Login Register Cart 0
Generic placeholder image

Endocrine, Metabolic & Immune Disorders - Drug Targets

Editor-in-Chief

ISSN (Print): 1871-5303
ISSN (Online): 2212-3873

Back
Journal Home About Journal Editorial Board Journal Insight Current Issue Volumes/Issues
Subscribe
Review Article

Evaluation of the Effectiveness of Breastfeeding as a Factor in the Prevention of Breast Cancer

Author(s): Luna Cabrera and Isabel Trapero*

Volume 22, Issue 1, 2022

Published on: 27 April, 2021

Page: [15 - 25] Pages: 11

DOI: 10.2174/1871530321666210427083707

Price: $65

Abstract

Background & Objective: As cancer is one of the main causes of fatal illnesses in the world, and breast cancer is responsible for an elevated number of deaths in women, it is important to implement measures to prevent this disease.

Method: In order to assess the influence of breastfeeding in preventing breast cancer in women, forteen prospective cohort articles are included in this study, and their methodological quality has been assessed through the Newcastle Ottawa quality assessment scale cohort studies. After determining the risk of bias for each case study, those with fewer systematic errors and therefore greater validity, have been selected to demonstrate the relationship they propose exists between breastfeeding and breast cancer.

Results: 50% percent of the research included found that breastfeeding does not reduce the risk of breast cancer, while the other 50% argue that it is a protective factor. However, with regards to quality, the case studies that conclude that breastfeeding is not associated with breast cancer have more evidential support.

Conclusion: It is difficult to establish whether or not breastfeeding prevents breast cancer, given the diversity of conclusions in the literature. Nevertheless, the findings of this study reinforce the importance of developing strategies to improve long-term women's health in the field of prevention.

Keywords: Breast cancer, breastfeeding, lactation, cohort, risk factor and evidential support.

