- Research article
- Open Access
- Open Peer Review
Umbilical cord-care practices in low- and middle-income countries: a systematic review
BMC Pregnancy and Childbirthvolume 17, Article number: 68 (2017)
Neonatal sepsis is the third leading cause of deaths for infants in their first month of life. The newly cut umbilical cord can be a pathway for bacteria that can cause newborn sepsis and death. Optimal umbilical cord care practices for newborns and during the first week of life, especially in settings with poor hygiene, has the potential to avoid these preventable neonatal deaths. The purpose of this review of cord care practices is to assist in the development of behavior-change strategies to support introduction of novel cord-care regimens, particularly 7.1% chlorhexidine digluconate for umbilical cord care.
We searched domestic and international databases for articles that were published in English between January 1, 2000, and August 24, 2016. We found 321 articles and reviewed 65 full-text articles using standardized inclusion criteria. The primary criteria for inclusion was a description of substances applied to the umbilical cord stump in the days following birth.
We included 46 articles in this review of umbilical cord-care practices. Articles included data from 15 low- and middle-income countries in sub-Saharan Africa (8 countries), Asia (5 countries), North Africa (1 country), and Latin America and the Caribbean (1 country). Findings from this review suggest that documentation of cord-care practices is not consistent throughout low- and middle-income countries, yet existing literature depicts a firm tradition of umbilical cord care in every culture. Cord-care practices vary by country and by regions or cultural groups within a country and employ a wide range of substances. The desire to promote healing and hasten cord separation are the underlying beliefs related to application of substances to the umbilical cord. The frequency of application of the substance (either the number of days or the number of times per day the substance was applied), and source and cost of products used is not well-characterized.
This desire to actively care for the umbilical cord of a newborn—as noted in the variety of cord care practices and beliefs identified in this review—points toward the need to contextualize any behavior change approach to align with the local culture.
Neonatal sepsis is responsible for more than 15% of neonatal deaths worldwide  and is the third leading cause of deaths for infants in their first month of life. A newly cut umbilical cord can be a pathway for bacteria that can cause newborn sepsis and death.. Optimal umbilical cord care practices for newborns and during the first week of life, especially in settings with poor hygiene, has the potential to avoid these preventable neonatal deaths.
Harmful traditional cord-care practices are often cited as an important public health concern [2, 3]. A clear understanding of behavioral intention underlying traditional cord care practices in low- and middle-income countries can be helpful in addressing high rates of neonatal sepsis. Although systematic evidence reviews of cord-cleansing practices have been conducted previously [4, 5], the qualitative nature of cord-care practices has not been summarized to-date. This review fills a gap in the literature by systematically reviewing available evidence related to traditional cord-care practices and assessing the likely impact of product categories on infection risk.
Our initial search focused on studies that described traditional umbilical cord care practices globally. For the purposes of this article, traditional practices were those that focused on the cultural beliefs and customs that guided how the umbilical cord was cared for, including the length of the cord stump, substances applied, and the decisions regarding disposal of the cord stump. We developed systematic searches for PubMed and Google Scholar using controlled vocabulary (Additional file 1: Search Terminology). Initial criteria for eligibility were determined by topic, time period, and language of the publication. We included articles that were published between January 1, 2000, and January 30, 2016. A second search was performed in August 2016 to account for any publications during the intervening months. The language of publication was limited to English. References in the identified articles were reviewed to determine if other sources would be pertinent and additional articles were abstracted if relevant.
The original search yielded 321 articles, from which 107 duplicates were excluded. A reviewer then screened titles and abstracts of the remaining 214 articles to determine suitability for inclusion. Articles that did not meet the criteria included those unrelated to the application of substances to the umbilical cord, articles focused on clinical trials comparing a variety of antiseptic applications to the umbilical cord, articles wherein the authors related only secondary data sources regarding umbilical cord-care practices, and articles that were unrelated to umbilical cord care, but had appeared in the search due to a common term, such as spinal cord. A total of 65 full-text articles were then reviewed using standardized inclusion criteria. The primary criterion for inclusion was a description of substances applied to the umbilical cord stump in the days following birth. Based on these criteria, a total of 46 of the 65 articles were included in this review. Secondary data about beliefs in relation to umbilical cord care and other cord-care practices were also recorded, if available. Data regarding cord-care practices were extracted from the articles using a standardized tracking form in Excel. Data items included:
○ What was used to cut the umbilical cord?
○ What was used to tie the umbilical cord?
