Review
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Year 2018, Volume: 48 Issue: 2, 55 - 62, 31.08.2018

Abstract

References

  • Allemann IB, Baumann, L. (2009). Botanicals in skin care products. 48(9): 923-934.
  • Bakry R, Vallant RM, Najam-ul-Haq M, Rainer M, Szabo Z, Huck CW, Bonn GK. (2007). Medicinal applications of fullerenes. 2(4): 639.
  • Baroni A, Buommino E, De Gregorio V, Ruocco E, Ruocco V, Wolf R. (2012). Structure and function of the epidermis related to barrier properties. 30(3), 257-262.
  • Barry BW. Penetration enhancers. In: Shroot B, Schafer H, 1987 editors. Skin Pharmacokinetics. Karger, Basel. pp. 121-7
  • Benson HA, Watkinson AC. (Eds.). (2012). Topical and transdermal drug delivery: Principles and practice. John Wiley & Sons.
  • Bouwstra JA, Honeywell-Nguyen PL. (2002). Skin structure and mode of action of vesicles. 54: S41-S55.
  • Chanchal D, Swarnlata S. (2008). Novel approaches in herbal cosmetics. J Cosmet Dermatol 7(2): 89-95.
  • Chasteen AL, Bashir NY, Gallucci C, Visekruna A. (2011). Age and antiaging technique influence reactions to age concealment. 66(6): 719-724.
  • Darlenski R, Fluhr JW. (2012). Influence of skin type, race, sex, and anatomic location on epidermal barrier function. 30(3): 269-273.
  • Ezzat SM, Salama MM, ElMeshad AN, Teaima MH, Rashad LA. (2016). HPLC–DAD–MS/MS profiling of standardized rosemary extract and enhancement of its anti-wrinkle activity by encapsulation in elastic nanovesicles. 39(7): 912-925.
  • Farage MA, Miller KW, Elsner P, Maibach HI. (2007). Structural characteristics of the aging skin: a review. 26(4): 343-357.
  • Friedrich RB, Kann B, Coradini K, Offerhaus HL, Beck RC, Windbergs M. (2015). Skin penetration behavior of lipid-core nanocapsules for simultaneous delivery of resveratrol and curcumin. 78: 204-213
  • Goindi S, Guleria A, Aggarwal N. (2015). Development and Evaluation of Solid Lipid Nanoparticles of N-6-Furfuryl Adenine for Prevention of Photoaging. 11(10): 1734-1746.
  • Gökce EH, Korkmaz E, Dellera E, Sandri G, Bonferoni MC, Ozer O. (2012). Resveratrol-loaded solid lipid nanoparticles versus nanostructured lipid carriers: evaluation of antioxidant potential for dermal applications. 7(1), 1841-1850.
  • Gondikas AP, Kammer FVD, Reed RB, Wagner S, Ranville JF, Hofmann T. (2014). Release of TiO2 nanoparticles from sunscreens into surface waters: a one-year survey at the old Danube recreational Lake. 48(10): 5415-5422.
  • Graf J. (2005). Anti-aging skin care ingredient technologies. In: Cosmetic Dermatology Springer, Berlin Heidelberg. pp. 17-28.
  • Guimarães KL, Ré MI. (2011). Lipid nanoparticles as carriers for cosmetic ingredients: The first (SLN) and the second generation (NLC). In:
  • Nanocosmetics and nanomedicines, Springer, Berlin Heidelberg. pp. 101-122.
  • Gupta M, Agrawal U, Vyas SP. (2012). Nanocarrier-based topical drug delivery for the treatment of skin diseases. 9(7): 783-804.
  • Gupta NK, Dixit VK. (2011). Development and evaluation of vesicular system for curcumin delivery. 303(2): 89-101.
  • Guterres SS, Alves MP, Pohlmann AR. (2007). Polymeric nanoparticles, nanospheres and nanocapsules, for cutaneous applications. 2: 147-157.
