Rx Prescripttion Only-YMYL Medical Content

Alecnib 150 mg

Alectinib Hydrochloride 150mg capsules – Everest Pharmaceuticals Ltd.
Indicated as monotherapy for first-line treatment of ALK-positive advanced NSCLC in adults who have not received prior systemic therapy for this stage; and for ALK-positive advanced NSCLC previously treated with crizotinib. ALK-positive status must be confirmed by an FDA-approved test. Also approved for adjuvant treatment of ALK-positive NSCLC following resection (stages IB–IIIA).

34.8 mo

Median PFS vs 10.9 months with crizotinib in first-line ALK-positive NSCLC (ALEX trial) — more than three times the PFS

12% vs 45%

CNS progression rate with alectinib vs crizotinib in ALEX — dramatically superior blood-brain barrier penetration

Confirmed OS

Longer-term ALEX follow-up confirmed overall survival benefit for alectinib over crizotinib — not just PFS

CNS active

Alectinib is not a substrate of P-gp or BCRP efflux transporters in the blood-brain barrier — explaining its superior CNS penetration vs crizotinib

1

Confirm ALK-positive status via FDA-approved test
ALK rearrangement must be confirmed using an FDA-approved companion diagnostic on tumor tissue or plasma. Confirm which indication applies: first-line advanced NSCLC, post-crizotinib treatment, or adjuvant post-resection.

2

Baseline liver function monitoring — more intensive early schedule
Liver enzyme and bilirubin elevations have been reported. Liver function tests should be checked at least every 2 weeks for the first 3 months, then once monthly and as clinically indicated — a more front-loaded monitoring schedule than most drugs in this series.

3

Baseline cardiac, renal, and pulmonary assessment
Bradycardia (including fatal cases), ILD/pneumonitis, and renal impairment have been reported. Baseline heart rate, renal function, and respiratory status should be established before starting.

4

Photosensitivity counselling before first dose
Photosensitivity reactions have occurred — patients must be counselled to avoid prolonged sun exposure during treatment and for 7 days after the final dose, and to use SPF 50+ sunscreen and protective clothing when outdoors.
Important safety information: Hepatotoxicity — monitor liver function at least every 2 weeks for the first 3 months, then monthly; withhold, dose-reduce, or permanently discontinue based on severity. ILD/pneumonitis — can be severe or fatal; permanently discontinue if confirmed. Bradycardia — monitor heart rate and blood pressure; avoid concomitant medications known to cause bradycardia. Severe myalgia and CK elevation — withhold if CK is markedly elevated with myalgia. Embryo-fetal toxicity — effective contraception required during and for 1 week after the final dose; do not breastfeed during treatment and for 1 week after the final dose.

MD

Medical Oncologist Review

Board-certified oncologist · 12+ years in thoracic malignancies

“The ALEX results were among the most decisive head-to-head comparisons in thoracic oncology — more than three times the PFS of crizotinib, and confirmed overall survival benefit. The CNS data is arguably even more clinically meaningful: 12% versus 45% CNS progression reflects a drug specifically engineered to cross the blood-brain barrier, addressing what was the most common failure mode of first-generation ALK inhibitors. The liver monitoring schedule — every 2 weeks for the first 3 months — is unusually front-loaded for an oral targeted therapy and should be scheduled before the first dose.”

Content reviewed against FDA prescribing information, NCCN Guidelines v2.2024, and published Phase III trial data. Last updated June 2026.

Ready to discuss Tagrisso with your care team?

These steps help you have an informed conversation. A confirmed EGFR mutation result is the starting point for any treatment decision.

Questions to ask my healthcare provider

What questions should I ask my oncologist about starting alectinib?

Here are key questions to bring to your oncologist — given that alectinib has a specifically front-loaded liver monitoring schedule that should be scheduled before your first dose, and a photosensitivity requirement that continues for 7 days after your final dose, getting both of these clearly established in advance is the most important preparation.

