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Defibrotide

Defibrotide, marketed under the brand name Defitelio, is a polydisperse of single-stranded oligodeoxyribonucleotides derived from the controlled of porcine intestinal mucosa DNA, with a mean molecular weight of 13-20 kDa, and is approved by the U.S. (FDA) for the treatment of adult and pediatric patients with severe hepatic veno-occlusive disease (VOD), also known as sinusoidal obstruction syndrome (SOS), following hematopoietic stem-cell transplantation (HSCT) when accompanied by renal or pulmonary dysfunction. This condition, VOD/SOS, is a potentially life-threatening complication of HSCT characterized by of hepatic venules, leading to liver damage, hyperbilirubinemia, , and multi-organ in severe cases, with historical mortality rates exceeding 80% without effective intervention. Defibrotide's involves profibrinolytic, antithrombotic, and anti-ischemic effects, primarily through enhancing the activity of tissue (tPA) and to promote , increasing levels of prostaglandins I2 and E2, reducing (PAI-1) activity, and protecting endothelial cells from injury via agonism (A1, A2A, A2B) and anti-inflammatory modulation. Originally developed in the 1980s in Italy for vascular disorders, defibrotide received FDA approval on March 30, 2016, based on data from two prospective clinical trials and an expanded-access study involving over 500 patients, which showed day +100 post-HSCT survival rates of 38% to 45%, significantly higher than the 21% to 31% observed with historical supportive care alone. It is administered as an intravenous infusion at a dose of 6.25 mg/kg every 6 hours (total 25 mg/kg/day) for a minimum of 21 days or until resolution of VOD/SOS, up to a maximum of 60 days, with common adverse effects including hypotension, gastrointestinal symptoms, and bleeding risks that contraindicate concurrent use with systemic anticoagulants or fibrinolytics. Early initiation of therapy, ideally before the onset of multi-organ dysfunction, is associated with improved outcomes, underscoring its role as the only FDA-approved treatment for this orphan indication.

Clinical Applications

Indications

Defibrotide is indicated for the treatment of severe hepatic veno-occlusive disease (VOD), also known as sinusoidal obstruction syndrome (SOS), with concomitant renal or pulmonary dysfunction following (HSCT) in adult and pediatric patients, including infants over one month of age. This approval stems from its demonstrated efficacy in addressing a life-threatening complication primarily associated with regimens used in HSCT. Severe hepatic VOD/SOS occurs in approximately 1-2% of HSCT recipients, though untreated cases with multi-organ dysfunction exhibit mortality rates of up to 80-84% by day 100 post-HSCT. In a pivotal phase 3 trial involving patients with severe VOD/SOS, defibrotide yielded a day +100 post-HSCT survival rate of 38.2%, compared to 25% in historical controls, highlighting its role in improving outcomes in this high-risk population. Pooled analyses from earlier studies have reported survival rates of 38-45% with defibrotide versus 21-31% without, underscoring its impact on reducing early mortality. Emerging applications include therapeutic use in non-HSCT contexts such as chemotherapy-induced liver injury. Although explored in trials, prophylactic administration in high-risk HSCT patients does not prevent VOD/SOS onset and may increase adverse outcomes, as seen in pediatric prevention trials from 2025. Real-world studies from 2025, including multicenter reviews of adult and pediatric cohorts, confirm day +100 survival rates of approximately 34-41% overall in defibrotide-treated severe VOD/SOS cases post-HSCT, with higher rates (up to 62%) in early-treated or less progressed cases and improved outcomes when initiated within 2 days of diagnosis (36% vs. 17.4%), with no fatal adverse events directly attributable to the drug in appropriately managed patients.

Administration and Dosage

Defibrotide is administered exclusively via intravenous infusion after dilution in either 0.9% injection or 5% dextrose injection to achieve a concentration of 4 to 20 mg/mL. The diluted solution should be used within 4 hours at or refrigerated for up to 24 hours, and it is infused over 2 hours using a 0.2-micron in-line , with the line flushed with compatible before and after to avoid interactions with other intravenous drugs. The standard dosage for both adults and pediatric patients is 25 mg/kg/day, divided into four equal doses of 6.25 mg/kg administered every 6 hours. duration is a minimum of 21 days, even if symptoms of hepatic veno-occlusive disease (VOD) or sinusoidal obstruction syndrome (SOS) resolve earlier, and may continue up to 60 days if there is no complete response after the initial 21 days, or until clinical resolution is achieved. Dose adjustments are recommended in cases of adverse events; for instance, the should be temporarily withheld for invasive procedures, resuming once the bleeding risk has resolved, and dose reductions (such as to 20 mg/kg/day or 10 mg/kg/day) or holds may be implemented for or based on clinical judgment, with permanent discontinuation if bleeding is severe or recurrent. Patients should be hemodynamically stable (requiring no more than one vasopressor) and free of active prior to initiation. During treatment, patients undergo daily monitoring for clinical response to VOD/SOS, including assessments of bilirubin levels, body weight, and organ function, alongside vigilance for signs of or . The dosing regimen is the same for pediatric patients as for adults, with approval for use in those aged 1 month and older.

