#PAGE_PARAMS# #ADS_HEAD_SCRIPTS# #MICRODATA#

Skin Development and its Barrier Function


Authors: Z. Plzáková
Authors place of work: Dermatovenerologická klinika 1. lékařské fakulty Univerzity Karlovy a Všeobecné fakultní nemocnice, Praha, přednosta prof. MUD. Jiří Štork, CSc.
Published in the journal: Čes-slov Derm, 96, 2021, No. 4, p. 163-177
Category: Reviews (Continuing Medical Education)

Summary

Skin is an important barrier organ. Anatomically and functionally mature skin is not only limiting for survival of a newborn, but skin integrity influences significantly physical as well as psychical quality of life in humans. Many skin diseases are determined genetically. Therefore, the knowledge of skin development mechanisms and its connections is important in medical practice and can be used by dermatologists while correcting cutaneous and non-cutaneous manifestations, which can play a major role in the early diagnostics of inherited diseases.

Keywords:

gestational age – histogenesis – organogenesis - immaturity – periderm – vernix caseosa – corneal layer – pilosebaceous unit – regulation molecules – mutation/pathogenic variant


Zdroje

1. AKIYAMA, M. Corneocyte lipid envelope (CLE), the key structure for skin barrier function and ichthyosis pathogenesis. J Dermatol Sci, 2017, 88, p. 3–9.

2. AVRAM, A. S., AVRAM, M. M., JAMES W. D. Subcutaneous fat in normal and diseased states 2. Anatomy and physiology of white and brown adipose tissue. J Am Acad Dermatol, 2005, 53, p. 681–683.

3. FUKUIE, T., JASUOKA, R., FUJIYAMA, T. et al. Palmar hyperlinearity in early childhood atopic dermatitis is associated with filaggrin mutation and sensitization to egg. Pediatric Dermatol, 2019, 36, p. 213–218.

4. HANSON, M., LUPSI J. R., HICKS, J. et al. Association of dermal melanocytosis with lysosomal storage disease. Arch Dermatol, 2003, 139, p. 916–920.

5. HOATH, S. B. MAURO, T. Fetal skin development. In Eichenfeld, L, Frieden, I., Mathes, E. et al. in Neonatal and Infant Dermatology, 3rd Edition, London, W B Saunders, 2014, p. 1.

6. HU, M. S., BORRELLI, M. R., HONG, W. X. et al. Embryonic skin development and repair. Organogenesis, 2018, 14, p. 46–63.

7. KINSLER, V., SHAW, A. C., MERKS, J. H. M. et al. The face in congenital melanocytic nevus syndrome. Am J Med Genet Part A, 2012, 158 A, p. 1014–1019.

8. KOSTER, M. I., LOOMIS, C. A., KOS, T. et al. Skin development and maintenance. In BOLOGNIA, JL., JORIZZO, JL., SCHAFFER, JV. Dermatology, 3rd Edition. Philadelphia. Elsevier/Saunders, 2012, 2, p. 55–59.

9. KUSARI, A., HAN, M. A., VIRGEN, C. A. et al. Evidence- based skin care in preterm infants. Pediatr Dermatol, 2019, 36, p16–23.

10. LIM, Y. H., OVEJERO, D., SUGERMAN J. S. et al. Multilineage somatic activating mutation in HRAS and NRAS cause mosaic cutaneous and skeletal lesions, elevated FGF23 and hypophosphatemia. Hum Mol Genet, 2014, 23, p. 37–407.

11. MARZIANO, C., GENET, G., HIRSCHI, K. K. Vascular endotelial cell specification in health and disease. Angiogenesis, 2021, epub. Dostupné z doi 10.1007/ s10456-021-09785-7.

12. MATEU, R., ŽIVICOVÁ, V., DROBNÁ KREJČÍ, E. et al. Functional differences berween neonatal and adult fibroblasts and keratinocytes: donor age affects epithelial-mesenchymal crosstalk in vitro. Int J Mol Med, 2016, 38, p. 1063–1074.