Before confirming alectinib as your treatment

  • Has my ALK-positive status been confirmed using an FDA-approved companion diagnostic test?
  • Which indication applies to me — first-line advanced NSCLC, treatment after prior crizotinib, or adjuvant treatment after surgical resection?
  • If post-crizotinib: what was my response to crizotinib, and did I develop any specific resistance mutations that would affect alectinib’s likely activity?
  • Are there clinical trials I should know about?

About the dosing schedule — confirm this precisely before starting

  • Can you confirm the exact dosing: four 150mg capsules taken twice daily with food, for a total daily dose of 1,200mg?
  • Should both doses be taken at the same times each day — roughly 12 hours apart?
  • What should I do if I miss a dose — I understand it can be taken unless the next dose is due within 6 hours?
  • What should I do if I vomit after a dose?
  • Can the capsules be opened or dissolved, or must they always be swallowed whole?

About the liver monitoring schedule — schedule this before your first dose

  • Can you confirm the monitoring schedule: liver function tests at least every 2 weeks for the first 3 months, then once monthly and as needed?
  • Can we schedule these appointments now before I start, rather than arranging them reactively?
  • What liver-related symptoms — yellowing of skin or eyes, dark urine, severe fatigue, pain on the right side of the abdomen — should prompt an urgent call between scheduled tests?
  • What results would trigger a dose interruption, reduction, or permanent discontinuation?

About photosensitivity — a distinctive, practical requirement

  • I understand I must avoid prolonged sun exposure during treatment and for 7 days after the final dose — does this apply to indirect sun exposure, windows, or just direct outdoor sun?
  • What SPF is recommended, and how often should sunscreen be reapplied?
  • What does a photosensitivity reaction look like, and when does it need medical attention?

About bradycardia — heart rate monitoring

  • Will my heart rate and blood pressure be monitored at baseline and regularly during treatment?
  • Am I currently taking any medications known to cause bradycardia — beta-blockers, certain calcium channel blockers — that might compound this risk?
  • What symptoms of bradycardia — unusually slow heartbeat, dizziness, fainting, lightheadedness — should prompt same-day contact or emergency care?

About ILD/pneumonitis

  • What new or worsening respiratory symptoms should prompt immediate evaluation?
  • Since I likely already have some baseline respiratory symptoms from lung cancer, how will drug-related lung problems be distinguished from disease-related ones?

About myalgia and CK elevation

  • Muscle pain seems to be the most common side effect — what level of severity is expected versus what warrants a call?
  • At what point would muscle pain or elevated creatine kinase trigger a dose hold?

About brain metastases — particularly relevant for alectinib

  • Do I have current brain metastases, and if so, how does alectinib’s superior CNS penetration factor into the treatment plan?
  • Will brain imaging be part of my monitoring schedule, and if so, how often?

About kidney function

  • Will my renal function be monitored during treatment?
  • What results would affect my dosing?

About drug interactions

  • Are there medications I currently take that are known to cause bradycardia and require monitoring or adjustment?
  • Are there strong CYP3A inducers — rifampicin, carbamazepine, phenytoin, St. John’s Wort — that could affect alectinib exposure and require monitoring?
  • If I’m prescribed something new by another doctor, what should they know?

About contraception

  • What contraception is required during treatment and for 1 week after the final dose?
  • I understand breastfeeding should also be avoided during treatment and for 1 week after — can you confirm this timeline?

About monitoring response

  • What imaging schedule will track whether this is working?
  • How soon might we expect to see signs of response?
  • If alectinib stops working, will molecular testing guide the choice of next therapy?

About the longer road

  • How long am I expected to continue alectinib?
  • If alectinib stops working, what third-generation ALK inhibitors such as lorlatinib might be considered next?
  • Are there patient assistance programs through Roche if cost is a concern?

