Fact-checked by Grok 2 weeks ago

Guselkumab

Guselkumab, sold under the brand name Tremfya, is a fully immunoglobulin G1 lambda (IgG1λ) that selectively binds to the p19 subunit of interleukin-23 (IL-23), a involved in inflammatory immune responses. By inhibiting the interaction between IL-23 and its receptor on T cells and natural killer cells, guselkumab blocks downstream signaling pathways that promote the production of proinflammatory and , thereby reducing in autoimmune conditions. It is administered as a subcutaneous injection or, for induction in , as an intravenous infusion, and is produced using technology in Chinese hamster ovary cells. The U.S. (FDA) first approved guselkumab on July 13, 2017, for the treatment of moderate-to-severe plaque in adults who are candidates for or phototherapy. Subsequent approvals expanded its indications to include active in adults (July 2020), moderately to severely active in adults (September 2024), and moderately to severely active in adults (March 2025). In September 2025, the FDA approved guselkumab for moderate-to-severe plaque and active in pediatric patients aged 6 years and older weighing at least 40 kg (88 pounds), marking it as the first and only IL-23 inhibitor for these pediatric uses. Developed by Janssen Biotech, Inc., a subsidiary of , guselkumab is available in single-dose prefilled syringes, One-Pressauto-injectors, or vials for intravenous use, with typical dosing for and consisting of 100 mg subcutaneously at weeks 0 and 4, followed by every 8 weeks thereafter. Key safety considerations include an increased risk of infections due to , necessitating screening for and monitoring for serious infections before and during treatment. reactions, such as , may occur, and live vaccines should be avoided during therapy. For indications, induction dosing involves 200 mg intravenously or 400 mg subcutaneously at weeks 0, 4, and 8, followed by maintenance with 100 mg or 200 mg subcutaneously at varying intervals based on response. Common adverse effects include upper respiratory infections, , injection-site reactions, and , with reported in some cases requiring liver function monitoring.

Clinical Aspects

Indications

Guselkumab is approved for the treatment of moderate-to-severe plaque in adults and pediatric patients 6 years of age and older who weigh at least 40 kg and are candidates for or phototherapy. It is also indicated for active in adults and pediatric patients 6 years of age and older who weigh at least 40 kg, either as monotherapy or in combination with conventional disease-modifying antirheumatic drugs. For , guselkumab is approved for adults with moderately to severely active and moderately to severely active . In pivotal trials for plaque , guselkumab demonstrated high in achieving skin clearance, with 91% of adults reaching PASI 75 and 73% achieving PASI 90 at week 16. In pediatric patients with moderate-to-severe plaque , 76% achieved PASI 75 and 56% reached PASI 90 at week 16 in the phase 3 trial. For , response rates included 52-64% ACR20, 30-32% ACR50, and 12-19% ACR70 at week 24 across phase 3 studies in adults; pediatric approval is based on extrapolated from adult and pediatric data, with consistent safety profiles. In , guselkumab induction led to clinical remission in 23-26% of adults at week 12, with maintenance rates of 45-50% at week 44 in the QUASAR trials. For , endoscopic response rates were 34-36% at week 12 post-induction, improving to 39-48% at week 48 with maintenance therapy in the GALAXI studies, alongside clinical remission rates of 59-65% at week 48. Patient selection emphasizes individuals with inadequate response to conventional therapies, biologics, or those eligible for systemic interventions, with weight thresholds ensuring appropriate dosing in pediatrics for and indications.

