My Dashboard
Courses
Articles Evidence Reviews Practice Updates Cases News Presentations
About Us
My Dashboard
Drug Monograph

Lupkynis (Voclosporin)

voclosporin

Calcineurin Inhibitor Immunosuppressant · Oral Capsule
Pharmacokinetic Profile
Half-Life
~7 h (effect-indicative); steady state in 6 days
Metabolism
CYP3A4 (sensitive substrate)
Protein Binding
97%; extensive RBC partitioning
Bioavailability
Estimated ~57% (oral, fasted); reduced with food
Volume of Distribution
2,154 L (Vss/F)
Clinical Information
Drug Class
Calcineurin inhibitor (cyclosporine analogue)
Available Doses
7.9 mg capsules (3 capsules = 23.7 mg)
Route
Oral
Renal Adjustment
eGFR-based; not recommended if baseline eGFR ≤45
Hepatic Adjustment
Mild-moderate: 15.8 mg BID; Severe: avoid
Pregnancy
Avoid (contains ethanol; embryotoxic in animals)
Lactation
Detected in breast milk; risk-benefit assessment
Therapeutic Index
Narrow (calcineurin inhibitor)
Black Box Warning
Yes — Malignancies & Serious Infections
Generic Available
No
Rx

Indications

IndicationApproved PopulationTherapy TypeStatus
Active lupus nephritisAdults (≥18 years)Combination with MMF + corticosteroidsFDA Approved

Voclosporin is the first oral therapy approved specifically for lupus nephritis in the United States (January 22, 2021). It is a second-generation calcineurin inhibitor with a dual mechanism: immunosuppression through calcineurin inhibition and direct podocyte stabilisation. The 2024 ACR lupus nephritis guideline and 2023 EULAR recommendations both support voclosporin as an add-on option for proliferative lupus nephritis alongside MMF and low-dose glucocorticoids. Safety and efficacy have not been established in combination with cyclophosphamide, and this combination is not recommended.

Off-Label Uses

Non-lupus glomerulonephritis (e.g., FSGS, membranous nephropathy): Preclinical rationale exists based on podocyte-stabilising properties; no clinical trials in these populations. Evidence quality: Very low.

Renal transplant rejection prophylaxis: Early-phase studies were conducted in this population but voclosporin was not pursued for transplant indications. Evidence quality: Low.

Dose

Voclosporin Dosing

Standard Adult Dosing

Clinical ScenarioStarting DoseMaintenance DoseMaximum DoseNotes
Active lupus nephritis — standard regimen23.7 mg (3 capsules) PO BID23.7 mg PO BID (adjust per eGFR)23.7 mg BIDTake fasted, 12 h apart (min 8 h); swallow whole
Use with MMF 2 g/day + corticosteroid taper
Mild-moderate hepatic impairment (Child-Pugh A or B)15.8 mg (2 capsules) PO BID15.8 mg PO BID15.8 mg BIDDose reduction required
Severe hepatic impairment (Child-Pugh C): avoid use
Severe renal impairment at baseline (eGFR ≤45 used only if benefit > risk)15.8 mg (2 capsules) PO BID15.8 mg PO BID15.8 mg BIDNot recommended if baseline eGFR ≤45 unless benefit exceeds risk
Not studied in this population
With moderate CYP3A4 inhibitor (verapamil, fluconazole, diltiazem)15.8 mg AM / 7.9 mg PM15.8 mg AM / 7.9 mg PM15.8 mg AM / 7.9 mg PMAsymmetric dosing due to CYP3A4 interaction
Strong CYP3A4 inhibitors are CONTRAINDICATED

eGFR-Based Dose Adjustments

eGFR Change from BaselineActionFollow-UpRe-escalationNotes
eGFR <60 AND reduced >20% but <30%Reduce by 7.9 mg BIDReassess eGFR in 2 weeksIncrease by 7.9 mg BID when eGFR ≥80% of baseline; do not exceed starting doseIf still >20% reduced at 2 wk, reduce again by 7.9 mg BID
eGFR <60 AND reduced ≥30%DiscontinueReassess eGFR in 2 weeksConsider restarting at 7.9 mg BID only if eGFR returns to ≥80% of baseline71% of GFR decreases occurred within first 3 months
BP >165/105 mmHg or hypertensive emergencyDiscontinueInitiate antihypertensive therapyReassess after BP controlledDo not initiate voclosporin if baseline BP >165/105
Clinical Pearl: Practical Dosing Tips

