Jump to content

Baby bottle

From Wikipedia, the free encyclopedia
(Redirected from 👨🏻‍🍼)
A decorated, transparent plastic feeding bottle with blue cap and silicone teat, anti-leakage plate and screw mounting from 2007

A baby bottle, nursing bottle, or feeding bottle is a bottle with a teat (also called a nipple in the US) attached to it, which creates the ability to drink via suckling. It is typically used by infants and young children, or if someone cannot (without difficulty) drink from a cup, for feeding oneself or being fed. It can also be used to feed non-human mammals.

Hard plastic is the most common material used, being transparent, light-weight, and resistant to breakage. Glass bottles have been recommended as being easier to clean, less likely to retain formula residues,[1] and relatively chemically inert.[2] Hybrid bottles using plastic on the outside and glass inside have also been developed.[3] Other materials used for baby bottles include food-grade stainless steel and silicone rubber.[4][5][6]

Baby bottles can be used to feed expressed breast milk, infant formula,[7] or pediatric electrolyte solution. A 2020 review reports that healthy term infants, when breastfeeding or bottle-feeding, "use similar tongue and jaw movements, can create suction and sequentially use teat compression to obtain milk, with minimal differences in oxygen saturation and SSB patterns" (suck–swallow–breath patterns).[8] Sick or pre-term babies may not be able to breastfeed or take a bottle effectively and may need specialized care.[9][7]

The design characteristics of the bottle and teat have been found to affect infant feeding and milk intake. Interactions between the infant and the caregiver feeding them affect the infant's milk intake during feeding. Whether the caregiver or the infant controls the feeding appears to affect the infant's ability to learn to self-regulate their milk intake.[8]

Proper cleaning and sterilization of bottles are recommended to avoid bacterial contamination and illness, particularly in areas where water quality and sanitary conditions are not good.

Design considerations

[edit]
Newborn drinking milk from a bottle

A typical baby bottle typically has four components: the first is the main container or body of the bottle. A teat, or nipple, is the flexible part of the bottle that the baby will suck from, and contains a hole through which the milk will flow. The collar goes over the nipple and typically screws onto the neck of the bottle, forming a seal. Most, but not all baby bottles will also have a cap or travel cover that goes over the teat to keep it clean and to prevent small spills.[10] Some bottles may optionally have a disposable liner.[8]

Design concerns for the making of baby bottles often reflect safety or comfort. A safe baby bottle should not break, should not come apart easily into small or potentially harmful components, should not be made of materials that pose a health risk, and should be easy to clean so as to avoid bacterial contamination and illness.[11]

A bottle should also be comfortable for both caregiver and baby to use. Bottles that are lightweight and easy to hold can be desired by both babies and mothers. A variety of shapes are available. The design of containers, nipples or teats may mimic the shape of the mother's breast. Designers may try to mimic the flow rate of breastfeeding: the baby should be able to get enough nourishment, but at the same time not be overwhelmed or overfed.[12][13][14]

Materials

[edit]

Over time a wide variety of materials have been used for infant feeding vessels (see History). The materials now most commonly used in baby bottle containers are glass and some types of plastics. Food-grade stainless steel and silicone rubber are also used. Each of these four materials—plastic, glass, silicone and stainless steel—has advantages and disadvantages.[6] The standard materials used in teats/nipples are latex rubber and silicone.[15]

A number of countries have regulations about allowable food contact materials. Ideally, the material making up the bottle should react as little as possible with the material in the bottle. No material is completely inert, but glass and stainless steel are relatively neutral materials which tend to remain stable and not interact with foods.[2] The disadvantages of glass are that it tends to be heavy and can break more easily.[16]

Plastics are lightweight and resistant to breaking.[16] Manufacturers find them easy to form into a variety of shapes.[17] A wide variety of plastics have been developed, some of which are not well understood in terms of reactivity. Some plastics have been found to be reactive with fluids such as breast milk and infant formula. Chemicals such as Bisphenol A (BPA) may "leach" from a bottle into the substance it holds. In addition, plastics may be more likely to break down when heated or cooled, for example, when being heated in a microwave or being boiled to sterilize them.[18][19]

Polycarbonate plastic was frequently used in baby bottles before 2011, and is still used in some countries.[20] Polycarbonates contain Bisphenol A.[21] Since 2008,[2] at least 40 countries have banned the use of plastics containing Bisphenol A in baby bottles due to safety concerns (see Regulation).[22] Bottles made of polycarbonate may be marked as "#7 PC".[23]

Bisphenol S (BPS) and Bisphenol F (BPF) have been used as substitutes for BPA. They are structurally similar. Comparisons of BPA, BPS and BPF have found that these chemicals have similar potency and action to BPA and may pose similar dangers in terms of endocrine-disrupting effects.[24] This has led to criticisms of the chemical industry[25] and for calls to deal with bisphenols in groups, not individually. In 2021, the Canadian government agencies Environment and Climate Change Canada (ECCC) and Health Canada (HC) held consultations with the goal of grouping 343 known BPA analogs and functional alternatives.[26]

Polyethersulfone plastic (PES) does not contain BPA but does include Bisphenol S (BPS).[27] An assessment of a variety of different baby bottles in use in 2016, reported 4 bottles to be of "high concern", 14 bottles to be of "concern"; and only 6 bottles to be of "no concern" These of "no concern" included two polyamide (PA) and two polyethersulfone (PES) bottles, a stainless steel bottle, and one of the 17 polypropylene (PP) bottles tested.[28]