Dosage and Administration

Guselkumab is administered via subcutaneous injection for the treatment of plaque psoriasis, , , and , with an intravenous induction option available for and in adults. The subcutaneous route uses prefilled pens, One-Press injectors, or prefilled syringes, each delivering 100 mg (1 mL) or 200 mg (2 mL) for single-patient use only. For intravenous administration, guselkumab is supplied in single-dose vials and must be diluted by a healthcare professional using aseptic technique. Dosing schedules are tailored to the specific indication. For adults with moderate-to-severe plaque or active , the recommended dose is 100 mg subcutaneously at week 0, week 4, and every 8 weeks thereafter; it may be used alone or with a conventional such as for . In pediatric patients 6 years of age and older weighing at least 40 kg with moderate-to-severe plaque or active , the dose is also 100 mg subcutaneously at week 0, week 4, and every 8 weeks thereafter. For adults with moderately to severely active or , consists of 200 mg intravenously over at least 1 hour at weeks 0, 4, and 8, or alternatively 400 mg subcutaneously (as two 200 mg injections in different sites) at the same intervals; maintenance is 100 mg subcutaneously at week 16 and every 8 weeks thereafter, or 200 mg subcutaneously at week 12 and every 4 weeks thereafter, using the lowest effective dose to sustain response. If a dose is missed, it should be administered as soon as possible, resuming the regular schedule thereafter. Preparation involves allowing the product to reach (up to 25°C or 77°F) for approximately 30 minutes prior to subcutaneous injection without removing the needle cap, or longer for vials used in intravenous preparation. The should be inspected visually for and discoloration; it is clear and colorless to light yellow and may contain small translucent particles, but must be discarded if cloudy, discolored, or containing large particles. Subcutaneous injections are given in the front of the thighs, lower (avoiding 2 inches around the ), or back of the upper arms (by healthcare professional or only), rotating sites to prevent reactions and avoiding tender, bruised, red, hard, thick, scaly, or psoriatic . For pediatric patients, self-administration is not recommended; injections should be performed by a healthcare provider or trained . Intravenous preparation requires withdrawing 20 mL of guselkumab and adding it to a 250 mL bag of 0.9% injection (after discarding an equal volume), mixing gently to achieve 0.8 mg/mL, and infusing over at least 1 hour using an in-line 0.2 micrometer ; the diluted is stable at for up to 10 hours and must not be frozen or co-infused with other products. Guselkumab must be stored refrigerated at 2°C to 8°C (36°F to 46°F) in its original carton to protect from , without freezing or shaking, and unused portions discarded as it contains no preservatives. Prior to initiating guselkumab, patients should be evaluated for infection, with consideration of latent or active if positive, and monitored for active signs during and after therapy. For or , baseline liver enzymes and levels are required; for plaque or , these may be evaluated if clinically indicated. All age-appropriate vaccinations should be completed according to current guidelines before starting . Patients with evidence of infection should be assessed by a liver specialist, with monitoring of liver enzymes and viral DNA during and after therapy, and guselkumab discontinued if active infection develops.

Safety Profile

Adverse Effects

Guselkumab is associated with a range of common adverse effects, primarily mild to moderate in severity. In clinical trials for plaque and , the most frequently reported include upper respiratory infections (14-20%), (5-10%), and injection site reactions (8-20%). Other common effects observed across indications, such as , encompass (3-5%), (2-4%), and fungal infections (1-3%). These reactions typically do not lead to discontinuation of therapy and resolve with symptomatic management. Serious adverse effects with guselkumab are uncommon but include an increased risk of infections, such as reactivation of (0.5-1%). In pooled analyses from psoriatic disease trials, the overall rate of serious infections was approximately 1.8 per 100 patient-years. reactions, including rare cases of , have been reported primarily in post-marketing surveillance. Regarding , clinical trials showed no significant increase in risk compared to , though long-term monitoring is recommended due to the immunomodulatory nature of the drug. Hepatotoxicity has been reported in post-marketing experience, with elevated liver enzymes observed in some patients, necessitating monitoring of . Management of adverse effects involves for mild common reactions, such as upper respiratory infections or , which often do not require intervention beyond standard care. For serious infections, including potential reactivation, guselkumab should be discontinued, and appropriate therapy initiated. reactions necessitate immediate discontinuation and supportive measures, such as epinephrine for . Patients with active infections should avoid initiation of therapy.

Contraindications and Precautions

Guselkumab is contraindicated in patients with a history of serious reactions to the drug or any of its excipients. Treatment should not be initiated in patients with active serious infections, including untreated (TB), until the infection has resolved or is adequately treated; prior to starting , patients must be evaluated for TB infection, and latent TB should be treated before administration. Caution is advised in patients with a history of recurrent infections, as guselkumab may increase the risk of new infections, and should be discontinued if a serious infection develops during treatment. Live should be avoided during treatment and for at least four weeks prior to initiation, with patients encouraged to complete all age-appropriate vaccinations before starting guselkumab. In elderly patients, guselkumab should be used with caution due to a potentially higher risk of infections, although clinical studies have not identified differences in or response compared to younger adults. For pregnant individuals, available data from post-marketing reports and an ongoing pregnancy registry are insufficient to determine if guselkumab poses risks of major birth defects, , or adverse maternal/fetal outcomes, and enrollment in the registry (www.mothertobaby.org/ongoing-study/tremfya-guselkumab) is recommended. During breastfeeding, the presence of guselkumab in human milk and its effects on the breastfed are unknown, so the benefits of treatment should be weighed against potential risks. Concomitant use with live vaccines is contraindicated, and caution is warranted with other or biologic agents due to the potential for additive and increased infection risk, though specific combination studies are limited. No dose adjustments are required for patients with hepatic or renal , as no dedicated studies have been conducted to assess the impact on guselkumab . In pediatric populations, guselkumab is approved for moderate-to-severe plaque in patients 6 years of age and older weighing at least 40 kg who are candidates for or phototherapy, and for active in patients 6 years of age and older weighing at least 40 kg; safety and efficacy have not been established for other indications or in younger or lighter patients.

