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Drug Monograph

Liraglutide (Victoza / Saxenda)

liraglutide injection, once-daily subcutaneous administration

GLP-1 Receptor Agonist·Subcutaneous Injection·FDA Approved January 2010
Pharmacokinetic Profile
Half-Life
~13 hours
Metabolism
Proteolysis (similar to large proteins); no organ-specific metabolism
Protein Binding
>98% (albumin)
Bioavailability
~55% (SC)
Volume of Distribution
~13 L (equivalent to blood volume)
Clinical Information
Drug Class
GLP-1 Receptor Agonist
Available Doses
Victoza: 0.6, 1.2, 1.8 mg; Saxenda: up to 3.0 mg
Route
SC injection, once daily
Renal Adjustment
None required (use caution; not studied in ESKD)
Hepatic Adjustment
None required (limited data in severe)
Pregnancy
Use only if benefit justifies risk
Lactation
Weigh benefits vs risks; present in rat milk
Schedule / Legal Status
Rx only (non-controlled)
Generic Available
Yes (Hikma, approved Dec 2024)
Black Box Warning
Thyroid C-cell tumors (rodents)
Rx

Indications

IndicationApproved PopulationTherapy TypeStatus
T2DM — glycemic control (Victoza)Adults and pediatric patients ≥10 yearsAdjunct to diet/exercise; mono or combinationFDA Approved
CV risk reduction in T2DM — reduce MACE in established CVD (Victoza)Adults with T2DM + established CVDAdjunct to standard of careFDA Approved
Chronic weight management (Saxenda)Adults with BMI ≥30 or ≥27 + comorbidity; adolescents ≥12 years with BMI corresponding to ≥30Adjunct to reduced-calorie diet and exerciseFDA Approved

Liraglutide was the first GLP-1 receptor agonist to demonstrate cardiovascular benefit in a dedicated outcomes trial (LEADER), establishing a 13% reduction in major adverse cardiovascular events and a 22% reduction in cardiovascular death in patients with type 2 diabetes and high cardiovascular risk. Victoza is the only GLP-1 RA currently approved for both adults and pediatric patients aged 10 years and older with type 2 diabetes. The same molecule at a higher dose (3.0 mg daily) is marketed as Saxenda for chronic weight management. Liraglutide should not be co-administered with other liraglutide-containing products or other GLP-1 receptor agonists.

Off-Label Uses

Polycystic ovary syndrome (PCOS): Liraglutide at 1.2–1.8 mg daily has been studied as an adjunct to improve metabolic parameters and support weight loss in women with PCOS and obesity. Evidence quality: Low-Moderate (small RCTs; not guideline-recommended as primary therapy).

Dose

Dosing

Victoza — Type 2 Diabetes (Adults)

Clinical ScenarioStarting DoseMaintenance DoseMaximum DoseNotes
T2DM — glycemic control (new start)0.6 mg SC daily × 1 week1.2 mg daily1.8 mg daily0.6 mg is GI tolerability dose only — not therapeutic for glucose control
Uptitrate to 1.8 mg after ≥1 week on 1.2 mg if additional control needed
T2DM — add-on to metformin, SU, TZD, or insulin0.6 mg SC daily × 1 week1.2–1.8 mg daily1.8 mg dailyConsider reducing SU or insulin dose to lower hypoglycemia risk
Same titration regardless of background therapy
T2DM + established CVD — MACE reduction0.6 mg SC daily × 1 week1.8 mg daily1.8 mg dailyLEADER trial used 1.8 mg (or max tolerated dose); 13% MACE reduction
Target 1.8 mg for CV benefit; lower doses not studied for CV outcomes

Victoza — Pediatric Patients (≥10 Years)

Clinical ScenarioStarting DoseMaintenance DoseMaximum DoseNotes
T2DM — glycemic control (pediatric)0.6 mg SC daily × ≥1 week0.6–1.8 mg daily1.8 mg dailyEscalate in 0.6 mg increments, each ≥1 week apart
Higher hypoglycemia risk in pediatrics regardless of concomitant therapy

Saxenda — Chronic Weight Management

Clinical ScenarioStarting DoseMaintenance DoseMaximum DoseNotes
Weight management (adults: BMI ≥30 or ≥27 + comorbidity)0.6 mg SC daily × 1 week3.0 mg daily3.0 mg daily5-week escalation: 0.6 → 1.2 → 1.8 → 2.4 → 3.0 mg
Each step is 1 week; discontinue if <4% weight loss at 16 weeks
Clinical Pearl: Missed Dose and Reinitiation

If more than 3 days have elapsed since the last liraglutide dose, reinitiate at 0.6 mg daily and retitrate at clinician discretion. This prevents the GI intolerance that occurs when restarting at a higher dose after a gap. Liraglutide can be injected at any time of day, with or without meals, in the abdomen, thigh, or upper arm. When used with insulin, administer as separate injections (never mix), but they may be injected in the same body region. Rotate injection sites within each region to reduce the risk of cutaneous amyloidosis.