Phthalates, found in polyvinyl chloride (PVC), are another area of concern.[29] Referred to as "everywhere chemicals" because they are so common, phthalates make plastic more flexible, and have been used in pacifiers and nipples or teats for bottles.[30][31] Phthalates have been banned from use in feeding bottles in the EU.[32] In the USA, there have been repeated calls for the removal of phthalates by the U.S. Consumer Product Safety Commission (CPSC) and others.[33][34][29] Their use in children's toys and products was somewhat restricted by the Consumer Product Safety Improvement Act of 2008.[35][36] Plastics labeled #3 may leach phthalates.[36] Latex rubber nipples may contain phthalates, so silicone nipples may be recommended instead. Packaging may indicate whether a product is "BPA-free" or "phthalate-free".[30]

Plastics may degrade over time in other ways, There are concerns that small beads of plastic may be released into fluids from some types of plastic bottles.[37] In 2020 researchers reported that infant feeding bottles made out of polypropylene caused microplastics exposure to infants ranging from 14,600 to 4,550,000 particles per capita per day in 48 regions with contemporary preparation procedures. Microplastics release is higher with warmer liquids and similar with other polypropylene products such as lunchboxes.[38][39][40] In 2022, the first study to examine the presence of plastic polymers in human blood found plastics of multiple types in the blood samples of 17 out of 22 healthy adults tested (nearly 80%).[41][42] Medical experts have suggested reducing exposure to microplastics by not shaking plastic bottles or exposing them to high temperatures. Some recommend using alternative materials such as glass, silicone, or stainless steel.[43]

Baby bottle nipples (teats) made of clear silicone

Baby bottle nipples (also called teats) are typically made from either silicone or latex rubber. When used for nipples, silicone is clear, durable, and slightly harder than latex. Natural rubber latex teats are elastic, tear resistant, and may feel softer. Latex can absorb odors, while silicone does not. Latex can break down if exposed to sunlight. Some people have allergies to latex.[15]

Size

[edit]

Bottles tend to come in standard sizes, often 4 US fluid ounces (120 ml) and 8 US fluid ounces (240 ml). Smaller bottles may be lighter and easier to hold and are often used with younger, smaller infants. There are concerns that larger bottles may lead to over-feeding, since parents are likely to encourage a baby to "finish" a bottle during a feeding.[44]

The height-to-width ratio of bottles is high (relative to adult cups) because it is needed to ensure the contents flood the teat when used at normal angles; otherwise the baby will drink air. However, if the bottle is too tall, it easily tips. There are asymmetric bottles that ensure the contents flood the teat if the bottle is held at a certain direction.[citation needed]

Shape

[edit]

The shape of the bottle is related to both ease of use and ease of cleaning (see History). Designers sometimes suggest that naturalistic designs will mean that babies can transition between breast or bottle without issues.[44][12] Other bottles have been invented with unique shapes designed to speed up the warming and cooling of breast milk, saving time, reducing bacterial growth, and reducing exposure to temperatures that can damage the nutrients in breast milk.[45]

"Anti-colic" bottles have been put forward with the goal of reducing "gassiness" and distress when feeding. Designs often seek to minimize the sucking in of air by the baby while feeding. Some bottles try to minimize the mixing of air into the milk within the bottle. At the same time, it is desirable to avoid creating an internal vacuum as the infant sucks out fluids, since this will make it harder to feed. Designs may rely on the bottle's shape or incorporate different types of "venting".[8][46][12][47]

A "vented" bottle is also sometimes marked as an "anti-colic" bottle.

Some vented bottles, as well as bottles which use a collapsible liner collapses as the formula is drained, have been assessed favorably. They were reported to be comparable to a breastfeeding group in terms of milk intake, sucking patterns, and oxygenation.[8]

A 2012 study comparing two types of vented bottles with anti-vacuum features found no differences in infant growth between randomized groups. "Bottle A", a partial anti-vacuum design, was rated by parents as easier to assemble and clean. Infants fed using "Bottle A" were reported to engage in less "fussing", but no difference were found in "crying" or "colic" or in rates of ear infection.[48]

Health recommendations for the storage and handling of human milk typically focus on preventing the growth of dangerous bacteria, but some research is also being done on nutrition. Experimental studies have shown a degradation of retinol (Vitamin A) and α-Tocopherol (Vitamin E) content dependent upon the formation of bubbles in expressed breast milk and in formula. Seven models of bottles were studied, from six companies. Less degradation occurred when using a bottle feeding system designed to minimize the mixing of air with the bottle's contents.[49]

Teat flow rate

[edit]

Teat characteristics can also have important implications for infant's sucking pattern and milk intake. Milk flow rate is defined as "the rate at which milk moves from the bottle nipple into the infant's mouth during bottle-feeding."[50] Characteristics such as the shape of the nipple and the way it is perforated may impact flow rate and the coordination of sucking, swallowing and breathing during feeding.[8][50]

Unfortunately, categorization and labeling of teats to indicate flow rate is neither standardized nor consistent. There is significant variability between and within brands and models.[8][50] In one study, nipples labeled "Slow" or "Newborn" (0–3 months) had flow rates ranging from 1.68 mL/min to 15.12 mL/min."The name assigned to the nipple type does not provide clear information to parents attempting to choose a nipple".[50] This may be of extra concern in the case of fragile infants.[50] Specialized teats are available for infants with cleft palate.[51]

Variations and accessories

[edit]

Bottles may be designed to attach directly to a breast pump for a complete "feeding system" that maximizes the reuse of the components. Such systems include a variety of drinking spouts for when the child is older. This converts the bottle into a sippy cup, a cup with lid and spout for toddlers, which is intermediate between a baby bottle and an open top cup. Bottles that are part of a feeding system may include handles that can be attached. The ring and teat may be replaced by a storage lid.[citation needed]

Accessories for bottles include cleaning brushes, or bottle brushes, sterilizers, and drying racks. Brushes may be specially designed for a specific manufacturer's bottles and teats. Bottle sterilizers use different techniques for sterilization, including ultraviolet light, boiling water, and hot steam.