Safety Profile

Contraindications

Defibrotide is contraindicated in patients with known to the active substance or any of its excipients, as this may lead to severe allergic reactions such as . Concomitant administration with systemic anticoagulant or fibrinolytic therapies, such as , , , or thrombolytics like t-PA, is absolutely contraindicated due to the heightened risk of hemorrhage resulting from defibrotide's enhancement of fibrinolytic activity. As a relative contraindication, defibrotide should not be initiated in patients with active or clinically significant , and treatment must be withheld or discontinued if such occurs and requires transfusion. Similarly, temporary discontinuation is recommended in patients undergoing or invasive procedures associated with a significant risk of major . Concomitant use with other antithrombotic agents, including antiplatelet drugs like acetylsalicylic acid or non-steroidal drugs (NSAIDs), is not recommended owing to the potential for increased risk; close monitoring of parameters is advised if unavoidable. In patients with severe or those unable to tolerate intravenous infusions, defibrotide is not recommended due to the elevated hemorrhage risk and the drug's administration requirements. Regarding pregnancy, defibrotide is not recommended during and in women of childbearing potential not using contraception, as there are no adequate ; have demonstrated a high rate of hemorrhagic and reduced viable fetuses at doses approximating therapeutic levels. For breastfeeding, treatment requires discontinuation of nursing, as it is unknown whether defibrotide or its metabolites are excreted in milk, and a to the cannot be excluded.

Adverse Effects

Defibrotide treatment is associated with a range of adverse effects, primarily related to its impact on and vascular function, observed in clinical trials and real-world use. In the pivotal phase 3 trial involving 102 patients with severe hepatic veno-occlusive disease/sinusoidal obstruction syndrome (VOD/SOS), treatment-related adverse events occurred in 45% of patients. The most common adverse reactions (incidence ≥10%, independent of causality) included (37%), (24%), (18%), (16%), and epistaxis (14%), based on pooled data from 177 patients across studies. Hemorrhagic events are a significant concern with defibrotide, occurring in 59% of patients overall, with grade 4-5 severity in 20%. Specific manifestations include pulmonary alveolar hemorrhage (12% in the phase 3 trial, 9% overall with 7% grade 4-5), (10%, with 3% grade 4-5), and (rare but serious, 2-3% with all cases grade 4-5). Serious risks also encompass reactions such as , urticaria, and (incidence <2%), as well as infusion-related reactions manifesting as flushing or . Management of adverse effects involves prompt intervention to mitigate severity. For or active , dose interruption or discontinuation is recommended, alongside supportive measures like fluid resuscitation or blood product transfusion. Gastrointestinal symptoms such as , , and are typically managed with supportive care, including antiemetics and agents. In real-world studies as of 2025, no fatal drug-related events have been reported, with all hemorrhagic complications resolving conservatively. Long-term follow-up indicates infrequent non-hematologic toxicities beyond the acute treatment phase, though ongoing monitoring for is advised due to the drug's fibrinolytic properties.

Pharmacological Properties

Defibrotide exerts its therapeutic effects primarily through protection of the microvascular and modulation of the fibrinolytic system. It safeguards endothelial cells from damage induced by toxins, inflammatory cytokines, and , thereby preventing activation and dysfunction. This protection involves , fibrinolytic, anti-adhesive, and properties without inducing systemic anticoagulation. Specifically, defibrotide enhances the activity of tissue plasminogen activator (t-PA), which promotes , while inhibiting (PAI-1) to reduce suppression of this pathway. Additionally, it inhibits factor Xa, further contributing to its effects. On endothelial cells, defibrotide increases production of and , which help maintain vascular tone and inhibit platelet aggregation and leukocyte adhesion. It reduces expression of pro-thrombotic and pro-inflammatory molecules, including (vWF), (TF), and adhesion molecules such as and VCAM-1. These actions confer anti-ischemic properties by improving microcirculatory flow and anti-inflammatory effects by downregulating pathways like PI3K/AKT, p38 MAPK, and histone deacetylases. Overall, defibrotide restores thrombo-fibrinolytic balance, promoting localized clot breakdown while minimizing bleeding risk. The exact molecular targets of defibrotide remain incompletely understood, as it functions as a polydisperse mixture of single-stranded oligonucleotides derived from porcine intestinal DNA, enabling multi-modal interactions with endothelial surfaces and plasma proteins. Preclinical studies demonstrate its efficacy in improving hepatic microcirculation in models of veno-occlusive disease/sinusoidal obstruction syndrome (VOD/SOS), where it enhances sinusoidal blood flow and protects against endothelial injury. A 2025 review further emphasizes its potential in broader endothelial injury syndromes, such as transplant-associated thrombotic microangiopathy and cytokine release syndrome, highlighting its role in mitigating systemic endotheliopathies.

