Fuentes | Beautypul

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Jniene, A., Errguig, L., El Hangouche, A. J., Rkain, H., Aboudrar, S., El Ftouh, M., & Dakka, T. (2019). Perception of Sleep Disturbances due to Bedtime Use of Blue Light-Emitting Devices and Its Impact on Habits and Sleep Quality among Young Medical Students. BioMed research international, 2019, 7012350. https://doi.org/10.1155/2019/7012350
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Nagai, N., Ayaki, M., Yanagawa, T., Hattori, A., Negishi, K., Mori, T., Nakamura, T. J., & Tsubota, K. (2019). Suppression of Blue Light at Night Ameliorates Metabolic Abnormalities by Controlling Circadian Rhythms. Investigative ophthalmology & visual science, 60(12), 3786–3793. https://doi.org/10.1167/iovs.19-27195
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Heo, J. Y., Kim, K., Fava, M., Mischoulon, D., Papakostas, G. I., Kim, M. J., Kim, D. J., Chang, K. J., Oh, Y., Yu, B. H., & Jeon, H. J. (2017). Effects of smartphone use with and without blue light at night in healthy adults: A randomized, double-blind, cross-over, placebo-controlled comparison. Journal of psychiatric research, 87, 61–70. https://doi.org/10.1016/j.jpsychires.2016.12.010

Devaraj, R. D., Reddy, C. K., & Xu, B. (2019). Health-promoting effects of konjac glucomannan and its practical applications: A critical review. International journal of biological macromolecules, 126, 273–281. https://doi.org/10.1016/j.ijbiomac.2018.12.203
Choi, K. H., Kim, S. T., Bin, B. H., & Park, P. J. (2020). Effect of Konjac Glucomannan (KGM) on the Reconstitution of the Dermal Environment against UVB-Induced Condition. Nutrients, 12(9), 2779. https://doi.org/10.3390/nu12092779
Al-Ghazzewi, F. H., & Tester, R. F. (2010). Effect of konjac glucomannan hydrolysates and probiotics on the growth of the skin bacterium Propionibacterium acnes in vitro. International journal of cosmetic science, 32(2), 139–142. https://doi.org/10.1111/j.1468-2494.2009.00555.x
Alves, A., Miguel, S. P., Araujo, A. R. T. S., de Jesús Valle, M. J., Sánchez Navarro, A., Correia, I. J., Ribeiro, M. P., & Coutinho, P. (2020). Xanthan Gum–Konjac Glucomannan Blend Hydrogel for Wound Healing. Polymers, 12(1), 99. https://doi.org/10.3390/polym12010099
Yang, B., Chen, Y., Li, Z., Tang, P., Tang, Y., Zhang, Y., Nie, X., Fang, C., Li, X., & Zhang, H. (2020). Konjac glucomannan/polyvinyl alcohol nanofibers with enhanced skin healing properties by improving fibrinogen adsorption. Materials science & engineering. C, Materials for biological applications, 110, 110718. https://doi.org/10.1016/j.msec.2020.110718
Zhang YQ, Xie BJ, Gan X. Advance in the applications of konjac glucomannan and its derivatives. Carbohydrate polymers.. 2005 Apr;60(1):27-31. DOI: 10.1016/j.carbpol.2004.11.003.