« Previous Next »
Graphical Abstract

[1]
OMS Available from. https://www.who.int/es
[2]
GLOBOCAN Available from. https://gco.iarc.fr/
[3]
Lumbiganon, P.; Martis, R.; Laopaiboon, M.; Festin, M.R.; Ho, J.J.; Hakimi, M. Antenatal breastfeeding education for increasing breastfeeding duration. Cochrane Database Syst. Rev., 2011, (11)CD006425
[http://dx.doi.org/10.1002/14651858.CD006425.pub2] [PMID: 22071830]
[4]
(a)Balogun, OO.; O’Sullivan, EJ.; McFadden, A. Interventions for promoting the initiation of breastfeeding. Cochrane Database Syst. Rev., 2016, 11(11)CD001688
(b)UNICEF. From the first hour of life: Making the case for improved infant and young child feeding everywhere,. 2018.
[5]
Belfort, M.B.; Anderson, P.J.; Nowak, V.A.; Lee, K.J.; Molesworth, C.; Thompson, D.K.; Doyle, L.W.; Inder, T.E. Breast Milk Feeding, Brain Development, and Neurocognitive Outcomes: A 7-Year Longitudinal Study in Infants Born at Less Than 30 Weeks’. Gestation. J. Pediatr., 2016, 177, 133-139.e1.
[http://dx.doi.org/10.1016/j.jpeds.2016.06.045] [PMID: 27480198]
[6]
Kramer, M.S.; Chalmers, B.; Hodnett, E.D.; Sevkovskaya, Z.; Dzikovich, I.; Shapiro, S.; Collet, J.P.; Vanilovich, I.; Mezen, I.; Ducruet, T.; Shishko, G.; Zubovich, V.; Mknuik, D.; Gluchanina, E.; Dombrovskiy, V.; Ustinovitch, A.; Kot, T.; Bogdanovich, N.; Ovchinikova, L.; Helsing, E. Promotion of breastfeeding intervention trial (PROBIT): A randomized trial in the Republic of Belarus. JAMA, 2001, 285(4), 413-420.
[http://dx.doi.org/10.1001/jama.285.4.413] [PMID: 11242425]
[7]
Zhou, Y.; Chen, J.; Li, Q.; Huang, W.; Lan, H.; Jiang, H. Association between breastfeeding and breast cancer risk: Evidence from a meta-analysis [published correction appears in Breastfeed Med. 2015 Jun;10[5]:288 Breastfeed. Med., 2015, 10(3), 175-182.
[http://dx.doi.org/10.1089/bfm.2014.0141] [PMID: 25785349]
[8]
Victora, C.G.; Bahl, R.; Barros, A.J.; França, G.V.; Horton, S.; Krasevec, J.; Murch, S.; Sankar, M.J.; Walker, N.; Rollins, N.C. Breastfeeding in the 21st century: Epidemiology, mechanisms, and lifelong effect. Lancet, 2016, 387(10017), 475-490.
[http://dx.doi.org/10.1016/S0140-6736(15)01024-7] [PMID: 26869575]
[9]
World Health Organization.Global Strategy for Infant and Young Child Feeding, The Optimal Duration of Exclusive Breastfeeding; World Health Organization: Geneva, 2001.
[10]
Guideline: Protecting, promoting and supporting breastfeeding in facilities providing maternity and newborn services; World Health Organization: Geneva, 2017.
[11]
Society policy position on receiving sponsorship from industries marketing food/nutrition and infant formula products. DOHaD Society, International Society for Developmental Origins of Health and Disease;
[12]
Urquizo, R. Lactancia materna exclusiva ¿siempre? Rev. Peru. Ginecol. Obstet., 2014, 30(2), 171-176.
[13]
World Cancer Research Fund/American Institute for Cancer Research. Diet, nutrition, physical activity and cancer: A global perspective, 2018.Available at: . https://dietcancerrepot.org (Accessed on December 1 2020).
[14]