Pharmacology

Mechanism of Action

Guselkumab is a fully monoclonal immunoglobulin G1 lambda (IgG1λ) antibody that selectively targets the p19 subunit of interleukin-23 (IL-23), a key in inflammatory pathways. By binding to the p19 subunit with high affinity (Kd ≈ 35 pM for human IL-23), guselkumab prevents the of IL-23 with its heterodimeric receptor on the surface of T cells and natural killer cells, thereby inhibiting downstream signaling. This selective binding ensures no direct impact on other cytokines, such as IL-12, which shares the p40 subunit but lacks p19, allowing guselkumab to specifically disrupt IL-23-mediated responses without affecting IL-12/Th1 pathways. Recent studies indicate guselkumab also binds to CD64 on IL-23-producing myeloid cells, potentially enhancing its potency for neutralizing IL-23 signaling. The inhibition of IL-23 signaling by guselkumab reduces the differentiation, expansion, and survival of T helper 17 (Th17) cells, which are critical effectors in chronic inflammation. This blockade diminishes the production of proinflammatory cytokines such as interleukin-17 (IL-17) and from Th17 cells, thereby attenuating the release of additional and cytokines that perpetuate immune activation. Unlike broader immunomodulators, guselkumab's specificity for the IL-23 p19 subunit preserves other immune functions, minimizing off-target effects on unrelated pathways. In autoimmune diseases, this mechanism disrupts the IL-23/IL-17 axis, which drives pathological . In , IL-23 promotes keratinocyte hyperproliferation and epidermal thickening through IL-17-mediated signaling, and guselkumab's inhibition halts this cascade to restore skin homeostasis. Similarly, in (IBD), the pathway contributes to mucosal and barrier dysfunction in the gut; by targeting IL-23, guselkumab reduces Th17-driven production that exacerbates tissue damage in conditions like and .

Pharmacokinetics

Guselkumab, a human monoclonal antibody, is primarily administered via subcutaneous injection and displays linear pharmacokinetics over the clinical dose range. Following subcutaneous administration of a single 100 mg dose, the absolute bioavailability is approximately 49%, with peak serum concentrations (C_max) achieved at a median time (T_max) of 5.5 days. Steady-state concentrations are typically reached by week 20, with trough levels around 1.2 mcg/mL for the standard 100 mg every 8 weeks regimen in patients with plaque psoriasis or psoriatic arthritis. The apparent at is approximately 13.5 L, reflecting confinement largely to the vascular and compartments with minimal penetration into the , consistent with its immunoglobulin G1 structure. of guselkumab occurs through proteolytic degradation into small peptides and via endogenous catabolic pathways, akin to the processing of native immunoglobulins; it does not involve enzymes and produces no active metabolites. Elimination follows nonlinear at low concentrations but approximates linear clearance of approximately 0.516 L/day at therapeutic levels, with a terminal of 15-18 days across patient populations. Renal or hepatic of intact drug is negligible due to its large molecular size. Pharmacokinetic parameters show no clinically significant variations with age (including elderly patients), body weight (including approved pediatric populations aged 6 years and older weighing at least 40 kg), renal or hepatic impairment, or ethnicity; concomitant use of common immunomodulators like does not alter clearance.