Onishi, N., Kawamoto, S., Suzuki, H., Santo, H., Aki, T., Shigeta, S., Hashimoto, K., Hide, M., & Ono, K. (2007). Dietary pulverized konjac glucomannan suppresses scratching behavior and skin inflammatory immune responses in NC/Nga mice. International archives of allergy and immunology, 144(2), 95–104. https://doi.org/10.1159/000103220
Tester, R.F. and Al-Ghazzewi, F.H. (2016), Beneficial health characteristics of native and hydrolysed konjac (Amorphophallus konjac) glucomannan. J. Sci. Food Agric., 96: 3283-3291. https://doi.org/10.1002/jsfa.7571
Elaheh Bateni, Richard Tester, Farage Al-Ghazzewi, Soheil Bateni, Kamran Alvani, John Piggott, The Use of Konjac Glucomannan Hydrolysates (GMH) to Improve the Health of the Skin and Reduce Acne Vulgaris, American Journal of Dermatology and Venereology, Vol. 2 No. 2, 2013, pp. 10-14. doi: 10.5923/j.ajdv.20130202.02
Shahbuddin, Munira & Macneil, Sheila & Rimmer, Stephen. (2011). The potential use of konjac glucomannan for wound healing and cell transportation. European Cells and Materials. 22. https://www.researchgate.net/profile/Munira-Shahbuddin/publication/279549734_The_potential_use_of_konjac_glucomannan_for_wound_healing_and_cell_transportation/links/559fe66b08ae032ef05449a4/The-potential-use-of-konjac-glucomannan-for-wound-healing-and-cell-transportation.pdf
Shahbuddin, M (2014) Development of konjac glucomannan hydrogels for wound healing. PhD thesis, University of Sheffield.
F. Al-Ghazzewi, A. Elamir, R. Tester, A. Elzagoze, Effect of depolymerised konjac glucomannan on wound healing, Bioactive Carbohydrates and Dietary Fibre, Volume 5, Issue 2, 2015, Pages 125-128, ISSN 2212-6198, https://doi.org/10.1016/j.bcdf.2015.03.003.
Liu X, Wang K, Ding Y, He X, Wang B. [Restoring the skin from traumatism by means of collagen-konjac glucomannan-chondroitin sulfate blend film]. Sheng wu yi xue Gong Cheng xue za zhi = Journal of Biomedical Engineering = Shengwu Yixue Gongchengxue Zazhi. 2005 Oct;22(5):1004-6, 1023. PMID: 16294740. https://europepmc.org/article/med/16294740
Behera, S. S., & Ray, R. C. (2016). Konjac glucomannan, a promising polysaccharide of Amorphophallus konjac K. Koch in health care. International journal of biological macromolecules, 92, 942–956. https://doi.org/10.1016/j.ijbiomac.2016.07.098
Wang, Y., Xie, R., Li, Q., Dai, F., Lan, G., Shang, S., & Lu, F. (2020). A self-adapting hydrogel based on chitosan/oxidized konjac glucomannan/AgNPs for repairing irregular wounds. Biomaterials science, 8(7), 1910–1922. https://doi.org/10.1039/c9bm01635j
Jiang, M., Li, H., Shi, Js. et al. Depolymerized konjac glucomannan: preparation and application in health care. J. Zhejiang Univ. Sci. B 19, 505–514 (2018). https://doi.org/10.1631/jzus.B1700310

