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Basiliximab
Monoclonal antibody
TypeWhole antibody
SourceChimeric (mouse/human)
TargetCD25
Clinical data
Trade namesSimulect
AHFS/Drugs.comMonograph
MedlinePlusa612013
License data
Pregnancy
category
  • AU: D
Routes of
administration		Intravenous
Drug classImmunosuppressants
ATC code
Legal status
Legal status
Pharmacokinetic data
Elimination half-life7.2 days
Identifiers
CAS Number
DrugBank
ChemSpider
  • none
UNII
KEGG
ChEMBL
Chemical and physical data
FormulaC6378H9844N1698O1997S48
Molar mass143801.68 g·mol−1
 ☒NcheckY (what is this?)  (verify)

Basiliximab, sold under the brand name Simulect, is a monoclonal antibody used to prevent rejection in kidney transplants.[1][2] It is a chimeric mouse-human monoclonal antibody to the α chain (CD25) of the IL-2 receptor of T cells.[1] It is used in combination with other medicines used to prevent organ rejection.[1][2]

The most common side effects (seen in more than 20% of patients) include constipation, urinary tract infections (infection of the structures that carry urine), pain, nausea (feeling sick), peripheral oedema (swelling), hypertension (high blood pressure), anemia (low red blood cell counts), headache, hyperkalaemia (high blood potassium levels), hypercholesterolaemia (high blood cholesterol levels), surgical wound complication, weight increase, increased serum creatinine (a marker of kidney problems), hypophosphataemia (low blood phosphate levels), diarrhea and upper respiratory tract infection (colds).[2]

Basiliximab was approved for medical use in the United States and in the European Union in 1998.[1][2][3]

Medical uses

[edit]

Basiliximab is indicated for the prophylaxis of acute organ rejection in de-novo allogeneic renal transplantation.[2] It is to be used concomitantly with ciclosporin for microemulsion- and corticosteroid-based immunosuppression, in people with panel reactive antibodies less than 80%, or in a triple maintenance immunosuppressive regimen containing ciclosporin for microemulsion, corticosteroids and either azathioprine or mycophenolate mofetil.[2]

Basiliximab is an immunosuppressant agent used to prevent immediate transplant rejection in people who are receiving kidney transplants, in combination with other agents.[4] It has been reported that some cases of lichen planus have been successfully treated with basiliximab as an alternative therapy to cyclosporin. No short-term side effects have been reported.[5]

Mechanism of action

[edit]

Basiliximab competes with IL-2 to bind to the alpha chain subunit of the IL2 receptor on the surface of the activated T lymphocytes and thus prevents the receptor from signaling. This prevents T cells from replicating and also from activating B cells, which are responsible for the production of antibodies, which would bind to the transplanted organ and stimulate an immune response against the transplant.[6][7]

Chemistry

[edit]

It is a chimeric CD25 monoclonal antibody of the IgG1 isotype.[6][7]

History

[edit]

It is a Novartis product and was approved by the Food and Drug Administration (FDA) in 1998.[8]

References

[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Basiliximab

View on Grokipedia
from Grokipedia
Basiliximab is a chimeric monoclonal antibody that functions as an immunosuppressant by specifically binding to the alpha subunit (CD25) of the interleukin-2 receptor on activated T-lymphocytes, thereby preventing the binding of interleukin-2 and inhibiting T-cell proliferation to reduce the risk of acute organ rejection in renal transplant patients.[1] Sold under the brand name Simulect by Novartis, it is administered intravenously as part of a multidrug regimen that typically includes cyclosporine and corticosteroids, with a standard dosing schedule of two 20 mg doses for adults: one within two hours prior to transplant surgery and the second four days post-transplant.[2] Approved by the U.S. Food and Drug Administration in 1998, basiliximab is indicated for prophylaxis of acute rejection in de novo allogeneic renal transplantation and has demonstrated efficacy in both adult and pediatric patients aged 1 to 17 years, with weight-based dosing adjustments for children under 35 kg.[1][3] Developed using recombinant DNA technology in a murine myeloma cell line, basiliximab is a composite of human (approximately 95%) and murine (5%) antibody sequences, which minimizes immunogenicity while providing targeted immunosuppression lasting 4 to 6 weeks after administration.[2] Clinical studies have shown that it significantly reduces the incidence of acute rejection episodes when used in combination with maintenance immunosuppressants, without increasing the overall risk of malignancies or infections compared to standard regimens alone, though it requires careful monitoring for hypersensitivity reactions such as anaphylaxis.[3] In pediatric populations, its use is supported by pharmacokinetic data indicating similar exposure levels to adults when dosed appropriately, making it a key component in transplant induction therapy for this group.[3] Basiliximab should only be prescribed by clinicians experienced in immunosuppression and organ transplantation management, and it is not recommended during pregnancy or breastfeeding due to potential risks to the fetus or infant.[4]