Basree, M.M.; Shinde, N.; Koivisto, C.; Cuitino, M.; Kladney, R.; Zhang, J.; Stephens, J.; Palettas, M.; Zhang, A.; Kim, H.K.; Acero-Bedoya, S.; Trimboli, A.; Stover, D.G.; Ludwig, T.; Ganju, R.; Weng, D.; Shields, P.; Freudenheim, J.; Leone, G.W.; Sizemore, G.M.; Majumder, S.; Ramaswamy, B. Abrupt involution induces inflammation, estrogenic signaling, and hyperplasia linking lack of breastfeeding with increased risk of breast cancer. Breast Cancer Res., 2019, 21(1), 80.
[http://dx.doi.org/10.1186/s13058-019-1163-7] [PMID: 31315645]
[15]
Martinson, H.A.; Jindal, S.; Durand-Rougely, C.; Borges, V.F.; Schedin, P. Wound healing-like immune program facilitates postpartum mammary gland involution and tumor progression. Int. J. Cancer, 2015, 136(8), 1803-1813.
[http://dx.doi.org/10.1002/ijc.29181] [PMID: 25187059]
[16]
Jeong, S.H.; An, Y.S.; Choi, J.Y.; Park, B.; Kang, D.; Lee, M.H.; Han, W.; Noh, D.Y.; Yoo, K.Y.; Park, S.K. Risk Reduction of Breast Cancer by Childbirth, Breastfeeding, and Their Interaction in Korean Women: Heterogeneous Effects Across Menopausal Status, Hormone Receptor Status, and Pathological Subtypes. J. Prev. Med. Public Health, 2017, 50(6), 401-410.
[http://dx.doi.org/10.3961/jpmph.17.152] [PMID: 29207445]
[17]
Ramiro González, M.D.; Ortiz Marrón, H.; Arana Cañedo-Argüelles, C.; Esparza Olcina, M.J.; Cortés Rico, O.; Terol Claramonte, M.; Ordobás Gavín, M. Prevalencia de la lactancia materna y factores asociados con el inicio y la duración de la lactancia materna exclusiva en la Comunidad de Madrid entre los participantes en el estudio ELOIN. An. Pediatr. (Barc.), 2018, 89(1), 32-43.
[http://dx.doi.org/10.1016/j.anpedi.2017.09.002] [PMID: 29103921]
[18]
González, A.; Martínez, C.; Lorido, I.; Cubero, A.; Maynar, M.A.; Gil, C.M. Situación actual de la lactancia materna en una zona de salud urbana y factores que la condicionan. Nure Inv, 2018, 15(93), 2-14.
[19]
Bejarano, R.M.; Fuentes, M.; Castellanos, O.; Nieto, J.M.; Vargas, L. Factores condicionantes de la lactancia en recién nacidos sanos del Hospital Universitario Clínica San Rafael. [HUCSR] Rev. Med. (São Paulo), 2011, 19(2), 157-166.
[20]
Ávila-Ortiz, M.N.; Castro-Sánchez, A.E.; Martínez-González, E.A.; Núñez-Rocha, G.M.; Zambrano-Moreno, A. Factors associated with abandoning exclusive breastfeeding in Mexican mothers at two private hospitals. Int. Breastfeed. J., 2020, 15(1), 73.
[http://dx.doi.org/10.1186/s13006-020-00316-6] [PMID: 32814577]
[21]
Ruiz, P.; Martínez, J.M. Causas del abandono de la lactancia materna exclusiva en una zona básica urbana. Rev ENE Enferm,, 2014, 8(2)
[22]
Campos, A.; García, L. Causas de abandono de la lactancia materna. Revisión de la literatura. Nuberos Científica, 2015, 3(17), 53-58.
[23]
Cuartero, V.; Padilla, M.C.; Sánchez, F.; Sánchez, F.J. Factores que influyen en el inicio y mantenimiento de la lactancia materna exclusiva. Metas Enferm, 2018, 21(8), 21-26.
[http://dx.doi.org/10.35667/MetasEnf.2019.21.1003081297]
[24]
Quispe, M.P.; Oyola, A.E.; Navarro, M.; Silva, J.A. Características y creencias maternas asociadas al abandono de la lactancia materna exclusiva. Rev. Cuba. Salud Pública, 2015, 41(4), 582-592.
