Bibliografia

  • Alimi R., et al., The Association of Breastfeeding with a Reduced Risk of Postpartum Depression: A Systematic Review and Meta-Analysis (2022), „Breastfeeding Medicine” 17 (4), s. 290-296.
  • Borra C., Lacovou M., Sevilla A., New Evidence on Breastfeeding and Postpartum Depression: The Importance of Understanding Women’s Intentions (2015), „Maternal and child health journal” 19 (4), s. 897-907, link: https://doi.org/10.1007/ s10995-014-1591-z, [dostęp: 03.04.2024].
  • Borysewicz-Sańczyk H., Szczepański M., Komórki mleka kobiecego (2009), „Postępy Neonatologii” 1 (15), s. 13-18.
    Breastfeeding may help mothers avoid type 2 diabetes (2023), Endocrine Society, link: https://www.endocrine.org/news-and-advocacy/news-room/2023/endo-2023-press-hens, [dostęp: 03.04.2024].
  • Brown A., Rance J., Bennett P., Understanding the relationship between breastfeeding and postnatal depression: the role of pain and physical difficulties (2016), „The Journal of Advanced Nursing” 72 (2), s. 273-282.
  • Cabrera-Rubio R., et al., The human milk microbiome changes over lactation and is shaped by maternal weight and mode of delivery (2012), „American Journal of Clinical Nutrition” 94 (3), s. 544-551.
  • Civra A., et al., 25-Hydroxycholesterol and 27-hydroxycholesterol inhibit human rotavirus infection by sequestering viral particles into late endosomes (2018), „Redox Biology” 19, s. 318-330.
  • Civra A., et al., Antiviral Properties Of Human Colostrum: Identification Of New Active Components (2019), 5th International Congress European Milk Bank Association (EMBA).
  • Cregan D. Mark, et al., Identification of nestin-positive putative mammary stem cells in human breastmilk (2007), „Cell and Tissue Research” 329 (1), s. 129-36.
  • Engler A. Cohen, et al., Breastfeeding may improve nocturnal sleep and reduce infantile colic: potential role of breast milk melatonin (2012), „European Journal of Pediatrics” 171 (4), s. 729-732.
  • Examining the impact of formula milk marketing on infant feeding decisions and practices (2022), UNICEF, link: https://www.unicef.org/documents/impact-bms-marketing, [dostęp: 03.04.2024].
  • Francese R., et al. Anti-Zika Virus And Anti-Usutu Virus Activity Of Human Milk And Its Components (2019), 5th International Congress European Milk Bank Association (EMBA).
  • Hassiotou F., et al., Breastmilk is a novel source of stem cells with multilineage differentiation potential (2012), „Stem Cells” 30 (10), s. 2164-2174.
  • International code of marketing of breast-milk substitutes (1981), World Health Organization, link: https://iris.who.int/handle/10665/40382, [dostęp: 03.04.2024].
  • Joint statement by UNICEF Executive Director and WHO Director-General on the occasion of World Breastfeeding Week (2023), World Health Organization, link: https://www.who.int/news/item/01-08-2023-joint-statement-by-unicef-executive-director-catherine-russell-and-who-director-general-dr-tedros-adhanom-ghebreyesus-on-the-occasion-of-world-breastfeeding-week, [dostęp: 03.04.2024].
  • Juncker G. Hannah, et al., Comparing the human milk antibody response after vaccination with four COVID-19 vaccines: A prospective, longitudinal cohort study in the Netherlands (2022), „The Lancet” 47, 101393, link: https://www.thelancet.com/journals/eclinm/article/PIIS2589-5370(22)00123-7/fulltext, [dostęp: 04.04.2024].
  • Kost A., Karmienie piersią a odporność u dzieci (2017), Mataja, link: https://mataja.pl/2017/03/karmienie-piersia-a-odpornosc-u-dzieci/, [dostęp: 03.04.2024].
  • Markowska-Daniel I., Kita J., Występowanie i znaczenie zakażeń wirusem Usutu (2018), „Życie Weterynaryjne” 93 (11), s. 772-776.
  • Mikšić Š., et al., Positive Effect of Breastfeeding on Child Development, Anxiety, and Postpartum Depression (2020), „International Journal of Environmental Research and Public Health” 17 (8), 2725.
  • Mulleners J. Sien, et al., Comparing the SARS-CoV-2-specific antibody response in human milk after homologous and heterologous booster vaccinations (2023), „Communications Biology” 6 (100), s. 1-7, link: https://doi.org/10.1038/s42003-023-04455-4, [dostęp: 03.04.2024].
  • Nehring-Gugulska M., Żukowska-Rubik M., Krawczyk K., Karmienie piersią: korzyści zdrowotne dla dziecka i matki oraz korzyści społeczne karmienia piersią (2023), Medycyna praktyczna, link: https://www.mp.pl/pacjent/pediatria/karmienie-piersia/84219,karmienie-piersia-korzysci-zdrowotne-dla-dziecka-imatki, [dostęp: 03.04.2024].
  • Park Sangshin, Choi Nam-Kyong, Breastfeeding and Maternal Hypertension (2018), „American Journal of Hypertension” 31 (5), s. 615-621, link: https://doi.org/10.1093/ajh/hpx219, [dostęp: 03.04.2024].
    Patki S., et al., Human breast milk is a rich source of multipotent mesenchymal stem cells (2010), „Human Cell” 23 (2), s. 35-40.
  • Peres G. Karen, et al., Exclusive Breastfeeding and Risk of Dental Malocclusion (2015), „Pediatrics” 136 (1), s. 60-67.
    Pia S. Pannaraj, et al., Association Between Breast Milk Bacterial Communities and Establishment and Development of the Infant Gut Microbiome (2017), „JAMA Pediatrics” 171 (7), s. 647-654.
  • Sánchez L. Cristina, et al., The possible role of human milk nucleotides as sleep inducers (2009), „Nutritional neuroscience” 12 (2), s. 2-8.
  • Sani M., et al., Origins of the breast milk-derived cells; an endeavor to find the cell sources (2015), „Cell Biology International” 39, s. 611-618.
  • Victora G. Cesar, et al., Breastfeeding in the 21st century: Epidemiology, mechanisms, and lifelong effect (2016), „The Lancet” 387 (10017), s. 475-490.
  • Yamada C., et al., Rational Design of Selective Allosteric Inhibitors of PHGDH and Serine Synthesis with Anti-tumor Activity (2017), „Cell Chemical Biology” 24, s. 55-65.