Pharmacokinetics

Defibrotide is administered exclusively via intravenous , resulting in rapid with peak concentrations achieved at the end of the 2-hour period. The drug exhibits linear , with no evidence of accumulation following multiple doses at the recommended regimen of 25 mg/kg/day. Following , defibrotide is widely distributed throughout the body, with a of approximately 8.1–9.1 L in healthy subjects. It demonstrates high , averaging 93%, and preferentially binds to the , contributing to its localized effects. Metabolism of defibrotide occurs primarily through by nucleases, nucleotidases, nucleosidases, deaminases, and phosphorylases into smaller , , nucleosides, and ultimately free bases and 2′- sugar; there is no involvement of hepatic enzymes, as confirmed by studies with human hepatocytes. Elimination is dominated by metabolic , with subsequent urinary of metabolites accounting for 38%–64% of the dose overall, though only 5%–15% of intact defibrotide is recovered in urine, primarily within the first 4 hours post-. The terminal of the intact drug is less than 2 hours under standard infusion conditions, while metabolites exhibit prolonged persistence. Total plasma clearance ranges from 3.4–6.1 L/h, with steady-state concentrations achieved within a few days of repeated dosing due to the short . Pharmacokinetic data are primarily derived from limited 1 and 2 studies in healthy volunteers and patients with renal impairment, reflecting the drug's complex polydisperse nature. In special populations, pharmacokinetic data in pediatric patients are limited, with no significant differences reported compared to adults based on available observations, though dedicated studies are insufficient. In patients with severe renal impairment or end-stage renal , exposure is increased, with area under the curve () 50%–60% higher and maximum concentration (C_max) 35%–37% higher than in healthy subjects, accompanied by a 1.3- to 2.3-fold prolongation in ; however, no dose adjustment is required, and the drug is not removed by . Mild renal impairment may result in modestly prolonged exposure, but specific quantitative data are not well-characterized.

Chemical and Physical Properties

Structure and Composition

Defibrotide is a polydisperse of predominantly single-stranded polydeoxyribonucleotide sodium salts derived from porcine intestinal mucosa, consisting of with an average length of approximately 50 and a mean molecular weight ranging from 13 to 20 kDa. This composition includes about 90% single-stranded phosphodiester (9–80 mers) and 10% double-stranded molecules, providing a heterogeneous structure that contributes to its . The drug substance is formulated as a sterile, preservative-free concentrate for intravenous , supplied in single-use vials containing 200 mg of defibrotide in 2.5 mL (80 mg/mL). It contains 10 mg/mL in , with adjusted to 6.8–7.8 using and/or , and appears as a clear, light yellow to brown solution. It exhibits good in and stability under neutral conditions when stored at controlled (20–25°C). Diluted solutions for administration (4–20 mg/mL in 5% dextrose or 0.9% ) remain stable for up to 4 hours at or 24 hours under refrigeration. Purity of the oligonucleotide mixture exceeds 95%, with manufacturing controls ensuring low levels of impurities from the starting material and process. The product is also rigorously tested for endotoxins and meets microbial limits suitable for parenteral use, preventing contamination risks in clinical settings.