[25]
Gorrita, R.R.; Terrazas, A.; Brito, D.; Ravelo, Y. Some aspects related to exclusive breastfeeding in the first six months of life. Rev. Cubana Pediatr., 2015, 87(3), 285-297.
[26]
Oribe, M.; Lertxundi, A.; Basterrechea, M.; Begiristain, H.; Santa Marina, L.; Villar, M.; Dorronsoro, M.; Amiano, P.; Ibarluzea, J. Prevalencia y factores asociados con la duración de la lactancia materna exclusiva durante los 6 primeros meses en la cohorte INMA de Guipúzcoa. Gac. Sanit., 2015, 29(1), 4-9.
[http://dx.doi.org/10.1016/j.gaceta.2014.08.002] [PMID: 25258325]
[27]
López, B.; Martínez, L.; Zapata, N. Motivos del abandono temprano de la lactancia materna exclusiva: Un problema de salud pública no resuelto en la ciudad de Medellín. Rev. Fac. Nac; Salud Pública,, 2013,, 31(1), 117-126.
[28]
Broche, R.C.; Sánchez, O.L.; Rodríguez, D.; Pérez, L.E. Sociocultural and psychological factors linked to exclusive breastfeeding., Rev Cubana Med Gen Integr,, 2011, 27(2)
[29]
Sacristán, A.M.; Lozano, J.E.; Gil, M.; Vega, A.T. Red Centinela Sanitaria de Castilla y León. Situación actual y factores que condicionan la lactancia materna en Castilla y León. Rev Pediatr Aten Primaria, 2011, 13(49), 33-46.
[30]
Mateus Solarte, J.C.; Cabrera Arana, G.A. Factors associated with exclusive breastfeeding practice in a cohort of women from Cali, Colombia. Colomb Med (Cali), 2019, 50(1), 22-29.
[http://dx.doi.org/10.25100/cm.v50i1.2961] [PMID: 31168166]
[31]
Centro Cochrane Iberoamericano, traductores. Manual Cochrane de Revisiones Sistemáticas de Intervenciones, versión 5.1.0 [actualizada en marzo de 2011], 2012, Available from:. http://www.cochrane.es/?q=es/node/269(Accessed on December 1 2020)
[32]
The Hospital Ottawa. Newcastle Ottawa quality assessment scale cohort studies., Disponible en:. http://www.ohri.ca/home.asp
[33]
Azam, S.; Eriksson, M.; Sjölander, A.; Gabrielson, M.; Hellgren, R.; Czene, K.; Hall, P. Predictors of mammographic microcalcifications. Int. J. Cancer, 2021, 148(5), 1132-1143.
[http://dx.doi.org/10.1002/ijc.33302] [PMID: 32949149]
[34]
Butt, S.; Borgquist, S.; Anagnostaki, L.; Landberg, G.; Manjer, J. Breastfeeding in relation to risk of different breast cancer characteristics. BMC Res. Notes, 2014, 7(216), 216.
[http://dx.doi.org/10.1186/1756-0500-7-216] [PMID: 24708573]
[35]
Fortner, R.T.; Sisti, J.; Chai, B.; Collins, L.C.; Rosner, B.; Hankinson, S.E.; Tamimi, R.M.; Eliassen, A.H. Parity, breastfeeding, and breast cancer risk by hormone receptor status and molecular phenotype: Results from the nurses’ health studies. Breast Cancer Res., 2019, 21(1), 40.
[http://dx.doi.org/10.1186/s13058-019-1119-y] [PMID: 30867002]
[36]
Hjerkind, K.V.; Ellingjord-Dale, M.; Johansson, A.L.V.; Aase, H.S.; Hoff, S.R.; Hofvind, S.; Fagerheim, S.; Dos-Santos-Silva, I.; Ursin, G. Volumetric mammographic density, age-related decline, and breast cancer risk factors in a national breast cancer screening program. Cancer Epidemiol. Biomarkers Prev., 2018, 27(9), 1065-1074.
[http://dx.doi.org/10.1158/1055-9965.EPI-18-0151] [PMID: 29925631]
[37]