  • Güngör S, Erdal MS, Aksu B. (2013). New formulation strategies in topical antifungal therapy. 3(01): 56-65.
  • Güngör S. (2014). Topikal Uygulanan Nanotaşıyıcılar, In: Zırh-Gürsoy A (ed.) Nanofarmasötikler ve Uygulamaları. Aktif Matbaa ve Reklam Hiz. San. Tic. A.Ş. İstanbul, pp. 333-345.
  • Jaspart S, Piel G, Delattre L, Evrard B. (2005). Solid lipid microparticles: formulation, preparation, characterisation, drug release and applications. 2(1): 75-87.
  • Kahraman E, Özhan G, Özsoy Y, Güngör S. (2016). Polymeric micellar nanocarriers of benzoyl peroxide as potential follicular targeting approach for acne treatment. 146: 692-699.
  • Kandekar SG, Del Río-Sancho S, Lapteva M, Kalia YN. (2018). Selective delivery of adapalene to the human hair follicle under finite dose conditions using polymeric micelle nanocarriers. 10(3): 1099-1110.
  • Kaur CD, Saraf S. (2011). Topical vesicular formulations of Curcuma longa extract on recuperating the ultraviolet radiation–damaged skin. 10(4): 260-265.
  • Kaur IP, Agrawal R. (2007). Nanotechnology: a new paradigm in cosmeceuticals. 1(2): 171-182
  • Kaur IP, Kapila M, Agrawal R. (2007). Role of novel delivery systems in developing topical antioxidants as therapeutics to combat photoageing. 6(4): 271-288.
  • Kwon SS, Kim SY, Kong BJ, Kim KJ, Noh GY, Im NR, Park SN. (2015). Cell penetrating peptide conjugated liposomes as transdermal delivery system of Polygonumaviculare L. extract. 483(1): 26-37.
  • Lazarus, M. C., & Baumann, L. S. (2001). The use of cosmeceutical moisturizers. 14(3): 200-207.
  • Li D, Wu Z, Martini N, Wen J. (2011). Advanced carrier systems in cosmetics and cosmeceuticals: a review. 62(6): 549.
  • Manosroi A, Chutoprapat R, Abe M, Manosroi W, Manosroi J. (2012). Anti-aging efficacy of topical formulations containing niosomes entrapped with rice bran bioactive compounds. 50(2): 208-224.
  • McCullough JL, Kelly KM. (2006). Prevention and treatment of skin aging. 1067(1): 323-331.
  • Morganti, P. (2010). Use and potential of nanotechnology in cosmetic dermatology. Clin Cosmet Investig Dermatol 3: 5-13.
  • Müller RH. (1991). Colloidal carriers for controlled drug delivery and targeting: Modification, characterization and in vivo distribution. Taylor & Francis.
  • Müller RH, Petersen RD, Hommoss A, Pardeike J. (2007). Nanostructured lipid carriers (NLC) in cosmetic dermal products. 59(6): 522-530
  • Müller RH, Radtke M, Wissing SA. (2002). Solid lipid nanoparticles (SLN) and nanostructured lipid carriers (NLC) in cosmetic and dermatological preparations. 54: S131-S155.
  • Nacht S, Katz M. The microsponge: A novel topical programmable delivery system. (1990).In: Osborne DW, Amman AH, editors. Topical
  • Drug Delivery Formulations. Marcel Dekker Basel, New York. p. 299-325
  • Pando D, Caddeo C, Manconi M, Fadda AM, Pazos C. (2013). Nanodesign of olein vesicles for the topical delivery of the antioxidant resveratrol. 65(8): 1158-1167.
  • Piccioni A, Fargnoli MC, Schoinas S, Suppa M, Frascione P, Ginebri A, Peris K. (2011). Efficacy and tolerability of 5-aminolevulinic acid 0.5% liposomal spray and intense pulsed light in wrinkle reduction of photodamaged skin. 22(5): 247-253.