Each capsule is 7.9 mg, so the standard dose is 3 capsules twice daily. Capsules must be swallowed whole on an empty stomach. Avoid grapefruit and grapefruit juice throughout treatment (CYP3A4 inhibition). If a dose is missed, take it within 4 hours; beyond 4 hours, skip to the next scheduled dose. If no therapeutic benefit is observed by 24 weeks, consider discontinuation. Unlike traditional calcineurin inhibitors in transplant, routine therapeutic drug monitoring is not required for voclosporin in lupus nephritis — dose adjustments are eGFR-driven rather than trough-concentration-driven.

PK

Pharmacology

Mechanism of Action

Voclosporin is a next-generation calcineurin inhibitor derived from cyclosporine A through chemical modification at the amino acid-1 position. Like cyclosporine, it forms a complex with cyclophilin A that binds to and inhibits calcineurin, a calcium- and calmodulin-dependent phosphatase. This prevents dephosphorylation of NFAT (Nuclear Factor of Activated T-Cells), blocking T-cell activation, proliferation, and pro-inflammatory cytokine production. However, voclosporin exhibits approximately 3–4-fold greater potency for calcineurin inhibition compared to cyclosporine, with more predictable pharmacokinetics and improved metabolic stability. Crucially for lupus nephritis, voclosporin also directly stabilises podocyte actin cytoskeleton and stress fibres, providing a non-immunological renal-protective effect that complements its immunosuppressive action. This dual mechanism — immunosuppression plus podocyte stabilisation — distinguishes voclosporin from traditional calcineurin inhibitors in the lupus nephritis setting.

ADME Profile

ParameterValueClinical Implication
AbsorptionOral; median Tmax 1.5 h (range 1–4 h) fasted; bioavailability estimated ~57% (comparable to conventional cyclosporine); food significantly reduces Cmax and AUCMust be taken on empty stomach consistently; no loading dose needed; linear PK over therapeutic range supports fixed dosing without routine TDM
DistributionVss/F = 2,154 L; protein binding 97%; partitions extensively into red blood cells (concentration- and temperature-dependent)Very large apparent Vd reflects extensive tissue distribution; RBC partitioning means whole-blood concentrations differ significantly from plasma levels
MetabolismPredominantly CYP3A4 (sensitive substrate); major metabolite (IM9) = 16.7% of total exposure, ~8-fold less potent than parent; pharmacologic activity mainly attributed to parent moleculeStrong CYP3A4 inhibitors contraindicated; moderate inhibitors require dose reduction. Improved metabolic profile vs cyclosporine — single dominant metabolite with low activity reduces metabolite-driven toxicity
EliminationEffect-indicative t½ ~7 h; steady state in 6 days with ~2-fold accumulation; 92.7% recovered in faeces (5% unchanged), 2.1% in urine12-hourly dosing maintains therapeutic exposure; predominantly faecal elimination means renal impairment has modest effect on PK (1.5–1.7-fold increase in severe RI)
SE