Karavasiloglou, N.; Hüsing, A.; Masala, G.; van Gils, C.H.; Turzanski Fortner, R.; Chang-Claude, J.; Huybrechts, I.; Weiderpass, E.; Gunter, M.; Arveux, P.; Fournier, A.; Kvaskoff, M.; Tjønneland, A.; Kyrø, C.; Dahm, C.C.; Vistisen, H.T.; Bakker, M.F.; Sánchez, M.J.; Chirlaque López, M.D.; Santiuste, C.; Ardanaz, E.; Menéndez, V.; Agudo, A.; Trichopoulou, A.; Karakatsani, A.; La Vecchia, C.; Peppa, E.; Palli, D.; Agnoli, C.; Panico, S.; Tumino, R.; Sacerdote, C.; Butt, S.T.; Borgquist, S.; Skeie, G.; Schulze, M.; Key, T.; Khaw, K.T.; Tsilidis, K.K.; Ellingjord-Dale, M.; Riboli, E.; Kaaks, R.; Dossus, L.; Rohrmann, S.; Kühn, T. Adherence to the world cancer research fund/American institute for cancer research cancer prevention recommendations and risk of in situ breast cancer in the European prospective investigation into cancer and nutrition (EPIC) cohort. BMC Med., 2019, 17(1), 221.
[http://dx.doi.org/10.1186/s12916-019-1444-0] [PMID: 31787099]
[38]
Kwan, M.L.; Bernard, P.S.; Kroenke, C.H.; Factor, R.E.; Habel, L.A.; Weltzien, E.K.; Castillo, A.; Gunderson, E.P.; Maxfield, K.S.; Stijleman, I.J.; Langholz, B.M.; Quesenberry, C.P., Jr; Kushi, L.H.; Sweeney, C.; Caan, B.J. Breastfeeding, PAM50 tumor subtype, and breast cancer prognosis and survival. J. Natl. Cancer Inst., 2015, 107(7), 1-8.
[http://dx.doi.org/10.1093/jnci/djv087] [PMID: 25921910]
[39]
Palmer, J.R.; Boggs, D.A.; Wise, L.A.; Ambrosone, C.B.; Adams-Campbell, L.L.; Rosenberg, L. Parity and lactation in relation to estrogen receptor negative breast cancer in African American women. Cancer Epidemiol. Biomarkers Prev., 2011, 20(9), 1883-1891.
[http://dx.doi.org/10.1158/1055-9965.EPI-11-0465] [PMID: 21846820]
[40]
Rice, M.S.; Bertrand, K.A.; Lajous, M.; Tamimi, R.M.; Torres, G.; López-Ridaura, R.; Romieu, I. Reproductive and lifestyle risk factors and mammographic density in Mexican women. Ann. Epidemiol., 2015, 25(11), 868-873.
[http://dx.doi.org/10.1016/j.annepidem.2015.08.006] [PMID: 26475982]
[41]
Rice, M.S.; Tworoger, S.S.; Hankinson, S.E.; Tamimi, R.M.; Eliassen, A.H.; Willett, W.C.; Colditz, G.; Rosner, B. Breast cancer risk prediction: An update to the Rosner-Colditz breast cancer incidence model. Breast Cancer Res. Treat., 2017, 166(1), 227-240.
[http://dx.doi.org/10.1007/s10549-017-4391-5] [PMID: 28702896]
[42]
Ritte, R.; Tikk, K.; Lukanova, A.; Tjønneland, A.; Olsen, A.; Overvad, K.; Dossus, L.; Fournier, A.; Clavel-Chapelon, F.; Grote, V.; Boeing, H.; Aleksandrova, K.; Trichopoulou, A.; Lagiou, P.; Trichopoulos, D.; Palli, D.; Berrino, F.; Mattiello, A.; Tumino, R.; Sacerdote, C.; Quirós, J.R.; Buckland, G.; Molina-Montes, E.; Chirlaque, M.D.; Ardanaz, E.; Amiano, P.; Bueno-de-Mesquita, H.B.; van Gils, C.H.; Peeters, P.H.; Wareham, N.; Khaw, K.T.; Key, T.J.; Travis, R.C.; Weiderpass, E.; Dumeaux, V.; Lund, E.; Sund, M.; Andersson, A.; Romieu, I.; Rinaldi, S.; Vineis, P.; Merritt, M.A.; Riboli, E.; Kaaks, R. Reproductive factors and risk of hormone receptor positive and negative breast cancer: A cohort study. BMC Cancer, 2013, 13, 584.
[http://dx.doi.org/10.1186/1471-2407-13-584] [PMID: 24321460]
