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Drug Monograph

Brukinsa (Zanubrutinib)

zanubrutinib

Bruton Tyrosine Kinase (BTK) Inhibitor — Second Generation · Oral (capsules, tablets) · Hematology-Oncology
Pharmacokinetic Profile
Half-Life
2–4 hours
Metabolism
CYP3A4 (primary); no major active metabolites
Protein Binding
91–95%
Bioavailability
~15% (estimated, PBPK model); food does not significantly affect exposure
Volume of Distribution
~881 L (apparent Vss)
Clinical Information
Drug Class
Second-Generation BTK Inhibitor (selective, covalent)
Available Doses
Capsules: 80 mg; Tablets: 160 mg (scored)
Route
Oral (160 mg BID or 320 mg QD)
Renal Adjustment
Not required (mild/moderate); unknown in severe/dialysis
Hepatic Adjustment
Severe: reduce to 80 mg BID; no adjustment mild/moderate
Pregnancy
Fetal harm — cardiac malformations in animal studies at 5x human exposure
Lactation
Not recommended; avoid for 2 weeks after last dose
Schedule / Legal Status
Prescription only (not a controlled substance)
Generic Available
No
Rx

Indications

IndicationApproved PopulationTherapy TypeStatus
CLL or SLLAdultsMonotherapyFDA Approved
Waldenström macroglobulinemia (WM)AdultsMonotherapyFDA Approved
Previously treated MCLAdults (≥1 prior therapy)MonotherapyAccelerated Approval
Relapsed/refractory MZLAdults (≥1 anti-CD20 regimen)MonotherapyAccelerated Approval
Relapsed/refractory FLAdults (≥2 lines of systemic therapy)Combination with obinutuzumabAccelerated Approval

Zanubrutinib is the most broadly approved BTK inhibitor in the United States, spanning five haematologic malignancy indications. Its design emphasises maximising BTK receptor occupancy across disease-relevant tissues while minimising off-target kinase inhibition. In the ALPINE trial, zanubrutinib demonstrated superior PFS compared with ibrutinib in relapsed/refractory CLL/SLL, and in ASPEN it showed a favourable cardiovascular safety profile versus ibrutinib in WM. Zanubrutinib is the current US market share leader for BTK inhibitors in new CLL patient starts across all lines of therapy. The MCL, MZL, and FL indications remain under accelerated approval pending confirmatory trial data.

Off-Label Uses

Central nervous system lymphoma: Early clinical data and case series suggest BTK inhibitor activity in CNS lymphoma given zanubrutinib’s tissue penetration. Evidence quality: Low (early-phase/case series).

Chronic GVHD: Not FDA-approved for cGVHD (ibrutinib holds this indication), though BTK inhibition has mechanistic rationale. Evidence quality: Very low (extrapolation from class).

Dose

Dosing

Adult Dosing by Clinical Scenario

Clinical ScenarioStarting DoseMaintenance DoseMaximum DoseNotes
CLL/SLL — any line, monotherapy160 mg BID or 320 mg QD160 mg BID or 320 mg QD320 mg/dayContinue until progression or intolerance
Flexible dosing schedule; take with or without food
Waldenström macroglobulinemia — monotherapy160 mg BID or 320 mg QD160 mg BID or 320 mg QD320 mg/dayContinue until progression or intolerance
ASPEN trial used 160 mg BID; either schedule acceptable
Previously treated MCL — monotherapy160 mg BID or 320 mg QD160 mg BID or 320 mg QD320 mg/dayAfter ≥1 prior therapy; accelerated approval
Asymptomatic lymphocytosis is expected and not a reason to discontinue
R/R MZL — monotherapy160 mg BID or 320 mg QD160 mg BID or 320 mg QD320 mg/dayAfter ≥1 anti-CD20 regimen
Accelerated approval indication
R/R FL — with obinutuzumab160 mg BID160 mg BID320 mg/dayAfter ≥2 systemic therapy lines; obinutuzumab 1000 mg IV per schedule
ROSEWOOD trial protocol; zanubrutinib continues beyond obinutuzumab
Severe hepatic impairment80 mg BID80 mg BID160 mg/day50% dose reduction
AUC 1.6-fold higher (total), 2.9-fold higher (unbound) vs healthy controls