Side Effects

≥10%Very Common
Adverse EffectIncidenceClinical Note
GFR decreased26% (vs 9% placebo)Most common AE; 71% occurred within first 3 months; 78% resolved/improved with dose modification; 14% led to permanent discontinuation
Hypertension19% (vs 9% placebo)CNI class effect; monitor BP q2wk for first month then as indicated; may require antihypertensive therapy
Diarrhea19% (vs 13% placebo)Evaluate for concurrent MMF contribution; manageable with supportive care
Headache15% (vs 8% placebo)Part of neurotoxicity spectrum; distinguish from PRES if severe or accompanied by visual changes
Anemia12% (vs 6% placebo)Multifactorial in LN population; monitor CBC; consider PRCA in refractory cases
Cough11% (vs 2% placebo)Notable excess over placebo; evaluate for infection
Urinary tract infection10% (vs 6% placebo)Immunosuppression-related; treat promptly
3–10%Common
Adverse EffectIncidenceClinical Note
Upper abdominal pain7% (vs 2%)Evaluate for GI pathology; consider MMF contribution
Dyspepsia6% (vs 3%)Take on empty stomach as directed
Alopecia6% (vs 3%)Distinguish from lupus-related hair loss
Renal impairment6% (vs 3%)Part of nephrotoxicity spectrum; eGFR-guided dose adjustment critical
Abdominal pain5% (vs 2%)Assess for pancreatitis if severe
Mouth ulceration4% (vs 1%)May overlap with MMF-associated stomatitis
Fatigue4% (vs 1%)Assess for anaemia and disease activity contribution
Tremor3% (vs 1%)CNI neurotoxicity; dose-related; consider reduction
Acute kidney injury3% (vs 1%)Differentiate from LN flare; consider nephrotoxicity workup
Decreased appetite3% (vs 1%)Monitor nutritional status
SeriousSerious Adverse Effects
Adverse EffectEstimated FrequencyTypical OnsetRequired Action
Serious infections (pneumonia, gastroenteritis, UTI)11.9 per 100 PY (vs 12.0 placebo)Any timeBoxed warning; monitor closely; consider interruption for new serious infections
Nephrotoxicity (acute and/or chronic)37.1 per 100 PY (GFR decreased; vs 11.3 placebo)71% within first 3 monthsFollow eGFR-based dose algorithm; discontinue if ≥30% decrease from baseline with eGFR <60; persistent decrease warrants chronic CNI nephrotoxicity evaluation
Serious hypertension2.1 per 100 PY (vs 0.4 placebo)Any time; monitor closely in first monthDiscontinue if BP >165/105 or hypertensive emergency; initiate antihypertensive therapy
Serious neurotoxicity (PRES, seizure, delirium)3.9 per 100 PY (vs 0.9 placebo)VariableMonitor for neurological symptoms; reduce dose or discontinue if neurotoxicity occurs; MRI if PRES suspected
Malignancy (lymphoma, skin cancer)1.7 per 100 PY (vs 0 placebo)Risk increases with durationBoxed warning; examine skin regularly; advise sun protection (SPF ≥30); consider risk-benefit of continuation
Hyperkalemia2.1 per 100 PY (vs 0.8 placebo)Any time; higher risk with ACEi/ARBs/K-sparing diureticsMonitor serum potassium periodically; avoid or closely monitor concomitant agents that raise potassium
QTc prolongation0.9 per 100 PYDose-dependentMonitor ECG and electrolytes in high-risk patients; avoid concomitant QT-prolonging drugs
Opportunistic infections (CMV, disseminated HZ)1.3 per 100 PY (vs 0.9 placebo)Any timeScreen for and treat promptly; consider prophylaxis in high-risk patients
DiscontinuationDiscontinuation Data
GFR Decrease → Permanent Discontinuation
14% (10/70 patients with GFR decrease)
Of those who discontinued, 40% had eGFR recovery within 3 months. 78% of patients with GFR decreases resolved or improved with dose modification alone.
AURORA 2 Long-Term Completion
77.6% completed 36 months total treatment
90 of 116 voclosporin patients completed the 3-year extension; annual AE incidence decreased each successive year.
Managing Nephrotoxicity

GFR decrease is the most common adverse reaction (26% vs 9% placebo) and the most critical to manage. Most episodes occur early (71% within the first 3 months), are hemodynamic in nature, and respond to protocol-guided dose reduction. The key is adherence to the eGFR monitoring schedule: every 2 weeks for the first month, every 4 weeks through year 1, and quarterly thereafter. Prompt dose reduction for >20% eGFR decline prevents progression to chronic CNI nephrotoxicity. Persistent eGFR decline despite dose adjustment should prompt histological evaluation to distinguish CNI nephrotoxicity from LN progression.

Int

Drug Interactions

Voclosporin is a sensitive CYP3A4 substrate, a weak P-gp inhibitor, and an inhibitor of OATP1B1/1B3 transporters. These properties create clinically significant interactions that require close attention. Unlike traditional CNIs in transplant settings, voclosporin in lupus nephritis does not use routine therapeutic drug monitoring — instead, interaction management relies on dose adjustments and avoidance.

