Tazarotene 0.1% gel
Tazarotene, commonly marketed as Tazorac®, Avage®, and Zorac®, is member of the acetylenic class of retinoids.
Safety information for pregnancy and breastfeeding
Pregnancy
Always consult your doctor or midwife before taking any medicine during pregnancy or while breastfeeding. Source: DrugBank (CC BY-NC 4.0).
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Official medicine documents
Safety monitoring data
Yellow Card reports
The MHRA Yellow Card scheme collects reports of suspected side effects from healthcare professionals and patients. View the Drug Analysis Profile (iDAP) for real-world adverse reaction data.
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Suspected adverse reactions reported for Tazarotene
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Submit a Yellow Card report to the MHRA
Data from the MHRA Yellow Card scheme. A reported reaction does not necessarily mean the medicine caused it. Contains public sector information licensed under the Open Government Licence v3.0.
EudraVigilance
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Suspected adverse reactions reported for Tazarotene
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EudraVigilance data is published by the European Medicines Agency (EMA). A suspected adverse reaction is not necessarily caused by the medicine.
1 branded products available
Therapeutically similar medicines
Similarity is based on WHO Anatomical Therapeutic Chemical (ATC) classification and on a factual NHS dm+d therapeutic-grouping code prefix. Source data: NHS dm+d via TRUD (OGL v3.0), WHO ATC/DDD Index.
NHS prescribing volume and spending trends
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Supply & safety information
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Codes for healthcare professionals and prescribing systems
These codes are used by healthcare IT systems and prescribers to identify this medicine.
NHS UK identifiers
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SNOMED CT and dm+d codes from NHS TRUD (Technology Reference data Update Distribution), licensed under the Open Government Licence v3.0. BNF code shown is the factual mapping value distributed by NHS Business Services Authority (NHSBSA) in the dm+d supplementary file under OGL v3.0; it is not affiliated with, nor licensed from, the publishers of the British National Formulary. ATC codes from the WHO Collaborating Centre for Drug Statistics Methodology (whocc.no).
Active and completed clinical studies from ClinicalTrials.gov
Source: ClinicalTrials.gov, a database of the U.S. National Library of Medicine (NLM), National Institutes of Health (NIH). Data accessed via ClinicalTrials.gov API v2. Trial information is provided for research purposes and does not constitute medical advice.
Academic studies and reviews for this medicine's active substance
Showing all 26 studies.
Reviews & meta-analyses: 3 · 2020–2026
Showing all 26 studies, sorted by most relevant.
Mahek Shergill, Muhammad Usman Ali, Mohannad Abu-Hilal
Dermatology and Therapy, 2024
INTRODUCTION: Acne vulgaris, a chronic inflammatory condition, is associated with significant physical and psychosocial burden. Since 2019, three new topical agents for acne vulgaris have been approved in the USA and Canada. We performed a systematic review and meta-analysis to compare the efficacy between twice-daily clascoterone cream 1%, once-daily trifarotene 0.005% cream, and once-daily tazarotene 0.045% lotion for acne treatment. METHODS: Randomized controlled trials (RCTs) comparing clascoterone, trifarotene, or tazarotene with vehicle in patients with moderate-to-severe acne were identified from a systematic literature review and included in a meta-analysis. Primary outcomes were percentage reduction in inflammatory and noninflammatory lesion count (ILC and NILC, respectively) and treatment success rate (≥ 2-grade improvement in Investigator's Global Assessment or Evaluator's Global Severity Score and a rating of clear or almost clear) at week 12. DerSimonian and Laird random-effects models with the inverse variance method were used to calculate the mean difference (MD) for percentage reduction in ILC and NILC, and odds ratios (ORs) for the rate of treatment success. RESULTS: Six Phase 3 RCTs were included in the meta-analysis. The analyses showed robust differences favoring the interventions for ILC (MD: - 11.5; 95% confidence interval [CI]: - 14.39, - 8.62), NILC (MD: - 12.25; 95% CI: - 15.21, - 9.29), and treatment success rate (OR: 2.14; 95% CI: 1.81, 2.53). No differences were observed between clascoterone, trifarotene, and tazarotene for ILC (MD: - 12.8, - 11.2, and - 10.1, respectively), NILC (MD: - 11.6, - 13.9, and - 12.8, respectively), or treatment success rate (OR: 2.9, 1.9, and 2.1, respectively (all P > 0.05). CONCLUSION: No significant differences in efficacy were observed between clascoterone, trifarotene, and tazarotene after 12 weeks of treatment in patients with moderate-to-severe acne. Differences in application frequency and safety profile should also be taken into consideration when making treatment decisions.
Abstract licence: CC BY-NC
Meng Yuan, Kun Liu, Tao Jiang, et al.
