Leflunomide: Complete Drug Monograph

Pharmacokinetic Profile

Half-Life

~2 weeks (active metabolite teriflunomide)

Metabolism

Prodrug; converted to teriflunomide (M1) via GI wall & hepatic CYP enzymes

Protein Binding

>99.3% (teriflunomide, to albumin)

Bioavailability

~80% (tablet vs solution); food does not affect M1 levels

Volume of Distribution

Low (0.13 L/kg for M1); highly protein-bound

Clinical Information

Drug Class

Pyrimidine synthesis inhibitor (DHODH inhibitor) / DMARD

Available Doses

Tablets: 10 mg, 20 mg, 100 mg (loading dose)

Route

Oral

Renal Adjustment

Caution — free fraction doubles in renal impairment

Hepatic Adjustment

Contraindicated — severe hepatic impairment or ALT >2× ULN

Pregnancy

Contraindicated (teratogenic)

Lactation

Contraindicated — discontinue breastfeeding

Schedule / Legal Status

Prescription only (not scheduled)

Generic Available

Yes

Black Box Warning

Yes — embryo-fetal toxicity & hepatotoxicity

Indications for Leflunomide

Indication	Approved Population	Therapy Type	Status
Active rheumatoid arthritis	Adults	Monotherapy or combination with methotrexate	FDA Approved

Leflunomide is a conventional synthetic DMARD that has demonstrated efficacy comparable to methotrexate and sulfasalazine in phase III trials for RA. It is positioned in the ACR 2021 guidelines as a suitable monotherapy alternative when methotrexate is contraindicated or not tolerated, or as combination therapy with methotrexate for patients with an inadequate response to methotrexate alone. Its unique mechanism of pyrimidine synthesis inhibition differentiates it from other DMARDs and makes it a valuable option in multi-drug strategies. Leflunomide has also shown efficacy in slowing radiographic progression in RA.

Off-Label Uses

Psoriatic arthritis — effective as monotherapy; endorsed by GRAPPA and EULAR guidelines (evidence quality: Moderate).

BK virus nephropathy in renal transplant — adjunctive immunomodulation (evidence quality: Low).

CMV infection in transplant — antiviral properties via DHODH inhibition (evidence quality: Low).

Granulomatosis with polyangiitis (Wegener’s) — maintenance therapy after induction (evidence quality: Low).

Systemic lupus erythematosus — steroid-sparing, limited evidence (evidence quality: Low).

Dose

Dosing for Leflunomide

Adult — Rheumatoid Arthritis

Clinical Scenario	Starting Dose	Maintenance Dose	Maximum Dose	Notes
RA — monotherapy, low hepatotoxicity risk	Loading: 100 mg daily × 3 days	20 mg once daily	20 mg/day	Loading dose achieves steady state faster (~3 days vs ~2 months) Omit loading dose if higher risk for hepatotoxicity or myelosuppression (FDA PI 2024)
RA — monotherapy, without loading dose	20 mg once daily	20 mg once daily	20 mg/day	Preferred by many rheumatologists to reduce early GI and hepatic side effects Steady state reached in ~2 months; slower onset but better tolerated
RA — dose reduction for tolerability	10 mg once daily	10 mg once daily	20 mg/day	If 20 mg not tolerated (GI effects or LFT elevation 2–3× ULN) May attempt re-escalation after adverse effect resolves
RA — add-on to methotrexate (combination DMARD)	10 mg once daily (no loading dose)	10–20 mg once daily	20 mg/day	Start low due to additive hepatotoxicity risk Monthly ALT mandatory; follow ACR methotrexate hepatotoxicity monitoring guidelines

Accelerated Drug Elimination Procedure (Washout)

Clinical Scenario	Starting Dose	Maintenance Dose	Maximum Dose	Notes
Serious toxicity, pregnancy, or pre-conception planning	Cholestyramine 8 g TID × 11 days	Verify teriflunomide <0.02 mg/L on 2 separate tests ≥14 days apart	N/A	Alternative: activated charcoal 50 g orally every 6 hours for 24 hours (may repeat course if needed) Without washout, teriflunomide may take up to 2 years to reach non-detectable levels due to enterohepatic recycling

Clinical Pearl: Loading Dose — Use or Omit?