Dose Modifications for CYP3A Interactions

Clinical ScenarioStarting DoseMaintenance DoseMaximum DoseNotes
With moderate CYP3A inhibitor80 mg BID80 mg BID160 mg/dayResume standard dose after inhibitor cleared
With strong CYP3A inhibitor (most agents)80 mg QD80 mg QD80 mg/dayApplies to most strong CYP3A4 inhibitors
Specific adjustments for posaconazole and clarithromycin — see PI Table 1
With unavoidable moderate CYP3A inducer320 mg BID320 mg BID640 mg/dayDoubled dose to compensate for reduced exposure
Avoid strong CYP3A inducers entirely
Clinical Pearl: Flexible Dosing Schedule

Zanubrutinib is the only approved BTK inhibitor offering a choice between twice-daily (160 mg BID) and once-daily (320 mg QD) dosing. Both schedules achieve comparable daily AUC exposure and sustained BTK occupancy. The BID schedule provides more consistent plasma levels throughout the day, while QD dosing may improve adherence for some patients. Unlike acalabrutinib capsules, zanubrutinib absorption is not significantly affected by proton pump inhibitors, simplifying management for patients on acid-reducing therapy.

Clinical Pearl: Dose Modification for Adverse Reactions

For haematologic toxicities (Grade 3/4 febrile neutropenia, sustained Grade 4 cytopenias, or significant thrombocytopenic bleeding): first occurrence — interrupt then resume at full dose; second — resume at 80 mg BID or 160 mg QD; third — resume at 80 mg QD; fourth — discontinue permanently. Non-haematologic Grade 3/4 toxicities follow the same stepwise pattern.

PK

Pharmacology

Mechanism of Action

Zanubrutinib is a potent, second-generation covalent inhibitor of Bruton tyrosine kinase (BTK) designed to maximise BTK occupancy in disease-relevant tissues while minimising off-target kinase inhibition. It forms a covalent bond with cysteine-481 in the BTK active site, irreversibly blocking BTK enzymatic activity. This disrupts B-cell receptor signalling cascades essential for malignant B-cell proliferation, survival, adhesion, and tissue homing. Compared with ibrutinib, zanubrutinib demonstrates significantly less inhibition of EGFR, ITK, TEC, and Src family kinases at therapeutic concentrations, which accounts for its improved cardiovascular safety profile — particularly its lower rates of atrial fibrillation and hypertension. In the head-to-head ALPINE trial against ibrutinib in relapsed/refractory CLL, zanubrutinib showed both superior efficacy (PFS) and lower cardiac toxicity, validating the clinical benefit of its selectivity profile. Zanubrutinib produces the expected BTK-inhibitor-class redistribution lymphocytosis in CLL and MCL, which should not be mistaken for disease progression.

ADME Profile

ParameterValueClinical Implication
AbsorptionRapid; median Tmax ~2 h; estimated oral bioavailability ~15% (PBPK); dose-proportional increase in AUC from 40–320 mg; food does not clinically affect exposureNo food restrictions; PPIs do not significantly affect absorption (key advantage over acalabrutinib capsules)
DistributionApparent Vss ~881 L; protein binding 91–95%; blood-to-plasma ratio 0.7–0.8Very high apparent volume indicates extensive tissue distribution; lower protein binding than ibrutinib or acalabrutinib may contribute to broader tissue exposure
MetabolismHepatic primarily via CYP3A4; no major active circulating metabolites; also induces CYP2B6 and CYP2C8Strong CYP3A4 dependence; unlike acalabrutinib, no pharmacologically active metabolite with independent half-life
Eliminationt½ 2–4 h; limited accumulation at steady state; likely substrate of P-glycoproteinShort half-life offset by irreversible BTK binding; BID dosing maintains continuous BTK occupancy; P-gp substrate status relevant for interaction assessment
SE

Side Effects

Adverse reaction data below are derived from the pooled safety population of 1,729 patients with haematologic malignancies treated with zanubrutinib in 11 clinical trials (FDA PI, revised January 2025). The median duration of exposure was 27.6 months, with 78% exposed for at least 12 months and 60% for at least 24 months.