Clinical Use

Indications

Basiliximab is indicated for the prophylaxis of acute organ rejection in patients receiving renal transplantation, used as part of an immunosuppressive regimen that includes cyclosporine and corticosteroids.[2] This approval applies to de novo allogeneic renal transplants in both adult and pediatric patients aged 1 year and older.[5] It is primarily recommended for non-sensitized patients undergoing first-time (de novo) renal transplants, as basiliximab may be less effective in highly sensitized individuals or those with prior transplants, where depleting agents like antithymocyte globulin are often preferred.[6] For pediatric patients, basiliximab is approved with dosing adjusted by body weight: 10 mg for those weighing 35 kg or less and 20 mg for those over 35 kg, administered as two doses.[2] Clinical studies have demonstrated its safety and efficacy in children aged 2 to 15 years, with similar rejection prophylaxis to adults when combined with standard maintenance therapy.[7] Pivotal phase III trials showed that basiliximab significantly reduced biopsy-proven acute rejection rates compared to placebo. In one double-blind study, rejection occurred in 20.8% of basiliximab-treated patients versus 34.9% in the placebo group within 6 months post-transplant, representing approximately a 40% relative reduction.[8] Across two multicenter trials, 12-month biopsy-proven rejection rates were 29-31% with basiliximab versus 46-47% with placebo, establishing a 30-35% reduction in rejection incidence.[2] Off-label uses include prophylaxis of rejection in liver, heart, and lung transplantation, where limited evidence supports its addition to standard regimens to reduce acute rejection episodes.[9] It has also shown promise in islet cell transplantation, with clinical trials demonstrating improved graft function when basiliximab replaces antithymocyte globulin in subsequent infusions.[10] Investigational applications extend to autoimmune conditions, such as noninfectious uveitis, where phase II trials evaluated basiliximab as maintenance therapy to enable tapering of other immunosuppressants, though further data are needed.[11] Additionally, basiliximab serves as a second-line therapy for severe steroid-refractory acute graft-versus-host disease, with real-world studies reporting overall response rates of 60-80% when administered intravenously.[12] As of 2025, recent studies have explored basiliximab induction in lung transplantation, associating it with reduced early acute rejection, and in combined low-dose antithymocyte globulin regimens for improved renal outcomes in kidney transplants.[13][14]

Dosage and Administration

Basiliximab is administered intravenously as part of immunosuppressive regimens for renal transplant rejection prophylaxis. The standard regimen for adults consists of two 20 mg doses: the first given within 2 hours prior to transplantation surgery, and the second administered 4 days after transplantation. The second dose should be withheld if an acute hypersensitivity reaction occurs after the first dose or if the graft is lost.[15] For pediatric patients aged 1 to 17 years, dosing is weight-based: children weighing less than 35 kg receive two 10 mg doses, while those weighing 35 kg or more receive two 20 mg doses, following the same timing as in adults. No dose adjustments are required for renal or hepatic impairment, elderly patients, or differences in gender or race.[15][3] Each dose may be given as a bolus injection or diluted in 25 mL (for 10 mg) or 50 mL (for 20 mg) of 0.9% sodium chloride or 5% dextrose and infused over 20 to 30 minutes. Reconstitution involves adding 2.5 mL of sterile water for injection to a 10 mg vial or 5 mL to a 20 mg vial, followed by gentle shaking; the solution should be inspected for particulates and used immediately or stored refrigerated for up to 24 hours. Basiliximab must be administered through a separate infusion line and should not be mixed with other medications to avoid incompatibility. It is compatible with standard polyvinyl chloride infusion sets.[15][16] No routine therapeutic drug monitoring is required, as basiliximab's saturable binding to the interleukin-2 receptor results in prolonged receptor occupancy that does not correlate directly with serum levels. Administration should occur in settings equipped to manage potential hypersensitivity reactions.[15][3]