Development and Regulatory History

Discovery and Preclinical Development

Guselkumab, initially designated as CNTO-1959 during its development by Janssen Biotech—a of —was identified in the early 2000s through selection from a fully synthetic Fab library engineered for high specificity to the p19 subunit of interleukin-23 (IL-23). This approach enabled the isolation of a fully IgG1λ capable of neutralizing IL-23 without to related cytokines, addressing the role of IL-23 in autoimmune inflammation. The antibody's design prioritized potent inhibition of IL-23 signaling pathways implicated in diseases like , laying the foundation for targeted biologic therapy. Preclinical in vitro studies confirmed guselkumab's high-affinity binding to human IL-23 (Kd = 3.3 pM) and to IL-23 from cynomolgus monkeys (Kd = 1.9 pM), with comparable reactivity to rhesus monkey IL-23. It potently blocked IL-23 binding to its receptor ( = 0.06 nM) and inhibited IL-23-induced phosphorylation in human lymphocytes ( = 0.5 nM), while demonstrating no binding to IL-12 or the shared IL-12/23 p40 subunit, thus establishing selectivity over IL-12 pathways. These findings validated the antibody's targeted mechanism in cellular assays relevant to inflammatory conditions. In vivo preclinical evaluations included models of , where guselkumab inhibited IL-23-induced proinflammatory expression in mice and reduced epidermal thickness and T-cell —key indicators of acanthosis—in xenotransplant and other psoriasis-like models. Proof-of-concept studies in non-human primates, particularly cynomolgus monkeys, further demonstrated pharmacological activity, with no effects on IL-12-mediated responses, supporting its safety profile for IL-23-specific inhibition. Exploratory work in models, such as dextran sulfate sodium (DSS)-induced in mice, showed reductions in inflammation scores by 50-70%, highlighting potential broader utility. Toxicology studies in cynomolgus monkeys established a (NOAEL) of 50 mg/kg/week across repeated dosing regimens. Key milestones included the filing of an (IND) application (IND 105004) on April 30, 2009, enabling progression to studies. protection encompassed for anti-IL-23 p19 antibodies, with priority dates from 2005 (e.g., US Provisional 60/754,889) and filings through 2010, assigned to Janssen Biotech, covering compositions and methods for IL-23 inhibition in autoimmune diseases.

Clinical Trials Leading to Approval

Guselkumab's approval for the treatment of moderate to severe plaque was supported by the phase III VOYAGE 1 and VOYAGE 2 trials, which were multicenter, randomized, double-blind studies involving over 1,700 patients collectively. These trials evaluated guselkumab 100 mg administered subcutaneously at weeks 0 and 4, then every 8 weeks, compared to 40 mg every 2 weeks or , with co-primary endpoints including the proportion of patients achieving at least 90% improvement in the (PASI 90) and an Investigator's Global Assessment (IGA) score of 0 or 1 at week 16. In VOYAGE 1 (n=837), 73.3% of guselkumab-treated patients achieved PASI 90 at week 16 versus 49.7% with and 2.9% with , demonstrating superior efficacy over the active comparator. Similar results were observed in VOYAGE 2 (n=992), where guselkumab achieved PASI 90 in 70.2% of patients compared to 46.8% with and 2.4% with , confirming consistent skin clearance across large sample sizes. Both trials highlighted guselkumab's favorable safety profile, with adverse events comparable to and , supporting its role in achieving high levels of disease control. Comparative efficacy analyses from these and other psoriasis studies, including adjusted indirect comparisons, indicated guselkumab's superiority to , another IL-12/23 inhibitor, in achieving PASI 90 responses (e.g., 70.4% for guselkumab versus lower rates for ustekinumab at week 16). For (), approval relied on the phase III 1 and 2 trials, randomized, double-blind, -controlled studies assessing guselkumab 100 mg every 4 or 8 weeks versus in biologic-naïve or inhibitor-experienced patients (total n=1,490). The primary was American College of Rheumatology 20% improvement (ACR20) at week 24. In 2 (n=741, biologic-naïve), 64% of patients on either guselkumab regimen achieved ACR20 versus 33% on , with significant improvements in joint counts, skin clearance, and . 1 (n=381, including non-responders) showed 52% ACR20 for guselkumab every 8 weeks versus 22% for (59% for every 4 weeks), underscoring across domains like and physical function using the Health Assessment Questionnaire-Disability Index. These trials used standardized s such as ACR criteria and PASI scores, with sample sizes enabling robust statistical power. In (UC), the phase III QUASAR program provided data for approval, comprising and phases in randomized, double-blind, -controlled trials (n=1,172 total) evaluating intravenous guselkumab (200 mg or 400 mg at weeks 0, 4, 8) followed by subcutaneous (100 mg every 4 or 8 weeks) versus in adults with moderately to severely active disease. The primary endpoint for was clinical remission (modified Mayo score ≤2 with no subscore >1) at week 44 among responders. Guselkumab 100 mg every 8 weeks achieved clinical remission in 45.2% of patients versus 18.9% with , with higher rates of endoscopic ( endoscopic subscore ≤1 without : 40.1% vs. 11.0%) and histologic-endoscopic mucosal . For , 23% achieved clinical remission at week 12 versus 6% with , establishing guselkumab's benefit in symptom resolution and mucosal healing using Mayo-based assessments. Approval for Crohn's disease was based on the phase IIb GALAXI 1 trial and phase III GALAXI 2 and 3 studies, which were randomized, double-blind trials (total n≈2,100) comparing intravenous guselkumab induction (200-600 mg at weeks 0, 4, 8) followed by subcutaneous maintenance versus placebo or ustekinumab in patients with moderately to severely active disease. Endpoints included clinical remission (Crohn's Disease Activity Index [CDAI] <150) and endoscopic response (≥50% reduction in Simple Endoscopic Score for Crohn's Disease). In GALAXI 1 (n=309), guselkumab doses achieved CDAI remission in up to 56.1% at week 12 versus 21.4% with placebo. GALAXI 2 and 3 demonstrated superiority over ustekinumab for endoscopic response, with pooled data showing CDAI remission rates of 65-70% for guselkumab versus 63% for ustekinumab at week 48, alongside greater endoscopic remission (43% vs. 28%). These trials confirmed guselkumab's impact on both clinical symptoms and intestinal inflammation in large cohorts. Pediatric approval for plaque in patients aged 6-17 years weighing ≥40 kg was supported by the phase III PROTOSTAR trial (n=166), a randomized, double-blind, -controlled study using weight-based guselkumab dosing (e.g., 50 mg for 40-80 kg, 100 mg for >80 kg) every 8 weeks after initial doses. Co-primary endpoints were PASI 90 and IGA 0/1 at week 16. Among patients ≥40 kg, 56% achieved PASI 90 with guselkumab versus 16% with , with 65.9% reaching IGA 0/1 versus 15.8%; complete clearance (IGA 0) occurred in 39.6% versus 4.2%. Safety was consistent with adult trials, with no new signals in this cohort, affirming guselkumab's tolerability in adolescents and supporting its use for confirmed indications like .