  • Pradhan SK. (2011). Microsponges as the versatile tool for drug delivery system. 1(2), 243-58.
  • Proksch E, Brandner JM, Jensen JM. (2008). The skin: an indispensable barrier. 17(12): 1063-1072.
  • Rahimpour Y, Hamishehkar H. (2012). Liposomes in cosmeceutics. 9(4): 443-455.
  • Ramos-e-Silva M, Jacques CDMC. (2012). Epidermal barrier function and systemic diseases. 30(3): 277-279.
  • Schwarz JC, Baisaeng N, Hoppel M, Löw M, Keck CM, Valenta C. (2013). Ultra-small NLC for improved dermal delivery of coenyzme Q10. 447(1): 213-217.
  • Shakeel F, Shafiq S, Haq N, Alanazi FK, Alsarra IA. (2012). Nanoemulsions as potential vehicles for transdermal and dermal delivery of hydrophobic compounds: an overview. 9(8): 953-974.
  • Sharma B, Sharma A. (2012). Future prospect of nanotechnology in development of anti-ageing formulations. 4: 57-66.
  • Sherif S, Bendas ER, Badawy S. (2014). The clinical efficacy of cosmeceutical application of liquid crystalline nanostructured dispersions of alpha lipoic acid as anti-wrinkle. 86(2): 251-259.
  • Sinico C, Fadda AM. (2009). Vesicular carriers for dermal drug delivery. 6(8): 813-825.
  • Sorg O, Kuenzli S, Kaya G, Saurat JH. (2005). Proposed mechanisms of action for retinoid derivatives in the treatment of skin aging. 4(4): 237-244.
  • Tao L. (2000). Skin delivery from lipid vesicles. 115(4): 43-50.
  • Tarımcı N, Badıllı U S. (2014). Nanotaşıyıcıların Kozmetik Uygulamaları, In: Zırh-Gürsoy A (ed.) Nanofarmasötikler ve Uygulamaları. Aktif Matbaa ve Reklam Hiz. San. Tic. A.Ş. İstanbul, pp. 347-359.
  • Tırnaksız F. (2005). Antioksidanların cilt bakım ürünlerinde kullanımı. Teb Meslek içi Eğitim Dergisi. Kasım, pp. 26-37.
  • Touitou E, Dayan N, Bergelson L, Godin B, Eliaz M. (2000). Ethosomes—novel vesicular carriers for enhanced delivery: characterization and skin penetration properties. 65(3): 403-418.
  • Türsen Ü. (2006). Deri Yaşlanmasının Topikal Ajanlarla Önlenmesi. 4: 267-283.
  • Ünlü E. (2010). Erdem C. Deri yaşlanmasında korunma ve tedavi yöntemleri. 1(1), 23-31.
  • Wickett RR, Visscher MO. (2006). Structure and function of the epidermal barrier. 34(10): S98-S110.
  • Yadav NK, Nanda S, Sharma G, Katare OP. (2016). Systematically optimized coenzyme q10-loaded novel proniosomal formulation for treatment of photo-induced aging in mice: characterization, biocompatibility studies, biochemical estimations and anti-aging evaluation. 24(3): 257-271.
  • Yang D, Pornpattananangkul D, Nakatsuji T, Chan M, Carson D, Huang CM, Zhang L. (2009). The antimicrobial activity of liposomal lauric acids against Propionibacterium acnes. 30(30): 6035-6040.
  • Yapar EA, Tanrıverdi ST. (2016). Yaşlanma Karşıtı Kozmetik Yaklaşımlar ve Ürün Bileşenleri. ıkesir Sağlık Bilimleri Dergisi 5(2): 99-109.
  • Yazan Y. (2004). Kozmetik Bilimi. Nobel Tıp Kitabevleri/İstanbul.
  • Yazan Y. (2016). Dermakozmetik/Kozmesötik Madde ve Ürünler. Nobel Tıp Kitabevleri/İstanbul.
  • Yue Y, Zhou H, Liu G, Li Y, Yan Z, Duan M. (2010). The advantages of a novel CoQ10 delivery system in skin photo-protection. 392(1): 57-63.
  • Zussman J, Ahdout J, Kim J. (2010). Vitamins and photoaging: Do scientific data support their use? 63(3): 507-525.

