Kangaroo Mother Care: scientific evidences and impact on breastfeeding

Venancio, Sonia Isoyama; Almeida, Honorina de

doi:10.1590/S0021-75572004000700009

Abstracts

OBJECTIVE: To describe the history of the Kangaroo Mother Care and present scientific evidence about benefits of this practice on morbidity and mortality, psychological and neurological development and breastfeeding of low birth weight infants. SOURCES OF DATA: Papers about Kangaroo Mother Care published from 1983 to 2004 were consulted, selected in Medline and Lilacs, as well as books, thesis and technical publications from the Brazilian Health Department. SUMMARY OF THE FINDINGS: Since its first description, Kangaroo Mother Care has been extensively studied. The analysis of randomized trials showed that it consists in a protection factor to breastfeeding at discharge (relative risk 0.41, 95% confidence interval 0.25 to 0.68). The method was always associated with the following reduced risks: nosocomial infection at 41 weeks' corrected gestational age (relative risk 0.49, 95% confidence interval 0.25 to 0.93), severe illness (relative risk 0.30, 95% confidence interval 0.14 to 0.67), lower respiratory tract disease at 6 months (relative risk 0.37, 95% confidence interval 0.15 to 0.89) and better gain of weight per day (weighted mean difference 3.6 g/day, 95% confidence interval 0.8 to 6.4). Psychomotor development at 12 months' corrected age was similar in the two groups. There was no evidence of a difference in infant's mortality. CONCLUSIONS : A positive impact of Kangaroo Mother Care on breastfeeding was found. Although the method appears to reduce severe infant morbidity without any serious deleterious effect reported, there is still insufficient evidence to recommend its routine use. It is necessary to develop studies about effectiveness, acceptability and applicability of the method in the Brazilian context.

Kangaroo mother care; kangaroo care; skin-to-skin contact

OBJETIVO: Descrever o histórico do Método Mãe Canguru e apresentar evidências científicas sobre os benefícios dessa prática para os bebês de baixo peso no tocante a morbimortalidade, desenvolvimento psicoafetivo, neurossensorial e amamentação. FONTES DE DADOS: Foram consultadas publicações sobre o Método Mãe Canguru abrangendo o período de 1983 até 2004, identificadas nas bases de dados MEDLINE e Lilacs, bem como livros, teses e publicações técnicas do Ministério da Saúde. SÍNTESE DOS DADOS: Desde sua primeira descrição, o Método Mãe Canguru tem sido amplamente estudado. A análise de experimentos randomizados mostrou que o mesmo consiste em fator de proteção para a amamentação exclusiva no momento da alta hospitalar (RR 0,41; IC95% 0,25-0,68). O método também está associado a redução do risco de infecção hospitalar com 41 semanas de idade gestacional corrigida (RR 0,49; IC95% 0,25-0,93); redução de enfermidades graves (RR 0,30; IC95% 0,14-0,67); redução de infecções do trato respiratório inferior aos 6 meses (RR 0,37; IC95% 0,15-0,89); e maior ganho ponderal diário (diferença de médias de 3,6 g/dia; IC95% 0,8-6,4). O desenvolvimento psicomotor foi semelhante entre bebês submetidos ao Método Mãe Canguru e controles aos 12 meses, e não houve evidências de impacto sobre a mortalidade infantil. CONCLUSÃO: Há evidências de impacto positivo do Método Mãe Canguru sobre a prática da amamentação. Embora o método pareça reduzir a morbidade infantil, as evidências são ainda insuficientes para que o mesmo seja recomendado rotineiramente. Por outro lado, não existem relatos sobre efeitos deletérios da aplicação do método. Há a necessidade de se realizar estudos sobre a efetividade, aplicabilidade e aceitabilidade do Método Mãe Canguru em nosso meio.

Método Mãe Canguru; Cuidado Mãe Canguru; contato pele a pele

REVIEW ARTICLE

Kangaroo Mother Care: scientific evidences and impact on breastfeeding

Sonia Isoyama Venancio;^I Honorina de Almeida^II

^IPh.D., School of Public Health, Universidade de São Paulo (USP). Researcher, Instituto de Saúde/CIP/Health Department of São Paulo, SP, Brazil

^IIPh.D., University of Freiburg, Germany. Researcher, Instituto de Saúdse/CIP/Health Department of São Paulo, São Paulo, SP, Brazil

^{Correspondence} Correspondence to Sonia Isoyama Venâncio Rua Santo Antônio, 590, 3º andar CEP 01314-000 São Paulo, SP Brazil Phone: +55 (11) 3293.2278 Fax: +55 (11) 3106.2772 E-mail: soniav@isaude.sp.gov.br

ABSTRACT

OBJECTIVE: To describe the history of the Kangaroo Mother Care and present scientific evidence about benefits of this practice on morbidity and mortality, psychological and neurological development and breastfeeding of low birth weight infants.

SOURCES OF DATA: Papers about Kangaroo Mother Care published from 1983 to 2004 were consulted, selected in Medline and Lilacs, as well as books, thesis and technical publications from the Brazilian Health Department.

SUMMARY OF THE FINDINGS: Since its first description, Kangaroo Mother Care has been extensively studied. The analysis of randomized trials showed that it consists in a protection factor to breastfeeding at discharge (relative risk 0.41, 95% confidence interval 0.25 to 0.68). The method was always associated with the following reduced risks: nosocomial infection at 41 weeks' corrected gestational age (relative risk 0.49, 95% confidence interval 0.25 to 0.93), severe illness (relative risk 0.30, 95% confidence interval 0.14 to 0.67), lower respiratory tract disease at 6 months (relative risk 0.37, 95% confidence interval 0.15 to 0.89) and better gain of weight per day (weighted mean difference 3.6 g/day, 95% confidence interval 0.8 to 6.4). Psychomotor development at 12 months' corrected age was similar in the two groups. There was no evidence of a difference in infant's mortality.

CONCLUSIONS: A positive impact of Kangaroo Mother Care on breastfeeding was found. Although the method appears to reduce severe infant morbidity without any serious deleterious effect reported, there is still insufficient evidence to recommend its routine use. It is necessary to develop studies about effectiveness, acceptability and applicability of the method in the Brazilian context.

Key words: Kangaroo mother care, kangaroo care, skin-to-skin contact.