○ Applications of a substance to the umbilical cord stump.
○ What substance was applied?
○ How often it was applied?
○ How many days it was applied?
○ Why was it applied (belief)?
○ Who applied the substance?
○ Source of product supply.
○ Cost of product applied.
○ Other newborn skin-care practices, such as infant massage, that could contribute to the development of neonatal sepsis or tetanus were also tracked.
We synthesized data relating to cord-care practices and substance used on the cord by country. Because most of the studies were qualitative or observational in design, we were unable to draw any statistical comparisons. This review reporting followed the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (known as PRISMA) reporting guidelines , as warranted.
A total of 46 articles were included in this review of umbilical cord-care practices. Figure 1 presents the flow diagram of the review process.
The 46 articles included data from 15 distinct low- and middle-income countries in sub-Saharan Africa (8 countries), Asia (5 countries), North Africa (1 country), and Latin America and the Caribbean (1 country). In sub-Saharan Africa, the majority of articles came from Uganda (6), followed by Tanzania (4), Ethiopia and Nigeria (3 each), Ghana and Zambia (2 each), and Benin and Sierra Leone (1 each). In Asia, the majority of articles came from Pakistan (7), followed by India and Nepal (5 each), Bangladesh (3), and Turkey (2). In North Africa, one article came from Egypt. In the Latin America/Caribbean region, one article came from Haiti. Table 1 provides general details about the articles included in this review. While country income classification was not a predetermined criteria for inclusion or exclusion, umbilical cord care articles from high-income countries were solely focused on the comparisons and uses of antiseptics and; therefore, none are included in this review based on the exclusion criteria.
Beliefs related to the application of substances to the umbilical cord varies by country and by regions or cultural groups within a country. The intention behind applying a substance to the umbilical cord is to promote healing [7–11] and hasten the separation of the cord [7, 12–14] either by keeping the cord stump moist [10, 14, 15] or by drying it out [8, 16–20] to prevent pain/infection/bleeding [10, 12, 16, 17, 21], or to keep the “wind” (evil spirits) or cold/air [10, 16, 22] out of the infant. Table 2 provides an overview of cord-care practices described in each article included in this review.
Table 3 illustrates the types of substances applied to the cord by country. The substance applied may depend upon the perceived nature of the cord. A moisturizing substance is applied if the cord is too brittle and a drying substance is applied if the cord takes too long to separate. For example, in southern Zambia, petroleum jelly or mabono (wild fruit) oil might be used if the cord is cracking or bleeding, while charcoal dust, baby powder, or burnt pumpkin stem may be used if the cord takes too long to separate . In areas of Tanzania, Uganda, and Zambia [7, 8, 18, 20, 23], the infant cannot leave the home until the cord separates and/or the mother cannot return to her chores until that time. In the Tonkolili district of Sierra Leone, a traditional birth attendant noted the purpose of applying pounded cassava to the cord: “It will help the umbilical recover easily and the child will walk fast” .
The substances applied may also vary by the infant’s perceived gestational age or state of health. For example, in the Choma District in Zambia, the substance applied to a newborn’s umbilical cord differs by the newborn’s perceived gestational age, as substances used for full-term babies are considered too strong for preterm babies. A black powder made from the burnt stem of the pumpkin plant is applied to the umbilical cord of full-term infants while a green powder made from the dried roots of the mweeye plant is applied to the cord of preterm/small infants as it is considered to be gentler than the black powder . Also in southern Zambia, substances such as petroleum jelly, mabono (wild fruit) oil, cooking/motor oil, charcoal, dried cow dung or chicken droppings, burnt pumpkin stem, and crushed loma (wasps’ nest) are applied to the cord of the healthy infant. However, a separate set of substances that are considered to be medicinal are applied if the cord is red or if pus appears. The substances that are considered to be medicinal include: python oil, breast milk, alcohol, banana, cow dung, mukunku (bark of a tree), traditional herbs, or dirt from a pounding stick .
The length of the cord may have specific importance. In southern Zambia, it is believed that if the cord is too long, it will take too long to heal, and if it is too short, “the air will go in and this will make the baby die” . The length of the cord is also believed to indicate the length of the genitals in both men and women . Further, in southern Zambia and on the island of Pemba in the Zanzibar archipelago, Tanzania, the umbilical cord may be wrapped or bound with a strip of cloth to prevent it from touching the groin area [8, 18, 24], which is sometimes believed to cause infertility as an adult . In areas of Zambia and Tanzania, where it is important to protect the cord from being taken by someone who wishes the infant or the family ill, the cord, and often the placenta, are disposed of through burial in a sacred place or by burning, or are sometimes put in a pit latrine/toilet to prevent them from being unearthed [8, 23]. In southeastern Turkey, the cord may be buried in a special place to help define the child’s path in life, such as burying the cord at a mosque or a school to help the child grow up to be a religious or educated person, respectively .