[43]
Sisti, J.S.; Collins, L.C.; Beck, A.H.; Tamimi, R.M.; Rosner, B.A.; Eliassen, A.H. Reproductive risk factors in relation to molecular subtypes of breast cancer: Results from the nurses’ health studies. Int. J. Cancer, 2016, 138(10), 2346-2356.
[http://dx.doi.org/10.1002/ijc.29968] [PMID: 26684063]
[44]
Tamimi, R.M.; Spiegelman, D.; Smith-Warner, S.A.; Wang, M.; Pazaris, M.; Willett, W.C.; Eliassen, A.H.; Hunter, D.J. Population attributable risk of modifiable and nonmodifiable breast cancer risk factors in postmenopausal breast cancer. Am. J. Epidemiol., 2016, 184(12), 884-893.
[http://dx.doi.org/10.1093/aje/kww145] [PMID: 27923781]
[45]
Terry, M.B.; Liao, Y.; Kast, K.; Antoniou, A.C.; McDonald, J.A.; Mooij, T.M.; Engel, C.; Nogues, C.; Buecher, B.; Mari, V.; Moretta-Serra, J.; Gladieff, L.; Luporsi, E.; Barrowdale, D.; Frost, D.; Henderson, A.; Brewer, C.; Evans, D.G.; Eccles, D.; Cook, J.; Ong, K.R.; Izatt, L.; Ahmed, M.; Morrison, P.J.; Dommering, C.J.; Oosterwijk, J.C.; Ausems, M.G.E.M.; Kriege, M.; Buys, S.S.; Andrulis, I.L.; John, E.M.; Daly, M.; Friedlander, M.; McLachlan, S.A.; Osorio, A.; Caldes, T.; Jakubowska, A.; Simard, J.; Singer, C.F.; Tan, Y.; Olah, E.; Navratilova, M.; Foretova, L.; Gerdes, A.M.; Roos-Blom, M.J.; Arver, B.; Olsson, H.; Schmutzler, R.K.; Hopper, J.L.; van Leeuwen, F.E.; Goldgar, D.; Milne, R.L.; Easton, D.F.; Rookus, M.A.; Andrieu, N. The influence of number and timing of pregnancies on breast cancer risk for women with BRCA1 or BRCA2 mutations.JNCI Cancer Spectr,, 2018, 2(4), pky078.
[http://dx.doi.org/10.1093/jncics/pky078] [PMID: 30873510]
[46]
Yaghjyan, L.; Colditz, G.A.; Rosner, B.; Bertrand, K.A.; Tamimi, R.M. Reproductive factors related to childbearing and mammographic breast density. Breast Cancer Res. Treat., 2016, 158(2), 351-359.
[http://dx.doi.org/10.1007/s10549-016-3884-y] [PMID: 27351801]
[47]
Nazari, S.S.; Mukherjee, P. An overview of mammographic density and its association with breast cancer. Breast Cancer, 2018, 25(3), 259-267.
[http://dx.doi.org/10.1007/s12282-018-0857-5] [PMID: 29651637]
[48]
Jacobsen, N. Antenatal Breastfeeding Education and Support: Summary and Analysis of 2 Cochrane Publications. J. Perinat. Neonatal Nurs., 2018, 32(2), 144-152.
[http://dx.doi.org/10.1097/JPN.0000000000000323] [PMID: 29689015]
[49]
Islami, F.; Liu, Y.; Jemal, A.; Zhou, J.; Weiderpass, E.; Colditz, G.; Boffetta, P.; Weiss, M. Breastfeeding and breast cancer risk by re-ceptor status--a systematic review and meta-analysis. Ann. Oncol., 2015, 26(12), 2398-2407.
[http://dx.doi.org/10.1093/annonc/mdv379] [PMID: 26504151]
[50]
Cerda, L. Breastfeeding and care management. Rev Cub de Enf, 2011, 27(4), 327-336.
[51]
Küçükoğlu, S.; Çelebioğlu, A. Effect of natural-feeding education on successful exclusive breast-feeding and breast-feeding self-efficacy of low-birth-weight infants. Iran. J. Pediatr., 2014, 24(1), 49-56.
[PMID: 25793045]
[52]
Cerda, M.L. Lactancia materna y gestión del cuidado. Rev. Cubana Enferm., 2011, 27(4), 327-336.
[53]