≥10%Very Common
Adverse EffectIncidenceClinical Note
Neutrophil count decreased (lab)51%All grades; Grade 3/4 in 21%; Grade 4 in 10%; monitor CBC regularly
Platelet count decreased (lab)41%All grades; Grade 3/4 in 8%; Grade 4 in 2.5%
Upper respiratory tract infection27–44%Pooled 38%; includes nasopharyngitis, sinusitis; Grade 3+ rare (≤3%)
Haemorrhage (any, excl. purpura/petechiae)32%Any-grade bleeding events; coadministration with antithrombotics increases risk
Musculoskeletal pain14–45%Pooled 31%; includes arthralgia, back pain, myalgia; Grade 3+ in 0.6–9%
Haemoglobin decreased (lab)20–31%All grades; Grade 3/4 in 2.5–7%
Rash11–36%Includes dermatitis; usually Grade 1–2
Bruising14–26%Contusion, ecchymosis; cosmetic; lower rate than ibrutinib
Diarrhea14–25%Usually Grade 1–2; loperamide for symptom control
Pneumonia10–20%Includes COVID-19 pneumonia and LRTI; Grade 3+ in 4–13%; fatal cases reported
Fatigue13–31%Includes asthenia and lethargy; usually Grade 1–2
Hypertension11–19%Grade 3+ in 7–14%; lower than ibrutinib in ASPEN (14% vs 19%) and ALPINE (19% vs 20%)
Cough10–18%Usually Grade 1; rarely requires intervention
1–10%Common
Adverse EffectIncidenceClinical Note
Atrial fibrillation / flutter4.4%Grade 3+ in 1.9%; significantly lower than ibrutinib in head-to-head trials
Headache4–18%Lower incidence than acalabrutinib (35%)
Urinary tract infection7–11%Grade 3+ uncommon
Nausea10–18%Grade 3 rare
Constipation10–18%Grade 3 rare
Peripheral oedema4.6–12%Lower rate than ibrutinib (20% vs ASPEN data)
Muscle spasms10%Significantly lower than ibrutinib (10% vs 28% in ASPEN)
SeriousSerious Adverse Effects (Regardless of Frequency)
Adverse EffectEstimated FrequencyTypical OnsetRequired Action
Grade 3+ haemorrhage (incl. CNS)3.8%Any time during treatmentDiscontinue if intracranial haemorrhage of any grade; fatal in 0.2%; withhold 3–7 days pre/post-surgery
Grade 3+ infections26%Throughout treatmentPneumonia most common (7.9%); fatal infections in 3.2%; HBV reactivation risk; consider HSV, PJP, and antifungal prophylaxis
Grade 3/4 cytopeniasNeutropenia 21%; thrombocytopenia 8%; anaemia 8%First months; ongoingMonitor CBC regularly; interrupt/reduce/discontinue per dose modification table; G-CSF or transfusion as needed
Second primary malignancies14%Cumulative over treatment durationNMSC 8%, other solid tumours 7%, melanoma 1%; sun protection; annual dermatological review
AF / flutter (Grade 3+)1.9%VariableECG; cardiology referral; rate/rhythm control; dose modification per PI
Ventricular arrhythmias (Grade 3+)0.3%VariableUrgent evaluation; consider permanent discontinuation
Drug-induced liver injury (DILI)Rare (class-wide, postmarketing)VariableMonitor LFTs; withhold if suspected; permanently discontinue if confirmed
DiscontinuationDiscontinuation Rates
CLL/SLL (ALPINE, R/R)
13%
Top reasons: Pneumonia, COVID-19, second primary malignancies
CLL/SLL (SEQUOIA, TN)
8%
Top reasons: Second primary malignancy, COVID-19
Reason for DiscontinuationIncidenceContext
Pneumonia / respiratory infectionsLeading cause (ALPINE)Includes COVID-19 pneumonia; dose modification required in ≥5% of patients
Second primary malignanciesLeading cause (SEQUOIA)NMSC most frequent; annual skin examination recommended
MCL trials: 7% overall7%Pneumonia most frequent cause (3.4%)
Cardiovascular Safety Advantage vs Ibrutinib

In the ALPINE trial (R/R CLL), zanubrutinib demonstrated significantly lower rates of atrial fibrillation (4.6% vs ibrutinib not reported in this context, but class difference is established) and hypertension versus ibrutinib. In the ASPEN trial (WM), all-grade AF/flutter was lower with zanubrutinib, and muscle spasms were markedly less frequent (10% vs 28%). This cardiovascular safety profile is a key differentiator for zanubrutinib within the BTK inhibitor class.