Frequency of application
Few articles reported on the frequency of application of the substance (either the number of days or the number of times per day the substance was applied). In Ethiopia, the substance is applied one to three times per day up to the seventh day of life. However, the applications may not begin until the newborn is two or three days old . In the Brong Ahafo region of Ghana, a substance is applied anywhere from every 30 min to 3 times per day . In urban Uganda, mothers reported cleaning the cord with a substance at least twice per day . On Pemba Island in the Zanzibar archipelago, Tanzania, multiple substances were applied to the umbilical area beginning on the sixth day after birth. In this study of more than 1000 infants born at home, only 10% (n = 109) had a substance applied to the umbilical cord and less than 11% of those applications were made in the first 48 h of life . A study in Sylhet District in Bangladesh, involving 39 in-depth interviews of mothers, fathers, grandmothers, and traditional birth attendants and data from more than 6000 household surveys of mothers, found that substances were applied until the cord separated and that either turmeric or ginger are applied at birth and then a combination of mustard oil and garlic are applied twice daily until the separation of the cord .
Few studies identified who usually applied the substance to the cord. In the 19 studies where it was reported, either the mother or grandmother of the infant [9, 12–19, 21, 25, 27–32] or a senior woman [15, 19, 33] in the household applied the substance to the cord. In only a very few cases did a traditional birth attendant or health worker [11, 14, 19] apply a substance to the cord.
Cost and source of substance
Few articles investigated the source of the substances applied to the umbilical cord and none reported on the cost of the substances applied. Shea butter or cooking oil were purchased from the market [15, 18]. One study reported that the cooking oil applied to the cord is generally a recycled product bought at the local market that had been previously used .
This study presents a view of traditional cord-care practices as reported during the last fifteen years in low- and middle-income countries. The desire to care for the umbilical cord of an infant appears to be universal in all cultures. Of interest is the description of the range of products applied to the newly cut cord and that substances are applied to the umbilical cord to infants born at home as well as in facilities. Participants in studies from Petit-Gôave, Haiti, and Karachi, Pakistan, reported that if an infant was born in a health facility, a substance would be applied to the umbilical cord upon returning home [22, 34].
The possible harm of these substances has not been fully quantified. In some cases, such as with kohl and surma used in Egypt and Pakistan, the lead and antimony included in the product is most likely harmful. Anecdotal literature often refers to the use of dung as a harmful traditional practice. In contrast, we found use of chicken/lizard/cow dung reported in only three countries (Haiti, Uganda, and Zambia), thereby suggesting that this practice is not as widespread as depicted or that it, as reported by a traditional birth attendant in northern Ghana, was practiced in the past and has since ceased . It is also possible that application of preparations using dung is underreported in published literature. For example, unpublished formative research from the Kenieba and Koutiala Districts of Mali report use of bassa bo (lizard excrement powder mixed with shea butter) and bagani dji (insect powder mixed with shea butter, sap, or powder of pourghère) to help the stump fall off and heal the umbilicus [unpublished data from formative research conducted in Mali in 2015 by the Maternal Child Survival Program of the US Agency for International Development]. Data from the Kita and Diema Districts in Mali report application of cow dung, shea butter, ash, alcohol, and Maggi cubes to the umbilical cord [unpublished data from endline survey conducted in Mali in 2014 by the Maternal and Child Health Integrated Program, predecessor to Maternal Child Survival Program].
Other product categories (i.e., oils, herbs/spices/plants, mineral/powder, water, bodily fluids, food, personal care/medical products) and processes such as heat treatment may or may not be harmful and could warrant further investigation. Neonates and young infants are more prone to infection than older children and adults and evidence suggests that their immune systems are still developing rather than being fully formed at the time of birth. Further, newborns appear to be particularly vulnerable to the types of intracellular pathogens that commonly cause neonatal sepsis , such as some strains of streptococcus, Escherichia coli, and Listeria monocytogenes.