MajorStrong CYP3A4 Inhibitors (ketoconazole, itraconazole, clarithromycin)
MechanismMarkedly increased voclosporin exposure via CYP3A4 inhibition
EffectSignificantly increased nephrotoxicity risk
ManagementCONTRAINDICATED. Use alternative antifungals/antibiotics (e.g., azithromycin instead of clarithromycin)
FDA PI — Contraindication
MajorGrapefruit / Grapefruit Juice
MechanismIntestinal CYP3A4 inhibition increasing voclosporin absorption
EffectUnpredictable increases in drug exposure
ManagementAvoid completely throughout treatment
FDA PI
MajorStrong/Moderate CYP3A4 Inducers (rifampin, phenytoin, carbamazepine, St. John’s wort)
MechanismDecreased voclosporin exposure through CYP3A4 induction
EffectReduced therapeutic efficacy
ManagementAvoid co-administration
FDA PI
ModerateModerate CYP3A4 Inhibitors (verapamil, fluconazole, diltiazem)
MechanismModerately increased voclosporin exposure
EffectIncreased risk of nephrotoxicity and other dose-dependent toxicities
ManagementReduce to 15.8 mg AM / 7.9 mg PM. Note: verapamil and diltiazem may also be used as antihypertensives — be aware of dual interaction
FDA PI
ModerateStatins (simvastatin, atorvastatin — OATP1B1 substrates)
MechanismVoclosporin inhibits OATP1B1/1B3 increasing statin exposure (simvastatin acid Cmax ↑3.1-fold, AUC ↑1.8-fold)
EffectIncreased risk of myopathy and rhabdomyolysis
ManagementLimit simvastatin to 20 mg/day (40 mg if previously tolerated 80 mg). Monitor for myopathy symptoms with any statin. Reduce statin dose per individual statin PI
FDA PI — Clinical study
ModerateP-gp Substrates with Narrow Therapeutic Index (digoxin, dabigatran)
MechanismVoclosporin is a weak P-gp inhibitor increasing exposure of P-gp substrates
EffectIncreased toxicity risk for narrow-TI P-gp substrates
ManagementReduce dosage of narrow-TI P-gp substrates as per their individual PI
FDA PI
Mon

Monitoring

  • eGFRBaseline, q2wk ×1 mo, q4wk ×1 yr, then quarterly
    Routine    Most critical parameter. Establish accurate baseline before starting. Dose-adjust per eGFR algorithm. GFR decreased in 26% of patients vs 9% placebo. Most reversible with early intervention.
  • Blood pressureBaseline, q2wk ×1 mo, then as indicated
    Routine    Hypertension in 19% vs 9% placebo. Do not initiate if BP >165/105. Discontinue if hypertensive emergency. Note: diltiazem/verapamil used as antihypertensives also require voclosporin dose reduction.
  • Serum potassiumBaseline, periodically during treatment
    Routine    Hyperkalemia (2.1 per 100 PY vs 0.8 placebo). Higher risk with ACE inhibitors, ARBs, potassium-sparing diuretics.
  • LN disease activityEvery 3–6 months
    Routine    Monitor UPCR, serum albumin, complement, anti-dsDNA. Target UPCR ≤0.5 mg/mg. If no therapeutic benefit by 24 weeks, consider discontinuation.
  • Infection surveillanceEvery visit
    Routine    Infections reported in 135.2 per 100 PY (vs 107.4 placebo). Screen for URI, UTI, herpes zoster, opportunistic infections (CMV). Boxed warning for serious infections.
  • Skin examinationAt initiation, then annually
    Routine    Boxed warning for malignancy. CNI use increases risk of skin cancers and lymphoma. Advise sun avoidance, protective clothing, broad-spectrum SPF ≥30.
  • Neurological statusIf symptoms arise
    Trigger-based    Neurotoxicity (including PRES, seizure, tremor) reported at 38.9 per 100 PY vs 21.6 placebo. Evaluate new headache, visual changes, confusion, or tremor promptly.
  • ECGAt baseline in high-risk patients
    Trigger-based    QTc prolongation is dose-dependent. Monitor in patients with bradycardia, hypokalemia/hypomagnesemia, congenital long QT, or on other QT-prolonging medications.
CI

Contraindications & Cautions

Absolute Contraindications

  • Concomitant use of strong CYP3A4 inhibitors (ketoconazole, itraconazole, clarithromycin): Significantly increases voclosporin exposure, raising the risk of acute and chronic nephrotoxicity.
  • History of serious or severe hypersensitivity reaction (including anaphylaxis) to voclosporin or any excipients.

Relative Contraindications (Specialist Input Recommended)

  • Baseline eGFR ≤45 mL/min/1.73 m²: Not recommended unless benefit exceeds risk; not studied in this population. If used, start at 15.8 mg BID.
  • Baseline BP >165/105 mmHg or hypertensive emergency: Do not initiate voclosporin until BP is controlled.
  • Severe hepatic impairment (Child-Pugh C): Use is not recommended.
  • Concomitant cyclophosphamide: Safety and efficacy not established with this combination.