Bottle warmer with thermostat

Bottle warmers warm previously made and refrigerated formula. Coolers designed to fit a specific manufacturer's bottles are available to keep refrigerated formula cold. Special formula powder containers are available to store pre-measured amounts of formula so that caregivers can pre-fill bottles with sterile water and mix in the powder easily. The containers are typically designed to stack together so that multiple pre-measured amounts of formula powder may be transported as a unit.[citation needed]

Institutions can purchase ready-to-feed formula in containers that can be used as baby bottles.[52] The lid screws off and is replaced by a disposable teat when the formula is ready to be used. This avoids storing the formula with the teat and possibly clogging the teat holes when formula is splashed within the bottle and dries.[citation needed]

Use

[edit]

Cleaning and sterilization

[edit]

Sterilization is a standard practice to prevent development of bacteria and resulting illness, that is more effective than sanitization. The Australian government and the United Kingdom's National Health Service guidelines recommend sterilization of baby bottles and other equipment either by using a cold water sterilizing solution such as by Milton sterilizing fluid, by steam sterilizing, or by boiling.[53][54][55][56] It is important to clean and sterilize all parts of a bottle including containers, teats, and screw caps.[55][57]

The United States Centers for Disease Control and Prevention, suggests that it may be sufficient to clean bottles with soap and water, in a dishwasher or by hand.[58] This recommendation is based on the assumption that water supplies are clean and sanitation standards are high.[59][60] Some states, such as Illinois, continue to recommend sterilization in addition to washing.[61] Alberta, Canada recommends sterilizing bottles until an infant is at least 4 months old.[62]

However, there is evidence that bacteria such as E. coli can thrive in biofilms which form on the interior walls of the bottles. Gentle rinsing is not enough to prevent this. Even in developed areas, contamination continues to be a concern.[63][64] In 2009 in the United Kingdom, researchers found contamination with Staphylococcus aureus in 4% of the baby bottles that parents reported were ready to fill after cleaning and disinfecting.[65][66]

In lower-resource settings, risks of exposure to dangerous respiratory and enteric infections are higher.[63] A study of children admitted to hospital in Rawalpindi, Pakistan, found that 52.1% of the bottles their caregivers considered clean were actually contaminated. This occurred even though caregivers reportedly followed many of the recommended cleaning practices for cleaning and sterilizing bottles. The most common mistake was to boil the bottles for less than the minimum time recommended by WHO.[67][68]

Research into the preparation of infant formula in South Korea indicates significant levels of contamination can be transmitted through the handling of spoons and other utensils. Spoons, after being touched, were often left in the formula container, allowing bacteria to spread to the formula in the container. C. sakazakii, S. enterica, and S. aureus, all of which are potentially fatal, were able to surviving for weeks in contaminated infant formula.[69]

Understanding how recommendations are interpreted is important: in one study, leaving a bottle in water that had been previously boiled in a kettle was believed to be "boiling" the bottle. Researchers emphasize that health providers need to better educate caregivers; and that practical methods of bottle hygiene need to be suited to use in field settings. For example, in Peru, easy-to-adopt practices like using a bottle brush and detergent gave greater advantages than difficult-to-achieve procedures like boiling a bottle.[63] WHO (which strongly recommends breastfeeding) notes that in cases where bottle feeding is to occur, much better education is needed on how to use bottles.[70]

Age-appropriate use

[edit]

Nipples (teats) are typically subdivided by flow rate, with the slowest flow rate recommended for premature infants and infants with feeding difficulties. However, flow rates are not standardised and vary considerably between brands.[71][50]

The NHS recommends a sippy cup or beaker be introduced by 6 months and the use of bottles discontinued by 1 year.[72] The AAP recommends that the cup be introduced by one year of age and that the use of the bottle by discontinued by 18 months.[73] The use of bottles is discouraged beyond two years of age by most health organisations as prolonged use can cause tooth decay.[74][75] Early childhood caries (ECC) is also a concern when considering how long breastfeeding should continue.[76]

Regulation

[edit]

While infant formula is highly regulated in many countries, baby bottles are not. Only the materials of the teat and bottle itself are specifically regulated in some countries (e.g. British Standards BS 7368:1990 "Specification for babies' elastomeric feeding bottle teats"[77]). In the USA, the Food and Drug Administration (FDA) regulates teats and the bottle materials.[78][79][80][81]

In 1985 the FDA restricted allowable levels of nitrosamines (many of which are carcinogens) released from bottle teats.[82] Tests of bottle nipples available in the USA, Singapore, West Germany, England, Japan and Korea suggest that levels of nitrosamines in most rubber baby bottle teats are within recommended standards.[83][84]

Another chemical that has been regulated is Bisphenol A (BPA), described as an endocrine disruptor in 1991.[85] Ongoing research into the possible effects of BPA at levels of exposure far below the U.S. government's BPA safety standards has led to concerns about the safety of plastics, including baby bottles. A 1999 Consumer Reports study showed that some polycarbonate baby bottles released unsafe amounts of BPA.[86][87] Concerns about BPA have been supported by further work.[88][89][90] (Research into the effects of BPA has frequently been hotly contested and controversial[91] and issues have been raised over research biases due to industry funding and conflicts of interest due to close ties between government consultants and BPA manufacturers.[88][89]) One result has been proposals to change the testing paradigm for assessment of endocrine-disrupting chemicals.[88]