Overview on nanotechnology based cosmeceuticals to prevent skin aging

Year 2018, Volume: 48 Issue: 2, 55 - 62, 31.08.2018

Abstract

DOI: 10.5152/IstanbulJPharm.2018.424278


Skin aging is an inevitable process and the
highest contributing factor to this process is the effect of ultraviolet rays.
However, nutrients, dry skin, smoking, hormones and gravity are also other
important factors. Skin aging is classified as intrinsic (chronological) and
extrinsic (photo-aging). Generally, in aged skin, effects such as thinning,
loss of elasticity, spotting, wrinkles and sagging are observed.



There are various approaches to preventing
skin aging. The most widely used age combating substances in cosmeceuticals are
kinetin, retinoids, sun filters, herbal ingredients (such as resveratrol,
turmeric, and green tea), and antioxidants (such as alpha-tocopherol, ascorbic
acid, coenzyme Q10 and lipoic acid). In recent years, these molecules have been
formulated as nanosized carriers such as vesicular systems, polymeric and lipid
nanoparticles, nanoemulsions, dendrimers, and fullerenes. Novel carrier systems
have a lot of advantages when compared to conventional formulations. In this
review, an overview of cosmetic, product-oriented solutions for skin aging is
given and different approaches to combat aging are summarized.

References

  • Allemann IB, Baumann, L. (2009). Botanicals in skin care products. 48(9): 923-934.
  • Bakry R, Vallant RM, Najam-ul-Haq M, Rainer M, Szabo Z, Huck CW, Bonn GK. (2007). Medicinal applications of fullerenes. 2(4): 639.
  • Baroni A, Buommino E, De Gregorio V, Ruocco E, Ruocco V, Wolf R. (2012). Structure and function of the epidermis related to barrier properties. 30(3), 257-262.
  • Barry BW. Penetration enhancers. In: Shroot B, Schafer H, 1987 editors. Skin Pharmacokinetics. Karger, Basel. pp. 121-7
  • Benson HA, Watkinson AC. (Eds.). (2012). Topical and transdermal drug delivery: Principles and practice. John Wiley & Sons.
  • Bouwstra JA, Honeywell-Nguyen PL. (2002). Skin structure and mode of action of vesicles. 54: S41-S55.
  • Chanchal D, Swarnlata S. (2008). Novel approaches in herbal cosmetics. J Cosmet Dermatol 7(2): 89-95.
  • Chasteen AL, Bashir NY, Gallucci C, Visekruna A. (2011). Age and antiaging technique influence reactions to age concealment. 66(6): 719-724.
  • Darlenski R, Fluhr JW. (2012). Influence of skin type, race, sex, and anatomic location on epidermal barrier function. 30(3): 269-273.
  • Ezzat SM, Salama MM, ElMeshad AN, Teaima MH, Rashad LA. (2016). HPLC–DAD–MS/MS profiling of standardized rosemary extract and enhancement of its anti-wrinkle activity by encapsulation in elastic nanovesicles. 39(7): 912-925.
  • Farage MA, Miller KW, Elsner P, Maibach HI. (2007). Structural characteristics of the aging skin: a review. 26(4): 343-357.
  • Friedrich RB, Kann B, Coradini K, Offerhaus HL, Beck RC, Windbergs M. (2015). Skin penetration behavior of lipid-core nanocapsules for simultaneous delivery of resveratrol and curcumin. 78: 204-213
  • Goindi S, Guleria A, Aggarwal N. (2015). Development and Evaluation of Solid Lipid Nanoparticles of N-6-Furfuryl Adenine for Prevention of Photoaging. 11(10): 1734-1746.
  • Gökce EH, Korkmaz E, Dellera E, Sandri G, Bonferoni MC, Ozer O. (2012). Resveratrol-loaded solid lipid nanoparticles versus nanostructured lipid carriers: evaluation of antioxidant potential for dermal applications. 7(1), 1841-1850.
  • Gondikas AP, Kammer FVD, Reed RB, Wagner S, Ranville JF, Hofmann T. (2014). Release of TiO2 nanoparticles from sunscreens into surface waters: a one-year survey at the old Danube recreational Lake. 48(10): 5415-5422.
