44 ANTI-POLLUTION Natura-Tec’s biotechnology centre has
developed a low carbon footprint closed- circuit photobioreactor technology that ensures consistent quality and purity combined with environmental compliance, going beyond carbon neutrality, by generating an oxygen- positive circular economy process. Microalgae active ingredients, thanks to
their high effectiveness, are of great interest in the care of divers’ skin types, and due to their sustainable production process, help us to contribute to a more responsible approach to industrial design, thanks to our conscious choice of intentions and impact.
T0 T1 MONTH
PC
References 1. World Health Organization. Air pollution - Overview. 26 July 2023. https://www.who. int/health-topics/air-pollution#tab=tab_1
2. Araviiskaia E, Berardesca E, Bieber T, Gontijo G, Sanchez Viera M, Marrot L, Chuberre B, Dreno B. The impact of airborne pollution on skin. J. Eur. Acad. Dermatol. Venereol. 2019; Aug;33(8):1496- 1505, doi: 10.1111/jdv.15583
3. Singh J, Dhar DW. Overview of carbon capture technology: microalgal biorefinery concept and state-of-the-art. Frontiers in Marine Science. 2019; 6, 29; doi:10.3389/ fmars.2019.00029
4. Moreira D, Pires JC. Atmospheric CO2 capture by algae: negative carbon dioxide emission path. Biore. Techn. 2016; 215, 371–379, doi:10.1016/
j.biortech.2016.03.060
5. Jajesniak P, Ali H, Wong TS. Carbon dioxide capture and utilization using biological systems: opportunities and challenges. J. Bioprocess. Biotech. 2014; 4(2), doi:10.4172/2155-9821.1000155
6. Batista AP, Ambrosano L, Graça S, Sousa C, Marques PA, Ribeiro B, Botrel EP, Neto PC, Gouveia L. Combining urban wastewater treatment with biohydrogen production–an integrated microalgae-based approach. Biore. Techn. 2015. 184, 230–235. doi:10.1016/
j.biortech.2014.10.064
7. IFREMER (French Research Institute for Exploitation of the Sea)
8. Duarte H, Fanka LS, Vieira Costa JA. Utilization of simulated flue gas containing CO2, SO2, NO and ash for Chlorella fusca cultivation. Bioresource Technology. Volume 214, August 2016, Pages 159-165,
https://doi.org/10.1016/j. biortech.2016.04.078
9. Lin Z, Niu Y, Jiang Y et al. Protective effects of dietary fish-oil supplementation on skin inflammatory and oxidative stress biomarkers induced by fine particulate air pollution: a pilot randomized, double-blind, placebo- controlled trial [published online April 25, 2020]. Br. J. Dermatol. doi: 10.1111/bjd.19156
10. Zhou et al. Mechanistic insights into the health benefits of fish-oil supplementation against fine particulate matter air pollution: a randomized controlled trial. Environmental Health. 2022; 21:104 https://
doi.org/10.1186/s12940-022-00908-1
11. Baswan SM, Klosner AE, Weir C, Salter- Venzon D, Gellenbeck KW, Leverett J, Krutmann J. Role of ingestible carotenoids
PERSONAL CARE November 2023 Figure 9: Reduction of skin spot surface and colour after 1 month of treatment with 1.5% of active
in skin protection: A review of clinical evidence. Photodermatol. Photoimmunol. Photomed. 2021; Nov;37(6):490-504. doi: 10.1111/phpp.12690.
12. Ácsová A, Hojerová J, Hergesell K, Hideg E, Csepregi K, Bauerová K, Pružinská K, Martiniaková S. Antioxidant and Anti- Pollution Effect of Naturally Occurring Carotenoids Astaxanthin and Crocin for Human Skin Protection. Chemistry Select. 2022; July, Volume 7, Issue 28. https://doi. org/10.1002/slct.202201595
13. Ping Diao, Hailun He, Jie Tang, Lidan Xiong, Li Li. Natural compounds protect the skin from airborne particulate matter by attenuating oxidative stress. Biomedicine & Pharmacotherapy. Volume 138, June 2021, 111534.
https://doi.org/10.1016/j. biopha.2021.111534
14. Stout R, Birch-Machin M. Mitochondria’s Role in Skin Ageing. Biology (Basel). 2019 Jun; 8(2): 29. doi: 10.3390/biology8020029 15. Martic I, Jansen-Dürr P, Cavinato C. Effects
of Air Pollution on Cellular Senescence and Skin Aging. Cells. 2022; Jul; 11(14): 2220. doi: 10.3390/cells11142220
16. Vierkötter A, Krutmann J. Environmental Influences on Skin Aging and Ethnic- Specific Manifestations. Dermato- Endocrinology. 2012, 4, 227–231
17. Seo-Yeon Park, Eun Jung Byun, Jeong Deuk Lee, Sungjoo Kim, Hei Sung Kim. Air Pollution, Autophagy, and Skin Aging: Impact of Particulate Matter (PM10) on Human Dermal Fibroblasts. Int. J. Mol. Sci. 2018 Sep;19(9):2727. doi: 10.3390/ ijms19092727
18. Stout R, Birch-Machin M. Mitochondria’s Role in Skin Ageing. Biology (Basel). 2019 Jun; 8(2): 29. doi: 10.3390/biology8020029
19. Se Jin Oh, Dokyoung Yoon, Ji-Hye Park, Jong Hee Lee. Effects of Particulate Matter on Healthy Skin: A Comparative Study between High- and Low-Particulate Matter Periods. Ann. Dermatol. 2021; Jun; 33(3): 263–270. doi: 10.5021/ad.2021.33.3.263
www.personalcaremagazine.com T0 T1 MONTH T0 T1 MONTH
Page 1 |
Page 2 |
Page 3 |
Page 4 |
Page 5 |
Page 6 |
Page 7 |
Page 8 |
Page 9 |
Page 10 |
Page 11 |
Page 12 |
Page 13 |
Page 14 |
Page 15 |
Page 16 |
Page 17 |
Page 18 |
Page 19 |
Page 20 |
Page 21 |
Page 22 |
Page 23 |
Page 24 |
Page 25 |
Page 26 |
Page 27 |
Page 28 |
Page 29 |
Page 30 |
Page 31 |
Page 32 |
Page 33 |
Page 34 |
Page 35 |
Page 36 |
Page 37 |
Page 38 |
Page 39 |
Page 40 |
Page 41 |
Page 42 |
Page 43 |
Page 44 |
Page 45 |
Page 46 |
Page 47 |
Page 48 |
Page 49 |
Page 50 |
Page 51 |
Page 52 |
Page 53 |
Page 54 |
Page 55 |
Page 56 |
Page 57 |
Page 58 |
Page 59 |
Page 60 |
Page 61 |
Page 62 |
Page 63 |
Page 64 |
Page 65 |
Page 66 |
Page 67 |
Page 68 |
Page 69 |
Page 70 |
Page 71 |
Page 72 |
Page 73 |
Page 74 |
Page 75 |
Page 76 |
Page 77 |
Page 78 |
Page 79 |
Page 80 |
Page 81 |
Page 82 |
Page 83 |
Page 84 |
Page 85 |
Page 86 |
Page 87 |
Page 88 |
Page 89 |
Page 90 |
Page 91 |
Page 92