Int

Drug Interactions

Zanubrutinib is primarily metabolised by CYP3A4. Co-administration with the strong CYP3A4 inducer rifampin decreased zanubrutinib Cmax by 12.6-fold and AUC by 13.5-fold. Unlike acalabrutinib capsules, zanubrutinib absorption is not significantly affected by proton pump inhibitors, providing a practical advantage for patients requiring acid suppression. Zanubrutinib is likely a P-glycoprotein substrate and an inducer of CYP2B6 and CYP2C8.

MajorStrong CYP3A4 Inhibitors (itraconazole, ketoconazole)
MechanismCYP3A4 inhibition increases zanubrutinib exposure
EffectSignificantly elevated zanubrutinib concentrations and toxicity risk
ManagementReduce zanubrutinib to 80 mg once daily. If short-term use, may interrupt zanubrutinib.
FDA PI
MajorPosaconazole / Clarithromycin (dose-specific adjustments)
MechanismVariable CYP3A4 inhibition depending on dose/formulation
EffectDose-dependent increase in zanubrutinib exposure
ManagementClarithromycin 250 mg BID: reduce zanubrutinib to 80 mg BID. Clarithromycin 500 mg BID or high-dose posaconazole: reduce to 80 mg QD. Low-dose posaconazole (100 mg QD suspension): 80 mg BID.
FDA PI
ModerateModerate CYP3A4 Inhibitors (fluconazole, erythromycin, diltiazem, verapamil)
MechanismPartial CYP3A4 inhibition
EffectModerate increase in zanubrutinib exposure
ManagementReduce zanubrutinib to 80 mg BID. Resume standard dose after inhibitor discontinued.
FDA PI
MajorStrong CYP3A4 Inducers (rifampin, phenytoin, carbamazepine, St. John’s Wort)
MechanismCYP3A4 induction massively accelerates zanubrutinib clearance
Effect12.6–13.5-fold reduction in zanubrutinib exposure with rifampin; likely loss of efficacy
ManagementAvoid concomitant use. No dose increase can adequately compensate for this magnitude of interaction.
FDA PI
ModerateModerate CYP3A4 Inducers (efavirenz, modafinil, bosentan)
MechanismModerate CYP3A4 induction
EffectReduced zanubrutinib exposure
ManagementAvoid if possible. If unavoidable, increase zanubrutinib to 320 mg BID.
FDA PI
ModerateAnticoagulants / Antiplatelet Agents
MechanismAdditive bleeding risk (BTK-related platelet effects)
EffectIncreased haemorrhage risk; major bleeding in 3.8%
ManagementWeigh risk-benefit; avoid warfarin if possible; prefer DOACs; monitor for bleeding signs
FDA PI
MinorP-glycoprotein Substrates (digoxin)
MechanismZanubrutinib may increase P-gp substrate exposure
EffectDigoxin Cmax increased by 34%, AUC by 11% when coadministered
ManagementMonitor digoxin levels; no clinically significant effect on rosuvastatin (BCRP substrate)
FDA PI
MinorProton Pump Inhibitors
MechanismMinimal effect on zanubrutinib absorption despite pH-dependent solubility
EffectNo clinically significant reduction in zanubrutinib exposure
ManagementNo dose adjustment needed. This is a practical advantage over acalabrutinib capsules.
FDA PI / PopPK analysis
Mon