Regulatory Approvals and Milestones

Guselkumab, marketed as Tremfya, received its initial approval from the U.S. (FDA) on July 13, 2017, for the treatment of adults with moderate-to-severe plaque who are candidates for or phototherapy. This marked guselkumab as the first selective inhibitor of interleukin-23 (IL-23) p19 subunit to gain regulatory approval. In , the (EMA) granted marketing authorization on November 10, 2017, for the same indication in adults eligible for . Health Canada authorized guselkumab for moderate-to-severe plaque in adults on November 15, 2017, with subsequent expansions under review as of 2025. The FDA expanded guselkumab's indications on July 13, 2020, to include active in adults. Further expansions occurred for moderately to severely active in adults on September 11, 2024, initially with an intravenous () regimen supported by the phase 3 trial. In March 2025, the FDA approved guselkumab for moderately to severely active in adults, offering both subcutaneous (SC) and IV options. A supplemental biologics license application (sBLA) for a fully SC regimen in was approved by the FDA on September 19, 2025. On September 29, 2025, the FDA approved guselkumab for pediatric patients aged 6 years and older weighing at least 40 kg with moderate-to-severe plaque or active who are candidates for or phototherapy, including updated pediatric dosing in the product label. Internationally, the UK's Medicines and Healthcare products Regulatory Agency (MHRA) approved guselkumab for moderately to severely active and in adults on May 16, 2025. Key label updates included the addition of warnings regarding malignancies in 2022, based on post-marketing data. Post-approval commitments have included long-term registries to monitor adverse events, such as reporting requirements established in the 2025 approval.