A practical tip: The liver monitoring schedule — every 2 weeks for the first three months — is unusually intensive for an oral targeted therapy and requires proactive scheduling rather than reactive arrangement. Ask your oncologist to book all of the first-three-months liver function appointments before your first dose, since having those scheduled in advance is the difference between monitoring that actually happens on time versus monitoring that gets delayed when clinical schedules are busy.

Compare alectinib vs brigatinib for first-line ALK-positive NSCLC

Both are second-generation ALK inhibitors approved for first-line ALK-positive NSCLC

Alectinib (Alecensa)Brigatinib (Alunbrig)
GenerationSecond — highly selective ALK/RETSecond — ALK/EGFR/ROS1/IGF-1R
FDA first-line approval20172020
Dosing600mg twice daily with food90mg once daily × 7 days, then 180mg once daily
Pivotal first-line trialALEXALTA-1L
Head-to-head trialALTA-3ALTA-3

The ALTA-3 trial — a direct head-to-head comparison

ALTA-3 directly randomized patients with ALK-positive NSCLC to alectinib versus brigatinib as first-line therapy. The result: ALTA-3 showed equal PFS between alectinib and brigatinib — 19.2 months with alectinib versus 19.3 months with brigatinib — a near-identical result that statistically confirmed no meaningful PFS difference between these two drugs in the head-to-head setting.

This is a genuinely important finding: despite the cross-trial comparison favoring alectinib’s ALEX PFS (34.8 months) over ALTA-1L’s brigatinib PFS (24.0 months), the direct comparison produced equivalent results — illustrating precisely why cross-trial comparisons require caution. Different patient populations, different entry criteria, and different trial designs in ALEX and ALTA-1L explained much of the apparent numerical difference.


CNS efficacy — both demonstrate strong brain penetration, with nuanced differences

Both alectinib and brigatinib were specifically engineered to overcome crizotinib’s poor CNS penetration, and both succeeded. In ALEX, alectinib produced 12% CNS progression versus 45% with crizotinib. In ALTA-1L, brigatinib showed similarly strong intracranial activity.

The CNS comparison between the two drugs directly is nuanced — neither has clearly demonstrated superiority over the other for brain metastases in the head-to-head ALTA-3 setting, and both are considered among the most CNS-active ALK inhibitors currently available outside of lorlatinib.


Side effects — genuinely different profiles

This is where the most clinically meaningful practical differences emerge:

Alectinib’s distinctive profile: myalgia and musculoskeletal pain (most common), constipation, edema, elevated bilirubin, bradycardia, photosensitivity. The front-loaded liver monitoring schedule — every 2 weeks for the first 3 months — reflects alectinib’s hepatotoxicity signal.

Brigatinib’s distinctive profile: early-onset pulmonary events (ILD/pneumonitis) within the first 7 days of treatment — a unique, specifically front-loaded lung toxicity risk that drives brigatinib’s mandatory 7-day lead-in dose of 90mg before escalating to 180mg. Hypertension and CPK elevation are also more prominent with brigatinib than alectinib.

The early-onset pulmonary risk with brigatinib is the single most distinctive safety feature differentiating these two drugs — alectinib does not carry the same first-week pulmonary watch requirement that defines brigatinib’s early treatment period.


Dosing schedule differences — a real practical consideration

Alectinib’s 600mg twice daily (four 150mg capsules twice daily) is a straightforward, consistent daily regimen once established — high pill burden but no schedule changes.

Brigatinib’s 7-day lead-in at 90mg followed by 180mg maintenance means two distinct phases of treatment, and if treatment is interrupted for more than 14 days for any reason, the 90mg lead-in must be restarted before returning to 180mg — a clinically important restart protocol that alectinib doesn’t require.


Where lorlatinib fits — worth mentioning

Any honest comparison of alectinib and brigatinib for first-line ALK-positive NSCLC should acknowledge that lorlatinib, a third-generation ALK inhibitor, has also demonstrated first-line efficacy data and is increasingly considered by some oncologists — particularly for patients with baseline brain metastases — though its broader side-effect profile (hyperlipidemia, cognitive effects) creates a different risk-benefit calculation than either second-generation agent.


