Chemical Permeation Enhancers for Topically-Applied Vitamin C and Its Derivatives: A Systematic Review

This paper reports the permeation-enhancing properties and safety of different chemical permeation enhancers (CPEs) on the topical delivery of vitamin C (VC) and its derivatives. A literature search using search keywords or phrases was done in PubMed®, ScienceDirect, and MEDLINE databases. The calculated Log P (cLog P) values were referenced from PubChem and the dermal LD50 values were referenced from safety data sheets. Thirteen studies described the permeation-enhancing activity of 18 identified CPEs in the topical delivery of VC. Correlation analysis between ER and cLog P values for porcine (r = 0.114) and rabbit (r = 0.471) showed weak and moderate positive correlation, while mouse (r = −0.135), and reconstructed human epidermis (r = −0.438) had a negative correlation. The majority (n = 17) of the CPEs belonged to Category 5 of the Globally Harmonized System of Classification or low toxicity hazard. CPEs alone or in combination enhanced permeation (ER = 0.198–106.57) of VC in topical formulations. The combination of isopropyl myristate, sorbitan monolaurate, and polyoxyethylene 80 as CPEs for VC resulted in the highest permeation enhancement ratio.

[1]  S. Reis,et al.  Current Status of Amino Acid-Based Permeation Enhancers in Transdermal Drug Delivery , 2021, Membranes.

[2]  F. Iliopoulos,et al.  Topical Delivery of 3-O-ethyl l-ascorbic Acid from Complex Solvent Systems , 2020 .

[3]  K. Vávrová,et al.  Permeation enhancers in transdermal drug delivery: benefits and limitations , 2020, Expert opinion on drug delivery.

[4]  K. Ita Chemical permeation enhancers , 2020 .

[5]  M. Chorilli,et al.  Vitamin c: One compound, several uses. Advances for delivery, efficiency and stability. , 2020, Nanomedicine : nanotechnology, biology, and medicine.

[6]  K. Vávrová,et al.  Esters of terpene alcohols as highly potent, reversible, and low toxic skin penetration enhancers , 2019, Scientific Reports.

[7]  F. Iliopoulos,et al.  3-O-ethyl-l-ascorbic acid: Characterisation and investigation of single solvent systems for delivery to the skin , 2019, International journal of pharmaceutics: X.

[8]  T. L. Nascimento,et al.  Ascorbic acid encapsulated into negatively charged liposomes exhibits increased skin permeation, retention and enhances collagen synthesis by fibroblasts , 2019, Scientific Reports.

[9]  K. Sugibayashi,et al.  Effect of layered application on the skin permeation of a cosmetic active component, rhododendrol. , 2019, The Journal of toxicological sciences.

[10]  Juan Huang,et al.  Self-double-emulsifying drug delivery system incorporated in natural hydrogels: a new way for topical application of vitamin C , 2018, Journal of microencapsulation.

[11]  Hyeong Mi Kim,et al.  Effects of palmitoyl-KVK-L-ascorbic acid on skin wrinkles and pigmentation , 2017, Archives of Dermatological Research.

[12]  H. Maibach,et al.  Chemical Penetration Enhancers: Classification and Mode of Action , 2015 .

[13]  Pumori Saokar Telang Vitamin C in dermatology , 2013, Indian dermatology online journal.

[14]  K. Tojo,et al.  Skin accumulation and penetration of a hydrophilic compound by a novel gemini surfactant, sodium dilauramidoglutamide lysine. , 2013, International journal of pharmaceutics.

[15]  Judy Y. Hu,et al.  The role of antioxidants in photoprotection: a critical review. , 2012, Journal of the American Academy of Dermatology.

[16]  E. Lucchi,et al.  Lemon (Citrus limon, Burm.f.) essential oil enhances the trans‐epidermal release of lipid‐ (A, E) and water‐ (B6, C) soluble vitamins from topical emulsions in reconstructed human epidermis , 2012, International journal of cosmetic science.

[17]  Jignasa K. Savjani,et al.  Drug Solubility: Importance and Enhancement Techniques , 2012, ISRN pharmaceutics.

[18]  Nasrul Wathoni,et al.  Effect of iontophoresis and propylene glycol on the in vitro diffusion of ethyl vitamin c cream , 2012 .

[19]  J. Ortonne,et al.  A randomized controlled study to evaluate the depigmenting activity of l‐ascorbic acid plus phytic acid – serum vs. placebo on solar lentigines , 2011, Journal of cosmetic dermatology.

[20]  N. Akhtar,et al.  Penetration Enhancing Effect of Polysorbate 20 and 80 on the In Vitro Percutaneous Absorption of L- Ascorbic Acid , 2011 .

[21]  K. Higashi,et al.  Drug Nanoparticle Formulation Using Ascorbic Acid Derivatives , 2011, Journal of drug delivery.

[22]  M. Gašperlin,et al.  Dual influence of colloidal silica on skin deposition of vitamins C and E simultaneously incorporated in topical microemulsions , 2010, Drug development and industrial pharmacy.

[23]  I. Grillo,et al.  Formulation of ascorbic acid microemulsions with alkyl polyglycosides. , 2009, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[24]  F. Pirot,et al.  Simultaneous absorption of vitamins C and E from topical microemulsions using reconstructed human epidermis as a skin model. , 2009, European journal of pharmaceutics and biopharmaceutics : official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V.

[25]  S. K. Li,et al.  Efficiency of Fatty Acids as Chemical Penetration Enhancers: Mechanisms and Structure Enhancement Relationship , 2009, Pharmaceutical Research.

[26]  F. Falson,et al.  Temperature-Sensitive Microemulsion Gel: An Effective Topical Delivery System for Simultaneous Delivery of Vitamins C and E , 2009, AAPS PharmSciTech.

[27]  O. Oguntibeju The biochemical, physiological and therapeutic roles of ascorbic acid , 2008 .

[28]  M. Ichihashi,et al.  Approaches to identify inhibitors of melanin biosynthesis via the quality control of tyrosinase. , 2007, The Journal of investigative dermatology.

[29]  Y. Choi,et al.  Skin permeation enhancement of ascorbyl palmitate by liposomal hydrogel (lipogel) formulation and electrical assistance. , 2007, Biological & pharmaceutical bulletin.

[30]  M. Rashidi,et al.  Influence of poly(ethylene glycol)-alpha-cyclodextrin complexes on stabilization and transdermal permeation of ascorbic acid. , 2006, Journal of biomedical materials research. Part A.

[31]  Y. Choi,et al.  The Effect of Limonene on Skin Permeation and Localization of Ascorbic Acid , 2006 .

[32]  G. Ceschel,et al.  Solubility and Transdermal Permeation Properties of a Dehydroepiandrosterone Cyclodextrin Complex from Hydrophilic and Lipophilic Vehicles , 2005, Drug delivery.