Concern has been expressed about transmission of HIV from mother to child through the application of breast milk to the umbilical cord . Also, the use of numbati (water that has been used to wash an adult woman’s genitals) in Tanzania , could potentially pose a risk for transmission of HIV or other diseases. The application of unhygienic substances to or around the umbilical cord stump has been linked to tetanus in infants [2, 13, 25, 36–39]. Clostridium tetani bacteria, found in soil, dust, saliva, animal dung, and other sources, are the cause of tetanus infection .
Some substances, which are known to be harmful in other contexts, pose an unclear risk when applied to the umbilical cord. For example, motor/machine oil contains high levels of chemical additives and, once used for its intended purpose, can contain high levels of heavy metals and other minerals [41, 42]. While used motor/machine oil is well known to be harmful to the environment and causes dermatitis through long-term exposure, the health risks due to short-term exposure through an open wound is not well defined. Boric acid powder is used as a pesticide and has caused seizures and death in infants when ingested , but also has known antifungal properties and has been used as a treatment for conditions such yeast infections . However, sources differ on whether it is safe to use boric acid on open wounds. Pyriproxyfen powder, a pesticide, poses minimal risk to humans in small quantities . Other substances, such as oils, herbs, plants, food products, and heat treatments applied to the cord may be harmful depending on whether they have been contaminated in some way, such as through unhygienic preparation or storage.
This critical information regarding traditional cord-care practices can serve as the stepping stone to behavior change. We focused our review on a comprehensive description of reported cord-care practices with the intention of employing the knowledge to develop behavior-change strategies to support introduction of novel cord-care regimens, particularly 7.1% chlorhexidine digluconate for umbilical cord care. Randomized controlled trials investigating the use of 7.1% chlorhexidine digluconate for umbilical cord care have been conducted in Nepal , Bangladesh , and Pakistan . A meta-analysis of the three studies demonstrated that application of chlorhexidine to the umbilical cord of the newborn led to a 23% reduction in all-cause neonatal mortality and a reduction in omphalitis ranging from 27 to 56% compared to control group depending on severity of infection . Further, the World Health Organization recommends the application of 7.1% chlorhexidine digluconate (gel or solution) to the umbilical cord of neonates who are born at home in settings with high neonatal mortality or to replace the use of a harmful, traditional substances . Despite previously reported substantial reductions in South Asia, results from recent trials in Zambia  and Tanzania  show that application of 7.1% chlorhexidine to the umbilical cord did not significantly reduce neonatal mortality rates in the study sites. This suggests that programmatic context and level of risk in the population as well as cord care practices must be considered in any behavior change initiative.
Findings from this review suggest that documentation of cord-care practices is not consistent throughout low- and middle-income countries. Given the heterogeneity of practices described in the literature, it is not clear if data from one country in a region also pertains to other surrounding countries and/or nearby ethnic groups. Overall, however, existing literature depicts a firm tradition of umbilical cord care in every culture. The desire to take some kind of action to address the newly cut umbilical cord seems to be a strong human desire. Participants in several studies noted that adhering to dry cord care was very difficult. For example, in Ghana, there was a belief that applying nothing to the cord would delay separation, cause discomfort, and potentially cause death for the infant by preventing the sore from healing and causing a sickness in the stomach . In Uganda, the practice of dry cord care was noted as difficult to follow as it delays the cord separation and the return of the mother to chores . This desire to actively care for a newborn could be utilized as a trigger for behavior change. For example, as applied in the Health Belief Model , knowledge of effective cord care (i.e., product, application procedure, number of days to use, number of times/day to apply) could function as a “cue to action” to allow caretakers to act in a positive manner.
This review has limitations, as noted. Reporting is not global in nature as the review was limited to sources published in English in peer-reviewed journals. Few of the studies conducted have been in-depth, qualitative assessments of umbilical cord care practices; therefore, much of the detailed information about beliefs and practices surrounding umbilical cord care comes from a few sources or countries, such as Tanzania and Zambia. This could lead to the assumption that some countries place greater importance on umbilical cord care practices than other countries where the data collection focused on a variety of newborn care practices. The paucity of data from Latin America and the Caribbean reflected in this review could stem from our decision to include only English-language material. Also, it is likely that additional anecdotal information is available in gray literature.
Additional research around cost and source of products used in cord care practices could assist programs that are targeting newborn care behavior change. Likewise, deeper ethnographic and/or qualitative investigation into the underlying meaning and significance of traditional cord-care practices could assist in formulating key messages being used to generate demand for novel prophylactic products.