Contraindications and Precautions

Basiliximab is contraindicated in patients with known hypersensitivity to basiliximab or any component of the formulation.[15] Basiliximab use warrants careful consideration in patients with a history of hypersensitivity reactions, as severe acute responses such as anaphylaxis, capillary leak syndrome, or cytokine release syndrome may occur, particularly upon re-exposure, given its chimeric structure.[15] Basiliximab use warrants careful consideration in patients with active or recent malignancies, as immunosuppression may exacerbate oncologic risks, and in those with prior heavy immunosuppression, due to potential heightened susceptibility to infections and lymphoproliferative disorders.[15] There are no adequate and well-controlled studies of basiliximab in pregnant women. Animal reproduction studies in cynomolgus monkeys showed no maternal toxicity, embryotoxicity, or teratogenicity at blood levels 13-fold higher than in humans. Because IgG molecules cross the placental barrier and the IL-2 receptor may play a role in immune system development, basiliximab should be used during pregnancy only if the potential benefit justifies the potential risk to the fetus. Women of childbearing potential should use effective contraception before beginning basiliximab therapy, during therapy, and for 4 months after completion of therapy.[15] Immunization with live vaccines should generally be avoided during basiliximab therapy due to the risk of disseminated infection from immunosuppression.[3] Drug interactions primarily involve pharmacodynamic effects rather than pharmacokinetic changes. Basiliximab increases the risk of excessive immunosuppression when combined with other biologic agents, such as muromonab-CD3, potentially leading to heightened infection susceptibility.[15] No clinically significant pharmacokinetic interactions occur with cyclosporine or corticosteroids, though clearance may be modestly reduced (by 22% with azathioprine and 51% with mycophenolate mofetil) without necessitating dose adjustments.[15] In special populations, breastfeeding should be discontinued during and for four months after basiliximab therapy, as it is unknown whether the drug is excreted in human milk.[15] For elderly patients (≥65 years), no dose adjustment is required, but they may face an elevated risk of infections due to age-related factors and concurrent immunosuppression.[15]

Pharmacology

Mechanism of Action

Basiliximab is a chimeric monoclonal antibody of the IgG1κ isotype, consisting of murine variable regions and human constant regions, that specifically targets the alpha chain (CD25) of the high-affinity interleukin-2 receptor (IL-2R) expressed on the surface of activated T-lymphocytes.[15][1] It binds with high affinity (Ka = 1 × 10¹⁰ M⁻¹) to CD25, competitively inhibiting the binding of interleukin-2 (IL-2), a cytokine essential for T-cell signal transduction.[15] This blockade prevents the assembly of the high-affinity IL-2R complex and subsequent activation of intracellular signaling pathways, such as the JAK-STAT pathway, which are critical for T-cell responses.[17][1] By interrupting IL-2-mediated signaling, basiliximab inhibits the proliferation and differentiation of activated T-lymphocytes into effector cells, thereby suppressing the cellular immune response without broadly affecting other immune pathways.[17][18] This selective action spares resting T-cells, which do not express CD25, preserving baseline immune function while targeting only antigen-activated lymphocytes involved in processes like allograft rejection.[15][1] Unlike some other anti-CD25 agents or polyclonal antibodies, basiliximab does not induce T-cell depletion through antibody-dependent cellular cytotoxicity (ADCC) or complement-dependent cytotoxicity (CDC), relying instead on functional blockade for its immunosuppressive effects.[19][17] The binding of basiliximab saturates CD25 receptors on activated T-cells for approximately 4-6 weeks following standard dosing, providing prolonged immunosuppression that outlasts its relatively short plasma half-life.[15] This receptor occupancy is maintained as long as serum basiliximab levels exceed 0.2 mcg/mL, ensuring sustained inhibition of IL-2-dependent T-cell activation during the critical early post-transplant period.[15]