The 100 mg × 3 day loading dose was used in pivotal trials to accelerate therapeutic onset, but it is widely associated with increased early adverse effects — particularly diarrhea, liver enzyme elevations, and alopecia. Most Australian and many US rheumatologists now omit the loading dose entirely, starting directly at 20 mg/day. The current FDA label (2024) explicitly states that treatment may be initiated with or without a loading dose depending on the patient’s risk profile. Clinical response without loading begins at approximately 4–6 weeks with full benefit by 3–6 months.

Pharmacology of Leflunomide

Mechanism of Action

Leflunomide is a prodrug that is rapidly converted in the gastrointestinal wall and liver to its active metabolite teriflunomide (A771726, also designated M1). Teriflunomide reversibly inhibits mitochondrial dihydroorotate dehydrogenase (DHODH), a key enzyme in the de novo pyrimidine synthesis pathway. Rapidly proliferating lymphocytes — particularly activated T cells — depend on de novo pyrimidine synthesis for DNA and RNA production, making them selectively vulnerable to DHODH inhibition. Resting cells and most other cell types can meet their pyrimidine needs through the salvage pathway and are therefore relatively spared. By depleting pyrimidine pools in activated lymphocytes, teriflunomide suppresses T-cell proliferation, reduces B-cell immunoglobulin production, and inhibits the inflammatory cascade driving synovial destruction in RA. Additional anti-inflammatory effects include inhibition of tyrosine kinase signalling and NF-kB activation, though these are considered secondary to DHODH inhibition.

ADME Profile

Parameter	Value	Clinical Implication
Absorption	Well absorbed; Tmax of M1: 6–12 h; bioavailability ~80% (tablet); high-fat meals do not significantly affect M1 levels	Can be taken with or without food; loading dose achieves therapeutic M1 levels within 3 days
Distribution	Vd ~0.13 L/kg (M1); >99.3% bound to plasma albumin; parent compound rarely detectable in plasma	Very high protein binding means free fraction can double in hypoalbuminaemia or renal impairment, increasing toxicity risk
Metabolism	Parent leflunomide rapidly converted to M1 (teriflunomide) in GI wall and liver; minor metabolite: 4-trifluoromethylaniline (TFMA); M1 undergoes enterohepatic recycling	Enterohepatic recycling prolongs effective half-life; cholestyramine interrupts this cycle, enabling accelerated drug elimination
Elimination	Terminal t½ of M1: ~2 weeks (range 14–18 days); renal excretion ~43%, faecal ~48% of total dose; M1 is dose-proportional	Without washout, teriflunomide may persist for up to 2 years; cholestyramine 8 g TID × 11 days reduces M1 by 40% in 24 h and 49–65% by 48 h

Side Effects of Leflunomide

The following incidence data are from phase III clinical trials (Trials 1, 2, and 3) involving 1,865 patients treated with leflunomide as monotherapy or in combination, as reported in the FDA-approved prescribing information. Side effects are most likely to occur in the first six months and tend to diminish over time.

≥10% Very Common

Adverse Effect	Incidence	Clinical Note
Diarrhea	17–27%	Most common side effect; higher with loading dose; usually resolves within first weeks; mechanism unknown; may respond to dose reduction or loperamide
Respiratory infection (upper respiratory tract)	~15%	Comparable to placebo rates in some trials; minor infections more frequent than serious infections
Nausea	9–13%	Take with food; usually self-limiting within the first month of therapy
Headache	~13%	Not clearly dose-related; manageable with standard analgesics
Abnormal liver enzymes (ALT/AST elevation)	10–13.5%	ALT >3× ULN in 2–3.8% of patients; most elevations are transient; monitor monthly for first 6 months
Rash	~10%	Usually maculopapular and pruritic; may resolve without discontinuation; distinguish from severe cutaneous reactions

1–10% Common

Adverse Effect	Incidence	Clinical Note
Alopecia (diffuse hair thinning)	6–10%	Dose-dependent; usually mild to moderate, diffuse thinning; typically reversible on dose reduction or discontinuation
Hypertension (new or worsened)	2–5%	May appear 2–4 weeks after initiation; monitor BP regularly; treat with standard antihypertensives
Dyspepsia and abdominal pain	5–10%	Take with food to minimize; usually self-limiting
Weight loss	~7%	May not correlate with GI symptoms; mechanism unclear — possible mitochondrial uncoupling effect
Back pain	~5%	Distinguish from disease-related musculoskeletal symptoms
Dizziness	~4%	Usually self-limiting
Urinary tract infection	~5%	Consistent with mild immunosuppressive effect; treat promptly