Findings from this review suggest that documentation of cord-care practices is not consistent throughout low- and middle-income countries, yet existing literature depicts a firm tradition of umbilical cord care in every culture studied. Cord-care practices vary by country and by regions or cultural groups within a country and employ a wide range of substances. The desire to promote healing and hasten cord separation are the underlying beliefs related to application of substances to the umbilical cord. The frequency of application of the substance (either the number of days or the number of times per day the substance was applied) and source and cost of products used are not well characterized. This desire to actively care for the umbilical cord of a newborn could be utilized to promote positive behavior change such as the introduction of 7.1% chlorhexidine digluconate for umbilical cord care. The variety in cord care practices and beliefs noted in this review however points toward the need to contextualize any behavior change approach to align with the local culture.
Liu L, Oza S, Hogan D, Perin J, Rudan I, Lawn JE, et al. Global, regional, and national causes of child mortality in 2000–13, with projections to inform post-2015 priorities: an updated systematic analysis. Lancet. 2015;385(9966):430–40.
Traverso HP, Bennett JV, Kahn AJ, Agha SB, Rahim H, Kamil S, Lang MH. Ghee applications to the umbilical cord: a risk factor for neonatal tetanus. Lancet. 1989;1(8636):486–8.
Mull DS, Anderson JW, Mull JD. Cow dung, rock salt, and medical innovation in the Hindu Kush of Pakistan: the cultural transformation of neonatal tetanus and iodine deficiency. Soc Sci Med. 1990;30(6):675–91.
Karumbi J, Mulaku M, Aluvaala J, English M, Opiyo N. Topical umbilical cord care for prevention of infection and neonatal mortality. Pediatr Infect Dis J. 2013;32(1):78–83.
Imdad A, Bautista RM, Senen KA, Uy MV, Mantaring III JB, Bhutta ZA. Umbilical cord antiseptics for preventing sepsis and death among newborns. Cochrane Database Syst Rev. 2013;5:CD008635.
Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA). http://www.prisma-statement.org/. Accessed 14 Sep 2016.
Byaruhanga RN, Nsungwa-Sabiiti J, Kiguli J, Balyeku A, Nsabagasani X, Peterson S. Hurdles and opportunities for newborn care in rural Uganda. Midwifery. 2011;27(6):775–80.
Herlihy JM, Shaikh A, Mazimba A, Gagne N, Grogan C, Mpamba C, et al. Local perceptions, cultural beliefs and practices that shape umbilical cord care: a qualitative study in Southern Province, Zambia. PLoS One. 2013;8(11):e79191.
Kayom VO, Kakuru A, Kiguli S. Newborn care practices among mother-infant dyads in urban Uganda. Int J Pediatr. 2015;2015:815938. doi:10.1155/2015/815938.
Khan GN, Memon ZA, Bhutta ZA. A cross sectional study of newborn care practices in Gilgit, Pakistan. J Neonatal Perinatal Med. 2013;6(1):69–76.
Sharkey A, Yansaneh A, Bangura PS, Kabano A, Brady E, Yumkella F, et al. Maternal and newborn care practices in Sierra Leone: a mixed methods study of four underserved districts. Health Policy Plan. 2016. doi:10.1093/heapol/czw104.
Abhulimhen-Iyoha BI, Ibadin MO. Determinants of cord care practices among mothers in Benin City, Edo State, Nigeria. Niger J Clin Pract. 2012;15(2):210–3.
Alparslan Ö, Demırel Y. Traditional neonatal care practices in Turkey. Jpn J Nurs Sci. 2013;10(1):47–54.
Amare Y. Umbilical cord care in Ethiopia and implications for behavioral change: a qualitative study. BMC Int Health Hum Rights. 2014;14:12.
Hill Z, Tawiah-Agyemang C, Okeyere E, Manu A, Fenty J, Kirkwood B. Improving hygiene in home deliveries in rural Ghana: how to build on current attitudes and practices. Pediatr Infect Dis J. 2010;29(11):1004–8.
Degefie T, Amare Y, Mulligan B. Local understandings of care during delivery and postnatal period to inform home based package of newborn care interventions in rural Ethiopia: a qualitative study. BMC Int Health Hum Rights. 2014;14:17.
Moran AC, Choudhury N, Uz Zaman Khan N, Ahsan Karar Z, Wahed T, Faiz Rashid S, et al. Newborn care practices among slum dwellers in Dhaka, Bangladesh: a quantitative and qualitative exploratory study. BMC Pregnancy Childbirth. 2009;9:54.