Van Bronswijk, J. (1981). House dust biology: For allergists, acarologists, and mycologists (1st ed.). World-wide distributor, NIB Publishers.
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Jahan, I.A., Hossain, M.H., Ahmed, K.S. et al. Antioxidant activity of Moringa oleifera seed extracts. Orient Pharm Exp Med 18, 299–307 (2018). https://doi.org/10.1007/s13596-018-0333-y
Bissett, D.L. (2006), Glucosamine: an ingredient with skin and other benefits. Journal of Cosmetic Dermatology, 5: 309-315. https://doi.org/10.1111/j.1473-2165.2006.00277.x

Ikeda, H., Saheki, Y., Sakano, Y., Wada, A., Ando, H. and Tagai, K. (2021), Facial radiance influences facial attractiveness and affective impressions of faces. Int J Cosmet Sci, 43: 144-157. https://doi.org/10.1111/ics.12673

Aad.org. 2021. How to treat a first-degree, minor burn. [online] Available at: <https://www.aad.org/public/everyday-care/injured-skin/burns/treat-minor-burns>
Aad.org. 2021. Proper wound care: How to minimize a scar. [online] Available at: <https://www.aad.org/public/everyday-care/injured-skin/burns/wound-care-minimize-scars>
Mi post de 6 sobre el aceite mineral.
Rawlings, A.V. and Lombard, K.J. (2012), A review on the extensive skin benefits of mineral oil. Int J Cosmet Sci, 34: 511-518. https://doi.org/10.1111/j.1468-2494.2012.00752.x
Spruit D: The Interference of Some Substances with the Water Vapour Loss of Human Skin. Dermatology 1971;142:89-92. doi: 10.1159/000252375
Suizoargentina.com. 2021. Tres pasos indispensables para el cuidado de heridas – Suizo Argentina SA. [online] Available at: <https://suizoargentina.com/tres-pasos-indispensables-para-el-cuidado-de-heridas/>
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Vaughn, Alexandra & Nguyen, Mimi & Maarouf, Melody & Skiver, Melisa & Tran, Khiem Andrew & Rybak, Iryna & Sivamani, Raja & Shi, Vivian. (2018). Multi-Center Randomized Clinical Study of The Effects of Natural Oils on Xerosis and Skin Barrier Properties. SKIN The Journal of Cutaneous Medicine. 2. 10.25251/2.5.1.
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Korting HC, Hübner K, Greiner K, Hamm G, Braun-Falco O. Differences in the skin surface pH and bacterial microflora due to the long-term application of synthetic detergent preparations of pH 5.5 and pH 7.0. Results of a crossover trial in healthy volunteers. Acta Dermato-venereologica. 1990 ;70(5):429-431. PMID: 1980979.
Farahmand, S. (2020). Microbiome of Compromised Skin. In Skin Microbiome Handbook, N. Dayan (Ed.). https://doi.org/10.1002/9781119593058.ch7
Ananthapadmanabhan, K.P., Moore, D.J., Subramanyan, K., Misra, .M. and Meyer, F. (2004), Cleansing without compromise: the impact of cleansers on the skin barrier and the technology of mild cleansing. Dermatologic Therapy, 17: 16-25. https://doi.org/10.1111/j.1396-0296.2004.04S1002.x
Surber C, Abels C, Maibach H (eds): pH of the Skin: Issues and Challenges. Curr Probl Dermatol. Basel, Karger, 2018, vol 54, pp 132-142. https://doi.org/10.1159/000489527
Ananthapadmanabhan, K.P., Lips, A., Vincent, C., Meyer, F., Caso, S., Johnson, A., Subramanyan, K., Vethamuthu, M., Rattinger, G. and Moore, D.J. (2003), pH-induced alterations in stratum corneum properties. International Journal of Cosmetic Science, 25: 103-112. https://doi.org/10.1046/j.1467-2494.2003.00176.x
Korting, H. C., Hübner, K., Greiner, K., Hamm, G., & Braun-Falco, O. (1990). Differences in the skin surface pH and bacterial microflora due to the long-term application of synthetic detergent preparations of pH 5.5 and pH 7.0. Results of a crossover trial in healthy volunteers. Acta dermato-venereologica, 70(5), 429–431.
DIAZ, D. and DITRE, MD, C., 2020. The Effect of Cleansers on the Skin Microbiome. Practical Dermatology.

Khanna MD, N., Chandramohan MD, K., K. Khaitan MD, B., & K. Singh MD, M. (2013). Post waxing folliculitis: a clinicopathological evaluation. Wiley Online Library. From https://onlinelibrary.wiley.com/doi/abs/10.1111/ijd.12056.
Kolalapudi, S. A., Mahesh, A. R., Arumilli, P. C., Kotha, S., Krishna Snigdha, A. G., & Saka, S. (2020). Dermatoses Occurring after Parlor Procedures. Journal of cutaneous and aesthetic surgery, 13(4), 357–360. https://doi.org/10.4103/JCAS.JCAS_43_20
Hwang Liew MD, S. (1999). Unwanted body hair and its removal: A review [PDF]. RAFT.
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Pany, et al., A. (2018). Effect of Physical and Chemical Hair Removal Methods on Skin Barrier Function in vitro: Consequences for a Hydrophilic Model Permeant [PDF]. Skin Pharmacology and Physiology.
DeMaria AL, Flores M, Hirth JM, et al. (2014). Complications related to pubic hair removal. Am J Obstet Gynecol.

Miller, K., Hunt, R., Chu, J., Meehan, S., & Stein, J. (2011). Erythema ab igne. Dermatology Online Journal, 17(10). http://dx.doi.org/10.5070/D347z4v01z Retrieved from https://escholarship.org/uc/item/47z4v01z
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Lim, A., 2021. Sunscreen still needed: Protective surgical face masks ineffective against UV protection, says Kao. [online] cosmeticsdesign-asia.com. Available at: <https://www.cosmeticsdesign-asia.com/Article/2021/06/22/Protective-surgical-face-masks-ineffective-against-UV-protection-says-Kao>