Calderón, H.; Henao, C.P.; Giraldo, D.I. Conocimiento del personal de enfermería sobre la lactancia materna. Conocimientos del personal de enfermería sobre lactancia materna. Horiz. Enferm., 2019, 30(2), 115-127.
[http://dx.doi.org/10.7764/Horiz_Enferm.30.2.115-127]
[54]
Mélo, N.S.; da Nóbrega, M.M.; Leite, K.N.S. Silva SdCR, Antas EMV, da Silva APD, Oliveira SX, César ESR, Lima TNFA, de Souza TA: Participación de enfermeras en la promoción de la lactancia materna. Int. Arch. Med., 2016, 9(50), 1-9.
[55]
Lee, J.E.; Lee, S.A.; Kim, T.H.; Park, S.; Choy, Y.S.; Ju, Y.J.; Park, E.C. Projection of Breast cancer burden due to reproductive/lifestyle changes in korean women (2013-2030) Using an age-period-cohort model. Cancer Res. Treat., 2018, 50(4), 1388-1395.
[http://dx.doi.org/10.4143/crt.2017.162] [PMID: 29361820]
[56]
Romieu, I.I.; Amadou, A.; Chajes, V. The role of diet, physical activity, body fatness, and Breastfeeding in breast cancer in young women: Epidemiological evidence. Rev. Invest. Clin., 2017, 69(4), 193-203.
[http://dx.doi.org/10.24875/RIC.17002263] [PMID: 28776604]
[57]
Howell, A.; Anderson, A.S.; Clarke, R.B.; Duffy, S.W.; Evans, D.G.; Garcia-Closas, M.; Gescher, A.J.; Key, T.J.; Saxton, J.M.; Harvie, M.N. Risk determination and prevention of breast cancer. Breast Cancer Res., 2014, 16(5), 446.
[http://dx.doi.org/10.1186/s13058-014-0446-2] [PMID: 25467785]
[58]
Gray, J.M.; Rasanayagam, S.; Engel, C.; Rizzo, J. State of the evidence 2017: An update on the connection between breast cancer and the environment. Environ. Health, 2017, 16(1), 94.
[http://dx.doi.org/10.1186/s12940-017-0287-4] [PMID: 28865460]
[59]
Vijayvergia, N.; Denlinger, C.S. Lifestyle factors in cancer survivorship: where we are and where we are headed. J. Pers. Med., 2015, 5(3), 243-263.
[http://dx.doi.org/10.3390/jpm5030243] [PMID: 26147495]
[60]
Coletta, A.M.; Peterson, S.K.; Gatus, L.A.; Krause, K.J.; Schembre, S.M.; Gilchrist, S.C.; Arun, B.; You, Y.N.; Rodriguez-Bigas, M.A.; Strong, L.L.; Lu, K.H.; Basen-Engquist, K. Diet, weight management, physical activity and ovarian & breast cancer risk in women with BRCA1/2 pathogenic Germline gene variants: systematic review. Hered. Cancer Clin. Pract., 2020, 18(5), 5.
[http://dx.doi.org/10.1186/s13053-020-0137-1] [PMID: 32165993]
[61]
Harvie, M.; Howell, A.; Evans, D.G. Can diet and lifestyle prevent breast cancer: What is the evidence? Am. Soc. Clin. Oncol. Educ. Book, 2015, 35, e66-e73.
[http://dx.doi.org/10.14694/EdBook_AM.2015.35.e66] [PMID: 25993238]
[62]
Unar-Munguía, M.; Stern, D.; Colchero, M.A.; González de Cosío, T. The burden of suboptimal breastfeeding in Mexico: Maternal health outcomes and costs. Matern. Child Nutr., 2019, 15(1)e12661
[http://dx.doi.org/10.1111/mcn.12661] [PMID: 30136370]
[63]
Bartick, M.C.; Schwarz, E.B.; Green, B.D.; Jegier, B.J.; Reinhold, A.G.; Colaizy, T.T.; Bogen, D.L.; Schaefer, A.J.; Stuebe, A.M. Suboptimal breastfeeding in the United States: Maternal and pediatric health outcomes and costs. Matern. Child Nutr., 2017, 13(1), 1-13.
[http://dx.doi.org/10.1111/mcn.12366] [PMID: 27647492]
[64]