Kangaroo mother care (KMC), also known as "kangaroo mother method" or "skin-to-skin contact", has been proposed as an alternative to conventional neonatal care for low birthweight (LBW) infants. This method was developed and first implemented by Edgar Rey Sanabria and Hector Martinez in 1979, at the Maternal and Child Institute of Bogotá, Colombia, and it received this name because it shares similarities to marsupial caregiving. It was used for the early hospital discharge of LBW infants due to a critical lack of incubators, cross infections, lack of technological resources, early weaning, high neonatal mortality rates and infant abandonment. The new home care program for LBW infants was based on the following principles: a) early hospital discharge regardless of weight provided that the infant has stable clinical conditions; b) no use of formulas, only breastmilk; c) encouragement of early skin-to-skin contact between mother and baby; the baby is positioned on the mother's chest, and d) the baby is maintained in an upright position. This initiative was supported by UNICEF, which widely advertised the results of the study, especially with regard to the reduction in mortality rates, to psychological benefits and low cost.¹

Despite the arguments over the benefits of KMC that arose from the lack of comparison of preliminary results with the results obtained from a control group, several European countries have adopted this practice and the research carried out by them has confirmed most of the initial results.² In the last few decades, several health services have adopted KMC, both in industrialized and developing countries, thus showing that it is possible to adapt this practice to different contexts of access to neonatal care technology.

The first experiments conducted in industrialized countries demonstrated that KMC was safe in terms of physiological response of newborns and that the method brought benefits regarding the breastfeeding practice and decreased the number of hospitalizations, in addition to reducing infant crying at six months of life.^3,4 Two experiments carried out in developing countries showed that KMC was safe in terms of mortality, and could reduce severe morbidity and avoid hospital readmissions.^5,6

In the mid-90s, a group of researchers and health professionals from several countries, with expertise in KMC, met in Trieste, Italy, to discuss the effectiveness, safety, applicability and acceptance of this type of care given to LBW newborns in different places. Based on previous studies and on the experiences reported in different health services, the group concluded that KMC can potentially improve the health and survival of LBW newborns, especially in those places where resources are scarce. However, benefits to both mothers and babies can be obtained in places where technology is available and, in this case, it contributes to the humanization of neonatal care and stronger mother-infant bonding.⁷

This review aims at showing the scientific evidence of the benefits of KMC regarding breastfeeding, as well as its impact on infant morbidity and mortality, and on psychoemotional and neurosensory aspects.

KMC in Brazil

In Brazil, the first services to use KMC were Hospital Guilherme Álvaro, in Santos, São Paulo (1992) and the Maternal and Child Institute of Pernambuco IMIP (1993). In 1997, the model adopted by IMIP was acknowledged by the Fundação Getúlio Vargas with the award of "Public Management and Citizenship," also receiving the Best Practice⁸award by the Brazilian Development Bank (BNDES). From then on, KMC became considerably widespread in Brazil, having become a public policy, as occurred in four other countries: Colombia, Indonesia, Mozambique and Peru.⁹

In 2000, the Brazilian Ministry of Health approved the Humanized Care for Low Birthweight Infants (KMC), recommending it and defining the guidelines for its implementation in medical units accredited with the Unified Health System (SUS). This policy proposes the use of KMC in three stages, starting with neonatal units (neonatal intensive care units NICU and intermediate care units), being extended to kangaroo care units (or kangaroo rooming-in facilities) and, after hospital discharge, to outpatient clinics (domiciliary KMC). At the first stage, parents are granted early and free access to the NICU, mothers are encouraged to breastfeed and participate in baby care, and skin-to-skin contact is encouraged as soon as the baby's clinical conditions allow so. At the second stage, both mother and baby stay in a rooming-in facility, where the kangaroo position should be practiced for as long as possible. The eligibility criteria for staying in this facility are maternal availability, mother's ability to recognize situations that may put newborns at risk, and ability to place the infant in the kangaroo position. On top of that, infants must have achieved clinical stability, total enteral nutrition, minimum weight of 1,250 g and a daily weight gain greater than 15 g. The criteria for hospital discharge and transfer to the third stage are: mother's self-assurance regarding baby care; motivation and commitment towards using the method 24 hours a day; guarantee of frequent visits to the health unit; minimum weight of 1,500 g; infant receiving exclusive breastfeeding; appropriate weight gain three days prior to hospital discharge; and agreement to seek the original hospital unit at any time while at the third stage, which usually ends when the infant reaches 2,500 g.¹⁰

Silva¹¹ assessed the policies and routines defined by the Brazilian Ministry of Health and found the following mainstays: (1) individualized care, which is parent-centered (family-centered intervention); (2) early skin-to-skin contact (appropriate and pleasant stimulation with sensory integration); (3) control of light and sound (to avoid aversive and inappropriate stimuli); (4) proper positioning (prevention of future dystonias in preterm newborns); and (5) breastfeeding (enhancing bonding and prevention of diseases in the first year of life).

We may say that the development of kangaroo mother care in Brazil was strongly influenced by the Colombian model, which served as guidelines for the program (presence of the mother, skin-to-skin contact, breastfeeding and chances of early hospital discharge) and also by other experiences with preterm baby care, such as the Newborn Individualized Development Care and Assessment Program (NIDCAP), which is based on the synactive theory of development.¹² According to this theory, the balance of a preterm baby's functioning is established by five subsystems (autonomic, motor, states, attention/interaction and self-regulatory) which are interconnected and interact with each other. The disorganization of a subsystem overloads the others and has a negative effect on the baby, while the organization of a subsystem has a positive effect on the other systems, allowing for equilibrium in the body.

The KMC used in Brazil can be considered to be a complex and comprehensive intervention program, which takes into consideration the global development of the baby and the environment in which he is reared. Its objective is to humanize the care LBW newborns are provided with and not to replace technology at NICUs.¹⁰

Scientific evidence of the role of KMC in reducing infant morbidity and mortality

Since KMC was first described, it has been extensively studied,^6,13-16 although there is a paucity of methodologically appropriate studies for the analysis of its impact on morbidity and mortality.