Societal and Commercial Aspects

Legal Status

Guselkumab is classified as a prescription-only () worldwide, requiring a healthcare provider's authorization for dispensing. In , it is specifically scheduled as Schedule 4 (S4) under the Therapeutic Goods Administration's poisons standard, indicating it is a prescription-only subject to standard regulatory controls for biologics. It is not designated as a controlled substance under the United States () schedules. The drug is approved and commercially available in major markets, including the (FDA-approved since 2017 with expansions through 2025), the (27 member states via approval), the , , , , and . In developing regions, availability remains limited, often restricted to compassionate use or named-patient programs managed by the manufacturer for eligible patients without standard access. Access to guselkumab in the is supported through Janssen's TREMFYA withMe (formerly CarePath), which offers copay assistance for eligible commercially insured patients, reducing out-of-pocket costs to as low as $0 per dose, along with injection training and administration support services. In most systems, including and plans in approved countries, is typically required due to its biologic classification, ensuring medical necessity for conditions like moderate-to-severe plaque or . Guselkumab does not require a Risk Evaluation and Mitigation Strategy (REMS) program from the FDA, though prescribers must evaluate and mitigate risks such as infections, including screening for prior to initiation. is not recommended outside FDA-approved indications, and any adverse events from such use should be reported through the FDA's MedWatch system for post-marketing surveillance.

Economics

Guselkumab, marketed as Tremfya by Janssen Biotech, Inc., carries a high wholesale acquisition cost , with each 100 mg subcutaneous dose priced at approximately $19,000 as of late 2025. For plaque treatment, which requires an initial dose at week 0, a second dose at week 4, and maintenance doses every 8 weeks thereafter, the annual cost typically ranges from $130,000 to $140,000 in the first year, depending on the exact regimen and any induction adjustments for other indications like (IBD). These costs reflect the drug's biologic nature and , positioning it as one of the more expensive options in the interleukin-23 (IL-23) inhibitor class. In the global market, guselkumab generated sales of approximately $3.7 billion in 2024, establishing it as a leading product in the IL-23 inhibitor category for and related conditions. In the first three quarters of 2025, sales reached approximately $3.6 billion. Projections indicate growth to over $5 billion annually by 2028, driven by expanded indications including and , with guselkumab maintaining dominance over competitors like (Skyrizi) and (Ilumya) due to its broader label and established efficacy profile in real-world settings. This market leadership is supported by higher drug survival rates compared to other IL-23 agents, contributing to sustained for Janssen amid in the biologic landscape. Reimbursement for guselkumab is widely available through plans, where beneficiaries typically pay a 25% during the initial coverage phase after meeting the , subject to plan-specific formularies. Most private insurers also cover the drug, often requiring , though out-of-pocket costs can vary based on deductibles and tier placement. In the , value-based pricing models apply, with the UK's National Institute for Health and Care Excellence () recommending guselkumab for moderate-to-severe plaque based on cost-effectiveness thresholds exceeding £20,000 per (QALY) gained. Economic analyses highlight guselkumab's role in management, with incremental cost-effectiveness ratios (ICERs) ranging from $50,000 to $100,000 per QALY compared to , reflecting its superior efficacy in achieving sustained skin clearance despite higher upfront costs. development is anticipated following expiry around 2031-2032, which could reduce costs and increase post-exclusivity. Guselkumab is manufactured using ovary (CHO) cells via technology, ensuring high-purity production of the fully human IgG1λ monoclonal antibody. The supply chain is managed by Janssen Biotech, Inc., with global distribution leveraging Johnson & Johnson's established pharmaceutical infrastructure for reliable delivery to healthcare providers.

Names and Formulations

Guselkumab is marketed under the brand name Tremfya by Janssen Biotech, Inc., a subsidiary of , in the United States, , and globally. No generic version of guselkumab is currently available, as the primary composition-of-matter is set to expire in 2031. Tremfya is available in multiple formulations for subcutaneous injection and intravenous infusion. The subcutaneous formulations include a 100 mg/mL solution in a single-dose prefilled syringe, a single-dose prefilled pen (Tremfya Pen), and a single-dose One-Press patient-controlled injector. Additionally, a 200 mg/2 mL solution is provided in single-dose prefilled syringes and prefilled pens, often packaged as an Induction Pack containing two 200 mg/2 mL pens for a total of 400 mg. For intravenous use, Tremfya is supplied as a 200 mg/20 mL (10 mg/mL) concentrate in a single-dose vial, intended for dilution and infusion during induction therapy. The formulations contain the following excipients: L-histidine, L-histidine monohydrochloride monohydrate, , , and in the subcutaneous products; the intravenous concentrate additionally includes EDTA disodium dihydrate and L-methionine. No preservatives are included in any formulation. All packaging is designed for single-use to ensure sterility and proper dosing. Subcutaneous devices feature 27-gauge, half-inch with automatic needle guards, and are supplied in cartons containing one or two units. The intravenous vials are type I glass with stoppers. For pediatric patients weighing at least 40 and aged 6 years or older with approved indications, dosing is administered using the prefilled with volume adjustment to achieve the appropriate dose. During its development, guselkumab was known by the code name CNTO-1959.