Sequencing after failure

Both alectinib and brigatinib can be followed by lorlatinib at progression — the third-generation agent was specifically designed to overcome resistance mutations that develop against second-generation ALK inhibitors including both of these drugs. The choice between alectinib and brigatinib first-line doesn’t fundamentally alter the post-progression lorlatinib option.


Bottom line

ALTA-3 confirmed that alectinib and brigatinib produce equivalent PFS in direct head-to-head comparison for first-line ALK-positive NSCLC — the apparent cross-trial difference reflected study design rather than genuine drug superiority. The practical choice between them comes down to side-effect profile (alectinib’s myalgia/hepatotoxicity/photosensitivity versus brigatinib’s early-onset pulmonary risk and hypertension), dosing schedule preference (consistent twice-daily versus a two-phase escalation with restart requirements after interruption), and individual patient factors like baseline liver function, pulmonary status, and existing cardiovascular risk. Both are among the most CNS-active ALK inhibitors available and both support subsequent lorlatinib if progression occurs. This is a genuine choice without a clearly superior option — worth a direct, individualized conversation with your oncologist about which side-effect profile better fits your specific clinical situation.

How does alectinib work and why is it more effective than crizotinib in ALK-positive NSCLC?

Alectinib’s superiority over crizotinib isn’t simply a matter of being a more potent version of the same drug — it reflects deliberate second-generation engineering that addressed three specific, well-characterized failures of crizotinib’s first-generation approach.


The shared starting point — what ALK-positive NSCLC is and why it’s targetable

As we covered in detail on the Crizonix and Crizocent pages, ALK-positive NSCLC arises from a chromosomal rearrangement that fuses the ALK gene to a partner gene (most commonly EML4), creating an abnormal fusion protein that acts as a permanently switched-on kinase — continuously driving cell growth and survival signals regardless of normal regulatory input. This makes ALK-positive tumors “oncogene-addicted” — heavily dependent on this single abnormal driver — and therefore particularly vulnerable to drugs that specifically block it.


How crizotinib worked — and its three critical limitations

Crizotinib was the first drug to exploit this vulnerability, achieving dramatic responses in ALK-positive NSCLC. But three specific limitations emerged in clinical practice that drove development of second-generation agents like alectinib:

Resistance mutations — cancer cells under selective pressure from crizotinib developed specific mutations in the ALK kinase domain (most commonly L1196M and G1269A “gatekeeper” mutations) that reduced crizotinib’s binding affinity, allowing the ALK fusion protein to remain active despite crizotinib’s presence.

Poor CNS penetration — crizotinib’s physical and chemical properties limited its ability to cross the blood-brain barrier in therapeutically meaningful concentrations, meaning brain metastases frequently developed even while systemic disease was well controlled.

Relatively modest ALK selectivity — crizotinib was originally developed as a MET inhibitor before its ALK activity was discovered, meaning it inhibits ALK, ROS1, MET, and RON simultaneously — a broader target profile that contributes to its distinctive side-effect profile without providing the deep, sustained ALK blockade that a more selective drug can achieve.


How alectinib was specifically engineered to overcome all three

Alectinib is a highly selective and potent ALK and RET tyrosine kinase inhibitor. Each of its key properties addresses one of crizotinib’s specific failure modes.

Overcoming resistance mutations — alectinib demonstrated in vitro and in vivo activity against mutant forms of the ALK enzyme, including mutations responsible for resistance to crizotinib. By binding the ALK kinase domain with a different molecular geometry than crizotinib — fitting around the structural changes that resistance mutations produce — alectinib maintains inhibitory activity against the same mutant ALK proteins that escape crizotinib. This is the same strategic logic as osimertinib covering the T790M EGFR resistance mutation that defeats first-generation EGFR inhibitors.