PK

Pharmacology

Mechanism of Action

Liraglutide is an acylated human GLP-1 analog with 97% amino acid sequence homology to endogenous GLP-1(7-37). A single amino acid substitution (arginine for lysine at position 34) and the attachment of a C16 fatty acid (palmitic acid) via a glutamic acid spacer at position 26 enable non-covalent albumin binding, which protects the molecule from DPP-4 degradation and extends the half-life to approximately 13 hours — permitting once-daily dosing. Liraglutide activates the GLP-1 receptor on pancreatic beta cells, stimulating glucose-dependent insulin secretion via increased intracellular cAMP, while simultaneously suppressing glucagon release from alpha cells. It also delays gastric emptying, promotes central satiety, and reduces caloric intake. These combined effects produce clinically meaningful reductions in blood glucose, body weight, and systolic blood pressure.

ADME Profile

ParameterValueClinical Implication
AbsorptionSC bioavailability ~55%; Tmax 8–12 hours post-injection; dose-proportional across 0.6–1.8 mg; AUC from thigh 22% lower than abdomen but considered clinically comparableOnce-daily dosing at any time of day, with or without meals; no clinically meaningful difference between injection sites
DistributionApparent Vd ~13 L; >98% albumin-bound; at 1.8 mg steady-state mean concentration ~128 ng/mLAlbumin binding is the primary protraction mechanism; binding not affected by renal or hepatic impairment
MetabolismEndogenous proteolytic degradation similar to large proteins; not organ-specific; no single organ is the major route of elimination; no intact liraglutide detected in urine or fecesNo CYP450 involvement; negligible metabolic drug interaction potential; no dose adjustment for hepatic or renal impairment
Eliminationt½ ~13 hours; clearance ~1.2 L/h; excreted as metabolites via urine (~6%) and feces (~5%); no intact molecule in excretaSupports once-daily dosing; if >3 days missed, reinitiate at 0.6 mg to avoid GI intolerance
SE

Side Effects

≥10%Very Common
Adverse EffectIncidenceClinical Note
Nausea18% (1.2 mg); 20% (1.8 mg)Versus 5% placebo; dose-related; most common during first 2–3 months; typically self-limiting
Diarrhea10% (1.2 mg); 12% (1.8 mg)Versus 4% placebo; can contribute to dehydration
Headache11% (1.2 mg); 10% (1.8 mg)Versus 7% placebo; usually mild and transient
Decreased appetite10% (1.2 mg); 9% (1.8 mg)Versus 1% placebo; pharmacological effect contributing to weight loss
1–10%Common
Adverse EffectIncidenceClinical Note
Nasopharyngitis9% (1.2 mg); 10% (1.8 mg)Versus 8% placebo; likely not drug-related
Vomiting6% (1.2 mg); 9% (1.8 mg)Versus 2% placebo; primarily during dose escalation
Dyspepsia4% (1.2 mg); 7% (1.8 mg)Versus 1% placebo
Upper respiratory tract infection7% (1.2 mg); 6% (1.8 mg)Versus 6% placebo; similar to placebo
Constipation5% (1.2 mg); 5% (1.8 mg)Versus 1% placebo; related to delayed gastric emptying
Back pain4% (1.2 mg); 5% (1.8 mg)Versus 3% placebo
SeriousSerious (Regardless of Frequency)
Adverse EffectEstimated FrequencyTypical OnsetRequired Action
Acute pancreatitis2.7 per 1,000 pt-yearsAny time; includes hemorrhagic/necrotizing formsDiscontinue immediately; do not restart if confirmed; fatal cases reported postmarketing
Cholelithiasis / cholecystitisLEADER: 1.5% / 1.1% vs 1.1% / 0.7% placeboMonths to years; GLP-1 class effect; majority required hospitalization or cholecystectomyGallbladder imaging if symptoms develop; surgical referral as indicated
Acute kidney injuryRare (postmarketing)Often during initiation with GI-related dehydrationRehydrate; monitor renal function; some cases required hemodialysis; use caution in renal impairment
Anaphylaxis / angioedemaVery rare (postmarketing)Any timeDiscontinue permanently; emergency management
Medullary thyroid carcinomaPostmarketing reportsUnknown; causal relationship not establishedContraindicated in MTC/MEN2 history; evaluate neck mass or elevated calcitonin
Pulmonary aspiration (peri-procedural)Rare (postmarketing)During general anesthesia/deep sedationInform anesthesia team; GLP-1 class-wide warning (Nov 2024 label update)
DiscontinuationDiscontinuation Rates
Victoza Glycemic Control Trials
4.3% vs 0.5% placebo
GI-related discontinuation; mainly during first 2–3 months of therapy
Injection Site Reactions
~2% incidence
<0.2% discontinued due to injection site reactions (rash, erythema)
Managing GI Side Effects