A systematic review conducted by Cochrane Library, updated in February 2003, found only three studies comparing KMC with conventional neonatal care which met the inclusion criteria, namely the random distribution of babies weighing less than 2,500 g into the KMC or control group.¹⁷The first study, carried out in a hospital in Ecuador,⁵ assessed the outcome of singleton babies weighing less than 2,000 g, who had not presented with severe congenital, respiratory, metabolic or infectious disorders. A total of 140 babies were randomly assigned to the KMC group and 160 to the control group. The babies in the KMC group were submitted to skin-to-skin contact and were breastfed on demand, while control individuals were kept in incubators or in heated cribs and were breastfed at predefined schedules. The second study, conducted in Colombia,¹⁸ analyzed babies weighing 2,000 g or less who did not present with early congenital malformations or perinatal disorders, whose mother or relative was available to take part in the program and had no plans to leave Bogotá in the near future. Out of 777 newborns, 396 were randomly assigned to the KMC group, being submitted to skin-to-skin contact 24 hours a day and receiving breastmilk on a regular basis, although they were formula-fed whenever necessary. The third study was carried out in three hospitals in Ethiopia, Indonesia and Mexico,¹⁹ including newborns whose birthweight ranged from 1,000 to 1,999 g, without administration of oxygen and/or intravenous fluids, who were able to feed and had no malformations. Of 463 babies, 178 were excluded, and the number of newborns initially assigned to each group is not known. Babies in the KMC group were submitted to continuous skin-to-skin contact, night and day, including the time during which their mothers were asleep.

The major findings of this review, which included 1,362 babies and used standardized methods from the Cochrane Collaboration for statistical analysis, were the following (the relative risks and the respective confidence intervals are shown in parentheses):

KMC was associated with reduction in nosocomial infection at 41 weeks of corrected gestational age (RR 0.49; 95%CI 0.25-0.93); reduction in the incidence of severe diseases (RR 0.30; 95%CI 0.14-0.67); and reduced incidence of lower respiratory tract infections during the six-month follow-up (RR 0.37; 95%CI 0.15-0.89).

Babies submitted to KMC had a larger daily weight gain (mean difference of 3.6 g/day; 95%CI 0.8-6.4).

Psychomotor development was similar in both groups at 12 months of corrected age.

No evidence regarding differences in infant mortality was found when both groups were compared.

The authors in charge of the review conclude that, although KMC seemingly reduces infant mortality, the evidence is still insufficient to recommend the method as a routine practice, since some questions about the methodology of the assays used reduce the reliability of the findings. They also point out that more randomized, controlled and well-designed trials should be carried out. On the other hand, the same authors acknowledge that there are no reports on the deleterious effects of KMC.¹⁷

Recently, a randomized controlled trial conducted in two hospitals in South Africa revealed that babies who were submitted to skin-to-skin contact had better outcomes with regard to physiological stabilization compared to those babies who were kept in incubators.²⁰

Evidence of the psychoemotional benefits related to KMC

Separation of a baby from its family, especially from the mother, determined by the baby's clinical conditions and by the rules of conventional NICUs, may have a more negative effect than necessary on mother and child bonding, which may affect the psychoemotional development of this baby.

Some evidence exists that a close contact between the mother and the preterm baby may have a positive influence on the relationship of this baby with the world. The skin, the human body's largest organ, receives sensory stimuli of different intensity and the skin-to-skin contact, which in KMC implies the skin contact of body/chest between the preterm baby and his mother, may cause several changes in the bodies of both baby and mother. The well-known effect of the skin-to-skin contact as a stimulus to the release of oxytocin apparently plays a crucial role in the mother's behavior and seems to positively affect her mood, thus facilitating her contact with the baby.²¹ In 1989, Affonso et al.,²² in a study involving 33 mothers who had skin-to-skin contact with their preterm babies and a control group, observed a greater tendency towards emotional stability in mothers submitted to this method. They also reported a more intense feeling of reliability and competence in these mothers compared with those mothers whose babies received conventional care. Signs of establishment of an early mother and child bonding and greater involvement of parents in baby care and in the growth and development of their children was reported by Charpak et al.²³ and Reichert et al.²⁴ in other studies.

In a study involving 488 mothers of preterm babies, Tessier et al.²⁵ observed that those submitted to KMC felt more competent and had an increased perception of the baby's competences. Moreover, they felt less stressed even when hospital stay was longer. Advantages such as better relationship with the baby, with the health care team, better acceptance of the care received by the baby at the ICU and greater self-assurance in baby care were also reported by the parents who participated in the Kangaroo Mother Care Program by Rapisardi et al.²⁶ These subjective feelings may be seen as positive indirect signs of the establishment of a parent and child bonding favored by KMC and could be positive signs of greater participation of parents in baby care and stimulation, allowing them a more comprehensive and more individualized care.²⁷

On the other hand, prolonged separation of the baby from the mother may have a negative effect on bonding. Klaus & Kennel²⁸ described prematurity and long hospital stay as risk factors for developmental delay, child maltreatment and abuse by family members, attributing the origin of these problems to the separation of the baby from the mother. A prospective Australian study involving 353 babies weighing less than 1,000 g treated at conventional neonatal units revealed, after the assessment of 167 cases, 80 infants with confirmed maltreatment, which could not be related to deficiencies, medical or perinatal causes, but which were mainly related to parental factors.²⁹

Evidence of neurosensory benefits related to KMC

Preterm babies are born in a period when the maturation process is at full throttle, especially with regard to the maturation of the brain and to the development of psychoemotional aspects. They have their physiological maturation interrupted and are deprived of an optimal intrauterine environment, which would offer them various comprehensive sensory and motor experiences facilitated by the lack of gravity. Their experiences would be defined by the mother's pace and they would be reasonably protected against excessive external stimuli. After birth, due to its immaturity, the extrauterine environment is expected to a have a significant impact on their body. Brazelton³⁰, in a careful study with babies, asserted that a preterm baby's nervous system becomes more easily organized while in a calm environment without excessive stimuli. Meyerhof³¹ assessed preterm babies treated at a conventional neonatal unit, using the Brazelton scale, which consists in observing the behavioral response of newborns to different stimuli, and corroborated that a less stressful environment has a positive effect on the baby's maturation. Preterm babies who received conventional care, were kept in an incubator, and were allowed to rest and sleep in certain periods of the day, spent less time at the hospital, spent less time in the incubator and less time on a nasogastric tube. These babies also had a better control over behavioral states and autonomic stability, therefore showing a better physiological and behavioral stability.

By observing the physiological pattern during intrauterine life, we note that the baby's experiences occur in a cyclic rhythm of activity and are determined by the possibility to rest and sleep whenever necessary, which, according to Korones,³² occurs in approximately 80% of the time. Mann et al.³³ regard sleep as a positive influence on the development of the brain.