Monitoring

  • Complete Blood CountRegularly during treatment
    Routine    Grade 3/4 cytopenias: neutropenia 21%, thrombocytopenia 8%, anaemia 8%. Grade 4 neutropenia in 10%, Grade 4 thrombocytopenia in 2.5%. Interrupt, reduce, or discontinue per dose modification guidelines; G-CSF or transfusion as needed.
  • Hepatic FunctionBaseline, then periodically
    Routine    Evaluate bilirubin and transaminases at baseline and throughout treatment. DILI has been reported with BTK inhibitors including zanubrutinib. If liver test abnormalities develop, increase monitoring frequency. Withhold if DILI suspected; discontinue if confirmed.
  • Cardiac RhythmBaseline + as indicated
    Routine    AF/flutter in 4.4%, Grade 3+ in 1.9%. Ventricular arrhythmias Grade 3+ in 0.3%. Evaluate symptoms (palpitations, syncope, dyspnoea) with ECG. Higher risk with cardiac risk factors, hypertension, and acute infections.
  • Bleeding AssessmentEach visit; ongoing
    Routine    Grade 3+ haemorrhage in 3.8%, fatal in 0.2%. Discontinue immediately for intracranial haemorrhage of any grade. Withhold 3–7 days pre/post-surgery. Assess concurrent anticoagulant/antiplatelet use.
  • Infection SurveillanceEach visit; ongoing
    Routine    Grade 3+ infections in 26%; fatal infections in 3.2%. Pneumonia most common (7.9%). HBV reactivation reported — screen before initiation. Consider HSV, PJP, and antifungal prophylaxis per standard of care.
  • Skin ExaminationBaseline, then annually
    Routine    Second primary malignancies in 14%; NMSC in 8%, other solid tumours in 7%, melanoma in 1%. Advise sun protection. Annual dermatological review recommended.
  • Blood PressureEach visit
    Routine    Hypertension reported in 11–19%; Grade 3+ in 7–14%. Initiate or adjust antihypertensives as needed.
  • Pregnancy StatusBefore initiation
    Trigger-based    Zanubrutinib causes fetal harm including cardiac malformations in rats at 5x human exposure. Contraception required during treatment and for 1 week after last dose (both men and women).
CI

Contraindications & Cautions

Absolute Contraindications

  • Pregnancy: Zanubrutinib caused cardiac malformations (2- or 3-chambered hearts) in rats at all dose levels tested, including at exposures as low as 5 times the human dose. Must not be used in pregnant women.

Relative Contraindications (Specialist Input Recommended)

  • Active intracranial haemorrhage or history of CNS bleeding: The PI mandates permanent discontinuation for intracranial haemorrhage of any grade.
  • Concomitant strong CYP3A4 inducer therapy: 13.5-fold reduction in zanubrutinib AUC with rifampin — likely renders treatment ineffective. Avoid combination.
  • Active uncontrolled hepatitis B: HBV reactivation has been reported. Screen and manage before initiation.

Use with Caution

  • Severe hepatic impairment: Reduce dose to 80 mg BID (unbound AUC 2.9-fold higher than healthy controls). Monitor more closely for adverse reactions.
  • Patients on anticoagulants or antiplatelet agents: Additive bleeding risk. Avoid warfarin if possible; DOACs preferred.
  • Elderly (≥65 years): 59% of pooled safety population; numerically higher rates of Grade 3+ adverse reactions and serious adverse reactions.
  • Patients with cardiac risk factors: AF/flutter risk of 4.4%; higher in patients with hypertension, prior arrhythmias, and acute infection.
  • Planned surgery within 3–7 days: Withhold zanubrutinib peri-operatively.
FDA Class-Wide Safety Advisory Cardiac Arrhythmias — BTK Inhibitors

Serious cardiac arrhythmias have occurred with zanubrutinib. Atrial fibrillation and atrial flutter were reported in 4.4% of patients, including Grade 3 or higher cases in 1.9%. Grade 3 or higher ventricular arrhythmias were reported in 0.3%. Patients with cardiac risk factors, hypertension, and acute infections may be at increased risk. Monitor for arrhythmia symptoms and manage appropriately.

FDA Class-Wide Safety Advisory Hepatotoxicity, Including Drug-Induced Liver Injury — BTK Inhibitors

Severe, life-threatening, and potentially fatal cases of DILI have been reported with BTK inhibitors including zanubrutinib. Monitor hepatic function at baseline and throughout treatment. Withhold if suspected; permanently discontinue if confirmed.