  • Graf J. (2005). Anti-aging skin care ingredient technologies. In: Cosmetic Dermatology Springer, Berlin Heidelberg. pp. 17-28.
  • Guimarães KL, Ré MI. (2011). Lipid nanoparticles as carriers for cosmetic ingredients: The first (SLN) and the second generation (NLC). In:
  • Nanocosmetics and nanomedicines, Springer, Berlin Heidelberg. pp. 101-122.
  • Gupta M, Agrawal U, Vyas SP. (2012). Nanocarrier-based topical drug delivery for the treatment of skin diseases. 9(7): 783-804.
  • Gupta NK, Dixit VK. (2011). Development and evaluation of vesicular system for curcumin delivery. 303(2): 89-101.
  • Guterres SS, Alves MP, Pohlmann AR. (2007). Polymeric nanoparticles, nanospheres and nanocapsules, for cutaneous applications. 2: 147-157.
  • Güngör S, Erdal MS, Aksu B. (2013). New formulation strategies in topical antifungal therapy. 3(01): 56-65.
  • Güngör S. (2014). Topikal Uygulanan Nanotaşıyıcılar, In: Zırh-Gürsoy A (ed.) Nanofarmasötikler ve Uygulamaları. Aktif Matbaa ve Reklam Hiz. San. Tic. A.Ş. İstanbul, pp. 333-345.
  • Jaspart S, Piel G, Delattre L, Evrard B. (2005). Solid lipid microparticles: formulation, preparation, characterisation, drug release and applications. 2(1): 75-87.
  • Kahraman E, Özhan G, Özsoy Y, Güngör S. (2016). Polymeric micellar nanocarriers of benzoyl peroxide as potential follicular targeting approach for acne treatment. 146: 692-699.
  • Kandekar SG, Del Río-Sancho S, Lapteva M, Kalia YN. (2018). Selective delivery of adapalene to the human hair follicle under finite dose conditions using polymeric micelle nanocarriers. 10(3): 1099-1110.
  • Kaur CD, Saraf S. (2011). Topical vesicular formulations of Curcuma longa extract on recuperating the ultraviolet radiation–damaged skin. 10(4): 260-265.
  • Kaur IP, Agrawal R. (2007). Nanotechnology: a new paradigm in cosmeceuticals. 1(2): 171-182
  • Kaur IP, Kapila M, Agrawal R. (2007). Role of novel delivery systems in developing topical antioxidants as therapeutics to combat photoageing. 6(4): 271-288.
  • Kwon SS, Kim SY, Kong BJ, Kim KJ, Noh GY, Im NR, Park SN. (2015). Cell penetrating peptide conjugated liposomes as transdermal delivery system of Polygonumaviculare L. extract. 483(1): 26-37.
  • Lazarus, M. C., & Baumann, L. S. (2001). The use of cosmeceutical moisturizers. 14(3): 200-207.
  • Li D, Wu Z, Martini N, Wen J. (2011). Advanced carrier systems in cosmetics and cosmeceuticals: a review. 62(6): 549.
  • Manosroi A, Chutoprapat R, Abe M, Manosroi W, Manosroi J. (2012). Anti-aging efficacy of topical formulations containing niosomes entrapped with rice bran bioactive compounds. 50(2): 208-224.
  • McCullough JL, Kelly KM. (2006). Prevention and treatment of skin aging. 1067(1): 323-331.
  • Morganti, P. (2010). Use and potential of nanotechnology in cosmetic dermatology. Clin Cosmet Investig Dermatol 3: 5-13.
  • Müller RH. (1991). Colloidal carriers for controlled drug delivery and targeting: Modification, characterization and in vivo distribution. Taylor & Francis.
  • Müller RH, Petersen RD, Hommoss A, Pardeike J. (2007). Nanostructured lipid carriers (NLC) in cosmetic dermal products. 59(6): 522-530
  • Müller RH, Radtke M, Wissing SA. (2002). Solid lipid nanoparticles (SLN) and nanostructured lipid carriers (NLC) in cosmetic and dermatological preparations. 54: S131-S155.
  • Nacht S, Katz M. The microsponge: A novel topical programmable delivery system. (1990).In: Osborne DW, Amman AH, editors. Topical
  • Drug Delivery Formulations. Marcel Dekker Basel, New York. p. 299-325