13. MONTAÑO, J. A., PÉREZ‐PIÑERA, P., GARCÍA‐SUÁ- REZ, O. et al. Development and Neuronal Dependence of Cutaneous Sensory Nerve Formations: Lessons From Neurotrophins. Microscopy Research and Technique, 2010, 73, p. 513–529.

14. NARISAVA, Y., HASIHMOTO, K., NIHEI, Y. et al. Biological significance of dermal Merkel cells in development of cutaneous nerves in human fetal skin. J Histochem Cytochem, 1992, 40, p. 65–71.

15. NESS, J. N., DAVIS, D. M. R., CAREY, W. A. Neonatal skin care: a consise review. Int J Dermatol, 2013, 52, p. 14–22.

16. ORANGES, T., DINI, V., ROMANELLI, M. Skin physiology of the neonate and infant: clinical implications. Advances in wound care, 2015, 4, p. 587–595.

17. SAXENA, MOK, M., K. W., RENDL, M. An updated classification of hair follicle morphogenesis. Exp Dermatol, 2019, 28, p. 334–344.

18. SCHOCH, J. J., MONIR, R. L., SATCHER, K. G. et al. The infantile cutaneous microbiome: A review. Pediatric Dermatol, 2019, 36, p. 574–580.

19. SCHOENWOLF, G., BLEYEL, S., BRAUER, P. et al. Development of the skin and its derivatives. In Larsen ´s Human Embryology, Philadelphia, Churchill Livingstone, 2014, p. 203.

20. SCHOENWOLF, G., BLEYEL, S., BRAUER, P. et al. Development of the vasculature. In Larsen´s Human Embryology, Philadelphia, Churchill Livingstone, 2014, p. 390.

21. SCHOENWOLF, G., BLEYEL, S., BRAUER, P. et al. Fourth week: Forming the embryo. In Larsen´s Human Embryology, Philadelphia, Churchill Livingstone, 2014, p. 107.

22. STAMANAS, G. N., NIKOLOVSKI, J. LUEDTKE, M. A. et al. Infant skin microstructure assesed in vivo differs from adult skin in organization and at the cellular level. Pediatr Dermatol., 2010, 27. p. 125–131.

23. STRACHAN, L. R., GHADIALLY, R. Tiers of clonal organization in the epidermis: the epidermal proliferation unit revisited. Stem Cell Review, 2008, 4, p. 149–157.

24. SYMONDS, M. E., POPE, D., SHARKE, M. et al. Adipose tissue and fetal programming. Diabetologia, 2016, 55, p. 1597–1606.

25. TAIEB, A. Skin barrier in the neonate. Pediatr Dermatol, 2018, 35, s. 5–9.

26. THOMAS, A. C., ZENG, Z., RIVIÈRE, J.-B. et al. Mosaic activating mutations in GNA11 and GNAC are associated with phacomatosis pigmentovascularis and Sturge-Weber syndrom. J Invest Dermatol, 2016, 136, p. 770–778

27. THOMAS, J. M., DURACK, A., STERLING A. et al. Aquagenic wrinkling of the palms: a diagnostic clue to cystic fibrosis carrier status and non- classic disease. Lancet, 2017, 389, p. 846.

28. VEGA-LOPEZ, G. A., CERRIZUELA, S., TRIBULO, C. et al. Neurocristopathies: New insights 150 years after neural crest discovery. Developmental Biology, 2018, 444, p. S110–S143.

29. WALRAVEN, M., TALHOUT, W., BEELEN, R. H. J. et al. Healthy human second-trimester fetal skin is deficient in leukocytes and associated homing chemokines. Wound Repair Regen, 2016, 24, p. 533–541.

30. ZHANG, X., YIN, M., ZHANG, L.-J. Keratin 6,16, 17 – critical barrier alarmin molecules in skin wounds and psoriasis. Cells, 2019, 8, p. 807.

Štítky
Dermatology & STDs Paediatric dermatology & STDs
Prihlásenie
Zabudnuté heslo

Zadajte e-mailovú adresu, s ktorou ste vytvárali účet. Budú Vám na ňu zasielané informácie k nastaveniu nového hesla.

Prihlásenie

Nemáte účet?  Registrujte sa

#ADS_BOTTOM_SCRIPTS#