On the other hand, an inappropriate extrauterine environment, characterized by constant stress, excessive handling, sleep deprivation, and excessive light and sound stimuli, results in effects that are adverse to the proper development of the nervous system^34-39 and are risk factors for a normal development.^40,41 The painful stimuli to which babies are exposed at the neonatal unit are considered to be the major factors for stress and disorganization. Recent studies have demonstrated that painful experiences in the neonatal period may lead to abnormal global development of preterm babies.^42-44

Several neonatal intervention programs were devised based on studies showing that the environment and the way in which preterm babies are cared for may negatively interfere in their development. The aim of these programs is to protect the babies and offer adequate stimuli in order to minimize the effects of the intervention imposed by the infant's organic needs. Some programs were developed and adopted, using criteria such as decrease in light and sound stimuli and proper positioning in the incubator in order to provide self-adaptation and self-consolation, in addition to measures for pain management and the possibility of rest and sleep periods. The results of these studies confirm that babies treated as described above had better results as to their global development even if assessed partially. ^45-48Appropriate positioning alone may allow for self-adaptation and proper maintenance of tone and self-consolation.^49-51

Salles⁵² evaluated 25 preterm babies treated at a neonatal unit that used protective measures for the normal development of the central nervous system (appropriate positioning in the incubator, attenuation of excessive light and sound stimuli and establishment of skin-to-skin contact including KMC) comparing them with a control group treated at a conventional care unit. The Dubowitz scale was used in babies with 40 weeks of corrected age. The group that received the protective care showed significantly better results than the control group.

The combination of these protective measures with the presence of parents at the neonatal unit, their participation in baby care and skin-to-skin contact brought new perspectives to the positive stimulation of babies.^11,12,53-56 The presence of parents facilitates skin-to-skin contact, which, in its turn, allows tactile proprioceptive stimulation and protects against an overload of aversive stimuli, being an acceptable method for the proper stimulation of the baby's neurobehavioral development.⁵⁵

Preterm babies submitted to skin-to-skin contact showed a better mental development and better results in motor tests,⁵⁶a significantly lower difference in the duration of crying and in the consolability pattern⁵⁷ and longer sleep periods.⁵⁸ Another impact on the development of a preterm baby is concerned with the presence of transient neurological disorders mainly observed in the muscle tone within the first year of life. The literature shows rates between 36 and 83%, depending on birthweight and gestational age.^59-61 However, Silva¹¹ observed an incidence of only 27.1% of transient tone disorders in one of the few Brazilian studies with a neurological follow-up of preterm babies in the kangaroo care program. In this study, the author assessed the neurological development of 70 preterm infants submitted to KMC, using protective measures at the neonatal unit, skin-to-skin contact and parental participation.

Evidence of benefits related to the breastfeeding practice

An important mainstay of kangaroo mother care is breastfeeding encouragement. Although evidence shows countless benefits of breastfeeding for preterm babies,^62-67 the prevalence of breastfeeding in this group is still quite low. Xavier et al.,⁶⁸ in a descriptive study on breastfeeding in babies weighing 2,500 g or less born at the Hospital das Clínicas de Ribeirão Preto, state of São Paulo, Brazil, found that 13.5% had never been breastfed and that only 38.5% were being breastfed at six months of life. Lefebvre⁶⁹ observed that among Canadian babies weighing less than 2,500 g only 58% had been breastfed at birth, compared to 73% in the full-term group. Among LBW infants, only 3% were discharged on exclusive breastfeeding and 11% were never breastfed.

Hellbauer et al.,⁷⁰ in South Africa, studied the factors that influence a mother's choice regarding the form of feeding her baby after discharge from an NICU and observed that, among other factors, LBW and prolonged hospital stay had a negative effect on her decision to breastfeed. Bicalho-Mancini et al.,⁷¹ in a study about the risk factors of not exclusively breastfeeding LBW infants at an NICU in Belo Horizonte, state of Minas Gerais, before and after the implementation of the Baby Friendly Hospital Initiative, found that, although the rates of exclusive breastfeeding at hospital discharge increased from 36% (before implementation) to 54.7% (after implementation), these figures show the necessity of other interventions in order to encourage the breastfeeding of these babies. Boo,⁷² in Malaysia, with the aim of determining the breastfeeding rate among babies weighing less than 1,500 g admitted to a high-risk neonatal unit, observed that, despite breastfeeding incentive programs adopted by the hospital, only 40.2% of these babies were being breastfed at the time of hospital discharge.

On the other hand, studies carried out in settings where KMC is used show that mothers who establish a skin-to-skin contact with their preterm babies have a significantly higher milk production compared to the control group . Furthermore, these studies revealed that interruption of breastfeeding was more frequent among mothers who were not submitted to this method.^22,73 In a randomized controlled study conducted in Sweden with 71 preterm babies weighing less than 1,500 g, Whitelaw et al.⁴ found that babies submitted to KMC had a two times higher prevalence of breastfeeding than the control group at six weeks of life (55 versus 28%). Ramanathan et al., in New Delhi,, India,⁷⁴ found similar results in a study with 28 preterm babies, in which the frequency of breastfeeding at six weeks of life amounted to 85.7% for babies submitted to KMC versus 42.8% for control individuals. Charpak et al., in two studies carried out in Colombia (one in 1994 and the other one in 2001), revealed higher prevalences of breastfeeding at 1, 6 and 12 months of life in babies submitted to KMC compared with control individuals.^6,53 In Brazil, Lima et al.⁷⁵ and Silva¹¹ found similar results for breastfeeding rates. At six months of life, the prevalence rates of breastfeeding in these studies were respectively 63 and 60.3% for babies submitted to KMC.

Conde-Agudelo et al.¹⁷ have recently analyzed three randomized trials and concluded that KMC was a protective factor for exclusive breastfeeding at hospital discharge (RR 0.41; 95%CI 0.25-0.68).

Table 1 briefly summarizes some studies on the breastfeeding of babies submitted to KMC.

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Final remarks

KMC in Brazil takes into account the baby's continuous growth process and introduces some possibilities to understand neonatal care in a broader context, allowing the retrieval of physiological, psychological and neurological information about human beings, considering the individual as a whole. KMC provides data on neurological, psychological and emotional development, therefore contributing to a care that suits the needs of the baby and of his family.

This review provides evidence of the benefits of KMC, which were certainly considered when this strategy was defined as a public policy in Brazil. However, it is essential that the efficiency of KMC in LBW infants in Brazil be further investigated. We should not forget that KMC was proposed here to humanize the care given to LBW infants, similarly to what occurs in industrialized countries, and not to replace the existing technology at neonatal units. The different contexts in which the method has been used should also be considered by the studies, since Brazil is characterized by large macroregional and microregional differences.