  • Pando D, Caddeo C, Manconi M, Fadda AM, Pazos C. (2013). Nanodesign of olein vesicles for the topical delivery of the antioxidant resveratrol. 65(8): 1158-1167.
  • Piccioni A, Fargnoli MC, Schoinas S, Suppa M, Frascione P, Ginebri A, Peris K. (2011). Efficacy and tolerability of 5-aminolevulinic acid 0.5% liposomal spray and intense pulsed light in wrinkle reduction of photodamaged skin. 22(5): 247-253.
  • Pradhan SK. (2011). Microsponges as the versatile tool for drug delivery system. 1(2), 243-58.
  • Proksch E, Brandner JM, Jensen JM. (2008). The skin: an indispensable barrier. 17(12): 1063-1072.
  • Rahimpour Y, Hamishehkar H. (2012). Liposomes in cosmeceutics. 9(4): 443-455.
  • Ramos-e-Silva M, Jacques CDMC. (2012). Epidermal barrier function and systemic diseases. 30(3): 277-279.
  • Schwarz JC, Baisaeng N, Hoppel M, Löw M, Keck CM, Valenta C. (2013). Ultra-small NLC for improved dermal delivery of coenyzme Q10. 447(1): 213-217.
  • Shakeel F, Shafiq S, Haq N, Alanazi FK, Alsarra IA. (2012). Nanoemulsions as potential vehicles for transdermal and dermal delivery of hydrophobic compounds: an overview. 9(8): 953-974.
  • Sharma B, Sharma A. (2012). Future prospect of nanotechnology in development of anti-ageing formulations. 4: 57-66.
  • Sherif S, Bendas ER, Badawy S. (2014). The clinical efficacy of cosmeceutical application of liquid crystalline nanostructured dispersions of alpha lipoic acid as anti-wrinkle. 86(2): 251-259.
  • Sinico C, Fadda AM. (2009). Vesicular carriers for dermal drug delivery. 6(8): 813-825.
  • Sorg O, Kuenzli S, Kaya G, Saurat JH. (2005). Proposed mechanisms of action for retinoid derivatives in the treatment of skin aging. 4(4): 237-244.
  • Tao L. (2000). Skin delivery from lipid vesicles. 115(4): 43-50.
  • Tarımcı N, Badıllı U S. (2014). Nanotaşıyıcıların Kozmetik Uygulamaları, In: Zırh-Gürsoy A (ed.) Nanofarmasötikler ve Uygulamaları. Aktif Matbaa ve Reklam Hiz. San. Tic. A.Ş. İstanbul, pp. 347-359.
  • Tırnaksız F. (2005). Antioksidanların cilt bakım ürünlerinde kullanımı. Teb Meslek içi Eğitim Dergisi. Kasım, pp. 26-37.
  • Touitou E, Dayan N, Bergelson L, Godin B, Eliaz M. (2000). Ethosomes—novel vesicular carriers for enhanced delivery: characterization and skin penetration properties. 65(3): 403-418.
  • Türsen Ü. (2006). Deri Yaşlanmasının Topikal Ajanlarla Önlenmesi. 4: 267-283.
  • Ünlü E. (2010). Erdem C. Deri yaşlanmasında korunma ve tedavi yöntemleri. 1(1), 23-31.
  • Wickett RR, Visscher MO. (2006). Structure and function of the epidermal barrier. 34(10): S98-S110.
  • Yadav NK, Nanda S, Sharma G, Katare OP. (2016). Systematically optimized coenzyme q10-loaded novel proniosomal formulation for treatment of photo-induced aging in mice: characterization, biocompatibility studies, biochemical estimations and anti-aging evaluation. 24(3): 257-271.
  • Yang D, Pornpattananangkul D, Nakatsuji T, Chan M, Carson D, Huang CM, Zhang L. (2009). The antimicrobial activity of liposomal lauric acids against Propionibacterium acnes. 30(30): 6035-6040.
  • Yapar EA, Tanrıverdi ST. (2016). Yaşlanma Karşıtı Kozmetik Yaklaşımlar ve Ürün Bileşenleri. ıkesir Sağlık Bilimleri Dergisi 5(2): 99-109.
  • Yazan Y. (2004). Kozmetik Bilimi. Nobel Tıp Kitabevleri/İstanbul.
  • Yazan Y. (2016). Dermakozmetik/Kozmesötik Madde ve Ürünler. Nobel Tıp Kitabevleri/İstanbul.
  • Yue Y, Zhou H, Liu G, Li Y, Yan Z, Duan M. (2010). The advantages of a novel CoQ10 delivery system in skin photo-protection. 392(1): 57-63.
  • Zussman J, Ahdout J, Kim J. (2010). Vitamins and photoaging: Do scientific data support their use? 63(3): 507-525.
There are 66 citations in total.