Defibrotide is derived from porcine intestinal mucosa, which serves as the starting material for its production. This biological source is obtained from healthy pigs slaughtered for human consumption at controlled facilities, ensuring traceability and compliance with animal health standards. The process begins with the extraction of DNA from the mucosa through controlled enzymatic and chemical hydrolysis, yielding a mixture of oligonucleotides. The manufacturing involves several key steps to refine the extract into the final active substance. Following initial , the material undergoes to produce single-stranded with a mean chain length of approximately 50 bases and a molecular weight of 17 ± 4 kDa. Purification is achieved through a series of techniques and processes to remove impurities and achieve the desired polydisperse composition. The are then converted to their sodium salt form, resulting in the sodium salt of single-stranded polydeoxyribonucleotides. Quality control measures are integral to the production, adhering to (GMP) guidelines. Each batch is tested for identity, purity, and potency using validated physicochemical and biochemical assays, including those assessing fibrinolytic activity, chain length distribution, and base composition to ensure consistency across lots. Viral safety is addressed through rigorous inactivation and removal steps, such as those targeting porcine parvovirus, along with comprehensive testing for adventitious agents to mitigate risks from the biological origin. Challenges in manufacturing stem from the inherent variability of the biological sourcing material, which can affect yield and composition. These are managed through standardized extraction protocols, supplier audits, and process validation to maintain reproducibility. Notably, defibrotide is not produced via recombinant methods, relying entirely on this porcine-derived process. The overall manufacturing complies with specifications set by the European Medicines Agency (EMA) and the U.S. Food and Drug Administration (FDA) for biological products, including requirements for sterility, endotoxin limits, and stability.

Development and History

Discovery and Early Research

Defibrotide was invented in the early 1980s by Crinos S.p.A., an Italian pharmaceutical company, as a polydisperse mixture of oligonucleotides derived from porcine intestinal mucosa through controlled enzymatic hydrolysis of DNA extracts, initially aimed at exploiting its antithrombotic properties. Foundational research in Italy during the 1980s and 1990s, led by Crinos researchers, focused on this porcine DNA hydrolysis process to uncover anti-ischemic effects, demonstrating the compound's ability to enhance local fibrinolytic activity without significant systemic anticoagulation. These studies established defibrotide's potential as a modulator of thrombotic-fibrinolytic balance, with early investigations highlighting its derivation from animal tissue sources to target vascular patency. Preclinical studies in the 1980s utilized animal models such as rabbits, mice, rats, and dogs to evaluate defibrotide's effects, revealing protection against endothelial cell damage induced by ischemia or toxins, alongside improvements in through and reduced platelet aggregation. In these models, defibrotide enhanced fibrinolytic pathways by stimulating tissue plasminogen activator release and activity, while exhibiting actions that preserved vascular integrity without causing hemorrhage at therapeutic doses. Early emphasis was placed on its profibrinolytic enhancement, with in assays confirming indirect activation of via endothelial stimulation, setting the stage for its profile. Initial explorations targeted various vascular disorders, including and deep-vein , where preclinical data suggested defibrotide could mitigate obliterative arterial conditions by improving blood rheology and preventing formation in ischemic tissues. These studies extended beyond hepatic veno-occlusive disease to broader applications in microcirculatory impairments, such as models, underscoring its versatility in addressing in peripheral vasculature. Key milestones included early compassionate use programs in starting in the late , providing access for severe vascular cases prior to formal approvals, and the granting of designation by the in July 2004 for the prevention of hepatic veno-occlusive disease, recognizing its potential in rare thrombotic conditions. This designation built on the foundational work, facilitating further development while affirming defibrotide's established preclinical safety in prolonged animal administrations.