Recent Brazilian studies on the topic show the interest of researchers in subjective aspects such as the perception of parents of preterm babies about the KMC experience⁷⁶ and the influence of support networks on this practice.⁷⁷ These studies on the acceptability and applicability of KMC are crucial to provide valuable information and show us how to organize KMC in our setting.

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24. Reichert AP, Pereira WS, Silva MV. Vivências de mães no programa mãe Canguru. Rev Bras Cienc. 2002;6:51-62.
25. Tessier R, Cristo M, Velez S, Giron M, Figueroa de Calume Z. Kangaroo mother care and the bonding hypothesis. Kangaroo mother care and the bonding hypothesis. Pediatrics. 1998;102:17-23.
26. Rapisardi G, Vohr B, Cashore W, Peucker M, Lester B. Assessment of infant cry variability in high-risk infants. J Pediatr Otorhinolaryngol. 1989;17:19-29.
27. Lester BM, Tronick EZ. Guidelines for stimulation with preterm infants. Clin Perinatol. 1990;17:15-7.
28. Klaus MH, Kennel JH. Pais e bebês: a formação do apego. Porto Alegre: Artes Médicas; 1993.
29. Stratheam L, Gray PH, O'Callaghan MJ, Wood DO. Childhood neglect and cognitive development in extremely low birth weight infants: a prospective study. Pediatrics. 2001;108:42-151.
30. Brazelton TB. Early intervention. In: Fritzgerald HE, Lester BM, Yogman MV, editors. Theory and research in behavioural pediatrics. New York: Plenum Press; 1982. p. 104-19.
31. Meyerhof PG. O neonato pré-termo no berçário de cuidados especiais: proposta de intervenção, respeitando sua individualidade, suas fragilidades e suas forças. Rev Bras Cresc Dev Hum. 1995;5:17-22.
32. Korones SB. Disturbance and infant's rest. In: Moore TD, editor. Iatrogenic problems in intensive care. Report of 69th. Ross Conference on Pediatric research. Columbus, OH: Ross Laboratories; 1976. p. 94-97.
33. Mann NP, Haddow R, Stokes L, Goodley S, Rutter N. Effect of night and day on preterm infants in a newborn nursery: randomized trial. BMJ. 1986;293:1265-7.
34. Hansen N, Okken A. Continuous TcPO2 monitoring in healthy and sick newborn infants during and after feeding. Birth Defects. 1979;15:503-8.
35. Norris S, Campbell L, Brenkert SL. Nursing procedures and alterations in transcutaneous oxygen tension in premature infants. Nurs Rev. 1982;31:330-6.
36. Long JG, Lucey JF, Philip AGL. Noise and hypoxemia in the intensive care nursery. Pediatrics. 1980;65:143-5.
37. Gottfried AW, Gilman G. Visual skills and intellectual development: a relationship in young children. J Am Optom Assoc. 1985;56:550-5.
38. Klaus M, Fanarof AA. Alto risco em neonatologia. 4Ş ed. Rio de Janeiro: Guanabara Koogan; 1995.
39. Blackburn S. Environmental impact of the NICU and developmental outcomes. J Pediatr Nurs. 1998;13:279-89.
40. Lacey JL, Henderson Smart DJ. Assessment of preterm infants in the intensive-care unit to cerebral palsy and motor outcome at 6 years. Dev Med Child Neurol. 1998;40:310-8.
41. Koenigsberg MR. Avances en la neurologia neonatal. Rev Neurol. 2000;31:2002-1.
42. Whitfield MF, Grunau RE. Behavior, pain perception, and the extremely low-birth weight survivor. Clin Perinatol. 2000;27:363-79.
43. Anand KJ. Clinical importance of pain and stress in preterm neonates. Biol Neonate. 1998;73:1-9.
44. Bhutta AT, Anand KJ. Vulnerability of the developing brain. Neuronal mechanisms. Clin Perinatol. 2002;29:357-72.
45. Als H, Gilkerson L. The role of relationship-based developmentally supportive newborn intensive care in strengthening outcome of preterm infants. Semin Perinatol. 1997;21:178-89.
46. Kleberg A, Westrup B, Stjernqvist K. Developmental outcome, child behavior and mother-child interaction at 3 years of age following Newborn Individualized Developmental Care and Intervention Program (NIDCAP). Early Hum Dev. 2000;60:59-73.
47. Melnyk BM, Alpert-Gillis L, Feinstein NF, Fairbanks E, Schultz-Czamiak J, Hust D, et al. Improving cognitive development of low-birth-weigh premature infants with COPE program: a pilot study of the benefit of early NICU intervention with mother. Res Nurs Health. 2001;24:373-89.
48. Achenbach TM, Howell CT, Aoki MF, Rauch VA. Nine-year outcome of the Vermont Intervention program for low birth weight infants. Pediatrics. 1993;91:45-55.
49. Souza TM, Tronchin DMR, Melleiro MM. Recursos disponíveis para a organização do ambiente da criança em UTI pediátrica. Nursing. 1998;1:28-31.
50. Kudo A. Fisioterapia, fonoaudiologia e terapia ocupacional em pediatria: monografias médicas. 2Ş ed. São Paulo: Savier; 1994.
51. Dominguez SS, Komiyama S. Cuidados fisioterápicos ao recém-nascido em ventilação mecânica. In: Kolpeman B, Miyoshi M, Guinsburg R, editores. Distúrbios respiratórios no período neonatal. São Paulo: Atheneu; 1998. p. 527-41.
52. Salles BGC. Aplicação do exame neurocomportamental de Dubowitz em recém-nascidos pré-termo e sua correlação com condições perinatais diversas [dissertação]. São Paulo: Universidade Presbiteriana Mackenzie; 2003.
53. Charpak N, Ruiz-Pelaez JG, Figueroa de Calume Z, Chapark Y. A randomized, controlled trial of Kangaroo mother care: results of follow-up at 1 year of corrected age. Pediatrics. 2001;108:1072-9.
54. Bauer K, Pyper A, Sperling P, Uhrig C, Versmold H. Effects of gestational and postnatal age on body temperature, oxygen consumption, and activity during early skin to skin contact between preterm infants of 25-30-week gestation and their mothers. Pediatr Res. 1998;44:247-51.
55. Ludington-Hoe S, Swinth JY. Developmental aspects of Kangaroo Care. J Obstet Gynecol Neonatal Nurs. 1996;25:691-703.
56. Feldman R, Eildeman AL, Sirota L, Welle A. Comparison of skin to skin (kangaroo) and traditional care: parenting outcomes and preterm infant development. Pediatrics. 2002;110:16-26.
57. Whitelaw A. Kangaroo baby care: just a nice experience or an important advance for preterm infants? Pediatrics. 1990;85:604-5.
58. Ludington H, Hadeed A. Vantagens. In: Charpak N, Figueroa de Calume Z. O método Mãe Canguru – Pais e familiares dos bebês prematuros podem substituir as incubadoras. Rio de Janeiro: McGraw Hill Interamericana do Brasil Ltda.; 1999. p. 52-3.
59. Piper M, Mazer B, Silver K, Ramsay M. Resolution of neurological symptoms in high-risk infants during the first two years of life. Dev Med Child Neurol. 1988;30:26-35.
60. Nelson K, Ellenberg JH. Children who ‘outgrew' cerebral palsy. Pediatrics. 1982;69:529-36.
61. Pallas Alonso C, De la Cruz Bertolo J, Medina Lopez MC, Bustos Lozano G, de Alba Romero C, Simon de las Heras R. Age for sitting and walking in children born weighting less than 1500 g and normal motor development at two years of age. An Esp Pediatr. 2000;53:4307-11.
62. American Academy of Pediatrics. Work Group on Breastfeeding. Breastfeeding and the use of human milk. Pediatrics. 1997;100:1035-9.
63. Amin SB, Merle KS, Orlando MS, DalZell LE, Guillet R. Brainstem maturation in premature infants as a function of enteral feeding type. Pediatrics. 2000;106:318-22.
64. Carlson SE, Cooke RJ, Rhodes PG. Long term feeding of formulas high in linolenic acid and marine oil to very low birth weight infants: phospholipid fatty acids. Pediatr Res. 1991;30:404-12.
65. Carlson SE, Werman SH, Rhodes PG, Peeples JM, Cooke RJ, Tolley EA. Visual acuity development in healthy preterm infants: effect of marine oil supplementation. Am J Clin Nutr. 1993;58:35-42.
66. Lucas A, Morley R, Cole TJ, Lister G, Leeson-Payne C. Milk and subsequent intelligence quotient in children born preterm. Lancet. 1992;339:261-4.
67. Saenz PM, Quero J. Studio de la maturacion intestinal em neonatos com isótopos estables. Rev Med Univ Navarra. 1999;42:77-82.
68. Xavier CC, Jorge SM, Goncalves AL. Prevalência de aleitamento materno em recém-nascidos de baixo peso. Rev Saude Publ. 1991;25:381-7.
69. Lefebvre F, Ducarme M. Incidence and duration of lactational performance among mother of low-birth-weight ant term infants. CMAJ. 1989;140:1159-64.
70. Hallbauer U, Grobler JM, Niemand I. Factors influencing a mother's choice of feeding after discharge of her baby from a neonatal unit. S Afr Med J. 2002;92:634-7.
71. Bicalho-Mancini PG, Velásquez-Meléndez G. Aleitamento materno exclusivo na alta de recém-nascidos internados em berçário de alto risco e os fatores associados a essa prática. J Pediatr (Rio J). 2004;80:241-8.
72. Boo NY, Goh ES. Predictors of breastfeeding in very low birthweight infants at the time of discharge from hospital. J Trop Pediatr. 1999;45:195-201.
73. Hurst NM, Valentine CJ, Renfro L, Burns P, Ferlic L. Skin-to-skin holding in the neonatal intensive care unit influences maternal milk volume. J Perinatol. 1997;17:213-7.
74. Ramanathan K, Paul VK, Deorari AK, Taneja U, George G. Kangaroo Mother Care in very low birth weight infants. Indian J Pediatr. 2001;68:1019-23.
75. Lima G, Quintero-Romero S, Cattaneo A. Feasibility, acceptability and cost of Kangaroo mother care in Recife, Brazil. Ann Trop Paediatr. 2000;20:22-6.
76. Furlan C, Scochi CGS, Furtado MCC. Perception of parents in experiencing the kangaroo mother method. Rev Lat Am Enfermagem. 2003;11:444-52.
77. Toma TS. Kangaroo Mother Care: the role of health care services and family networks in a successful program. Cad Saude Publ. 2003;19:233-42.