The 1-week 0.6 mg initiation dose exists solely to improve GI tolerability. Most nausea and vomiting occur during the first 2–3 months and are the primary driver of early discontinuation (4.3% vs 0.5% placebo). Advise patients to eat smaller meals, avoid high-fat foods, and stay well hydrated. If GI symptoms are persistent at 1.2 mg, delay escalation to 1.8 mg. Monitor renal function during severe GI symptoms, as dehydration-related AKI has been reported postmarketing.

Laboratory Changes

Lipase: Mean increase of 33% from baseline; LEADER: ≥3× ULN in 7.9% vs 4.5% placebo. Amylase: Mean increase of 15%; LEADER: ≥3× ULN in 1.0% vs 0.7% placebo. These elevations alone do not indicate pancreatitis — clinical correlation is required. Bilirubin: Mild elevations (≤2× ULN) in 4.0% vs 2.1% placebo. Heart rate: Mean increase of 2–3 bpm. No QTc prolongation at therapeutic doses.

Int

Drug Interactions

Liraglutide is metabolized by endogenous proteolytic pathways without CYP450 involvement, resulting in very low metabolic drug interaction potential. It delays gastric emptying, which can theoretically alter absorption of co-administered oral medications, but clinical pharmacology studies demonstrated no clinically relevant effect on absorption of tested oral drugs (acetaminophen, atorvastatin, griseofulvin, digoxin, lisinopril, oral contraceptives). The primary interaction concern is pharmacodynamic hypoglycemia risk with insulin or secretagogues.

MajorInsulin
MechanismAdditive glucose-lowering
EffectIncreased hypoglycemia; severe events in 2.2% when combined with metformin + glimepiride
ManagementConsider reducing insulin dose at initiation; administer as separate injections, never mix
FDA PI
MajorSulfonylureas
MechanismAdditive insulin secretion stimulation
EffectHypoglycemia: self-treatable 7.5% with SU alone, 27.4% with metformin + SU
ManagementConsider SU dose reduction at initiation; educate on hypoglycemia symptoms
FDA PI
ModerateOral medications (general)
MechanismDelayed gastric emptying may alter absorption kinetics
EffectNo clinically relevant changes demonstrated in formal PK studies with tested oral drugs
ManagementExercise caution; no specific dose adjustments recommended per PI
FDA PI
MinorOther liraglutide products (Saxenda)
MechanismSupratherapeutic GLP-1 receptor activation
EffectExcessive GLP-1 agonism with increased GI and metabolic adverse effects
ManagementDo not co-administer Victoza with Saxenda or other liraglutide/GLP-1 RA products
FDA PI
Mon

Monitoring

  • HbA1cBaseline, then every 3–6 months
    Routine    Primary efficacy marker for Victoza. Expected HbA1c reductions: ~1.0% at 1.2 mg, ~1.1–1.5% at 1.8 mg. LEADER showed ~0.4% sustained difference vs placebo at 3 years.
  • Body WeightEach visit
    Routine    Primary efficacy marker for Saxenda. Mean weight loss ~5–8% with 3.0 mg. For Victoza, 2–3 kg loss is typical.
  • Renal FunctionBaseline; during GI symptoms
    Trigger-based    Use caution in renal impairment. Postmarketing AKI reports, often with GI-related dehydration. LEADER showed nephropathy HR 0.78 (P=0.003).
  • Blood GlucoseIncreased with insulin/SU
    Trigger-based    Severe hypoglycemia requiring assistance: 7.5 events/1,000 pt-years (7/8 on SU). In pediatrics: hypoglycemia <54 mg/dL in 21.2% (335 events/1,000 pt-years).
  • Pancreatitis SignsOngoing clinical vigilance
    Trigger-based    13 cases in glycemic control trials (2.7/1,000 pt-years). Lipase elevations (≥3× ULN: 7.9% LEADER) do not alone indicate pancreatitis.
  • ThyroidClinical assessment only
    Trigger-based    MTC cases reported postmarketing. Routine calcitonin/ultrasound not recommended (low specificity). Evaluate neck mass, dysphagia, persistent hoarseness. Calcitonin >50 ng/L may indicate MTC.
  • GallbladderIf symptoms develop
    Trigger-based    LEADER: cholelithiasis 1.5% vs 1.1% placebo; cholecystitis 1.1% vs 0.7%. Image if right upper quadrant pain develops.
  • Hepatic FunctionIf symptoms develop
    Trigger-based    Postmarketing: hepatitis, cholestasis, elevated liver enzymes reported. Mild bilirubin elevations in 4.0% of trial patients.
CI