Clinical Trials and Approvals

The pivotal clinical evaluation of defibrotide for the treatment of severe hepatic veno-occlusive disease (VOD), also known as sinusoidal obstruction syndrome (SOS), following hematopoietic stem cell transplantation (HSCT) was conducted through a multicenter, open-label phase 3 study from 2007 to 2012, enrolling 102 patients with confirmed severe VOD/SOS and multi-organ failure (MOF). Patients received defibrotide at 25 mg/kg/day intravenously in four divided doses for a median duration of 17 days, with efficacy assessed against historical controls from prior studies. The primary endpoint was complete response (CR), defined as resolution of VOD/SOS symptoms by day 100 post-HSCT, achieved in 64% of treated patients compared to 21% in historical controls. Prior to formal approval, defibrotide was made available through protocols, including a U.S. treatment program that provided the drug to over 1,000 patients with severe VOD/ post-HSCT, accumulating substantial compassionate use data. These protocols, spanning from 2006 onward, allowed treatment in patients ineligible for controlled trials due to disease severity, with outcomes mirroring phase 3 results, including CR rates around 60% and supporting the drug's role in real-world settings. Key efficacy endpoints from the phase 3 trial included day 100 survival of 38% in the defibrotide group versus 25% in historical controls for patients with severe VOD/ and MOF. Earlier phase 2 prophylaxis trials in pediatric HSCT patients at high risk for VOD/ demonstrated a reduction in incidence by approximately 40%, with rates of 12% in the defibrotide arm compared to 20% in controls when administered at 25 mg/kg/day starting before conditioning. These findings highlighted defibrotide's potential in preventing endothelial damage; however, the subsequent phase 3 trial (NCT02851407), completed in 2022 with results published in 2023, did not confirm efficacy for prophylaxis, showing VOD/ incidence of 23.1% with defibrotide versus 22.3% with best supportive care, along with increased treatment-emergent adverse events. Regulatory approvals for defibrotide (marketed as Defitelio) began with the granting authorization in October 2013 for the treatment of severe VOD/ post-HSCT in patients over one month old, based on phase 2/3 data and outcomes under exceptional circumstances. In the United States, the FDA approved defibrotide in March 2016 for adults and children with VOD/ and renal or pulmonary dysfunction post-HSCT, relying on and historical control data due to ethical concerns precluding placebo-controlled randomized trials. Subsequent approvals included in June 2019 by the Ministry of Health, Labour and Welfare for similar indications, and in July 2020 by the . Post-approval evidence from a real-world registry study (DEFIFrance) involving 251 patients with severe VOD/ post-HSCT confirmed day 100 survival of 61% (95% CI: 55-67%) and in 55% of cases, aligning with data and underscoring consistent outcomes across diverse settings. Despite these advances, evidence gaps persist, including the absence of randomized controlled for treatment due to the life-threatening nature of severe VOD/, leading to reliance on historical controls that may introduce bias in comparative efficacy assessments.

Regulatory Status and Access

Legal Approvals

Defibrotide, marketed as Defitelio, received designation from the () on May 21, 2003, for the treatment of hepatic veno-occlusive disease (VOD). The granted to its on September 30, 2015, and approved Defitelio on March 30, 2016, for the treatment of adult and pediatric patients with severe hepatic VOD, also known as sinusoidal obstruction (), with renal or pulmonary dysfunction occurring after hematopoietic stem-cell transplantation (HSCT). This marked the first -approved therapy specifically for severe VOD/ post-HSCT. In the European Union, the European Medicines Agency (EMA) granted orphan medicinal product designation to defibrotide on July 29, 2004, for the treatment of severe VOD. The EMA authorized Defitelio on October 18, 2013, under exceptional circumstances for the treatment of severe VOD in patients undergoing HSCT. The authorization applies to adults and pediatric patients aged one month or older and remains valid throughout the EU, with the product under additional monitoring as of 2025. Defibrotide has also received regulatory approvals in other regions. Japan's (PMDA) approved it on June 18, 2019, for hepatic VOD/SOS. Australia's (TGA) approved Defitelio on July 23, 2020, for severe VOD/SOS post-HSCT in patients aged one month or older. authorized it on July 10, 2017, for the same indication in adult and pediatric patients. Prior to these approvals, defibrotide was available in more than 40 countries through named-patient programs since 2009. As of November 2025, no new major regulatory approvals for defibrotide have been granted globally, and its labeling continues to include pediatric patients aged one month or older across approved jurisdictions.

Availability and Economics

Defibrotide is manufactured and marketed by under the brand name Defitelio, following the company's acquisition of Gentium S.p.A. in 2013 for approximately $1 billion to secure global rights outside the , with additional acquisition of U.S. rights from Sigma-Tau in 2014. The drug is available exclusively as an intravenous formulation for hospital administration, with in the U.S. and occurring through compassionate use programs since the late to provide access for patients with severe hepatic veno-occlusive disease. Defitelio is priced at approximately $1,200 per 200 vial, resulting in a full course costing $200,000 to $300,000 or more per patient, depending on body weight and of at least at 25 //day; this high is supported by its designation for treating rare conditions like veno-occlusive disease post-hematopoietic transplantation. Access to defibrotide remains challenging due to its elevated cost, often requiring extensive and negotiations with insurers, and is facilitated through specialty pharmacies in high-resource settings; however, global disparities persist, with limited availability in low-resource countries where affordability and barriers restrict use. The 2013 acquisition marked a key corporate milestone for , enabling commercialization of Defitelio and contributing to annual net product sales of $194 million in 2023 from veno-occlusive disease indications within the company's oncology portfolio. As of 2025, no generic versions of defibrotide have entered the market, despite an being accepted by the FDA in December 2024; continues to offer patient assistance programs, including free drug access for eligible uninsured or underinsured patients meeting financial criteria.

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