Correspondence to

Sonia Isoyama Venâncio

Rua Santo Antônio, 590, 3º andar

CEP 01314-000 São Paulo, SP

Brazil

Phone: +55 (11) 3293.2278 Fax: +55 (11) 3106.2772

E-mail:

soniav@isaude.sp.gov.br

Publication Dates

Publication in this collection
01 Apr 2008
Date of issue
Nov 2004

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

[1] 1. Whitelaw A. Myth of marsupial mother: home care of very low birth weight babies in Bogotá, Colombia. Lancet. 1985;25:1206-9.

[2] 2. Anderson GC. Skin to skin: kangaroo care in Western Europe. Am J Nurs. 1989;5:662-6.

[3] 3. Ludington-Hoe SM, Hadeed AJ, Anderson GC. Physiologic responses to skin-to-skin contact in hospitalized premature infants. J Perinatol. 1991;11:19-24.

[4] 4. Whitelaw A, Heisterkamp G, Sleath K, Acolet D, Richards M. Skin-to-skin contact for very low birth weight infants and their mothers. Arch Dis Child. 1988;63:1377-81.

[5] 5. Sloan NL, Leon Camacho LW, Pinto Rojas E, Stern C, Maternidad Isidro Ayora Study Team. Kangaroo mother method: randomised controlled trial of an alternative method of care for stabilised low birth-weight infants. Lancet. 1994;344:782-5.

[6] 6. Charpak N, Ruiz-Pelaez JG, Charpak Y. Rey Martinez Kangaroo Mother Care Program: an alternative way of caring for low birth weight infants? One year mortality in two cohort studies. Pediatrics. 1994;94:804-10.

[7] 7. Cattaneo A, Davanzo R, Uxa F, Tamburlini G. Recommendations for the implementation of Kangaroo Mother Care for low birthweight infants. International Network on Kangaroo Mother Care. Acta Paediatr. 1998;87:440-5.

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[9] 9. Toma T. Cuidado Mãe Canguru, Tecnologia Perinatal Humana. In: Tamez RN, Carvalho MR, editores. Amamentação: bases científicas para a prática profissional. Rio de Janeiro: Guanabara Koogan; 2001. p.132-43.

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[14] 14. Bergman NJ, Jurisoo LA. The "Kangaroo-method" for treating low birth weight babies in a developing country. Trop Doct. 1994;24:57-60.