Contraindications & Cautions

Absolute Contraindications

  • Personal or family history of medullary thyroid carcinoma (MTC)
  • Multiple Endocrine Neoplasia syndrome type 2 (MEN 2)
  • Prior serious hypersensitivity to liraglutide or any excipient

Relative Contraindications (Specialist Input Recommended)

  • History of pancreatitis — fatal hemorrhagic and necrotizing pancreatitis reported; do not restart if pancreatitis is confirmed
  • Gastroparesis (severe) — further delays gastric emptying; use with caution (Section 8.8 of PI)
  • Co-administration with other liraglutide or GLP-1 RA products — explicitly prohibited

Use with Caution

  • Renal impairment — no dose adjustment needed, but use caution during initiation/escalation; AKI reported postmarketing
  • Concomitant insulin or sulfonylureas — proactively reduce dose; pediatric patients have higher hypoglycemia risk regardless of concomitant therapy
  • Planned surgery requiring general anesthesia — inform anesthesia team; pulmonary aspiration risk (Nov 2024 label update)
  • Pregnancy — use only if potential benefit justifies risk; teratogenic in rats at clinical exposures
FDA Boxed Warning Risk of Thyroid C-Cell Tumors

Liraglutide causes dose-dependent and treatment-duration-dependent thyroid C-cell tumors (adenomas and carcinomas) at clinically relevant exposures in both genders of rats and mice. MTC cases in patients treated with liraglutide have been reported postmarketing, though a causal relationship has not been established. Victoza and Saxenda are contraindicated in patients with personal or family history of MTC or MEN 2. Counsel all patients on symptoms of thyroid tumors. Routine calcitonin screening is not recommended.

Pt

Patient Counselling

Purpose of Therapy

Liraglutide works by mimicking a natural gut hormone (GLP-1) that helps the body release insulin when blood sugar is high, reduces appetite, and slows digestion. As Victoza, it is injected once daily to improve blood sugar and protect the heart in type 2 diabetes. As Saxenda, it is used at a higher dose for long-term weight management.

How to Use

Inject once a day, at any time, with or without meals, in the abdomen, thigh, or upper arm. Rotate injection sites within each area. Store unused pens in the refrigerator; once in use, a pen can be kept at room temperature for up to 30 days. Never share pens with anyone.

Nausea and GI Symptoms
Tell patientNausea is the most common side effect and typically improves within the first few months. Eat smaller, lighter meals and stay hydrated. The starting dose is low to ease the stomach into the medication.
Call prescriberIf nausea, vomiting, or diarrhea is severe or persistent, or if unable to keep fluids down.
Thyroid Cancer Warning
Tell patientIn animal studies, this medication caused thyroid tumors. Watch for a lump in the neck, trouble swallowing, hoarseness, or shortness of breath.
Call prescriberImmediately if noticing any of these symptoms.
Pancreatitis Warning
Tell patientSevere, persistent stomach pain (especially upper abdomen radiating to back), with or without vomiting, could indicate pancreatitis.
Call prescriberStop the medication and seek emergency care immediately.
Missed Doses
Tell patientIf a dose is missed, take the next scheduled dose as normal. Do not double up. If more than 3 days pass without a dose, restart at 0.6 mg and retitrate as directed to avoid stomach upset.
Call prescriberIf unsure how to restart after multiple missed days.
Low Blood Sugar (with Insulin or SU)
Tell patientIf also taking insulin or a sulfonylurea, the risk of low blood sugar is higher. Know the symptoms and always carry glucose tablets or juice.
Call prescriberIf experiencing frequent or severe low blood sugar so medication doses can be adjusted.
Surgery and Procedures
Tell patientThis medication slows stomach emptying. Always tell the surgical or anesthesia team about this medication before any planned procedure.
Call prescriberWell in advance of any surgery to discuss management.
Ref