Abdusalam Abu-Own, John H. Scurr, Philip D. Coleridge Smith, Effect of leg elevation on the skin microcirculation in chronic venous insufficiency, Journal of Vascular Surgery, Volume 20, Issue 5, 1994, Pages 705-710, https://doi.org/10.1016/S0741-5214(94)70157-1.
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Anthony Akinloye Bamigboye, George Justus Hofmeyr, Interventions for leg edema and varicosities in pregnancy: What evidence?, European Journal of Obstetrics & Gynecology and Reproductive Biology, Volume 129, Issue 1, 2006, Pages 3-8, ISSN 0301-2115, https://doi.org/10.1016/j.ejogrb.2006.03.008.
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Carmen G. Boeriu, Jan Springer, Floor K. Kooy, Lambertus A. M. van den Broek, Gerrit Eggink, «Production Methods for Hyaluronan», International Journal of Carbohydrate Chemistry, vol. 2013, Article ID 624967, 14 pages, 2013. https://doi.org/10.1155/2013/624967
Essendoubi, M., Gobinet, C., Reynaud, R., Angiboust, J.F., Manfait, M. and Piot, O. (2016), Human skin penetration of hyaluronic acid of different molecular weights as probed by Raman spectroscopy. Skin Res Technol, 22: 55-62. https://doi.org/10.1111/srt.12228

Does Vitamin C Serum Really Lose Potency After It Turns Yellow?: From FutureDerm Labs

Cisternas, P., Silva-Alvarez, C., Martínez, F., Fernandez, E., Ferrada, L., Oyarce, K., Salazar, K., Bolaños, J. P., & Nualart, F. (2014). The oxidized form of vitamin C, dehydroascorbic acid, regulates neuronal energy metabolism. Journal of neurochemistry, 129(4), 663–671. https://doi.org/10.1111/jnc.12663
Wilson J. X. (2002). The physiological role of dehydroascorbic acid. FEBS letters, 527(1-3), 5–9. https://doi.org/10.1016/s0014-5793(02)03167-8

Bassett, I. B., Pannowitz, D. L., & Barnetson, R. S. (1990). A comparative study of tea-tree oil versus benzoylperoxide in the treatment of acne. The Medical journal of Australia, 153(8), 455–458. https://pubmed.ncbi.nlm.nih.gov/2145499/

Carson CF, Riley TV (1993) Antimicrobial activity of the essential oil of Melaleuca alternifolia. Lett Appl Microbiol 16: 49-55 https://sfamjournals.onlinelibrary.wiley.com/doi/abs/10.1111/j.1472-765X.1993.tb00340.x

Roy, A. & Tavakolifar, Bahareh & Fallah Huseini, Hasan & Tousi, P. & Shafigh, N. & Rahimzadeh, Mitra. (2014). Efficacy of Melaleuca alternifolia essential oil in the treatment of facial seborrheic dermatitis: A double-blind, randomized, placebo-controlled clinical trial. Journal of Medicinal Plants. 13. 26-32. https://www.researchgate.net/publication/287371621_Efficacy_of_Melaleuca_alternifolia_essential_oil_in_the_treatment_of_facial_seborrheic_dermatitis_A_double-blind_randomized_placebo-controlled_clinical_trial

Video Todo sobre jojoba: https://www.youtube.com/watch?v=U7uYknivBi0

Danby F. W. (2010). Nutrition and aging skin: sugar and glycation. Clinics in dermatology, 28(4), 409–411. https://doi.org/10.1016/j.clindermatol.2010.03.018
Nguyen, H. P., & Katta, R. (2015). Sugar Sag: Glycation and the Role of Diet in Aging Skin. Skin therapy letter, 20(6), 1–5. https://www.skintherapyletter.com/aging-skin/glycation/
Gkogkolou, P., & Böhm, M. (2012). Advanced glycation end products: Key players in skin aging?. Dermato-endocrinology, 4(3), 259–270. https://doi.org/10.4161/derm.22028
Davis, K. E., Prasad, C., Vijayagopal, P., Juma, S., & Imrhan, V. (2016). Advanced Glycation End Products, Inflammation, and Chronic Metabolic Diseases: Links in a Chain?. Critical reviews in food science and nutrition, 56(6), 989–998. https://doi.org/10.1080/10408398.2012.744738
Paraskevi Gkogkolou & Markus Böhm (2012) Advanced glycation end products, Dermato-Endocrinology, 4:3, 259-270, DOI: 10.4161/derm.22028
H. Pageon, Reaction of glycation and human skin: The effects on the skin and its components, reconstructed skin as a model, Pathologie Biologie, Volume 58, Issue 3, 2010, Pages 226-231, ISSN 0369-8114, https://doi.org/10.1016/j.patbio.2009.09.009.
Masamitsu Ichihashi, Masayuki Yagi, Keitaro Nomoto, Yoshikazu Yonei, Glycation Stress and Photo-Aging in Skin, ANTI-AGING MEDICINE, 2011, Volume 8, Issue 3, Pages 23-29, Released August 27, 2011, Online ISSN 1882-2762, https://doi.org/10.3793/jaam.8.23, https://www.jstage.jst.go.jp/article/jaam/8/3/8_3_23/_article/-char/en