[15] 15. Dala Sierra E, Pineda Barahona E, Banegas RM. Experiência madre canguro [Kangaroo mother experience]. Rev Med Hond. 1994;62:43-6.

[16] 16. Legault M, Goulet C. Comparison of kangaroo and traditional methods of removing preterm infants from incubators. J Obst Gynecol Neonatal Nurs. 1995;24:501-6.

[17] 17. Conde-Agudelo A, Diaz Rosselo JL, Belizan JM. Kangaroo mother care to reduce morbidity and mortality in low birthweight infants (Cochrane Review). In: The Cochrane Library, Issue 2, 2004.

[18] 18. Charpak N, Ruiz Pelaez JG, Figueiroa de Calume Z, Charpak Y. Kangaroo mother versus traditional care for newborn infants < 2000 grams: a randomized controlled trial. Pediatrics. 1997;100:682-8.

[19] 19. Cattaneo A, Davanzo R, Worku B, Surjono A, Echeverria M, Bedri A, et al. Kangaroo Mother Care for low birth weight infants: a randomized controlled trial in different settings. Acta Paediatr. 1998;87:976-85.

[20] 20. Bergman NJ, Linley LL, Fawcus SR. Randomized controlled trail of skin-to-skin contact from birth versus conventional incubator for physiological stabilization in 1200 to 2199 gram newborns. Acta Paediatr. 2004;93:779-85.

[21] 21. Matthiesen AS, Ransjo-Arvidson AB, Nissen E, Uvnas-Moberg K. Postpartum maternal oxytocin release by newborns: effects of infant hand massage and sucking. Birth. 2001;28:20-1.

[22] 22. Affonso DD, Wahlberg V, Persson B. Exploration of mothers reactions to the Kangaroo method of prematurity care. Neonatal Netw. 1989;7:43-51.

[23] 23. Charpak N, Figueroa de Calume Z. O método Mãe Canguru – Pais e familiares dos bebês prematuros podem substituir as incubadoras. Rio de Janeiro: McGraw Hill Interamericana do Brasil Ltda.; 1999.

[24] 24. Reichert AP, Pereira WS, Silva MV. Vivências de mães no programa mãe Canguru. Rev Bras Cienc. 2002;6:51-62.

[25] 25. Tessier R, Cristo M, Velez S, Giron M, Figueroa de Calume Z. Kangaroo mother care and the bonding hypothesis. Kangaroo mother care and the bonding hypothesis. Pediatrics. 1998;102:17-23.

[26] 26. Rapisardi G, Vohr B, Cashore W, Peucker M, Lester B. Assessment of infant cry variability in high-risk infants. J Pediatr Otorhinolaryngol. 1989;17:19-29.

[27] 27. Lester BM, Tronick EZ. Guidelines for stimulation with preterm infants. Clin Perinatol. 1990;17:15-7.

[28] 28. Klaus MH, Kennel JH. Pais e bebês: a formação do apego. Porto Alegre: Artes Médicas; 1993.

[29] 29. Stratheam L, Gray PH, O'Callaghan MJ, Wood DO. Childhood neglect and cognitive development in extremely low birth weight infants: a prospective study. Pediatrics. 2001;108:42-151.

[30] 30. Brazelton TB. Early intervention. In: Fritzgerald HE, Lester BM, Yogman MV, editors. Theory and research in behavioural pediatrics. New York: Plenum Press; 1982. p. 104-19.

[31] 31. Meyerhof PG. O neonato pré-termo no berçário de cuidados especiais: proposta de intervenção, respeitando sua individualidade, suas fragilidades e suas forças. Rev Bras Cresc Dev Hum. 1995;5:17-22.

[32] 32. Korones SB. Disturbance and infant's rest. In: Moore TD, editor. Iatrogenic problems in intensive care. Report of 69th. Ross Conference on Pediatric research. Columbus, OH: Ross Laboratories; 1976. p. 94-97.

[33] 33. Mann NP, Haddow R, Stokes L, Goodley S, Rutter N. Effect of night and day on preterm infants in a newborn nursery: randomized trial. BMJ. 1986;293:1265-7.

[34] 34. Hansen N, Okken A. Continuous TcPO2 monitoring in healthy and sick newborn infants during and after feeding. Birth Defects. 1979;15:503-8.

[35] 35. Norris S, Campbell L, Brenkert SL. Nursing procedures and alterations in transcutaneous oxygen tension in premature infants. Nurs Rev. 1982;31:330-6.

[36] 36. Long JG, Lucey JF, Philip AGL. Noise and hypoxemia in the intensive care nursery. Pediatrics. 1980;65:143-5.

[37] 37. Gottfried AW, Gilman G. Visual skills and intellectual development: a relationship in young children. J Am Optom Assoc. 1985;56:550-5.

[38] 38. Klaus M, Fanarof AA. Alto risco em neonatologia. 4Ş ed. Rio de Janeiro: Guanabara Koogan; 1995.

[39] 39. Blackburn S. Environmental impact of the NICU and developmental outcomes. J Pediatr Nurs. 1998;13:279-89.

[40] 40. Lacey JL, Henderson Smart DJ. Assessment of preterm infants in the intensive-care unit to cerebral palsy and motor outcome at 6 years. Dev Med Child Neurol. 1998;40:310-8.

[41] 41. Koenigsberg MR. Avances en la neurologia neonatal. Rev Neurol. 2000;31:2002-1.

[42] 42. Whitfield MF, Grunau RE. Behavior, pain perception, and the extremely low-birth weight survivor. Clin Perinatol. 2000;27:363-79.

[43] 43. Anand KJ. Clinical importance of pain and stress in preterm neonates. Biol Neonate. 1998;73:1-9.

[44] 44. Bhutta AT, Anand KJ. Vulnerability of the developing brain. Neuronal mechanisms. Clin Perinatol. 2002;29:357-72.

[45] 45. Als H, Gilkerson L. The role of relationship-based developmentally supportive newborn intensive care in strengthening outcome of preterm infants. Semin Perinatol. 1997;21:178-89.

[46] 46. Kleberg A, Westrup B, Stjernqvist K. Developmental outcome, child behavior and mother-child interaction at 3 years of age following Newborn Individualized Developmental Care and Intervention Program (NIDCAP). Early Hum Dev. 2000;60:59-73.

[47] 47. Melnyk BM, Alpert-Gillis L, Feinstein NF, Fairbanks E, Schultz-Czamiak J, Hust D, et al. Improving cognitive development of low-birth-weigh premature infants with COPE program: a pilot study of the benefit of early NICU intervention with mother. Res Nurs Health. 2001;24:373-89.