Nichols, H.B.; Schoemaker, M.J.; Cai, J.; Xu, J.; Wright, L.B.; Brook, M.N.; Jones, M.E.; Adami, H.O.; Baglietto, L.; Bertrand, K.A.; Blot, W.J.; Boutron-Ruault, M.C.; Dorronsoro, M.; Dossus, L.; Eliassen, A.H.; Giles, G.G.; Gram, I.T.; Hankinson, S.E.; Hoffman-Bolton, J.; Kaaks, R.; Key, T.J.; Kitahara, C.M.; Larsson, S.C.; Linet, M.; Merritt, M.A.; Milne, R.L.; Pala, V.; Palmer, J.R.; Peeters, P.H.; Riboli, E.; Sund, M.; Tamimi, R.M.; Tjønneland, A.; Trichopoulou, A.; Ursin, G.; Vatten, L.; Visvanathan, K.; Weiderpass, E.; Wolk, A.; Zheng, W.; Weinberg, C.R.; Swerdlow, A.J.; Sandler, D.P. Breast cancer risk after recent childbirth: a pooled analysis of 15 prospective studies. Ann. Intern. Med., 2019, 170(1), 22-30.
[http://dx.doi.org/10.7326/M18-1323] [PMID: 30534999]
[65]
Barber, L.E.; Bertrand, K.A.; Rosenberg, L.; Battaglia, T.A.; Palmer, J.R. Pre- and perinatal factors and incidence of breast cancer in the Black Women’s Health Study. Cancer Causes Control, 2019, 30(1), 87-95.
[http://dx.doi.org/10.1007/s10552-018-1103-3] [PMID: 30498869]
[66]
Berkey, C.S.; Rosner, B.; Willett, W.C.; Tamimi, R.M.; Lindsay Frazier, A.; Colditz, G.A. Prenatal factors and infant feeding in relation to risk of benign breast disease in young women. Breast Cancer Res. Treat., 2015, 154(3), 573-582.
[http://dx.doi.org/10.1007/s10549-015-3637-3] [PMID: 26582399]
[67]
Ellingjord-Dale, M.; Vos, L.; Tretli, S.; Hofvind, S.; Dos-Santos-Silva, I.; Ursin, G. Parity, hormones and breast cancer subtypes - results from a large nested case-control study in a national screening program. Breast Cancer Res., 2017, 19(1), 10.
[http://dx.doi.org/10.1186/s13058-016-0798-x] [PMID: 28114999]
[68]
Sangaramoorthy, M.; Hines, L.M.; Torres-Mejía, G.; Phipps, A.I.; Baumgartner, K.B.; Wu, A.H.; Koo, J.; Ingles, S.A.; Slattery, M.L.; John, E.M. A Pooled Analysis of Breastfeeding and Breast Cancer Risk by Hormone Receptor Status in Parous Hispanic Women. Epidemiology, 2019, 30(3), 449-457.
[http://dx.doi.org/10.1097/EDE.0000000000000981] [PMID: 30964816]
[69]
John, E.M.; Hines, L.M.; Phipps, A.I.; Koo, J.; Longacre, T.A.; Ingles, S.A.; Baumgartner, K.B.; Slattery, M.L.; Wu, A.H. Reproductive history, breast-feeding and risk of triple negative breast cancer: The Breast Cancer Etiology in Minorities (BEM) study. Int. J. Cancer, 2018, 142(11), 2273-2285.
[http://dx.doi.org/10.1002/ijc.31258] [PMID: 29330856]
[70]
Chowdhury, R.; Sinha, B.; Sankar, M.J.; Taneja, S.; Bhandari, N.; Rollins, N.; Bahl, R.; Martines, J. Breastfeeding and maternal health outcomes: A systematic review and meta-analysis. Acta Paediatr., 2015, 104(467), 96-113.
[http://dx.doi.org/10.1111/apa.13102] [PMID: 26172878]
[71]
Gabrielson, M.; Chiesa, F.; Behmer, C.; Rönnow, K.; Czene, K.; Hall, P. Association of reproductive history with breast tissue characteristics and receptor status in the normal breast. Breast Cancer Res. Treat., 2018, 170(3), 487-497.
[http://dx.doi.org/10.1007/s10549-018-4768-0] [PMID: 29603032]

Rights & Permissions Print Cite
Article Metrics
50
1
Wayfinder Image
World Diabetes Day
© 2024 Bentham Science Publishers | Privacy Policy