Research and Future Directions

Completed Clinical Studies

Long-term extension studies of guselkumab have demonstrated sustained efficacy in patients with moderate-to-severe plaque and . In the VOYAGE 2 trial, continuous guselkumab treatment maintained PASI 90 responses in 82% of patients at week 252 (5 years), reflecting durable skin clearance without loss of response over time. Similarly, in the DISCOVER-2 trial for , guselkumab sustained ACR50 responses in approximately 60% of patients at week 48, with improvements across joint, skin, and enthesial domains. Additionally, 48-week data from the DISCOVER program, presented in November 2025, showed sustained inhibition of structural joint damage in patients with active . Real-world evidence from registries supports guselkumab's long-term effectiveness and persistence in clinical practice. In the CorEvitas Registry, among patients with moderate-to-severe plaque psoriasis who persisted on guselkumab for 9-12 months, 57% achieved PASI 90 and 62% reached IGA 0/1, alongside significant reductions in disease burden and improvements in quality-of-life measures like DLQI. Comparative analyses indicate guselkumab has higher treatment persistence than TNF inhibitors; for instance, in biologic-experienced patients, mean persistence was 17.6 months for guselkumab versus 13.5 months for , corresponding to lower switching rates. Integrated safety data from pooled analyses across seven clinical trials, encompassing over 8,600 patient-years of exposure up to 5 years, confirm a consistent profile with no new safety signals. The rate of serious infections was low at 0.9 per 100 patient-years, comparable to in controlled periods and without evidence of opportunistic infections or reactivation. Regarding immunogenicity, anti-drug antibodies developed in approximately 7% of patients through 1 year, with neutralizing antibodies occurring in fewer than 1% and no clinically meaningful impact on efficacy or safety. Subgroup analyses highlight guselkumab's efficacy across diverse patient populations, though responses vary by . In patients with (BMI ≥30 kg/m²), PASI 90 achievement at week 16 was 65%, compared to 80% in those with normal BMI (<25 kg/m²), yet absolute improvements in PASI scores remained substantial in obese subgroups. For elderly patients (>65 years), efficacy and safety profiles were similar to younger cohorts, with PASI 90 rates of 68-76% at week 28 and no overall differences in incidence.

Ongoing and Investigational Uses

Guselkumab is currently under investigation in several clinical trials for potential expansion beyond its approved indications, focusing on autoimmune conditions driven by IL-23-mediated . One ongoing study is the 4 trial (NCT04929210), a randomized, double-blind, placebo-controlled study evaluating the of guselkumab in biologic-naïve participants with active axial , assessing reduction in axial symptoms such as via the Bath Ankylosing Spondylitis Disease Activity Index. The trial, which includes interim assessments, supports exploration of guselkumab in related conditions like non-radiographic , where IL-23 inhibition may address early inflammatory axial involvement without radiographic changes. In , guselkumab is being assessed in real-world settings following phase 2 data, with prospective observational studies tracking efficacy in multifailure patients. Recent data from the long-term extension study, presented in October 2025 at the United European Gastroenterology Week, demonstrated sustained endoscopic and histologic improvements with guselkumab through week 92 in patients with , with approximately 50% maintaining remission based on composite clinical and endoscopic endpoints at extended follow-up. Investigational applications include combination therapies for refractory , where guselkumab paired with inhibitors like has shown promise in case reports for achieving remission in difficult-to-treat cases, leveraging complementary mechanisms to enhance response rates. Expanded use in pediatrics is advancing, with phase 3 trials (e.g., NCT05923073 for ) evaluating guselkumab in children aged 2-17 years with moderately to severely active or , aiming for completion around 2026 to support potential approvals. Challenges in long-term use include monitoring for , though anti-drug antibodies to guselkumab occur infrequently and are not clinically relevant, with no impact on or observed through up to 100 weeks. Head-to-head comparisons with newer IL-23 inhibitors like and are limited, but indirect analyses indicate comparable in and outcomes, with ongoing direct trials planned to clarify differences.