http://www.consumidores.mendoza.gov.ar/cuales-son-mis-derechos/

https://www.argentina.gob.ar/normativa/nacional/ley-26361-139252/texto

https://www.argentina.gob.ar/normativa/nacional/ley-24240-638

https://www.argentina.gob.ar/tema/consumidores/conocer-mis-derechos

Como denunciar:
https://www.argentina.gob.ar/iniciar-un-reclamo-ante-defensa-de-las-y-los-consumidores

https://www.instagram.com/tv/B-yN-Kvp6Ti/?igshid=bjy3wrgb4qzn

Herzog SM, Lim HW, Williams MS, de Maddalena ID, Osterwalder U, Surber C. Sun Protection Factor Communication of Sunscreen Effectiveness: A Web-Based Study of Perception of Effectiveness by Dermatologists. JAMA Dermatol. 2017;153(3):348–350. doi:10.1001/jamadermatol.2016.4924

Reinau, D., Osterwalder, U., Stockfleth, E. and Surber, C. (2015), The meaning and implication of sun protection factor. Br J Dermatol, 173: 1345-1345. doi:10.1111/bjd.14015

Williams, J. D., Maitra, P., Atillasoy, E., Wu, M. M., Farberg, A. S., & Rigel, D. S. (2018). SPF 100+ sunscreen is more protective against sunburn than SPF 50+ in actual use: Results of a randomized, double-blind, split-face, natural sunlight exposure clinical trial. Journal of the American Academy of Dermatology, 78(5), 902–910.e2. https://doi.org/10.1016/j.jaad.2017.12.062

Julie E. Russak, Theresa Chen, Yohini Appa, Darrell S. Rigel,
A comparison of sunburn protection of high–sun protection factor (SPF) sunscreens: SPF 85 sunscreen is significantly more protective than SPF 50, Journal of the American Academy of Dermatology, Volume 62, Issue 2, 2010, Pages 348-349, ISSN 0190-9622: https://doi.org/10.1016/j.jaad.2009.05.025.

Faurschou, A. and Wulf, H. (2007), The relation between sun protection factor and amount of suncreen applied in vivo . British Journal of Dermatology, 156: 716-719. doi:10.1111/j.1365-2133.2006.07684.x

Búsqueda con todos los estudios disponibles sobre el uso de siliconas en piel dañada o con cicatrices: https://scholar.google.com/scholar?hl=es&as_sdt=0%2C5&q=silicone+scars&btnG=&oq=sil