Pharmacokinetics

Basiliximab is administered intravenously, resulting in complete bioavailability with peak plasma concentrations achieved immediately following the end of the infusion.[3] After a 20 mg dose infused over 30 minutes, the mean peak serum concentration is approximately 7.1 mg/L in adults.[20] The volume of distribution at steady state is approximately 8.6 L in adults, reflecting distribution primarily to the extracellular fluid and binding to the CD25 component of the interleukin-2 receptor on activated lymphocytes and macrophages/monocytes.[3] This binding leads to receptor saturation and low levels of free drug in plasma during the initial phase post-administration.[21] As a chimeric monoclonal antibody, basiliximab undergoes proteolytic degradation into peptides and individual amino acids via catabolism in cells of the reticuloendothelial system and other tissues, with no involvement of hepatic cytochrome P450 enzymes and no generation of active metabolites.[22] Elimination follows a biphasic profile, with a terminal elimination half-life of 7.2 ± 3.2 days in adults.[3] The total body clearance is 41 mL/h, which is independent of dose at therapeutic levels (20-40 mg total), and no dose adjustments are required for renal or hepatic impairment.[3] The pharmacokinetics exhibit nonlinearity at low doses due to target-mediated drug disposition, where clearance increases as the interleukin-2 receptor becomes saturated, influencing the observed half-life.[23] Immunogenicity is low, with anti-basiliximab antibodies detected in less than 2% of patients, and these rarely impact pharmacokinetics or clinical efficacy.[3]

Adverse Effects

Common Side Effects

In clinical trials, the overall incidence of adverse events with basiliximab was similar to that in placebo groups, affecting nearly all patients (99%) in both arms, with no significant increase in events attributable to basiliximab alone.[20] Most common side effects are mild and primarily linked to the underlying renal transplant procedure and concomitant immunosuppressive agents, such as cyclosporine and corticosteroids, rather than basiliximab itself.[3][20] Gastrointestinal disturbances are among the most frequent, including nausea, diarrhea, abdominal pain, and constipation, reported in 20-30% of patients individually, though cumulative gastrointestinal disorders occur in up to 75% of cases across both basiliximab and placebo groups.[20] Other common effects encompass headache (up to 25%), peripheral edema (approximately 29%), hypertension (approximately 27%), and mild infections such as urinary tract infections (approximately 46%) or upper respiratory tract infections (10-20%).[3][24] These incidences align closely with placebo rates, indicating no basiliximab-specific elevation.[20] Management of these side effects is generally supportive and symptomatic, such as antiemetics for nausea or analgesics for headache, with no interventions targeted specifically at basiliximab required in most cases.[3]

Serious Adverse Effects

Basiliximab, when used as part of immunosuppressive regimens in organ transplantation, is associated with rare but serious adverse effects, primarily stemming from enhanced immunosuppression and potential immune dysregulation. These include severe opportunistic infections, malignancies such as post-transplant lymphoproliferative disorder (PTLD), and hypersensitivity reactions, which contrast with more frequent but milder issues like nausea or hypertension. The overall incidence of serious events is low, with clinical trials showing rates comparable to placebo, though real-world pharmacovigilance data highlight disproportionate reporting signals for certain complications.[3][25][9] Opportunistic infections represent a key risk in post-transplant settings under immunosuppressive therapy, with cytomegalovirus (CMV) and other infections occurring at rates comparable to standard regimens without basiliximab, as shown in clinical trials (serious infections 26.1% vs. 24.8%; CMV 14.6% vs. 17.3%). In the FDA Adverse Event Reporting System (FAERS) database from 2004 to 2023, CMV infection showed a strong safety signal with 122 cases and a reporting odds ratio (ROR) of 51.85, while overall infections and infestations accounted for 1,198 of 1,520 reports (ROR 2.85). Anaphylaxis remains rare, affecting less than 1% of patients, with 16 FAERS cases of anaphylactic shock (ROR 4.45).[25][3] Malignancies, particularly PTLD, carry an elevated long-term risk due to cumulative immunosuppression, with an incidence of 1-2% in the first post-transplant year among basiliximab recipients. FAERS analysis identified 25 PTLD cases (ROR 38.52), aligning with broader transplant risks where basiliximab contributes indirectly. In pivotal trials, lymphoma or lymphoproliferative disease occurred in 0.1% of basiliximab patients versus 0.3% in placebo, rising to approximately 7% over five years in extension studies for both arms.[25][3][26] Hypersensitivity reactions are infrequent but severe, encompassing rare cases of cytokine release syndrome with symptoms including dyspnea, hypotension, rash, urticaria, pruritus, bronchospasm, tachycardia, pulmonary edema, and cardiac or respiratory failure, often within 24 hours of dosing. Post-marketing surveillance has documented capillary leak syndrome and fatal infections in combination therapy contexts, though causality is not established for basiliximab monotherapy; 298 fatal outcomes were reported in FAERS (13.93% of total), predominantly infection-related.[3][9][25] To mitigate risks, CMV prophylaxis is recommended for high-risk renal transplant recipients (e.g., donor-positive/recipient-negative serostatus) per international consensus guidelines, typically involving valganciclovir for 3-6 months post-transplant. Tumor surveillance adheres to standard transplant protocols, including regular screening for lymphoproliferative disorders. Patients should be monitored closely for hypersensitivity signs during and after infusion in specialized facilities.[27][3]