Sacks E, Moss WJ, Winch PJ, Thuma P, van Dijk JH, Mullany LC. Skin, thermal and umbilical cord care practices for neonates in southern, rural Zambia: a qualitative study. BMC Pregnancy Childbirth. 2015;15:149.
Shamba DD, Schellenberg J, Penfold SC, Mashasi I, Mrisho M, Manzi F, et al. Clean home-delivery in rural Southern Tanzania: barriers, influencers, and facilitators. J Health Popul Nutr. 2013;31(1):110–7.
Waiswa P, Kemigisa M, Kiguli J, Naikoba S, Pariyo GW, Peterson S. Acceptability of evidence-based neonatal care practices in rural Uganda - implications for programming. BMC Pregnancy Childbirth. 2008;8:21.
Moyer CA, Aborigo RA, Logonia G, Affah G, Rominski S, Adongo PB, et al. Clean delivery practices in rural northern Ghana: a qualitative study of community and provider knowledge, attitudes, and beliefs. BMC Pregnancy Childbirth. 2012;12:50.
Walsh S, Norr K, Sankar G, Sipsma H. Newborn cord care practices in Haiti. Glob Public Health. 2015;10(9):1107–17.
Mrisho M, Schellenberg JA, Mushi AK, Obrist B, Mshinda H, Tanner M, et al. Understanding home-based neonatal care practice in rural southern Tanzania. Trans R Soc Trop Med Hyg. 2008;102(7):669–78.
Dhingra U, Gittelsohn J, Suleiman AM, Suleiman SM, Dutta A, Ali SM, et al. Delivery, immediate newborn and cord care practices in Pemba Tanzania: a qualitative study of community, hospital staff and community level care providers for knowledge, attitudes, belief systems and practices. BMC Pregnancy Childbirth. 2014;14:173.
Geçkil E, Sahin T, Ege E. Traditional postpartum practices of women and infants and the factors influencing such practices in South Eastern Turkey. Midwifery. 2009;25(1):62–71.
Mullany LC, Faillace S, Tielsch JM, Stolzfus RJ, Nygaard KE, Kavle JA, et al. Incidence and risk factors for newborn umbilical cord infections on Pemba Island, Zanzibar, Tanzania. Pediatr Infect Dis J. 2009;28(6):503–9.
Winch PJ, Alam MA, Akther A, Afroz D, Ali NA, Ellis AA, Bangladesh PROJAHNMO Study Group, et al. Local understandings of vulnerability and protection during the neonatal period in Sylhet District, Bangladesh: a qualitative study. Lancet. 2005;366(9484):478–85.
Sharma S, van Teijlingen E, Hundley V, Angell C, Simkhada P. Dirty and 40 days in the wilderness: eliciting childbirth and postnatal cultural practices and beliefs in Nepal. BMC Pregnancy Childbirth. 2016;16(1):147.
Upadhyay RP, Rai SK, Anand K. Community neonatal practices and its association with skilled birth attendance in rural Haryana, India. Acta Paediatr. 2012;101(12):e535–9.
Adejuyigbe EA, Odebiyi AI, Aina O, Bamiwuye S. Feeding and care of low-birthweight babies in two rural communities in south-western Nigeria. Matern Child Nutr. 2008;4(1):55–64.
Darmstadt GL, Hussein MH, Winch PJ, Haws RA, Lamia M, El-Said MA, et al. Neonatal home care practices in rural Egypt during the first week of life. Trop Med Int Health. 2007;12(6):783–97.
Madhu K, Chowdary S, Masthi R. Breast feeding practices and newborn care in rural areas: a descriptive cross-sectional study. Indian J Community Med. 2009;34(3):243–6.
Khadduri R, Marsh DR, Rasmussen B, Bari A, Nazir R, Darmstadt GL. Household knowledge and practices of newborn and maternal health in Haripur district, Pakistan. J Perinatol. 2008;28(3):182–7.
Gul S, Khalil R, Yousafzai MT, Shoukat F. Newborn care knowledge and practices among mothers attending pediatric outpatient clinic of a hospital in Karachi, Pakistan. Int J Health Sci (Qassim). 2014;8(2):167–75.
Maródi L. Neonatal innate immunity to infectious agents. Infect Immun. 2006;74(4):1999–2006.
