactic regimen was associated with fewer infusions per week, stable joint health, and a reduction in overall treatment costs. Conclusions: Prophylaxis with turoctocog alfa pegol provided the expected pharmacokinetic profile of an EHL-FVIII concentrate, enabled a lower infusion frequency, and was linked to a decreased treatment burden and cost while maintaining joint health. Full article

Background and Clinical Significance: Acquired hemophilia A (AHA) and acquired von Willebrand syndrome (AVWS) are rare bleeding disorders that do not often present concurrently. Here, we report a coexisting AHA and AVWS case due to underlying autoantibodies to factor VIII (FVIII) and von Willebrand factor (VWF). Case Presentation: A patient with gastrointestinal bleeding and prolonged aPTT was diagnosed with AHA and AVWS. The patient was started on immunosuppression with prednisone, cyclophosphamide, and intravenous immunoglobulin, alongside recombinant porcine FVIII replacement, susoctocog alfa. AVWS reduced the half-life of susoctocog alfa, requiring more frequent dosing and laboratory monitoring until AVWS resolved. The patient had two further relapses; the most recent was treated with Rituximab, following which remission has been maintained. Conclusions: Given the potential therapeutic implications, VWF testing should be considered as part of the diagnostic workup for AHA. Full article

Hemophilia, an X-linked recessive bleeding disorder, results from mutations in the F8 or F9 genes, leading to factor VIII (hemophilia A) or factor IX (hemophilia B) deficiency. While conventional treatment relies on regular factor replacement therapy, gene therapy has emerged as a promising alternative, offering the potential for sustained endogenous factor production after a single administration. This review provides an in-depth analysis of recent advances in gene therapy for both hemophilia A and B, with a focus on AAV-mediated liver-directed approaches and other approved modalities. Key limitations—such as vector immunogenicity, hepatic toxicity, waning transgene expression, and limited re-dosing capacity—are discussed. Additional gene delivery platforms, including lentiviral and retroviral vectors, genome editing techniques (e.g., CRISPR/Cas9), and non-viral systems like transposons and lipid nanoparticles, are also examined. Although gene therapy for hemophilia B demonstrates greater clinical durability, hemophilia A presents unique challenges due to factor VIII’s size, poor expression efficiency, and the need for higher vector doses. Future efforts will focus on overcoming immune barriers, improving delivery technologies, and developing approaches suitable for pediatric patients and individuals with pre-existing immunity. This review provides not only a descriptive overview but also a critical comparison of gene therapy approaches for hemophilia A and B. We emphasize that the durability of response is currently superior in hemophilia B, whereas hemophilia A still faces unique barriers, including declining FVIII expression and higher immunogenicity. By analyzing cross-platform challenges (AAV, lentiviral, CRISPR, and emerging LNPs), we highlight the most promising strategies for overcoming these limitations and provide a forward-looking perspective on the future of gene therapy. Full article

The high prevalence and diversity of liver diseases present a significant problem for modern healthcare. Despite FDA approval of gene therapy drugs to treat hemophilia A and B, available treatment methods for other hereditary liver diseases are mainly limited to the frequently ineffective traditional therapies and surgical intervention. In recent years, significant progress has been made in the treatment of hepatitis C, but hepatitis B is still considered an incurable disease. In this regard, the treatment of hereditary and viral liver diseases using gene or cell therapy remains relevant. This review is focused on the current state of the induced pluripotent stem cells (iPSCs) field in the context of modeling and treatment of hereditary, viral, and some other liver diseases, both ex vivo and in vivo. Here we present a detailed discussion of the possible ways of modeling liver diseases ex vivo using iPSCs (reprogramming of patient somatic cells and genetic engineering (GE) of healthy iPSCs), summarize gene editing (GE) and non-GE approaches for the treatment of liver diseases, and demonstrate that iPSCs and their derivatives are widely used to treat liver diseases in vivo. Taken together, we are presenting a comprehensive analysis of 2D and 3D iPSC-based products in the context of liver diseases, discussing the advantages and disadvantages of this platform, including the comparison with other types of stem cells and animal models. This analysis may help understand not only the potential but also the limitations associated with the use of iPSCs in the context of various types of liver diseases. Full article

Background/Objectives: The approach to physical activity in people with hemophilia (PwH) is still conditioned by many difficulties. Thus, a prospective observational pilot study has been carried out aiming to evaluate how an adequate and controlled training program can slow down the onset or evolution of arthropathy and improve musculoskeletal health and quality of life. Methods: Performed from April 2022 to April 2023, this study involved nine severe hemophilic A and B patients, aged > 18 years old, on regular prophylaxis with replacement products. Participants, without changing the usual prophylaxis schedule and maintaining a trough level of at least 20% FVIII/FIX before training, were involved in physical activity twice a week. Results: After 12 months, no increase in annual bleeding ratio (ABR) was observed, and baseline joint status (as assessable by HEAD US score, HJHS, and NRS) was maintained. Even if not statistically significant, a trend toward improvement in mean HEAD US score (15.55 vs. 13.11) and HJHS (14.4 vs. 11) from baseline was observed. Some of the physical tests performed showed a significant improvement at 6 months and 12 months from baseline (5 Rep Sit to Stand, Sit and Reach, and 6-minute Walking Test), meaning an improvement in leg strength, dorsal flexibility, and aerobic resistance. Conclusions: This is the first pilot study evaluating at 360 degrees the safety and impact of a controlled physical activity in PwH. No participant experienced bleedings or a worsening in joint status, but they experienced an improvement in articular functionality. Without changing the usual prophylaxis, scheduling training sessions according to individual pharmacokinetics turned out to be a safe and a cost-effective approach. Full article