Research and public pressure have led to bans on the use of Bisphenol A in bottles and cups to be used by children.[78][92] In 2008 Walmart announced that it would stop selling baby bottles and food containers containing BPA.[85] As of 2017, these were applied in at least 40 countries.[22] Canada classified BPA as "toxic" in 2008 under the Canadian Environmental Protection Act.[88] In 2011 use of bisphenol A in baby bottles was forbidden in all EU countries,[93][94] in China, in Malaysia, and South Africa.[95] In July 2012, the FDA stated that BPA would no longer used in baby bottles and sippy cups, in response to a petition from the American Chemistry Council stating that this was now in line with industry practice.[96][97] Other countries such as Argentina[98] and Brazil followed suit by prohibiting bisphenol A in baby bottles.[95] Korea has extended its BPA ban to include all children's utensils, containers and packaging as of January 2020.[99] There are calls for increased regulation of BPA in India.[22][100]

Early medieval infant feeding bottle from Castkedyke Cemetery, Barton upon Humber, from a display at the North Lincolnshire Museum
Baby with bottle in a cradle, ca. 1903 (Paula Modersohn-Becker)

History

[edit]

Throughout most of human history, infant nutrition has primarily depended on the availability of the child's mother or a wet nurse to breastfeed the infant.[101] Beliefs and behaviors relating to infant feeding also vary widely across countries, cultures and times. Mothers and caregivers have also sought additional ways to feed children, sometimes referred to as "hand feeding".[102][103] As early as 1500 BCE, Egyptian pottery shows images of women breastfeeding their babies and also using animal horns to feed them.[104]

Animal shaped ceramic feeding bottle from Regensburg, Germany (ca. 1350–800 BCE)

Containers with hard spouts date to early in recorded time, as evidence by archeological finds (see image). The first vessels known to be used for feeding infants had an opening at one end for filling the bottle, and a second at the other to be put into the baby's mouth.[105][106][107] Examination of the organic residues on ancient ceramic baby bottles shows that they were used as early as 1200 BCE to feed babies with animal milk.[106][107]

Around 250 BCE to 300 BCE the Egyptians developed the ability to blow glass and the Romans blew clear feeding bottles of glass, but these did not obtain long-term popularity. Leather and wood were also used.[105][108][109]

By the 1700s infant-feeding vessels such as the feeding-cups, bubby-pots, and sucking-pots were also being made[104][109] from materials that included pewter, tin, and silver.[101]

Baby with feeding bottle, 1922

In the 19th century, artificial feeding begin to replace wet nursing, and by 1900, wet nursing no longer existed as an organized profession.[101] Changes to the feeding of infants were both socially and technologically driven. With industrialization, more mothers worked outside the home and could less easily breastfeed their children. Technological changes including the design of artificial feeding methods and the preparation of animal milks and other milk substitutes supported a transition to artificial feeding, but with mixed success. Understanding of both nutrition and sanitation lagged behind the introduction of artificial feeding methods, contributing to extremely high infant mortality rates in the Victorian era.[104][110][111][112][103][113][114]

Alexandra feeding bottle, sold with a screw glass stopper, early 1900s

In the United States, the first glass nursing bottle was patented by C.M. Windship in 1841. It was intentionally shaped like the mother's breast. In 1845 the Alexandra Feeder was marketed in England.[105][115] In Paris, the "Biberon" was introduced by M. Darbo: it was reported to be quite popular in a review from 1851.[105][116] As the group American Collectors of Infant Feeders notes, by "the late 1800s a large variety of glass nursing bottles were produced in the United States", and the U.S. Patent Office had issued more than 200 patents for various designs of nursing bottles by the 1940s—designed to lie flat or stand up straight, with openings on their sides or ends, with detachable or permanently attached nipples, etc.[117]

Advertisement for Burr's Improved Nursing Bottle, one brand of "murder bottle"

The design of baby bottles and particularly the ease of cleaning them had potentially serious consequences for the health of the children using them. Estimates of infant mortality suggest that 20-30% of infants died in the first year of life during the late Victorian era.[118][114][111] During the 1890s, at a time when England's childhood mortality rates (ages 1-5) were declining, infant mortality rates actually rose.[119][120] A bottle with a long Indian rubber tube ending in a teat remained popular until the 1920s because even very young babies could feed independently. The feeding tubes could be bought separately and were sometimes used with empty whiskey or medicine bottles. Almost impossible to keep clean, this type has been nicknamed the "murder bottle".[110][104]

A "banana" baby bottle (c. 1950s). The double-ended bottles did not have two teats: they had a teat and a valve. Photo credit: Time Tunnel museum.