Details

Primary Language English
Subjects Pharmacology and Pharmaceutical Sciences
Journal Section Review
Authors

Gizem Otlatıcı This is me

Gizem Yeğen 0000-0003-0427-8918

Sevgi Güngör This is me 0000-0002-8199-3010

Buket Aksu 0000-0001-7555-0603

Publication Date August 31, 2018
Submission Date May 16, 2018
Published in Issue Year 2018 Volume: 48 Issue: 2

Cite

APA Otlatıcı, G., Yeğen, G., Güngör, S., Aksu, B. (2018). Overview on nanotechnology based cosmeceuticals to prevent skin aging. İstanbul Journal of Pharmacy, 48(2), 55-62.
AMA Otlatıcı G, Yeğen G, Güngör S, Aksu B. Overview on nanotechnology based cosmeceuticals to prevent skin aging. iujp. August 2018;48(2):55-62.
Chicago Otlatıcı, Gizem, Gizem Yeğen, Sevgi Güngör, and Buket Aksu. “Overview on Nanotechnology Based Cosmeceuticals to Prevent Skin Aging”. İstanbul Journal of Pharmacy 48, no. 2 (August 2018): 55-62.
EndNote Otlatıcı G, Yeğen G, Güngör S, Aksu B (August 1, 2018) Overview on nanotechnology based cosmeceuticals to prevent skin aging. İstanbul Journal of Pharmacy 48 2 55–62.
IEEE G. Otlatıcı, G. Yeğen, S. Güngör, and B. Aksu, “Overview on nanotechnology based cosmeceuticals to prevent skin aging”, iujp, vol. 48, no. 2, pp. 55–62, 2018.
ISNAD Otlatıcı, Gizem et al. “Overview on Nanotechnology Based Cosmeceuticals to Prevent Skin Aging”. İstanbul Journal of Pharmacy 48/2 (August 2018), 55-62.
JAMA Otlatıcı G, Yeğen G, Güngör S, Aksu B. Overview on nanotechnology based cosmeceuticals to prevent skin aging. iujp. 2018;48:55–62.
MLA Otlatıcı, Gizem et al. “Overview on Nanotechnology Based Cosmeceuticals to Prevent Skin Aging”. İstanbul Journal of Pharmacy, vol. 48, no. 2, 2018, pp. 55-62.
Vancouver Otlatıcı G, Yeğen G, Güngör S, Aksu B. Overview on nanotechnology based cosmeceuticals to prevent skin aging. iujp. 2018;48(2):55-62.