Water-handling properties of vernix caseosa and a synthetic analogue

Anyarporn Tansirikongkol; Marty O. Visscher; R. Randall Wickett

WATER-HANDLING PROPERTIES OF VERNIX CASEOSA 661 promised skin. This research provides a prototype for further development of barrier creams with additional properties, such as anti-infective or antioxidant activity. REFERENCES (1) K. A. Holbrook and G. F. Odland, The fine structure of developing human epidermis: Light, scanning and transmission electron microscopy of the periderm,j. Invest. Dermatol., 65, 16-38 (1975). (2) M. J. Hardman, L. Moore, M. W. J. Ferguson, and C. Byrne, Barrier formation in the human fetus is patterned,]. Invest. Dermatol., 113, 1106-1113 (1999). (3) M. 0. Visscher, V. Narendran, W. Pickens, A. A. Laruffa, J. Meinzen-Derr, K. Allen, and S. Hoath, Vernix caseosa in neonatal adaptation,]. Perinatal., 1-7 (2005). (4) N. Rutter, The immature skin, Eur. J. Pediatr., 155, S18-S20 (1996). (5) N. Rutter and D. Hull, Water loss from the skin of term and preterm babies, Arch. Dis. Child., 54, 858-868 (1979). (6) J. Agren, G. Sjors, and G. Sedin, Transepidermal water loss in infants born at 24 and 25 weeks of gestation, Acta Paediatr., 87, 1185-1190 (1998). (7) D. R. Wilson and H. I. Maibach, Transepidermal water loss in vivo: Premature and term infant, Biol. Neonate, 37, 180-185 (1980). (8) A. J. Nopper, K. A. Horii, S. Sookdeo-Drost, T. H. Wang, A. J. Mancini, and A. T. Lane, Topical ointment therapy benefits premature infants, J. Pediatr., 128, 660-669 (1996). (9) A. T. Lane and S. S. Drost, Effects of repeated application of emollient cream to premature neonates'skin, Pediatrics, 29, 415-419 (1993). (10) N. Rutter and D. Hull, Reduction of skin water loss in the newborn. I. Effect of applying topical agent, Arch. Dis. Child., 56, 669-672 (1981). (11) W. H. Edwards, J.M. Conner, and R. F. Soll, The effect of prophylactic ointment therapy on noso comial sepsis rates and skin integrity in infants with birth weight of 501 to 1000 g., Pediatrics, 113, 1195-1203 (2004). (12) T. Agorastos, G. Hollweg, E. I. Grussendorf, and A. Papaloucas, Features of vernix caseosa cells, Am. J. Perinatal., 5, 253-259 (1988). (13) W. Pickens, R. Warner, Y. Boissy, R. Boissy, and S. Hoath, Characterization of vernix caseosa: Water content, morphology, and elemental analysis, J. Invest. Dermatol., 115, 875-881 (2000). (14) P.H. Hoeger, V. Schreiner, I. A. Klaassen, C. C. Enzmann, K. Friedrichs, and 0. Bleck, Epidermal barrier lipids in human vernix caseosa: Corresponding ceramide pattern in vernix and fetal skin, Br. J. Dermatol., 146, 194-201 (2001). (15) Y. Sumida, M. Yakumaru, Y. Tokitsu, Y. Iwamoto, T. Ikemoto, and K. Mimura, Studies on the function of vernix caseosa: The secrecy of baby's skin, International Federation of the Societies of Cosmetic Chemists, 20th International Conference, Cannes, France, 1998. (16) M. I. B. Bautista, R.R. Wickett, M. 0. Visscher, W. Pickens, and S. Hoath, Characterization of vernix caseosa as a natural biofilm: Comparison to standard oil-based ointments, Pediatr. Dermatol., 17, 253-260 (2000). (17) M. 0. Visscher, S. Hoath, E. Conroy, and R.R.Wickett, Effect of semipermeable membranes on skin barrier repair following tape stripping, Arch. Dermatol. Res., 293, 491-499 (2001). (18) W. Pickens, Y. Zhou, R.R. Wickett, M. 0. Visscher, and S. Hoath, Antioxidant defense mechanisms in vernix caseosa: Potential role of endogenous vitamin E, Pediatr. Res., 47, 425A (2000). (19) G. Marchini, S. Lindow, H. Brismar, B. Stabi, V. Berggren, A.-K. Ulfgren, S. Lonne-Rahm, B. Agerbetth, and G. H. Gudmundsson, The newborn infant is protected by an innate antimicrobial barrier: Peptide antibiotics are present in the skin and vernix caseosa, Br.]. Dermatol., 147, 1127-1134 (2002). (20) H. T. Akinbi, V. Narendran, A. K. Pass, P. Markart, and S. Hoath, Host defense proteins in vernix caseosa and amniotic fluid, Am. J. Obstet. Gynecol., 191, 2090-2096 (2004). (21) H. Yoshio, M. Tollin, G. H. Gudmundsson, H. Lagercrantz, H. Jornvall, G. Marchini, and B. Agerberth, Antimicrobial polypeptides of human vernix caseosa and amniotic fluid: Implications for newborn innate defense, Pediatr. Res., 53, 211-216 (2003). (22) R. Moraille, W. Pickens, M. 0. Visscher, and S. Hoath, A novel role for vernix caseosa as a skin cleanser, Biol. Neonate, 87, 8-14 (2005).

662 JOURNAL OF COSMETIC SCIENCE (23) H.B. Gunt, Water Handling Properties of Vernix Caseosa, Master Thesis, University of Cincinnati, Cincinnati, OH, 2002. (24) A. Tansirikongkol, Development of a Synthetic Vernix Equivalent, and Its Water Handling and Barrier Protective Properties in Comparison with Vernix Caseosa, Dissertation, University of Cincinnati, Cincinnati, OH, 2006. (25) J. R. Campbell, E. Zaccaria, and C. J. Baker, Systemic candidiasis in extremely low birth weight infants receiving topical petrolatum ointment for skin care: A case-control study, Pediatrics, 105, 1041-1045 (2000). (26) C. Solans, I. Carrera, R. Pons, P. Erra, and N. Azemar, Gel emulsions: Formulating with highly concentrated W/O emulsions, Cosmet. Toiletr., 108, 61-64 (1993). (27) C. I. Park, W. G. Cho, and S. J. Lee, Emulsion stability of cosmetic creams based on water in oil high internal phase emulsions, Korea-Australia Rheol. ]., 15, 125-130 (2003). (28) M. P. Aronson and M. F. Petko, Highly concentrated water in oil emulsions: Influence of electrolyte on their properties and stability,]. Colloid Interface Sci., 159, 134-149 (1993). (29) F. 0. Opawale and D. J. Burgess, Influence of interfacial properties of lipophillic surfactants on water in oil emulsion stability, J. Colloid Interface Sci., 197, 142-150 (1998). (30) J. Kizling and B. Kronberg, On the formation of concentrated stable W/0 emulsions, Adv. Colloid Interface Sci., 89-90, 359-399 (2001).

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