Allen and Hanbury introduced a new bottle design with a removable valve and teat on the two ends in 1894, and an improved model, the Allenbury, in 1900. This "banana" bottle was easier to clean. Sometimes referred to as the "hygienic bottle", it helped to improve survival rates. Similar bottles were introduced by other manufacturers and remained popular from the 1900s to the 1950s.[121] Eventually increased understanding of the causes and transmission of disease and improvements in medicine and public health began to reduce infant mortality.[122][123]

Heat-resistant Pyrex bottles were introduced to the American and British markets at different times. Pyrex bottles were first introduced in the United States by Corning Inc. in 1922. They were offered in three shapes (narrow neck, wide mouth, and flat) and multiple sizes, for a total of ten varieties. By 1925, the product line had been limited to a small subset of the original shapes and sizes.[124] In the 1950s a upright Pyrex bottle with a narrow neck was introduced. In the 1960s a wide-neck version was finally introduced to the UK market.[121] The design of upright bottles with a wider mouth meant that they could be more easily cleaned, and sterilized in batches.[125]

Soft nipples of various materials were introduced early in the history of feeding (e.g., leather, cork, sponge, dried cow's teat filled with cloth). Many were very difficult to clean and when unsanitary could pose a serious threat to infant health.[101][105][108][109] Although Elijah Pratt of New York patented the first rubber nipple in 1845,[105] it took until the 20th century before materials and technology improved sufficiently to allow manufacture of a soft nipple that was practical for use. The invention of rubber (1840s) provided a material that was soft. Early black Indian rubber "had a very strong pungent smell", and did not survive repeated exposures to hot water. However, by the early 1900s more pleasing rubber nipples could be manufactured in volume and could withstand the heat of sterilization.[121][109]

During the 1940s nurse Adda M. Allen filed for multiple patents relating to the design of baby bottles,[126] including the first disposable collapsible liner for a baby bottle.[127] Her patent was one of many attempts to design a bottle to limit swallowing of air during feeding, and reduce gastric upset and spitting up. A plastic bottle with a disposable liner was eventually tested at George Washington University Hospital and marketed by Playtex.[128]

Innovations such as the introduction of a working check valve in the nipple (to provide unidirectional flow of the liquid food) appeared as early as 1948 in a patent to J.W. Less.[129] This technology was picked up by others including Owens-Illinois Glass,[130] eventually making its way into Gerber and all modern pressure-balancing bottle designs.[131] It is also used for adult drinking cups and various other products requiring fluid flow under vacuum.[132]

The modern business of producing bottles in the developed world is substantial. For 2018, the global baby bottle market was valued at 2.6 billion USD.[133] [134] In 1999 it was reported that the UK "feeding and sterilising equipment sector ... stands at £49m… [where] [s]ales of feeding bottles account for 39%" or £19.1m of that market.[135]

Controversy

[edit]

The 2014 summary policy statement of the American Academy of Pediatrics (AAP) makes no specific mention of bottle feeding, but makes clear that "[b]reastfeeding and human milk are the normative standards for infant feeding and nutrition", and refers to decisions regarding the supply of infant nutrition as "a public health issue and not only a lifestyle choice… [g]iven the documented short- and long-term medical and neurodevelopmental advantages of breastfeeding".[136][137] The AAP policy recommends breastfeeding exclusively for six months, continuing it with introduction of complementary foods, with an overall duration of "1 year or longer as mutually desired by mother and infant".[137] The body of the policy statement notes and cites literature indicating that, in addition to the importance of mother's milk, the manner of the food delivery has implications: that "breastfed infants self-regulate intake volume", whereas bottle-fed infants receiving expressed breast milk or formula have "increased bottle emptying, poorer self-regulation, and excessive weight gain in late infancy", and that such early practice of self-regulation correlate with adult patterns of weight gain (ibid.).

The AAP policy notes that "[m]edical contraindications to breastfeeding are rare".[137] The transmission of some viral diseases through breastfeeding is reportedly preventable, e.g., by expressing breast milk and subjecting it to Holder pasteurization.[138]

In response to public pressure felt from policies de-emphasizing bottle- and formula-feeding, efforts have arisen to support mothers experiencing physiologic or other difficulties in breastfeeding, and sites include individual views that attempt to weaken the scientific case of the AAP policy;[139] a book of the personal experiences and views of one mother committed to bottle/formula feeding, Bottled Up, by Suzanne Barston, has appeared.[140]

In 2024, multiple baby bottle companies, including Nuk, Tommee Tippee, and Dr. Brown's, were involved in a class action lawsuit for their bottles leaching microplastics when heated.[141]

See also

[edit]