Chemistry and Manufacturing

Chemical Structure

Basiliximab is a chimeric monoclonal antibody consisting of murine variable regions derived from the RFT5 mouse antibody fused to human IgG1 kappa constant regions.[20] This design incorporates the antigen-binding specificity of the murine variable domains with the effector functions and reduced immunogenicity of human constant domains.[1] The antibody is produced via recombinant DNA technology in a mouse myeloma cell line, resulting in a glycoprotein structure typical of IgG1 antibodies.[20][28] Like other immunoglobulin G (IgG) antibodies, basiliximab exhibits a tetrameric structure composed of two identical heavy chains and two identical light chains, linked by disulfide bonds, with a calculated molecular weight of approximately 144 kDa based on its amino acid sequence.[20][28] The antigen-binding site of basiliximab is formed by the complementarity-determining regions (CDRs) within the variable domains of both heavy and light chains, which collectively comprise all six CDR loops to create a large binding interface.[29] These CDRs confer high-affinity specificity to the CD25 epitope on the interleukin-2 receptor alpha chain, particularly the peptide sequence spanning amino acids 116 to 122 (ERIYHFV), where mutations in two or more residues within this region abolish binding.[30][31] Physicochemically, basiliximab is a water-soluble glycoprotein with an isoelectric point of 8.68, reflecting its basic character due to the amino acid composition.[32][1] Its glycosylation pattern aligns with that of human IgG1, as it is expressed in a mammalian cell line, with no reported differences that alter its functional properties.[20] The reconstituted solution has a pH of 6.5 and remains stable at 2–8°C for up to 24 hours or at room temperature for 4 hours, indicating compatibility with neutral to slightly acidic conditions.[28]

Production and Formulation

Basiliximab is produced using recombinant DNA technology in a murine myeloma cell line, which is genetically engineered to express the genes encoding the chimeric (murine/human) monoclonal antibody targeting the IL-2 receptor α-chain (CD25 antigen).[3] This process involves the fermentation of the cell line to secrete the antibody, followed by harvest and standard downstream purification, including affinity chromatography and steps for viral inactivation, to ensure product purity and safety. The resulting bulk drug substance achieves high purity suitable for pharmaceutical use. Basiliximab is formulated as a sterile, lyophilized powder for intravenous injection or infusion, supplied in single-use 20 mg vials. Each vial contains 20 mg basiliximab along with the excipients disodium hydrogen phosphate anhydrous (1.0 mg), glycine (40 mg), mannitol (80.1 mg), monobasic potassium phosphate (7.22 mg), sodium chloride (1.61 mg), and sucrose (20 mg).[15] The powder is reconstituted by adding 5 mL of sterile water for injection (not supplied), yielding a colorless to slightly opalescent solution with a basiliximab concentration of 4 mg/mL; this preparation maintains the antibody's integrity for clinical administration.[33] The lyophilized formulation has a shelf life of 3 years when stored refrigerated at 2–8°C, protected from light. Following reconstitution, the solution remains chemically and physically stable for up to 24 hours at 2–8°C or 4 hours at room temperature (up to 25°C), after which any unused portion should be discarded.[3]