Superior CNS penetration — the most important clinical advance — alectinib is not a substrate of P-glycoprotein (P-gp) or breast cancer resistance protein (BCRP), which are both efflux transporters in the blood-brain barrier. This is the mechanistic explanation for alectinib’s dramatically superior CNS activity. P-gp and BCRP are active transport pumps in the blood-brain barrier that recognize and expel many drug molecules back into the bloodstream before they can accumulate in brain tissue. Crizotinib is a substrate of these pumps — meaning the barrier actively ejects it. Alectinib’s molecular structure was specifically designed to avoid recognition by these transporters, allowing it to distribute into and be retained within the central nervous system rather than being pumped back out.

This molecular difference directly explains the 12% versus 45% CNS progression rate from the ALEX trial — not a subtle statistical difference but a clinically transformative one for a cancer subtype with notably high rates of brain metastasis.

Highly selective ALK inhibition — alectinib inhibits ALK and RET but has minimal activity against most other kinases, including MET and ROS1 that crizotinib also hits. This selectivity means alectinib achieves deeper, more sustained suppression of the specific ALK signaling driving the tumor, while producing a different side-effect profile — the musculoskeletal pain, edema, and bilirubin elevation characteristic of alectinib replacing the vision disorders, nausea, and cardiac effects more prominent with crizotinib.


The active metabolite M4 — an important pharmacological detail

The major metabolite of alectinib (M4) has shown similar in vitro potency and activity against ALK. This matters clinically because it means the drug’s anti-ALK activity is sustained and amplified by its own metabolic product — the body’s processing of alectinib produces another active molecule with the same mechanism, contributing to the drug’s overall effectiveness beyond just the parent compound.


How inhibition of downstream signaling drives tumor cell death

Inhibition of ALK tyrosine kinase activity leads to blockage of downstream signaling pathways including STAT3 and PI3K/AKT and induces tumor cell death through apoptosis. STAT3 and PI3K/AKT are two of the most important intracellular survival signaling cascades in cancer — STAT3 drives transcription of genes promoting growth and blocking cell death, while PI3K/AKT promotes survival and resistance to apoptosis. By blocking ALK from activating these downstream pathways, alectinib deprives ALK-addicted cancer cells of their most fundamental survival signals, leading to programmed cell death rather than simply pausing growth.


Why this mechanism also explains the adjuvant NSCLC indication

This connects to the ALINA trial that earned alectinib its adjuvant approval after surgical resection in stages IB-IIIA ALK-positive NSCLC. In the adjuvant setting, the goal shifts from controlling measurable metastatic disease to eliminating residual micrometastatic cells that may remain after surgery. Alectinib’s deep ALK inhibition, combined with its ability to reach and maintain therapeutic concentrations in the CNS where micrometastatic cells might otherwise seed undetected, makes it particularly well-suited to the adjuvant goal of eliminating residual disease before it becomes clinically evident progression.


The bigger picture

Alectinib’s superiority over crizotinib isn’t incremental improvement — it reflects three simultaneous, deliberate molecular advances: overcoming the specific resistance mutations that defeat crizotinib by fitting a different molecular geometry into the mutated ALK kinase; achieving CNS penetration by specifically evading the blood-brain barrier efflux transporters that eject crizotinib; and achieving deeper, more selective ALK blockade by focusing the drug’s activity on ALK rather than spreading it across MET, ROS1, and RON. The ALEX trial’s result — more than three times the PFS and confirmed overall survival benefit — reflects not one advantage compounding over time, but three distinct pharmacological improvements all operating simultaneously in the same patient.

Medical disclaimer: This page is for informational purposes only and does not constitute medical advice, diagnosis, or treatment. Osimertinib is a prescription medication that must only be used under the supervision of a qualified oncologist. Clinical outcomes data is drawn from published Phase III trials; individual results vary. Always consult your healthcare provider and refer to the full prescribing information before making any treatment decisions. Emergency: call your local emergency services or poison control immediately if you experience serious adverse effects.