References

[edit]
  1. ^ Chen, YL; Kuan, WH (December 2014). "Is a Plastic or Glass Feeding Bottle Easier to Be Cleaned?". Iranian Journal of Public Health. 43 (12): 1716–7. PMC 4499096. PMID 26171367.
  2. ^ a b c Everts, Sarah (August 31, 2009). "Chemicals Leach From Packaging Food and drugs just can't leave their wrappings behind". Chemical & Engineering News. 87 (35). doi:10.1021/cen-v087n035.p011. Archived from the original on 6 December 2021. Retrieved 6 December 2021.
  3. ^ "Glass vs. Plastic Baby Bottles". WebMD. Archived from the original on 6 December 2021. Retrieved 6 December 2021.
  4. ^ Risk Assessment Studies Report No. 47 Safety Issues of Baby Bottles and Children's Tableware (PDF). Centre for Food Safety, The Government of the Hong Kong Special Administrative Region. January 2012. pp. 43–51. Archived (PDF) from the original on 6 December 2021. Retrieved 6 December 2021.
  5. ^ "Non-toxic Baby Bottles:: Plastic, Glass, Stainless Steel, or Silicone?". Gimme the Good Stuff. 8 February 2018. Archived from the original on 9 December 2021. Retrieved 6 December 2021.
  6. ^ a b "The Best Plastic-Free Bottles For Babies". www.thetot.com. Archived from the original on 16 December 2021. Retrieved 16 December 2021.
  7. ^ a b More, Judy (2021). "Chapter 11: Preterm Infants". Infant, child and adolescent nutrition : a practical handbook (Second ed.). Boca Raton: CRC Press. pp. 147–161. ISBN 9781000369748. Retrieved 6 December 2021.
  8. ^ a b c d e f g Kotowski, Judith; Fowler, Cathrine; Hourigan, Christina; Orr, Fiona (April 2020). "Bottle-feeding an infant feeding modality: An integrative literature review". Maternal & Child Nutrition. 16 (2): e12939. doi:10.1111/mcn.12939. PMC 7083444. PMID 31908144.
  9. ^ "Nutrition and Fluids for Your Baby in the NICU". The Children's Hospital of Philadelphia. 23 August 2014. Archived from the original on 6 December 2021. Retrieved 6 December 2021.
  10. ^ "How to Clean, Sanitize, and Store Infant Feeding Items". CDC.gov. 2018-10-31. Archived from the original on 2020-06-14. Retrieved 2020-05-22.
  11. ^ "Chicco Launches The First Hybrid Baby Bottle Ever". CISION. April 30, 2021. Archived from the original on 18 December 2021. Retrieved 18 December 2021.
  12. ^ a b c Jenik, Alejandro; Fustiñana, Carlos; Marquez, Maritza; Mage, David; Fernandez, Gloria; Mariani, Gonzalo (2012). "A New Bottle Design Decreases Hypoxemic Episodes during Feeding in Preterm Infants". International Journal of Pediatrics. 2012: 531608. doi:10.1155/2012/531608. PMC 3385645. PMID 22778757.
  13. ^ Marshall, Jeanne; Clarke, Sally; Escott, Catherine; Pados, Britt Frisk (1 August 2021). "Assessing the flow rate of different bottles and teats for neonates with feeding difficulties: An Australian context". Journal of Neonatal Nursing. 27 (4): 285–290. doi:10.1016/j.jnn.2020.11.014. ISSN 1355-1841. S2CID 229484424. Retrieved 20 December 2021.
  14. ^ Pados, Britt F.; Park, Jinhee; Thoyre, Suzanne M.; Estrem, Hayley; Nix, W. Brant (November 2015). "Milk Flow Rates From Bottle Nipples Used for Feeding Infants Who Are Hospitalized". American Journal of Speech-Language Pathology. 24 (4): 671–679. doi:10.1044/2015_AJSLP-15-0011. ISSN 1058-0360. PMC 4698468. PMID 26172340.
  15. ^ a b Layton, Vanessa (January 2019). "Baby Bottle Teats: What's the Difference Between Latex & Silicone?". Hello Charlie. Archived from the original on 20 December 2021. Retrieved 20 December 2021.
  16. ^ a b "Using Glass Baby Bottles – Pros and Cons". A Mum Reviews. 27 July 2015. Archived from the original on 17 December 2021. Retrieved 17 December 2021.
  17. ^ "Guide to Manufacturing Processes for Plastics". Formlabs. Archived from the original on 17 December 2021. Retrieved 17 December 2021.
  18. ^ Pant, Mahendra K.; Ahmad, Abul H.; Naithani, Manisha; Pandey, Hari S.; Pandey, Monika; Pant, Jayanti (13 May 2020). "Effect of Exposure of Plastic Infant Feeding Bottle Leached Water on Biochemical, Morphological and Oxidative Stress Parameters in Rats". Toxics. 8 (2): 34. doi:10.3390/toxics8020034. ISSN 2305-6304. PMC 7355934. PMID 32414073.
  19. ^ "Baby's Toxic Bottle" (PDF). The Work Group for Safe Markets (U.S.). Archived from the original (PDF) on 8 December 2021. Retrieved 18 December 2021.
  20. ^ Bashir, A. B.; Audu, A. A. (2021). "Extraction and Quantification of Bisphenol-A Level in Infant Polycarbonate Feeding Bottles using High Performance Liquid Chromatography Technique". ChemSearch Journal. 12 (1): 34–40. Archived from the original on 17 December 2021. Retrieved 17 December 2021.
  21. ^ "Bisphenol A". New York State Department of Health. Archived from the original on 17 December 2021. Retrieved 17 December 2021.
  22. ^ a b c Mahamuni, Duraisamy; Shrinithivihahshini, Nirmaladevi Dhandayudapani (2017). "Need for regulatory policies in India, on the use of bisphenol A in food contact plastic containers". Current Science. 113 (5): 861–868. doi:10.18520/cs/v113/i05/861-868 (inactive 1 November 2024). ISSN 0011-3891. Retrieved 1 December 2021.{{cite journal}}: CS1 maint: DOI inactive as of November 2024 (link)
  23. ^ "Protect your baby from BPA (Bisphenol A)". Commonwealth of Massachusetts. 2021. Archived from the original on 17 December 2021. Retrieved 17 December 2021.