Serious Serious (Regardless of Frequency)

Adverse Effect	Estimated Frequency	Typical Onset	Required Action
Severe hepatotoxicity (including fatal liver failure)	~1 in 1,000–5,000	Usually within first 6 months; risk factors: pre-existing liver disease, alcohol, concomitant hepatotoxic drugs	Stop leflunomide immediately; initiate cholestyramine washout; monitor LFTs weekly until normalized; hepatology consultation if ALT >3× ULN or jaundice
Pancytopenia / agranulocytosis / thrombocytopenia	Rare	Variable; higher risk with concurrent myelosuppressive agents or recent methotrexate	Stop leflunomide; cholestyramine washout; supportive care including G-CSF if needed; evaluate for concomitant causes
Interstitial lung disease	Rare (potentially fatal)	Any time during therapy; may worsen pre-existing ILD	Discontinue immediately; initiate accelerated elimination; chest imaging; pulmonology referral; corticosteroids may be considered
Peripheral neuropathy (axonal, predominantly sensory)	Uncommon	Months to years; up to 18% of RA patients report paraesthesia from any cause	Evaluate with EMG/NCS; consider discontinuation — neuropathy may not be fully reversible; washout recommended
Stevens-Johnson syndrome / TEN / DRESS	Very rare	Days to weeks after initiation	Immediate discontinuation; accelerated elimination procedure; emergency dermatologic care
Skin ulcers	Uncommon (FDA label updated 2024)	Variable	Discontinue leflunomide if suspected; consider washout; assess wound healing before any decision to resume
Embryo-fetal toxicity	High risk if exposed	During pregnancy	Absolute contraindication; exclude pregnancy before treatment; cholestyramine washout mandatory before conception; verify teriflunomide <0.02 mg/L on 2 tests ≥14 days apart
Severe infections (including sepsis, opportunistic infections)	Uncommon	Any time	Do not start in active infection; stop leflunomide and washout if serious infection develops; screen for TB before initiation

Discontinuation Discontinuation Rates

Overall discontinuation due to adverse effects

~5% due to hepatotoxicity (LFT abnormalities)

Other reasons: diarrhea, rash, alopecia

1-year retention

~45–55% in real-world observational data

Key factor: Retention comparable to methotrexate and superior to other non-biologic DMARDs in long-term studies

Managing Hepatotoxicity — The Primary Safety Concern

Severe liver injury, including fatal cases, has prompted a boxed warning. Most cases occur within the first 6 months and involve patients with pre-existing risk factors (liver disease, alcohol use, concomitant hepatotoxic drugs). Monitor ALT at least monthly for the first 6 months, then every 6–8 weeks. For confirmed ALT 2–3× ULN: reduce to 10 mg/day and monitor closely. For ALT >3× ULN: stop leflunomide, start cholestyramine washout, and monitor weekly until normalized. If combined with methotrexate, follow monthly ALT with serum albumin per ACR guidelines. Advise patients to minimise alcohol consumption.

Int

Drug Interactions with Leflunomide

Leflunomide’s active metabolite teriflunomide is an inhibitor of CYP2C8, OAT3, BCRP, and OATP1B1/B3 transporters. It is also an inducer of CYP1A2. These properties underlie clinically significant interactions with several commonly used medications. Teriflunomide’s extremely long half-life means interactions may persist for weeks after stopping leflunomide.

MajorMethotrexate

MechanismAdditive hepatotoxicity and immunosuppression

EffectIncreased risk of liver enzyme elevation (ALT ≥3× ULN: 3.8% vs 0.8% on MTX alone) and pancytopenia

ManagementCombination is used under specialist supervision; start leflunomide at 10 mg/day without loading dose; monthly ALT + albumin mandatory; follow ACR MTX hepatotoxicity monitoring

FDA PI + Clinical Trial Data

MajorTeriflunomide (Aubagio)

MechanismSame active metabolite — additive exposure

EffectToxic teriflunomide levels

ManagementConcomitant use is contraindicated

FDA PI

MajorCholestyramine / Activated Charcoal

MechanismInterrupts enterohepatic recycling; binds teriflunomide in the GI tract

EffectRapid reduction of teriflunomide plasma levels (40% in 24 h, 49–65% by 48 h)