Journal of Nanobiotechnology, 2022
- Diabetes Mellitus
- Exosomes
- Gelatin
Clinical work and research on diabetic wound repair remain challenging globally. Although various conventional wound dressings have been continuously developed, the efficacy is unsatisfactory. The effect of drug delivery is limited by the depth of penetration. The sustained release of biomolecules from biological wound dressings is a promising treatment approach to wound healing. An assortment of cell-derived exosomes (exos) have been proved to be instrumental in tissue regeneration, and researchers are dedicated to developing biomolecules carriers with unique properties. Herein, we reported a methacrylate gelatin (GelMA) microneedles (MNs) patch to achieve transdermal and controlled release of exos and tazarotene. Our MNs patch comprising GelMA/PEGDA hydrogel has distinctive biological features that maintain the biological activity of exos and drugs in vitro. Additionally, its unique physical structure prevents it from being tightly attached to the skin of the wound, it promotes cell migration, angiogenesis by slowly releasing exos and tazarotene in the deep layer of the skin. The full-thickness cutaneous wound on a diabetic mouse model was carried out to demonstrate the therapeutic effects of GelMA/PEGDA@T + exos MNs patch. As a result, our GelMA/PEGDA@T + exos MNs patch presents a potentially valuable method for repairing diabetic wound in clinical applications.
Abstract licence: CC BY
S. Thakur, M. Anjum, S. Jaiswal, et al.
Molecular pharmaceutics, 2023
- Psoriasis
- Nanofibers
- Calcitriol
Kun Liu, Yue Wang, Xianzhen Dong, et al.
Small, 2024
- Nerve Regeneration
- Phosphorus
- Spinal Cord Injuries
2020
Sharvari M. Kshirsagar, N. Shrestha, Thomas Kipping, et al.
European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V, 2024
- Polylactic Acid-Polyglycolic Acid Copolymer
- Nicotinic Acids
- Particle Size
Noha M. Badawi, Rania M Yehia, Caroline Lamie, et al.
International Journal of Pharmaceutics: X, 2023
This study aimed to formulate and optimize an anti-acne drug namely tazarotene (TZR) in essential oil-based microemulsion (ME) using either Jasmine oil (Jas) or Jojoba oil (Joj). TZR-MEs were prepared using two experimental designs (Simplex Lattice Design®) and characterized for droplet size, polydispersity index, and viscosity. Further in vitro, ex vivo, and in vivo investigations were performed for the selected formulations. Results revealed that TZR-selected MEs exhibited suitable droplet size, homogenous dispersions, and acceptable viscosity, in addition to spherical-shaped particles in morphology. The ex vivo skin deposition study showed a significant TZR accumulation in all skin layers for the Jas-selected ME over the Joj one. Further, TZR didn't show any antimicrobial activity against P. acnes, however, it was boosted when it was incorporated into the selected MEs. The in vivo study results of the infected mice ears induced by P. acnes revealed that our selected MEs successfully reached a high level of ear thickness reduction of 67.1% and 47.4% for Jas and Joj selected MEs, respectively, versus only 4% for the market product. Finally, the findings confirmed the ability to use essential oil-based ME, particularly with Jas, as a promising carrier for topical TZR delivery in the treatment of acne vulgaris.
Abstract licence: CC BY-NC-ND
Doaa Hegazy, N. Fayed, Hanzada T. Nour El-Din, et al.
BioNanoScience, 2025
Lars Schlotawa, Karolina Tyka, Matthias Kettwig, et al.
EMBO Molecular Medicine, 2023
- Multiple Sulfatase Deficiency Disease
- Bexarotene
- Drug Evaluation, Preclinical
Multiple sulfatase deficiency (MSD, MIM #272200) results from pathogenic variants in the SUMF1 gene that impair proper function of the formylglycine-generating enzyme (FGE). FGE is essential for the posttranslational activation of cellular sulfatases. MSD patients display reduced or absent sulfatase activities and, as a result, clinical signs of single sulfatase disorders in a unique combination. Up to date therapeutic options for MSD are limited and mostly palliative. We performed a screen of FDA-approved drugs using immortalized MSD patient fibroblasts. Recovery of arylsulfatase A activity served as the primary readout. Subsequent analysis confirmed that treatment of primary MSD fibroblasts with tazarotene and bexarotene, two retinoids, led to a correction of MSD pathophysiology. Upon treatment, sulfatase activities increased in a dose- and time-dependent manner, reduced glycosaminoglycan content decreased and lysosomal position and size normalized. Treatment of MSD patient derived induced pluripotent stem cells (iPSC) differentiated into neuronal progenitor cells (NPC) resulted in a positive treatment response. Tazarotene and bexarotene act to ultimately increase the stability of FGE variants. The results lay the basis for future research on the development of a first therapeutic option for MSD patients.
Abstract licence: CC BY
Sources: aggregated from Europe PMC (EMBL-EBI), OpenAlex, Crossref, PubMed and other open scholarly databases. Retracted articles are excluded. Study information is provided for research purposes and does not constitute medical advice.
Pharmacology and chemical data from DrugBank
Key facts
Drug status
Approved
Major interactions
None known
Half-life
18 hours
Mechanism
Although the exact mechanism of tazarotene action is not known, studies have sho…
Food interactions
None known
Human targets
4 targets
Data: DrugBank · CC BY-NC 4.0
Pharmacokinetics at a glance
Absorption
Half-life
18 hours
Protein binding
99%
Metabolism
Elimination
Pharmacokinetic data: DrugBank · CC BY-NC 4.0
Known interactions with other medications. Always consult a healthcare professional.