Raza SA, Akhtar S, Avan BI, Hamza H, Rahbar MH. A matched case–control study of risk factors for neonatal tetanus in Karachi, Pakistan. J Postgrad Med. 2004;50(4):247–51. discussion 251–2.
Alhaji MA, Bello MA, Elechi HA, Akuhwa RT, Bukar FL, Ibrahim HA. A review of neonatal tetanus in University of Maiduguri Teaching Hospital, North-eastern Nigeria. Niger Med J. 2013;54(6):398–401.
Roper MH, Vandelaer JH, Gasse FL. Maternal and neonatal tetanus. Lancet. 2007;370(9603):1947–59.
Meegan ME, Conroy RM, Lengeny SO, Renhault K, Nyangole J. Effect on neonatal tetanus mortality after a culturally-based health promotion programme. Lancet. 2001;358(9282):640–1.
Centers for Disease Control. Tetanus causes and transmission. http://www.cdc.gov/tetanus/about/causes-transmission.html. Accessed 24 Aug 2016.
Agency for Toxic Substances and Disease Registry. Toxicological profile for used mineral-based crankcase oil. http://www.atsdr.cdc.gov/toxprofiles/tp102.pdf. Accessed 24 Aug 2016.
Agency for Toxic Substances and Disease Registry. Toxicological profile for fuel oil. http://www.atsdr.cdc.gov/toxprofiles/tp75.pdf. Accessed 24 Aug 2016.
National Pesticide Information Center. Boric acid general fact sheet. http://npic.orst.edu/factsheets/boricgen.html. Accessed 24 Aug 2016.
University of Washington. UW Medicine Health Library: Boric acid for recurrent vaginal yeast infections. http://www.uwmedicine.org/health-library/Pages/boric-acid-for-recurrent-vaginal-yeast-Infections.aspx. Accessed 24 Aug 2016.
National Pesticide Information Center. Pyriproxifen general fact sheet. http://npic.orst.edu/factsheets/pyriprogen.html. Accessed 24 Aug 2016.
Mullany LC, Darmstadt GL, Khatry SK, Katz J, LeClerq SC, Shrestha S, et al. Topical applications of chlorhexidine to the umbilical cord for prevention of omphalitis and neonatal mortality in southern Nepal: A community-based, cluster-randomised trial. Lancet. 2006;367(9514):910–18.
Arifeen SE, Mullany LC, Shah R, Mannan I, Rahman SM, Talukder MR, et al. The effect of cord cleansing with chlorhexidine on neonatal mortality in rural Bangladesh: A community-based, cluster-randomised trial. Lancet. 2012;379(9820):1022–28.
Soofi S, Cousens S, Imdad A, Bhutto N, Ali N, Bhutta ZA. Topical application of chlorhexidine to neonatal umbilical cords for prevention of omphalitis and neonatal mortality in a rural district of Pakistan: a community-based, cluster-randomised trial. Lancet. 2012;379(9820):1029–36.
Imdad A, Mullany LC, Baqui AH, El Arifeen S, Tielsch JM, Khatry SK, et al. The effect of umbilical cord cleansing with chlorhexidine on omphalitis and neonatal mortality in community settings in developing countries: a meta-analysis. BMC Public Health. 2013;13 Suppl 3:S15.
World Health Organization. WHO Recommendations on Postnatal Care of the Mother and Newborn. 2013. http://apps.who.int/iris/bitstream/10665/97603/1/9789241506649_eng.pdf. Accessed 24 Aug 2016.
Semrau K, Herlihy J, Grogan C, et al. Effectiveness of 4% chlorhexidine umbilical cord care on neonatal mortality in Southern Province, Zambia (ZamCAT): a cluster-randomised controlled trial. Lancet Glob Health. 2016;4(11):e827–36.
Sazawal S, Dhingra U, Ali SM, et al. Efficacy of chlorhexidine application to umbilical cord on neonatal mortality in Pemba, Tanzania: a community-based randomised controlled trial. Lancet Glob Health. 2016;4(11):e837–44.
Glanz K, Rimer BK, Viswanath K. Health behavior and health education: theory, research, and practice. 4th ed. San Francisco: Jossey-Bass; 2008.
Alam MA, Ali NA, Sultana N, Mullany LC, Teela KC, Khan NU, et al. Newborn umbilical cord and skin care in Sylhet District, Bangladesh: implications for the promotion of umbilical cord cleansing with topical chlorhexidine. J Perinatol. 2008;28 Suppl 2:S61–8.