ManagementUsed therapeutically for drug elimination; avoid if continued leflunomide efficacy is intended

FDA PI

ModerateRosuvastatin

MechanismTeriflunomide inhibits BCRP and OATP1B1/B3 transporters, increasing rosuvastatin exposure

EffectRosuvastatin AUC may increase ~2.5-fold

ManagementCap rosuvastatin dose at 10 mg once daily when co-prescribed with leflunomide

FDA PI

ModerateCYP2C8 Substrates (paclitaxel, pioglitazone, repaglinide, rosiglitazone)

MechanismTeriflunomide inhibits CYP2C8 in vivo

EffectIncreased exposure of CYP2C8 substrates

ManagementMonitor for adverse effects; consider dose reduction of substrate drug

FDA PI

ModerateWarfarin

MechanismTeriflunomide may decrease INR via CYP1A2 induction affecting warfarin metabolism

EffectReduced anticoagulant effect; INR may decrease

ManagementMonitor INR closely when initiating, adjusting, or stopping leflunomide; warfarin dose increase may be needed

FDA PI

ModerateRifampin

MechanismCYP and transporter induction increases teriflunomide formation from leflunomide

Effect~40% increase in teriflunomide peak concentration with single co-administration

ManagementNo dose adjustment recommended per FDA PI; however, use caution as levels may continue to rise with chronic co-dosing

FDA PI

ModerateOral Contraceptives (ethinylestradiol, levonorgestrel)

MechanismTeriflunomide increases exposure of ethinylestradiol and levonorgestrel

EffectIncreased hormonal exposure; potential for increased estrogenic side effects

ManagementChoose an appropriate OCP formulation; consider low-dose preparations; effective contraception remains essential given teratogenicity

FDA PI

MinorCYP1A2 Substrates (duloxetine, alosetron, theophylline, tizanidine)

MechanismTeriflunomide induces CYP1A2, increasing metabolism of substrates

EffectDecreased exposure and potentially reduced efficacy of CYP1A2 substrates

ManagementMonitor clinical response; dose adjustment of substrate may be required

FDA PI

MinorLive Vaccines

MechanismImmunosuppression may allow replication of vaccine strains

EffectRisk of vaccine-associated infection; reduced vaccine immunogenicity

ManagementAvoid live vaccines during therapy and until teriflunomide levels are confirmed undetectable; inactivated vaccines are appropriate

FDA PI

Mon

Monitoring for Leflunomide

ALT (and AST) Baseline, then monthly × 6 months, then q6–8 weeks
Routine Critical monitoring parameter. If ALT 2–3× ULN: reduce to 10 mg/day. If ALT >3× ULN: stop leflunomide and start cholestyramine washout. If combined with MTX: monthly ALT + albumin per ACR guidelines
CBC with differential Baseline, then monthly × 6 months, then q6–8 weeks
Routine Screen for pancytopenia, agranulocytosis, thrombocytopenia; risk increased with concurrent myelosuppressive agents or recent DMARD switch without washout
Blood pressure Baseline, then regularly
Routine New or worsened hypertension in 2–5% of patients; treat before starting if BP >140/90 on two readings; monitor at each visit
Pregnancy test Baseline (mandatory)
Routine Exclude pregnancy in all females of reproductive potential before initiation; confirm effective contraception; washout required before conception
TB screening Baseline
Routine Screen for active and latent tuberculosis before starting leflunomide per FDA PI recommendations
Pulmonary symptoms Any new cough, dyspnoea, or fever
Trigger-based ILD is rare but potentially fatal; low threshold for chest imaging and pulmonary function testing; stop leflunomide and initiate washout if suspected
Peripheral neuropathy assessment If new paraesthesia or weakness
Trigger-based Evaluate with EMG/NCS; distinguish from RA-associated entrapment neuropathy; may not be fully reversible
Teriflunomide level During washout procedure
Trigger-based Confirm <0.02 mg/L on two separate tests at least 14 days apart after cholestyramine washout, particularly before conception or after serious toxicity

Contraindications & Cautions for Leflunomide

Absolute Contraindications

Pregnancy — teratogenic and embryolethal in animal studies; exclude pregnancy before initiating; mandatory washout if pregnancy occurs
Severe hepatic impairment — leflunomide is hepatically metabolized and can cause fatal liver injury
Pre-existing ALT >2× ULN — patients at increased risk for hepatotoxicity
Known hypersensitivity to leflunomide or any excipient
Current teriflunomide treatment — same active metabolite; additive exposure