Use with Caution

  • Pregnancy: Avoid use. The formulation contains dehydrated ethanol (21.6 mg per capsule, 129.4 mg total daily dose). Embryotoxic and fetocidal in animal studies at 15x MRHD. MMF co-administration also carries independent fetal harm risk.
  • Known malignancy risk factors: CNIs increase the risk of lymphoma and skin cancers (boxed warning). Use the lowest effective dose for the shortest duration needed.
  • Risk of hyperkalemia: Use caution with potassium-sparing diuretics, ACE inhibitors, and ARBs.
  • Geriatric patients: No adequate data; use with caution.
FDA Boxed Warning Malignancies and Serious Infections

Increased risk for developing malignancies and serious infections with voclosporin or other immunosuppressants that may lead to hospitalisation or death. Lymphomas and other malignancies, particularly of the skin, may occur. The risk appears to be related to the intensity and duration of immunosuppression rather than to any specific agent. Serious infections, including bacterial, viral, fungal, and protozoal infections (including opportunistic infections), have been reported and may be fatal.

Pt

Patient Counselling

Purpose of Therapy

Voclosporin is a capsule taken twice daily to treat active lupus nephritis (kidney inflammation caused by lupus). It works by calming the overactive immune system and directly protecting the kidney’s filtering cells. It is always used together with mycophenolate and low-dose steroids. The goal is to reduce protein in the urine, protect kidney function, and prevent kidney damage. Clinical trials showed that patients receiving voclosporin were nearly twice as likely to achieve a complete renal response compared to standard therapy alone.

How to Take

Take 3 capsules (23.7 mg) twice daily, approximately 12 hours apart, on an empty stomach. Swallow capsules whole — do not open, crush, or chew them. Avoid grapefruit and grapefruit juice entirely while on treatment. If you miss a dose and it has been less than 4 hours, take it right away. If more than 4 hours have passed, skip to your next scheduled dose — never double up.

Kidney Function Monitoring
Tell patientYour kidney function will be checked frequently with blood tests, especially in the first few months. The dose may be lowered or the medicine stopped temporarily if kidney function changes. Most changes are reversible with dose adjustment. It is critical to attend all scheduled blood tests.
Call prescriberIf you notice decreased urine output, unusual swelling, or significant weight gain — these may signal worsening kidney function.
Blood Pressure
Tell patientVoclosporin can raise blood pressure. Your blood pressure will be checked regularly, especially during the first month. You may need medication to control it. If you are prescribed diltiazem or verapamil for blood pressure, your voclosporin dose will need to be reduced.
Call prescriberIf you experience severe headache, chest pain, visual changes, or nosebleed — these may indicate dangerously high blood pressure.
Infection Risk & Cancer Screening
Tell patientVoclosporin lowers your immune defences, increasing infection risk. Practice good hand hygiene and avoid close contact with sick individuals. Live vaccines should not be given during treatment. Prolonged immunosuppression also increases the risk of certain cancers, especially skin cancer. Use sunscreen (SPF 30+), wear protective clothing, and avoid tanning beds.
Call prescriberReport fever, chills, persistent cough, painful urination, unusual skin changes, lumps, or sores that do not heal.
Drug & Food Interactions
Tell patientMany medicines interact with voclosporin. Always tell your prescriber before starting any new medication, including over-the-counter products and supplements. Grapefruit and grapefruit juice must be avoided completely. Certain antifungals and antibiotics cannot be taken with voclosporin.
Call prescriberBefore starting any new medication, including herbal supplements (St. John’s wort is specifically not allowed).
Pregnancy & Contraception
Tell patientVoclosporin should be avoided during pregnancy. The capsules contain alcohol and the drug caused harm in animal studies. Additionally, mycophenolate (which you take alongside voclosporin) is known to cause birth defects. Use effective contraception during treatment.
Call prescriberInform your prescriber immediately if you become pregnant, suspect pregnancy, or are planning a pregnancy.
Ref