  24. ^ Rochester, Johanna R.; Bolden, Ashley L. (July 2015). "Bisphenol S and F: A Systematic Review and Comparison of the Hormonal Activity of Bisphenol A Substitutes". Environmental Health Perspectives. 123 (7): 643–650. doi:10.1289/ehp.1408989. ISSN 0091-6765. PMC 4492270. PMID 25775505. Retrieved 17 December 2021.
  25. ^ Ben-Jonathan, Nira; Hugo, Eric R. (1 January 2016). "Bisphenols Come in Different Flavors: Is "S" Better Than "A"?". Endocrinology. 2016 (1): 23–25. doi:10.1210/en.2016-1120. PMC 4816743. PMID 27035769. The real issue is that the industry is replacing a toxic chemical with another, yet untested chemical, which will require large investments of research funds to carry out applicable studies
  26. ^ "Canada proposes grouping BPA analogues, alternatives". Food Packaging Forum. 13 January 2021. Archived from the original on 17 December 2021. Retrieved 17 December 2021.
  27. ^ Agri-Food; Veterinary Authority of Singapore (27 Feb 2020). "Safety of plastic baby bottles". Food for Thought. Singapore Government. Archived from the original on 17 December 2021. Retrieved 17 December 2021.
  28. ^ Groh, Ksenia (9 September 2016). "Health risks of 'BPA-free' baby bottles | Food Packaging Forum". Food Packaging Forum. Archived from the original on 18 December 2021. Retrieved 18 December 2021.
  29. ^ a b LaMotte, Sandee (February 20, 2021). "Chemicals in plastics damage babies' brains and must be banned, expert group says". CNN. Archived from the original on 17 December 2021. Retrieved 17 December 2021.
  30. ^ a b "BPA and phthalates". Westchester County Department of Health. Archived from the original on 17 December 2021. Retrieved 17 December 2021.
  31. ^ "Phthalates" (PDF). Zero Breast Cancer. Archived (PDF) from the original on 5 September 2021. Retrieved 17 December 2021.
  32. ^ Mo, Chuiyan (5 November 2020). "Baby Feeding Bottle Standards & Regulations in the EU: An Overview". Compliance Gate. Archived from the original on 20 December 2021. Retrieved 20 December 2021.
  33. ^ "Chemicals". U.S. Consumer Product Safety Commission. Archived from the original on 17 December 2021. Retrieved 17 December 2021.
  34. ^ "CPSC Prohibits Certain Phthalates in Children's Toys and Child Care Products". U.S. Consumer Product Safety Commission. Archived from the original on 17 December 2021. Retrieved 17 December 2021.
  35. ^ "Phthalates Were Removed from Babies' Toys in U.S., but Infants Still Get Them in Excess from Foods". Baby Care Journals. 29 July 2014. Archived from the original on 17 December 2021. Retrieved 17 December 2021.
  36. ^ a b Lee, Gretchen. "Phthalates: What you need to know". BabyCenter. Archived from the original on 19 January 2022. Retrieved 17 December 2021.
  37. ^ Kannan, Kurunthachalam; Vimalkumar, Krishnamoorthi (2021). "A Review of Human Exposure to Microplastics and Insights Into Microplastics as Obesogens". Frontiers in Endocrinology. 12: 978. doi:10.3389/fendo.2021.724989. ISSN 1664-2392. PMC 8416353. PMID 34484127.
  38. ^ Carrington, Damian (19 October 2020). "Bottle-fed babies swallow millions of microplastics a day, study finds". The Guardian. Archived from the original on 9 November 2020. Retrieved 9 November 2020.
  39. ^ Trinity College Dublin (October 19, 2020). "High levels of microplastics released from infant feeding bottles during formula prep". phys.org. Archived from the original on 31 October 2020. Retrieved 9 November 2020.
  40. ^ Li, Dunzhu; Shi, Yunhong; Yang, Luming; Xiao, Liwen; Kehoe, Daniel K.; Gun'ko, Yurii K.; Boland, John J.; Wang, Jing Jing (November 2020). "Microplastic release from the degradation of polypropylene feeding bottles during infant formula preparation". Nature Food. 1 (11): 746–754. doi:10.1038/s43016-020-00171-y. hdl:2262/94127. ISSN 2662-1355. PMID 37128027. S2CID 228978799. Archived from the original on 2 November 2020. Retrieved 9 November 2020.
  41. ^ Carrington, Damian (24 March 2022). "Microplastics found in human blood for first time". The Guardian. Archived from the original on 24 March 2022. Retrieved 25 March 2022.
  42. ^ Leslie, Heather A.; J. M. van Velzen, Martin; Brandsma, Sicco H.; Vethaak, Dick; Garcia-Vallejo, Juan J.; Lamoree, Marja H. (24 March 2022). "Discovery and quantification of plastic particle pollution in human blood". Environment International. 163: 107199. Bibcode:2022EnInt.16307199L. doi:10.1016/j.envint.2022.107199. ISSN 0160-4120. PMID 35367073. S2CID 247688966.
  43. ^ "Are Plastic Baby Bottles Safe?". Cleveland Clinic. 16 November 2020. Archived from the original on 2 December 2021. Retrieved 2 December 2021.
  44. ^ a b Hua, Vanessa (23 September 2014). "Building a Better Baby Bottle". re:form. Archived from the original on 14 December 2021. Retrieved 18 December 2021.
  45. ^ Kavilanz, Parija (26 October 2018). "A tired dad and his hungry infant led to a radical new baby bottle". CNN. Archived from the original on 7 January 2022. Retrieved 6 January 2022.
  46. ^ Amereh, Meitham; Kheiri, Sina; Kim, Keekyoung; Li, Ri; Akbari, Mohsen (11 May 2021). "A New Venting Valve for Anti-colic Nursing Bottles". CMBES Proceedings. 44. ISSN 2371-9516. Archived from the original on 20 December 2021. Retrieved 20 December 2021.