Dąbrowska, M., Maciejczyk, E. and Kalemba, D. (2019), Rose Hip Seed Oil: Methods of Extraction and Chemical Composition. Eur. J. Lipid Sci. Technol., 121: 1800440. doi:10.1002/ejlt.201800440
Lin, T.-K., Zhong, L., & Santiago, J. (2017). Anti-Inflammatory and Skin Barrier Repair Effects of Topical Application of Some Plant Oils. International Journal of Molecular Sciences, 19(1), 70. doi: 10.3390/ijms19010070
Shabykin, G. P., & Godorazhi, A. I. (1967). Polivitaminnyĭ preparat zhirorastvorimykh vitaminov (karotolin) i maslo iz semian shipovnika v terapii nekotorykh dermatosoz [A polyvitamin preparation of fat-soluble vitamins (carotolin) and rose hip oil in the treatment of certain dermatoses]. Vestnik dermatologii i venerologii, 41(4), 71–73: https://pubmed.ncbi.nlm.nih.gov/5629352/
Phetcharat, L., Wongsuphasawat, K., & Winther, K. (2015). The effectiveness of a standardized rose hip powder, containing seeds and shells of Rosa canina, on cell longevity, skin wrinkles, moisture, and elasticity. Clinical interventions in aging, 10, 1849–1856. https://doi.org/10.2147/CIA.S90092
Valerón-Almazán, Pedro & Gómez-Duaso, Anselmo & Santana-Molina, Néstor & García Bello, Miguel & Carretero, Gregorio. (2015). Evolution of Post-Surgical Scars Treated with Pure Rosehip Seed Oil. Journal of Cosmetics, Dermatological Sciences and Applications. 05. 161-167. 10.4236/jcdsa.2015.52019.
Marchini, F. B., Martins, D. M., de Teves, D. C., & Simões, M. (1988). Efeito do óleo de rosa mosqueta na cicatrização de feridas abertas [Effect of Rosa rubiginosa oil on the healing of open wounds]. Revista paulista de medicina, 106(6), 356: https://pubmed.ncbi.nlm.nih.gov/3269011/
Håkansson, Å., Stene, C., Mihaescu, A. et al. Rose Hip and Lactobacillus plantarum DSM 9843 Reduce Ischemia/Reperfusion Injury in the Mouse Colon. Dig Dis Sci 51, 2094–2101 (2006). https://doi.org/10.1007/s10620-006-9170-9

Todo sobre el Sodium Ascorbyl Phosphate:

Segall, A. I., & Moyano, M. A. (2008). Stability of vitamin C derivatives in topical formulations containing lipoic acid, vitamins A and E. International journal of cosmetic science, 30(6), 453–458. https://doi.org/10.1111/j.1468-2494.2008.00473.x
https://simpleskincarescience.com/sodium-ascorbyl-phosphate/

Efectos del jengibre en condiciones de la piel: http://cms.galenos.com.tr/Uploads/Article_32406/jtad-7-0-En.pdf

Extractos botánicos con efecto antiage: Hunt, K.J., Hung, S.K. & Ernst, E. Botanical Extracts as Anti-Aging Preparations for the Skin. Drugs Aging 27, 973–985 (2010). https://doi.org/10.2165/11584420-000000000-00000

Reporte de toxicidad: Guo, X., & Mei, N. (2016). Aloe vera: A review of toxicity and adverse clinical effects. Journal of environmental science and health. Part C, Environmental carcinogenesis & ecotoxicology reviews, 34(2), 77–96. https://doi.org/10.1080/10590501.2016.1166826: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6349368/

Características generales del Áloe: https://dialnet.unirioja.es/descarga/articulo/4956300.pdf

Estudio sobre los efectos del Áloe Vera:

MARY D. BOUDREAU & FREDERICK A. BELAND (2006) An Evaluation of the Biological and Toxicological Properties of Aloe Barbadensis (Miller), Aloe Vera, Journal of Environmental Science and Health, Part C, 24:1, 103-154, DOI: 10.1080/10590500600614303
Shelton, R.M. (1991), Aloe Vera. International Journal of Dermatology, 30: 679-683. doi:10.1111/j.1365-4362.1991.tb02607.x

Último reporte de seguridad confirmado sobre los Parabenos: https://culturacientifica.com/2018/11/29/los-parabenos-usados-en-cosmetica-son-seguros/

Fuentes sobre el Methylisothiazolinone y su relación con la dermatitis:

Castanedo-Tardana MP, Zug KA. Methylisothiazolinone. Dermatitis. 2013;24(1):2‐6. doi:10.1097/DER.0b013e31827edc73: https://journals.lww.com/dermatitis/fulltext/2013/01000/Methylisothiazolinone.2.aspx
https://www.contactdermatitisinstitute.com/methylisothiazolinone.php
https://www.actasdermo.org/es-actualizacion-dermatitis-contacto-alergica-por-articulo-S0001731014000209
http://www.occderm.asn.au/health-professionals/epidemic-of-allergy-to-preservative-methylisothiazolinone-mi/
https://www.dermnetnz.org/topics/methylisothiazolinone-allergy/

Todos los demás estudios que existen sobre este conservante:

https://www.ncbi.nlm.nih.gov/pubmed/?term=Methylisothiazolinone

Aguas micelares – The Beauty Brains: http://thebeautybrains.com/2019/01/jade-rollers-micellar-water-and-more-episode-171/
Ingredientes conflictivos en aguas micelares: https://www.instagram.com/p/BrN798FlZ23/