Relative Contraindications (Specialist Input Recommended)

Active infection — do not start leflunomide until infection is resolved
Significant immunodeficiency — risk of severe or opportunistic infections
Pre-existing bone marrow suppression — additive myelosuppressive risk
Pre-existing interstitial lung disease — leflunomide may worsen ILD
Concurrent use of other hepatotoxic drugs — increased liver injury risk; if combined with MTX, requires enhanced monitoring

Use with Caution

Renal impairment — free fraction of M1 doubles in dialysis patients; no formal dose adjustment but increased vigilance required
Elderly patients — reduced renal and hepatic reserve; lower body weight may increase drug exposure
Alcohol use — additive hepatotoxicity risk; counsel to minimise or abstain
Recent or planned vaccination — avoid live vaccines; immunosuppressive effect persists until teriflunomide is eliminated

FDA Boxed Warning Embryo-Fetal Toxicity and Hepatotoxicity

Embryo-fetal toxicity: Teratogenicity and embryo-lethality occurred in animals at exposures below the human therapeutic level. Exclude pregnancy before initiation. Use effective contraception during treatment and during a washout procedure. If the patient becomes pregnant, stop leflunomide immediately and initiate the accelerated drug elimination procedure.

Hepatotoxicity: Severe liver injury, including fatal liver failure, has been reported. Most cases occurred within the first 6 months and in patients with multiple hepatotoxicity risk factors. Monitor ALT at least monthly for 6 months then every 6–8 weeks. Do not start leflunomide in patients with pre-existing liver disease or ALT >2× ULN. If ALT elevation >3× ULN occurs, stop leflunomide and start cholestyramine washout.

Patient Counselling for Leflunomide

Purpose of Therapy

Explain that leflunomide works by calming the overactive immune cells responsible for joint damage in rheumatoid arthritis. It is not a painkiller — it works to slow the disease itself. Full benefit develops over several weeks to months, and it is important to continue taking it even when feeling well. Regular blood tests are essential because the medication can affect the liver and blood counts, usually without any symptoms.

How to Take

Take leflunomide once daily, with or without food (taking with food may reduce stomach upset). Swallow the tablet whole. If a loading dose is prescribed (100 mg for 3 days), understand that this may cause more side effects initially but helps the drug work faster. Most patients start at 20 mg/day without a loading dose.

Pregnancy Prevention

Tell patientLeflunomide can cause serious birth defects and pregnancy loss. Both women and men must use effective contraception during treatment. Because the drug stays in the body for a very long time (up to 2 years), a special washout procedure is required before trying to conceive, followed by blood tests to confirm the drug has been adequately eliminated.

Call prescriberImmediately if you suspect pregnancy or if contraception has failed. Do not wait for a scheduled appointment.

Diarrhea

Tell patientDiarrhea is the most common side effect and occurs in up to 1 in 4 people. It is usually worst in the first few weeks and improves with time. Taking the tablet with food may help. Over-the-counter treatments like loperamide can be used. If the loading dose was used, diarrhea may be more pronounced initially.

Call prescriberIf diarrhea is severe, bloody, or persistent beyond 2–3 weeks despite treatment, or if it causes dehydration.

Liver Health

Tell patientLeflunomide can affect the liver, which is why regular blood tests are mandatory — monthly for the first 6 months. Minimise alcohol intake during treatment. Report any signs of liver problems promptly.

Call prescriberIf you develop yellowing of the skin or eyes, dark urine, unusual fatigue, nausea with upper abdominal pain, or loss of appetite.

Hair Changes

Tell patientSome patients notice diffuse hair thinning, which is usually mild. It typically stabilises after the first few months and is reversible if the drug is stopped or the dose is reduced.

Call prescriberIf hair loss is significant or distressing — a dose reduction from 20 mg to 10 mg may be considered.

Breathing Difficulties

Tell patientRarely, leflunomide can cause a lung reaction. This is treatable if detected early but can be serious if delayed.

Call prescriberUrgently if you develop a new persistent cough, unexplained shortness of breath, or fever.

Blood Test Compliance

Tell patientRegular blood tests (monthly for the first 6 months, then every 6–8 weeks) are not optional — they are essential for detecting liver or blood problems early, often before any symptoms appear. Do not skip scheduled blood tests.