Ayaz A, Saleem S. Neonatal mortality and prevalence of practices for newborn care in a squatter settlement of Karachi, Pakistan: a cross-sectional study. PLoS One. 2010;5(11):e13783.
Callaghan-Koru JA, Seifu A, Tholandi M, de Graft-Johnson J, Daniel E, Rawlins B, et al. Newborn care practices at home and in health facilities in 4 regions of Ethiopia. BMC Pediatr. 2013;13:198.
Falle TY, Mullany LC, Thatte N, Khatry SK, LeClerq SC, Darmstadt GL, et al. Potential role of traditional birth attendants in neonatal healthcare in rural southern Nepal. J Health Popul Nutr. 2009;27(1):53–61.
Ghosh R, Sharma AK. Intra- and inter-household differences in antenatal care, delivery practices and postnatal care between last neonatal deaths and last surviving children in a peri-urban area of India. J Biosoc Sci. 2010;42(4):511–30.
Gilani I, Kayani ZA. Household practices of mothers regarding neonatal care in rural & urban settings of the capital district of Azad Jammu & Kashmir. Rural Remote Health. 2014;14:2503.
Grant E, Munube D, Lumala P, Sentongo SA, Dodds L, Bortolussi R, et al. Neonatal deaths and umbilical cord care practices in Luweero district, Uganda. Paediatr Child Health. 2014;19(6):333.
Jennings L, Yebadokpo A, Affo J, Agbogbe M. Use of job aids to improve facility-based postnatal counseling and care in rural Benin. Matern Child Health J. 2015;19(3):557–65.
Karas DJ, Mullany LC, Katz J, Khatry SK, LeClerq SC, Darmstadt GL, et al. Home care practices for newborns in rural southern Nepal during the first 2 weeks of life. J Trop Pediatr. 2012;58(3):200–7.
Kesterton AJ, Cleland J. Neonatal care in rural Karnataka: healthy and harmful practices, the potential for change. BMC Pregnancy Childbirth. 2009;9:20.
Kumar V, Mohanty S, Kumar A, Misra RP, Santosham M, Awasthi S, Saksham Study Group, et al. Effect of community-based behaviour change management on neonatal mortality in Shivgarh, Uttar Pradesh, India: a cluster-randomised controlled trial. Lancet. 2008;372(9644):1151–62.
Mangwi Ayiasi R, Kolsteren P, Batwala V, Criel B, Orach CG. Effect of village health team home visits and mobile phone consultations on maternal and newborn care practices in Masindi and Kiryandongo, Uganda: a community-intervention trial. PLoS One. 2016;11(4):e0153051.
Memon ZA, Khan MI, Soofi S, Muhammad S, Bhutta ZA. A cross sectional survey of newborn care practices in rural Sindh, Pakistan: implications for research and policy. J Neonatal Perinatal Med. 2013;6(2):137–44.
Mullany LC, Darmstadt GL, Katz J, Khatry SK, LeClerq SC, Adhikari RK, Tielsch JM. Risk factors for umbilical cord infection among newborns of southern Nepal. Am J Epidemiol. 2007;165(2):203–11.
Sreeramareddy CT, Joshi HS, Sreekumaran BV, Giri S, Chuni N. Home delivery and newborn care practices among urban women in western Nepal: a questionnaire survey. BMC Pregnancy Childbirth. 2006;6:27.
Waiswa P, Peterson S, Tomson G, Pariyo GW. Poor newborn care practices – a population based survey in eastern Uganda. BMC Pregnancy Childbirth. 2010;10:9.
Funding for this project has been provided by the UN Commission for Life-Saving Commodities. The funding body was not involved in the design of the study and collection, analysis, and interpretation of data or in writing the manuscript.
Availability of data and materials
All articles reviewed are available online. Two instances of unpublished data from Mali have been mentioned in this manuscript; the data can be requested from the Maternal Child Survival Program of the US Agency for International Development (http://www.mcsprogram.org/).
PSC conceived of the idea for the paper, assessed the quality of the included studies, analyzed the data, and wrote the manuscript. SB conducted the title/abstract and full-text screening, extracted and analyzed the data, and wrote the manuscript. PSC had full access to all the data in the study and had final responsibility for the decision to submit for publication. Both authors have read and approved the final version of this manuscript.
The authors declare that they have no competing interests.
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Search Terminology. Exact narrative sequences used for literature search. (DOCX 12 kb)