[48] 48. Achenbach TM, Howell CT, Aoki MF, Rauch VA. Nine-year outcome of the Vermont Intervention program for low birth weight infants. Pediatrics. 1993;91:45-55.

[49] 49. Souza TM, Tronchin DMR, Melleiro MM. Recursos disponíveis para a organização do ambiente da criança em UTI pediátrica. Nursing. 1998;1:28-31.

[50] 50. Kudo A. Fisioterapia, fonoaudiologia e terapia ocupacional em pediatria: monografias médicas. 2Ş ed. São Paulo: Savier; 1994.

[51] 51. Dominguez SS, Komiyama S. Cuidados fisioterápicos ao recém-nascido em ventilação mecânica. In: Kolpeman B, Miyoshi M, Guinsburg R, editores. Distúrbios respiratórios no período neonatal. São Paulo: Atheneu; 1998. p. 527-41.

[52] 52. Salles BGC. Aplicação do exame neurocomportamental de Dubowitz em recém-nascidos pré-termo e sua correlação com condições perinatais diversas [dissertação]. São Paulo: Universidade Presbiteriana Mackenzie; 2003.

[53] 53. Charpak N, Ruiz-Pelaez JG, Figueroa de Calume Z, Chapark Y. A randomized, controlled trial of Kangaroo mother care: results of follow-up at 1 year of corrected age. Pediatrics. 2001;108:1072-9.

[54] 54. Bauer K, Pyper A, Sperling P, Uhrig C, Versmold H. Effects of gestational and postnatal age on body temperature, oxygen consumption, and activity during early skin to skin contact between preterm infants of 25-30-week gestation and their mothers. Pediatr Res. 1998;44:247-51.

[55] 55. Ludington-Hoe S, Swinth JY. Developmental aspects of Kangaroo Care. J Obstet Gynecol Neonatal Nurs. 1996;25:691-703.

[56] 56. Feldman R, Eildeman AL, Sirota L, Welle A. Comparison of skin to skin (kangaroo) and traditional care: parenting outcomes and preterm infant development. Pediatrics. 2002;110:16-26.

[57] 57. Whitelaw A. Kangaroo baby care: just a nice experience or an important advance for preterm infants? Pediatrics. 1990;85:604-5.

[58] 58. Ludington H, Hadeed A. Vantagens. In: Charpak N, Figueroa de Calume Z. O método Mãe Canguru – Pais e familiares dos bebês prematuros podem substituir as incubadoras. Rio de Janeiro: McGraw Hill Interamericana do Brasil Ltda.; 1999. p. 52-3.

[59] 59. Piper M, Mazer B, Silver K, Ramsay M. Resolution of neurological symptoms in high-risk infants during the first two years of life. Dev Med Child Neurol. 1988;30:26-35.

[60] 60. Nelson K, Ellenberg JH. Children who ‘outgrew' cerebral palsy. Pediatrics. 1982;69:529-36.

[61] 61. Pallas Alonso C, De la Cruz Bertolo J, Medina Lopez MC, Bustos Lozano G, de Alba Romero C, Simon de las Heras R. Age for sitting and walking in children born weighting less than 1500 g and normal motor development at two years of age. An Esp Pediatr. 2000;53:4307-11.

[62] 62. American Academy of Pediatrics. Work Group on Breastfeeding. Breastfeeding and the use of human milk. Pediatrics. 1997;100:1035-9.

[63] 63. Amin SB, Merle KS, Orlando MS, DalZell LE, Guillet R. Brainstem maturation in premature infants as a function of enteral feeding type. Pediatrics. 2000;106:318-22.

[64] 64. Carlson SE, Cooke RJ, Rhodes PG. Long term feeding of formulas high in linolenic acid and marine oil to very low birth weight infants: phospholipid fatty acids. Pediatr Res. 1991;30:404-12.

[65] 65. Carlson SE, Werman SH, Rhodes PG, Peeples JM, Cooke RJ, Tolley EA. Visual acuity development in healthy preterm infants: effect of marine oil supplementation. Am J Clin Nutr. 1993;58:35-42.

[66] 66. Lucas A, Morley R, Cole TJ, Lister G, Leeson-Payne C. Milk and subsequent intelligence quotient in children born preterm. Lancet. 1992;339:261-4.

[67] 67. Saenz PM, Quero J. Studio de la maturacion intestinal em neonatos com isótopos estables. Rev Med Univ Navarra. 1999;42:77-82.

[68] 68. Xavier CC, Jorge SM, Goncalves AL. Prevalência de aleitamento materno em recém-nascidos de baixo peso. Rev Saude Publ. 1991;25:381-7.

[69] 69. Lefebvre F, Ducarme M. Incidence and duration of lactational performance among mother of low-birth-weight ant term infants. CMAJ. 1989;140:1159-64.

[70] 70. Hallbauer U, Grobler JM, Niemand I. Factors influencing a mother's choice of feeding after discharge of her baby from a neonatal unit. S Afr Med J. 2002;92:634-7.

[71] 71. Bicalho-Mancini PG, Velásquez-Meléndez G. Aleitamento materno exclusivo na alta de recém-nascidos internados em berçário de alto risco e os fatores associados a essa prática. J Pediatr (Rio J). 2004;80:241-8.

[72] 72. Boo NY, Goh ES. Predictors of breastfeeding in very low birthweight infants at the time of discharge from hospital. J Trop Pediatr. 1999;45:195-201.

[73] 73. Hurst NM, Valentine CJ, Renfro L, Burns P, Ferlic L. Skin-to-skin holding in the neonatal intensive care unit influences maternal milk volume. J Perinatol. 1997;17:213-7.

[74] 74. Ramanathan K, Paul VK, Deorari AK, Taneja U, George G. Kangaroo Mother Care in very low birth weight infants. Indian J Pediatr. 2001;68:1019-23.

[75] 75. Lima G, Quintero-Romero S, Cattaneo A. Feasibility, acceptability and cost of Kangaroo mother care in Recife, Brazil. Ann Trop Paediatr. 2000;20:22-6.

[76] 76. Furlan C, Scochi CGS, Furtado MCC. Perception of parents in experiencing the kangaroo mother method. Rev Lat Am Enfermagem. 2003;11:444-52.

[77] 77. Toma TS. Kangaroo Mother Care: the role of health care services and family networks in a successful program. Cad Saude Publ. 2003;19:233-42.

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Kangaroo Mother Care: scientific evidences and impact on breastfeeding

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