History and Society

Development and Clinical Trials

Basiliximab was developed in the 1990s by Novartis as a chimeric monoclonal antibody derived from the murine hybridoma RFT5γ2a, which was chimerized with human IgG1κ constant regions to reduce immunogenicity while preserving the binding specificity to the CD25 component of the interleukin-2 receptor.[34] Preclinical studies in the 1990s demonstrated that basiliximab maintained the high affinity of the original murine variable region and effectively inhibited T-cell proliferation by competitively blocking interleukin-2 binding to its receptor on activated T lymphocytes, without inducing direct cytotoxicity to lymphocytes or other cell types in in vitro assays using human tissues.[35] In vivo rodent models further confirmed that basiliximab prolonged allograft survival by suppressing T-cell activation and proliferation, validating its immunosuppressive mechanism without evidence of overt toxicity.[35] Early clinical development included phase I/II trials conducted in the mid-1990s involving renal transplant patients, which established the drug's safety profile, dose-response relationship, and pharmacokinetics. In one such open-label study with 32 recipients of mismatched cadaveric renal allografts, single perioperative doses of 40 mg or 60 mg basiliximab were well tolerated, with no instances of cytokine-release syndrome, hypersensitivity, or development of anti-idiotypic antibodies; serum concentrations sufficient to saturate the interleukin-2 receptor (>0.2 μg/mL) were maintained for 26 to 32 days post-dose, providing targeted immunoprophylaxis for the initial posttransplant month.[36] These trials also indicated a reduction in acute rejection episodes compared to historical controls, without an associated increase in opportunistic infections, supporting progression to larger efficacy evaluations.[37] The pivotal phase III program consisted of two multicenter, double-blind, placebo-controlled trials conducted between 1995 and 1997, enrolling over 700 adult renal transplant recipients to assess basiliximab's efficacy in preventing acute rejection when added to standard cyclosporine and corticosteroid regimens. In the European CHIB 201 study (n=380 primary cadaveric kidney recipients), basiliximab (20 mg on days 0 and 4) reduced the incidence of biopsy-proven acute rejection at 6 months to 28% versus 48% with placebo (p<0.001), with comparable graft survival at 12 months (88% vs. 87%).[35] Similarly, the US multicenter trial (n=380) demonstrated a 32% rejection rate at 12 months with basiliximab compared to 55% with placebo (p<0.001), confirming significant prophylaxis against acute cellular rejection without differences in patient or graft survival or infection rates. These results established basiliximab's role in induction therapy for renal transplantation. Post-approval studies have focused on long-term outcomes and expanded populations, including pediatric patients. Long-term follow-up analyses of phase III cohorts and subsequent observational studies have shown sustained graft survival benefits, with 5-year patient and graft survival rates of 100% and 86%, respectively, in basiliximab-treated live-donor recipients, attributed to the early reduction in rejection episodes.[38] Pediatric extension trials, such as a multicenter randomized study of children receiving tacrolimus-based immunosuppression with or without basiliximab, confirmed comparable efficacy and safety, with acute rejection rates reduced in the basiliximab arm and no increase in infections or malignancies over 6 months.[39] These findings supported basiliximab's use in pediatric renal transplantation, demonstrating consistent T-cell inhibition and graft protection across age groups.

Regulatory Approval and Availability

Basiliximab was first approved by the U.S. Food and Drug Administration (FDA) on May 12, 1998, for the prophylaxis of acute organ rejection in patients receiving renal transplantation as part of an immunosuppressive regimen that includes cyclosporine and corticosteroids.[40] The European Medicines Agency (EMA) granted approval for basiliximab, marketed as Simulect, on October 9, 1998, for the same indication in de novo allogeneic renal transplantation.[41] Subsequent regulatory expansions included pediatric use. The FDA extended approval to include pediatric patients aged 1 year and older around 2001, based on pharmacokinetic and safety data from clinical studies in children weighing less than 35 kg receiving reduced dosing.[2] Basiliximab received approval in Japan on January 17, 2002, under the brand Simulect for renal transplant rejection prophylaxis.[42] In China, basiliximab received approval by the National Medical Products Administration for the renal transplant indication, with market availability noted from around 2013.[43] Basiliximab is approved in numerous countries worldwide, including the United States, Europe, Japan, and China, for renal transplant immunosuppression. Novartis markets basiliximab exclusively as Simulect, with no biosimilars approved globally as of early 2025, despite patent expiration in major markets such as Europe in 2013 and Canada in 2011.[44] As of 2025, biosimilar development continues in regions like China, though none have been approved globally.[44] The absence of biosimilars stems from regulatory hurdles and the complexity of demonstrating similarity for this monoclonal antibody, with no ongoing litigation specifically delaying entry reported.[45] Basiliximab is supplied as a lyophilized powder in single-use 20 mg vials for intravenous administration, typically as two doses of 20 mg each in adults.[2] In the United States, the average sales price is approximately $4,589 per 20 mg dose as of 2025.[37] Although not included on the World Health Organization's Model List of Essential Medicines, basiliximab is featured on several national essential medicines lists for transplant care, reflecting its role in resource-limited settings.[46] Regulatory controversies include restrictions on off-label use, particularly in cardiac transplantation, where a 2014 European review found insufficient evidence of efficacy and safety, leading to warnings against such applications in regions like the UK.[47] Patent disputes have historically limited earlier generic competition, though no major active cases persist as of 2025.[44]