Pt

Patient Counselling

Purpose of Therapy

Zanubrutinib is a targeted oral therapy that blocks a protein called BTK, which cancer cells need to grow and survive. It is not traditional chemotherapy. You will take it either once or twice daily as a continuous treatment to control your disease. A temporary increase in white blood cell count early in treatment is expected and does not indicate treatment failure.

How to Take

Take zanubrutinib as prescribed — either 160 mg twice daily (approximately 12 hours apart) or 320 mg once daily. If using capsules, this means two 80 mg capsules per dose (BID) or four capsules once daily. If using tablets, this means one 160 mg tablet per dose (BID) or two tablets once daily. Swallow capsules whole with water; do not open, break, or chew them. Tablets are scored and may be split if prescribed by your doctor. You can take zanubrutinib with or without food. If you miss a dose, take it as soon as possible on the same day and return to your normal schedule the next day.

Bleeding & Bruising
Tell patientZanubrutinib can affect blood clotting. You may notice easier bruising. Avoid high-injury activities and inform all healthcare providers (including dentists) that you take this medication. Avoid over-the-counter NSAIDs unless approved by your oncologist.
Call prescriberBlood in urine or stools, black tarry stools, prolonged nosebleeds, vomiting blood, severe headache with vision changes, or any unexpected heavy bleeding.
Infection Risk
Tell patientYour immune system may be weaker during treatment. Practice good hand hygiene. Stay current with recommended vaccinations (avoid live vaccines). Report any signs of infection promptly.
Call prescriberFever ≥38°C (100.4°F), chills, persistent cough, painful urination, or any signs of infection.
Heart Rhythm Changes
Tell patientAlthough less common than with some older BTK inhibitors, zanubrutinib can occasionally affect heart rhythm. Report any new symptoms promptly.
Call prescriberPalpitations, racing or irregular heartbeat, dizziness, fainting, unusual shortness of breath, or chest discomfort.
Drug Interactions
Tell patientMany medications can interfere with zanubrutinib. Always inform your oncologist and pharmacist before starting any new prescription, over-the-counter medication, or herbal supplement. Avoid St. John’s Wort. Unlike some similar medications, you can take zanubrutinib with acid-reducing medications (PPIs, antacids).
Call prescriberBefore starting any new medication from any healthcare provider.
Surgery & Dental Procedures
Tell patientZanubrutinib needs to be paused before and after surgery due to bleeding risk. Your oncologist will advise on timing (usually 3–7 days). Always inform surgeons and dentists.
Call prescriberWhenever any procedure is being planned.
Sun Protection
Tell patientThere is an increased risk of skin cancers during treatment (8% develop non-melanoma skin cancers). Use sunscreen (SPF 30+), wear protective clothing, and avoid excessive sun exposure.
Call prescriberNew skin growths, moles that change, or non-healing skin lesions.
Pregnancy & Contraception
Tell patientZanubrutinib can cause serious birth defects including heart malformations. Both women and men must use effective contraception during treatment and for at least 1 week after the last dose. Do not breastfeed during treatment or for 2 weeks after the last dose.
Call prescriberIf you or your partner become pregnant or suspect pregnancy.
Ref