Showing 50 of 264 interactions
Oral administration of this material to rats and rabbits at doses of 0.20 mg/kg/day (rabbits) and 0.25 mg/kg/day (rats) resulted in developmental toxicity. A no effect level of 0.05 mg/kg/day was established. Similar teratogenic effects have been reported for other retinoid compounds.
How the body processes this drug — absorption, distribution, metabolism, and elimination
Proteins and enzymes this drug interacts with in the body
PMID:16417524 PMID:19850744 PMID:20215566 PMID:21152046 PMID:37478846
Retinoic acid receptors bind as heterodimers to their target response elements in response to their ligands, all-trans or 9-cis retinoic acid, and regulate gene expression in various biological processes .
PMID:21152046 PMID:28167758 PMID:37478846
The RXR/RAR heterodimers bind to the retinoic acid response elements (RARE) composed of tandem 5'-AGGTCA-3' sites known as DR1-DR5 .
PMID:19398580 PMID:28167758
In the absence of ligand, the RXR-RAR heterodimers associate with a multiprotein complex containing transcription corepressors that induce histone deacetylation, chromatin condensation and transcriptional suppression .
PMID:16417524
On ligand binding, the corepressors dissociate from the receptors and associate with the coactivators leading to transcriptional activation .
PMID:19850744 PMID:20215566 PMID:37478846 PMID:9267036
Formation of a complex with histone deacetylases might lead to inhibition of RARE DNA element binding and to transcriptional repression .
PMID:28167758
Transcriptional activation and RARE DNA element binding might be supported by the transcription factor KLF2 .
PMID:28167758
RARA plays an essential role in the regulation of retinoic acid-induced germ cell development during spermatogenesis (By similarity). Has a role in the survival of early spermatocytes at the beginning prophase of meiosis (By similarity). In Sertoli cells, may promote the survival and development of early meiotic prophase spermatocytes (By similarity).
In concert with RARG, required for skeletal growth, matrix homeostasis and growth plate function (By similarity). Together with RXRA, positively regulates microRNA-10a expression, thereby inhibiting the GATA6/VCAM1 signaling response to pulsatile shear stress in vascular endothelial cells .
PMID:28167758
In association with HDAC3, HDAC5 and HDAC7 corepressors, plays a role in the repression of microRNA-10a and thereby promotes the inflammatory response PMID:28167758
In the absence of ligand, acts mainly as an activator of gene expression due to weak binding to corepressors. Required for limb bud development. In concert with RARA or RARB, required for skeletal growth, matrix homeostasis and growth plate function (By similarity)
In the absence or presence of hormone ligand, acts mainly as an activator of gene expression due to weak binding to corepressors .
PMID:12554770
The RXRA/RARB heterodimer can act as a repressor on the DR1 element and as an activator on the DR5 element .
PMID:29021580
In concert with RARG, required for skeletal growth, matrix homeostasis and growth plate function (By similarity)
Enzymes involved in drug metabolism — important for understanding drug interactions
ATC D05AX55
ATC D05AX05
Chemical identifiers
CAS, UNII, InChI Key and database cross-references
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Chemical identifiers
CAS, UNII, InChI Key and database cross-references
Linked compound data from DrugBank Open Data (CC BY-NC 4.0)
Tazarotene
Additional database identifiers
Drugs Product Database (DPD)
11373
ChemSpider
5188
BindingDB
50265951
ZINC
ZINC000001542199
HUGO Gene Nomenclature Committee (HGNC)
HGNC:9864
GenAtlas
RARA
GeneCards
RARA
GenBank Gene Database
X06614
GenBank Protein Database
36157
Guide to Pharmacology
590
UniProt Accession
RARA_HUMAN
HUGO Gene Nomenclature Committee (HGNC)
HGNC:10478
GenAtlas
RXRB
GeneCards
RXRB
GenBank Gene Database
X63522
GenBank Protein Database
30448
Guide to Pharmacology
611
UniProt Accession
RXRB_HUMAN
HUGO Gene Nomenclature Committee (HGNC)
HGNC:9866
GenAtlas
RARG
GeneCards
RARG
GenBank Gene Database
M24857
GenBank Protein Database
306887
Guide to Pharmacology
592
UniProt Accession
RARG_HUMAN
HUGO Gene Nomenclature Committee (HGNC)
HGNC:9865
GenAtlas
RARB
GeneCards
RARB
GenBank Gene Database
X07282
GenBank Protein Database
35883
Guide to Pharmacology
591
UniProt Accession
RARB_HUMAN
HUGO Gene Nomenclature Committee (HGNC)
HGNC:2622
GenAtlas
CYP2C8
GeneCards
CYP2C8
GenBank Gene Database
M17397
Guide to Pharmacology
1325
UniProt Accession
CP2C8_HUMAN
DrugBank citations
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Structured knowledge from the free knowledge base
ATC classifications (Wikidata)
Linked open data from Wikidata (Q3981685), a free and open knowledge base operated by the Wikimedia Foundation. Data is available under the Creative Commons CC0 1.0 Public Domain Dedication. WHO INN from the World Health Organization.