References

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  2. Basiliximab, Novartis Pharmaceutical Corp - Package Insert
  3. [PDF] Simulect, INN-basiliximab - European Medicines Agency
  4. Basiliximab Injection: MedlinePlus Drug Information
  5. [PDF] Simulect, basiliximab - European Medicines Agency
  6. [PDF] Increased risk of rejection after basiliximab induction in sensitized ...
  7. Efficacy and Safety of Basiliximab in Pediatric Renal Transplant ...
  8. a randomized, double-blind trial of basiliximab ... - Transplantation
  9. Basiliximab - LiverTox - NCBI Bookshelf - NIH
  10. Islet Transplantation in Type 1 Diabetics Using an ...
  11. The Safety and Efficacy of Basiliximab as Maintenance Therapy in ...
  12. Basiliximab for steroid-refractory acute graft-versus-host disease
  13. [PDF] Simulect® (basiliximab) For Injection - Novartis
  14. Basiliximab Dosage Guide + Max Dose, Adjustments - Drugs.com
  15. [PDF] PRODUCT MONOGRAPH PrSIMULECT® (basiliximab) 20 mg ...
  16. Basiliximab, mechanism of action and pharmacological properties
  17. The role of basiliximab in the evolving renal transplantation ... - PMC
  18. Impact of Induction Immunosuppressants on T Lymphocyte Subsets ...
  19. [PDF] Basiliximab (Simulect) Labeling - accessdata.fda.gov
  20. Population pharmacokinetics and exposure-response relationships ...
  21. Pharmacokinetics and Clinical Pharmacology of Monoclonal ...
  22. Disposition of basiliximab, an interleukin-2 receptor monoclonal ...
  23. Safety assessment of basiliximab using real-world adverse event ...
  24. Dissociation of depletional induction and posttransplant ... - PubMed
  25. The Fourth International Consensus Guidelines on ... - Transplantation
  26. [PDF] PRODUCT MONOGRAPH SIMULECT (basiliximab) 20 mg sterile ...
  27. Structural basis of immunosuppression by the therapeutic antibody ...
  28. Identification of their epitope reveals the structural basis ... - PubMed
  29. Identification of Their Epitope Reveals the Structural Basis for the ...
  30. Basiliximab - PubChem - NIH
  31. Monoclonal Antibody Therapeutics: The Need for Biopharmaceutical ...
  32. (PDF) Affinity Chromatography for Antibody Purification
  33. Simulect 20mg powder for solution for injection or infusion
  34. Basiliximab - Novartis - AdisInsight - Springer
  35. https://doi.org/10.1016/S0140-6736(97
  36. https://bpspubs.onlinelibrary.wiley.com/doi/10.1002/bcp.70151
  37. Long-Term Evaluation of Basiliximab Induction Therapy in Live ...
  38. CBER, Approval letter, Basiliximab, indicated for the prophylaxis of ...
  39. Simulect | European Medicines Agency (EMA)
  40. KEGG DRUG: New Drug Approvals in Japan
  41. China Basiliximab Investigation Markets, 2013-2018 & 2019-2023
  42. How to find the structure and classification of Basiliximab?
  43. Biosimilars of basiliximab
  44. https://www.drugpatentwatch.com/p/biologics/ingredient/basiliximab
  45. Electronic Essential Medicines List: eEML
  46. efficacy and safety not shown in heart transplantation - GOV.UK
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