Sources

Regulatory (PI / SmPC)
  1. Brukinsa (zanubrutinib) capsules prescribing information. BeiGene USA, Inc. Revised January 2025. FDA LabelPrimary source for all dosing, indications, adverse reactions, warnings, and pharmacokinetic data in this monograph.
  2. Brukinsa Summary of Product Characteristics (SmPC). European Medicines Agency. EMAEuropean regulatory reference providing additional PK and safety data.
Key Clinical Trials
  1. Brown JR, Eichhorst B, Hillmen P, et al. Zanubrutinib or ibrutinib in relapsed or refractory chronic lymphocytic leukemia. N Engl J Med. 2023;388(4):319–332. doi:10.1056/NEJMoa2211582ALPINE trial; pivotal head-to-head Phase 3 study demonstrating superior PFS of zanubrutinib over ibrutinib in R/R CLL.
  2. Tam CS, Opat S, D’Sa S, et al. A randomized phase 3 trial of zanubrutinib vs ibrutinib in symptomatic Waldenström macroglobulinemia: the ASPEN study. Blood. 2020;136(18):2038–2050. doi:10.1182/blood.2020006844ASPEN trial; Phase 3 comparison of zanubrutinib vs ibrutinib in WM showing comparable efficacy with improved tolerability.
  3. Tam CS, Robak T, Ghia P, et al. Zanubrutinib monotherapy for patients with treatment-naïve chronic lymphocytic leukemia and 17p deletion. Blood Adv. 2021;5(23):5032–5042. doi:10.1182/bloodadvances.2021005394SEQUOIA Cohort 2; single-arm data in treatment-naïve CLL with del(17p).
  4. Song Y, Zhou K, Zou D, et al. Treatment of patients with relapsed or refractory mantle-cell lymphoma with zanubrutinib, a selective inhibitor of Bruton’s tyrosine kinase. Clin Cancer Res. 2020;26(16):4216–4224. doi:10.1158/1078-0432.CCR-19-3703BGB-3111-206 MCL trial supporting accelerated approval; demonstrated 84% ORR in previously treated MCL.
  5. Zinzani PL, Mayer J, Flowers CR, et al. ROSEWOOD: a phase II randomized study of zanubrutinib plus obinutuzumab versus obinutuzumab monotherapy in patients with relapsed or refractory follicular lymphoma. J Clin Oncol. 2023;41(33):5107–5117. doi:10.1200/JCO.23.00175ROSEWOOD trial; basis for accelerated FL approval showing 69% ORR with zanubrutinib-obinutuzumab combination.
Guidelines
  1. National Comprehensive Cancer Network (NCCN). Clinical Practice Guidelines in Oncology: Chronic Lymphocytic Leukemia/Small Lymphocytic Lymphoma. Version 2.2026. NCCNPositions zanubrutinib as a preferred BTK inhibitor option for CLL/SLL across treatment lines.
  2. National Comprehensive Cancer Network (NCCN). Clinical Practice Guidelines in Oncology: B-Cell Lymphomas. Version 2.2025. NCCNTreatment algorithm including zanubrutinib for MCL, MZL, and FL.
Mechanistic / Basic Science
  1. Guo Y, Liu Y, Hu N, et al. Discovery of zanubrutinib (BGB-3111), a novel, potent, and selective covalent inhibitor of Bruton’s tyrosine kinase. J Med Chem. 2019;62(17):7923–7940. doi:10.1021/acs.jmedchem.9b00687Discovery and preclinical characterisation of zanubrutinib demonstrating its selectivity advantage and in vivo potency.
Pharmacokinetics / Special Populations
  1. Ou YC, Liu L, Tariq B, et al. Population pharmacokinetic analysis of the BTK inhibitor zanubrutinib in healthy volunteers and patients with B-cell malignancies. Clin Transl Sci. 2021;14(2):764–772. doi:10.1111/cts.12948Population PK model characterising zanubrutinib absorption, distribution, and elimination; no clinically meaningful covariates identified.
  2. Ou YC, Preston RA, Marbury TC, et al. A phase 1, open-label, single-dose study of the pharmacokinetics of zanubrutinib in subjects with varying degrees of hepatic impairment. Leuk Lymphoma. 2020;61(6):1355–1363. doi:10.1080/10428194.2020.1719097Hepatic impairment PK study justifying the 80 mg BID dose reduction in severe hepatic impairment.
  3. Mu S, Tang Z, Novotny W, et al. Effect of rifampin and itraconazole on the pharmacokinetics of zanubrutinib in Asian and non-Asian healthy subjects. Cancer Chemother Pharmacol. 2020;85(2):391–399. doi:10.1007/s00280-019-04015-yDDI study quantifying the 13.5-fold AUC reduction with rifampin and exposure increase with itraconazole.
  4. Tam CS, Trotman J, Opat S, et al. Phase 1 study of the selective BTK inhibitor zanubrutinib in B-cell malignancies and safety and efficacy evaluation in CLL. Blood. 2019;134(11):851–859. doi:10.1182/blood.2019001160Phase 1 dose-finding study establishing the 160 mg BID and 320 mg QD dosing schedules with PK/PD data.