Call prescriberIf you notice unusual bruising or bleeding, persistent sore throat, or extreme fatigue — these could indicate blood count changes.

Ref

Sources

Regulatory (PI / SmPC)

Arava (leflunomide) — Full Prescribing Information. Sanofi-Aventis U.S. LLC. Revised May 2025. DailyMed Primary source for approved indication, dosing (including loading dose guidance), boxed warnings, adverse reactions with incidence rates, drug interactions, and washout protocol.
Arava (leflunomide) — FDA Label 2024 revision. FDA Label PDF Contains 2024 label update adding skin ulcers warning and updated guidance on loading dose decisions based on risk assessment.

Key Clinical Trials & Systematic Reviews

Strand V, Cohen S, Schiff M, et al. Treatment of active rheumatoid arthritis with leflunomide compared with placebo and methotrexate. Arch Intern Med. 1999;159(21):2542-2550. DOI US Phase III trial (Trial 1) comparing leflunomide 20 mg to MTX and placebo in RA; established leflunomide’s efficacy including radiographic outcomes.
Emery P, Breedveld FC, Lemmel EM, et al. A comparison of the efficacy and safety of leflunomide and methotrexate for the treatment of rheumatoid arthritis. Rheumatology (Oxford). 2000;39(6):655-665. DOI European Phase III trial (Trial 2) demonstrating comparable efficacy of leflunomide and methotrexate in RA over 12 months.
Smolen JS, Kalden JR, Scott DL, et al. Efficacy and safety of leflunomide compared with placebo and sulphasalazine in active rheumatoid arthritis. Lancet. 1999;353(9149):259-266. DOI European Phase III trial (Trial 3) comparing leflunomide to sulfasalazine and placebo; source for comparative adverse event rates.
Schultz M, Keeling SO, Katz SJ, et al. Clinical effectiveness and safety of leflunomide in inflammatory arthritis: a report from the RAPPORT database. Clin Rheumatol. 2017;36(7):1471-1478. DOI Real-world observational data on leflunomide retention, effectiveness, and adverse event rates in clinical practice.

Guidelines

Fraenkel L, Bathon JM, England BR, et al. 2021 American College of Rheumatology guideline for the treatment of rheumatoid arthritis. Arthritis Care Res. 2021;73(7):924-939. DOI ACR RA guideline positioning leflunomide as an alternative monotherapy when MTX is contraindicated and in combination DMARD strategies.
Smolen JS, Landewe RBM, Bijlsma JWJ, et al. EULAR recommendations for the management of rheumatoid arthritis with synthetic and biological disease-modifying antirheumatic drugs: 2022 update. Ann Rheum Dis. 2023;82(1):3-18. DOI EULAR RA management recommendations including leflunomide as a csDMARD option in the treatment algorithm.

Mechanistic / Basic Science

Breedveld FC, Dayer JM. Leflunomide: mode of action in the treatment of rheumatoid arthritis. Ann Rheum Dis. 2000;59(11):841-849. DOI Comprehensive review of leflunomide’s mechanism via DHODH inhibition and its selective effects on activated lymphocytes.

Pharmacokinetics / Special Populations

Rozman B. Clinical pharmacokinetics of leflunomide. Clin Pharmacokinet. 2002;41(6):421-430. DOI Key PK reference for teriflunomide including half-life, protein binding, Vd, bioavailability, and enterohepatic recycling data.
Alcorn N, Saunders S, Madhok R. Benefit-risk assessment of leflunomide: an appraisal of leflunomide in rheumatoid arthritis 10 years after licensing. Drug Saf. 2009;32(12):1123-1134. DOI 10-year post-licensing review of leflunomide safety including hepatotoxicity, ILD, and neuropathy data with clinical practice context.
Jones PB, White DH. Reappraisal of the clinical use of leflunomide in rheumatoid arthritis and psoriatic arthritis. Open Access Rheumatol. 2010;2:53-71. DOI Comprehensive reappraisal covering clinical efficacy, safety profile, loading dose controversies, combination strategies, and real-world retention data.
Suissa S, Hudson M, Ernst P. Leflunomide use and the risk of interstitial lung disease in rheumatoid arthritis. Arthritis Rheum. 2006;54(5):1435-1439. DOI Epidemiologic study quantifying ILD risk with leflunomide, informing clinical monitoring recommendations for pulmonary toxicity.