Sources

Regulatory (PI / SmPC)
  1. Aurinia Pharma U.S., Inc. LUPKYNIS (voclosporin) prescribing information. Revised October 2025. FDA LabelPrimary source for all dosing, safety, eGFR adjustment algorithms, pharmacokinetic, and clinical trial data in this monograph.
Key Clinical Trials
  1. Rovin BH, Teng YKO, Ginzler EM, et al. Efficacy and safety of voclosporin versus placebo for lupus nephritis (AURORA 1): a double-blind, randomised, multicentre, placebo-controlled, phase 3 trial. Lancet. 2021;397(10289):2070-2080. doi:10.1016/S0140-6736(21)00578-XPivotal Phase 3 trial: CRR at 52 weeks 40.8% vs 22.5% placebo (OR 2.7; P<0.001) with background MMF + low-dose steroids.
  2. Saxena A, Ginzler EM, Gibson K, et al. Safety and efficacy of long-term voclosporin treatment for lupus nephritis in the phase 3 AURORA 2 clinical trial. Arthritis Rheumatol. 2024;76(1):59-67. doi:10.1002/art.426573-year extension data showing sustained efficacy and consistent long-term safety; 20.1% sustained CRR with voclosporin vs 11.8% placebo.
  3. Rovin BH, Solomons N, Engela L, et al. A randomized, controlled double-blind study comparing the efficacy and safety of dose-ranging voclosporin with placebo in achieving remission in patients with active lupus nephritis (AURA-LV). Kidney Int. 2019;95(1):219-231. doi:10.1016/j.kint.2018.08.025Phase 2 trial establishing dose selection (23.7 mg BID); CRR at 24 weeks significantly higher with low-dose voclosporin.
Guidelines
  1. Fanouriakis A, Kostopoulou M, Andersen J, et al. EULAR recommendations for the management of systemic lupus erythematosus: 2023 update. Ann Rheum Dis. 2024;83(1):15-29. doi:10.1136/ard-2023-224762EULAR guideline supporting voclosporin or belimumab as add-on to MMF for active proliferative lupus nephritis.
  2. Sammaritano LR, Askanase A, Bermas BL, et al. 2024 American College of Rheumatology (ACR) guideline for the screening, treatment, and management of lupus nephritis. Arthritis Rheumatol. 2025;77(9):1115-1135. doi:10.1002/art.432122024 ACR lupus nephritis guideline recommending triple therapy (MMF + voclosporin or belimumab + steroids) for proliferative LN.
  3. Rovin BH, Ayoub IM, Chan TM, et al. KDIGO 2024 clinical practice guideline for the management of lupus nephritis. Kidney Int. 2024;105(1 Suppl):S1-S69. doi:10.1016/j.kint.2023.09.002KDIGO guideline endorsing voclosporin-containing triple therapy for Class III/IV LN alongside MMF and glucocorticoids.
Mechanistic / Basic Science
  1. Kuglstatter A, Mueller F, Kusber R, et al. Structural basis for the cyclophilin A binding affinity and immunosuppressive potency of E-ISA247 (voclosporin). Acta Crystallogr D Biol Crystallogr. 2011;67(Pt 2):119-123. doi:10.1107/S0907444910051905X-ray crystallography revealing how the amino acid-1 modification in voclosporin enhances cyclophilin A binding and calcineurin inhibition.
  2. Faul C, Donnelly M, Merscher-Gomez S, et al. The actin cytoskeleton of kidney podocytes is a direct target of the antiproteinuric effect of cyclosporine A. Nat Med. 2008;14(9):931-938. doi:10.1038/nm.1857Foundational study demonstrating that calcineurin inhibitors protect podocyte cytoskeleton independent of immunosuppression, supporting voclosporin’s dual mechanism.
Pharmacokinetics / Special Populations
  1. Huizinga RB, Yahya R, Engel S, et al. Population pharmacokinetics of voclosporin in patients with lupus nephritis. Clin Pharmacokinet. 2022;61(12):1737-1751. doi:10.1007/s40262-022-01179-2Population PK analysis confirming predictable voclosporin pharmacokinetics in LN with no clinically meaningful effect of age, sex, race, or body weight.
  2. Ling SY, Huizinga RB, Mayo PR, et al. Clinical pharmacokinetics and pharmacodynamics of voclosporin. Clin Pharmacokinet. 2023;62(5):633-654. doi:10.1007/s40262-023-01246-2Comprehensive PK/PD review: effect-indicative t½ ~7 h, 97% protein binding, Vss/F 2,154 L, CYP3A4 sensitivity, and exposure-response relationships.