Sources

Regulatory (PI / SmPC)
  1. Victoza (liraglutide) injection, for subcutaneous use. Full Prescribing Information. Revised November 2024. Novo Nordisk Inc. FDA LabelPrimary source for Victoza dosing, adverse reactions (Table 1), contraindications, PK data, and both diabetes and CV indications.
  2. Saxenda (liraglutide [rDNA origin]) injection, for subcutaneous use. Full Prescribing Information. Novo Nordisk Inc. FDA LabelSource for Saxenda-specific dosing escalation (up to 3.0 mg) and weight management indication in adults and adolescents.
Key Clinical Trials
  1. Marso SP, Daniels GH, Poulter NR, et al. Liraglutide and cardiovascular outcomes in type 2 diabetes. N Engl J Med. 2016;375(4):311–322. doi:10.1056/NEJMoa1603827LEADER trial (N=9,340): 13% MACE reduction (HR 0.87; 95% CI 0.78–0.97; P=0.01 superiority); 22% CV death reduction (HR 0.78); 15% all-cause mortality reduction; median follow-up 3.8 years.
  2. Mann JFE, Orsted DD, Brown-Frandsen K, et al. Liraglutide and renal outcomes in type 2 diabetes. N Engl J Med. 2017;377(9):839–848. doi:10.1056/NEJMoa1616011LEADER renal secondary analysis: 22% reduction in composite renal outcome (HR 0.78; P=0.003); driven by lower new-onset macroalbuminuria.
  3. Pi-Sunyer X, Astrup A, Fujioka K, et al. A randomized, controlled trial of 3.0 mg of liraglutide in weight management. N Engl J Med. 2015;373(1):11–22. doi:10.1056/NEJMoa1411892SCALE Obesity and Prediabetes trial (N=3,731): mean 8.0% weight loss with liraglutide 3.0 mg vs 2.6% placebo at 56 weeks; pivotal Saxenda weight management trial.
  4. Tamborlane WV, Barrientos-Perez M, Fainberg U, et al. Liraglutide in children and adolescents with type 2 diabetes. N Engl J Med. 2019;381(7):637–646. doi:10.1056/NEJMoa1903822ELLIPSE trial (N=135, ages 10–17): HbA1c reduction 0.64% greater than placebo at 26 weeks; basis for pediatric T2DM indication.
Guidelines
  1. American Diabetes Association Professional Practice Committee. Standards of Care in Diabetes — 2025. Diabetes Care. 2025;48(Suppl 1). doi:10.2337/dc25-SINTRecommends GLP-1 RA with proven CV benefit as preferred agent in T2DM with ASCVD; liraglutide qualifies based on LEADER.
  2. Marx N, Federici M, Schutt K, et al. 2023 ESC Guidelines for CVD management in diabetes. Eur Heart J. 2023;44(39):4043–4140. doi:10.1093/eurheartj/ehad192European guideline positioning GLP-1 RAs as first-line cardiometabolic therapy for T2DM with CVD.
Mechanistic / Basic Science
  1. Knudsen LB, Lau J. The discovery and development of liraglutide and semaglutide. Front Endocrinol. 2019;10:155. doi:10.3389/fendo.2019.00155Comprehensive account of liraglutide design: C16 fatty acid acylation, 97% GLP-1 homology, albumin-binding protraction mechanism.
Pharmacokinetics / Special Populations
  1. Jacobsen LV, Flint A, Olsen AK, Ingwersen SH. Liraglutide in type 2 diabetes mellitus: clinical pharmacokinetics and pharmacodynamics. Clin Pharmacokinet. 2016;55(6):657–672. doi:10.1007/s40262-015-0343-6Detailed PK characterization: bioavailability 55%, Tmax 8–12 h, t1/2 ~13 h, clearance ~1.2 L/h; no clinically relevant PK changes in renal/hepatic impairment.
  2. Ingwersen SH, Khurana M, Engell RT, Strojek K, Holst AG. Population pharmacokinetics of liraglutide in patients with type 2 diabetes: exposure-response relationships for efficacy and safety. Br J Clin Pharmacol. 2018;84(5):976–988. doi:10.1111/bcp.13525Population PK analysis establishing dose-proportional exposure and consistent exposure-response relationships for HbA1c and body weight across the LIRA clinical program.