  47. ^ Brown, Craig E.; Magnuson, Bengt (August 2000). "On the physics of the infant feeding bottle and middle ear sequela: Ear disease in infants can be associated with bottle feeding". International Journal of Pediatric Otorhinolaryngology. 54 (1): 13–20. doi:10.1016/S0165-5876(00)00330-X. PMID 10960691. Retrieved 20 December 2021.
  48. ^ Fewtrell, MS; Kennedy, K.; Nicholl, R.; Khakoo, A.; Lucas, A. (16 March 2012). "Infant feeding bottle design, growth and behaviour: results from a randomised trial". BMC Research Notes. 5 (1): 150. doi:10.1186/1756-0500-5-150. ISSN 1756-0500. PMC 3328286. PMID 22424116.
  49. ^ Francis, Jimi; Rogers, Kristy; Dickton, Darby; Twedt, Roxanna; Pardini, Ron (April 2012). "Decreasing retinol and α-tocopherol concentrations in human milk and infant formula using varied bottle systems: Decreasing retinol and α-tocopherol in milk using varied bottle systems". Maternal & Child Nutrition. 8 (2): 215–224. doi:10.1111/j.1740-8709.2010.00279.x. PMC 6860793. PMID 21083843.
  50. ^ a b c d e f Pados, Britt Frisk; Park, Jinhee; Thoyre, Suzanne M.; Estrem, Hayley; Nix, W. Brant (July 2016). "Milk Flow Rates from bottle nipples used after hospital discharge". MCN: The American Journal of Maternal/Child Nursing. 41 (4): 237–243. doi:10.1097/NMC.0000000000000244. PMC 5033656. PMID 27008466.
  51. ^ "Feeding a Child with a Cleft Lip or Cleft Palate - Pediatric Cleft and Craniofacial Center - Golisano Children's Hospital - University of Rochester Medical Center". Golisano Children's Hospital. University of Rochester Medical Center. Archived from the original on 20 December 2021. Retrieved 20 December 2021.
  52. ^ "Homepage". www.smanutrition.co.uk. Archived from the original on 2012-11-08. Retrieved 2012-11-18.
  53. ^ "Sterilising baby bottles". United Kingdom National Health Service. 7 December 2020. Archived from the original on 14 December 2021. Retrieved 14 December 2021.
  54. ^ "Bottle Feeding" (PDF). wch.sa.gov.au. Women's and Children's Hospital and Government of South Australia. Archived from the original (PDF) on 2011-04-23. Retrieved 2016-04-01. Printed November 2008
  55. ^ a b "Cleaning and sterilising baby bottles". www.pregnancybirthbaby.org.au. Healthdirect Australia. 24 May 2021. Archived from the original on 14 December 2021. Retrieved 14 December 2021.
  56. ^ "Why sterilisation is necessary" (PDF). Philips Australia. Archived (PDF) from the original on 1 March 2021. Retrieved 14 December 2021.
  57. ^ "Bottle-feeding: cleaning and sterilising equipment". Raising Children Network. Raising Children Network (Australia) Limited. Archived from the original on 14 December 2021. Retrieved 14 December 2021.
  58. ^ "How to Clean, Sanitize, and Store Infant Feeding Items". Centers for Disease Control and Prevention. United States Government. 26 October 2020. Archived from the original on 14 December 2021. Retrieved 14 December 2021.
  59. ^ "Should You Sterilize Your Baby's Bottles?". WebMD. Archived from the original on 14 December 2021. Retrieved 14 December 2021.
  60. ^ "Best practices for baby bottle sterilization". Texas Children's Hospital. Archived from the original on 14 December 2021. Retrieved 14 December 2021.
  61. ^ "03.05.06 - Infant Feeding Procedures". Illinois Department of Human Services. 2011. Archived from the original on 14 December 2021. Retrieved 14 December 2021.
  62. ^ "Nutrition Guideline Healthy Infants and Young Children Safe Preparation and Handling of Infant Formula" (PDF). Alberta Health Services. 2015. Archived (PDF) from the original on 14 December 2021. Retrieved 14 December 2021.
  63. ^ a b c Rothstein, Jessica D.; Mendoza, Alejandra Llican; Cabrera, Lilia Z.; Pachas, Jessica; Calderón, Maritza; Pajuelo, Mónica J.; Caulfield, Laura E.; Winch, Peter J.; Gilman, Robert H. (3 April 2019). "Household Contamination of Baby Bottles and Opportunities to Improve Bottle Hygiene in Peri-Urban Lima, Peru". The American Journal of Tropical Medicine and Hygiene. 100 (4): 988–997. doi:10.4269/ajtmh.18-0301. PMC 6447096. PMID 30834885.
  64. ^ Anderson, J. A. D.; Gatherer, A. (4 April 1970). "Hygiene of Infant-feeding Utensils. Practices and Standards in the Home". BMJ. 2 (5700): 20–23. doi:10.1136/bmj.2.5700.20. PMC 1699766. PMID 5440567.
  65. ^ Byrd-Bredbenner, Carol; Berning, Jacqueline; Martin-Biggers, Jennifer; Quick, Virginia (2013). "Food Safety in Home Kitchens: A Synthesis of the Literature". International Journal of Environmental Research and Public Health. 10 (9): 4060–4085. doi:10.3390/ijerph10094060. ISSN 1661-7827. PMC 3799528. PMID 24002725.
  66. ^ Redmond, Elizabeth C; Griffith, Christopher J; Riley, Steven (March 2009). "Contamination of bottles used for feeding reconstituted powdered infant formula and implications for public health". Perspectives in Public Health. 129 (2): 85–94. doi:10.1177/1757913908101606. PMID 19354201. S2CID 34509523. Archived from the original on 14 December 2021. Retrieved 14 December 2021.
  67. ^ Ayaz, F.; Ayaz, S. B.; Furrukh, M.; Matee, S. (2017). "Cleaning practices and contamination status of infant feeding bottle contents and teats in Rawalpindi, Pakistan". Pakistan Journal of Pathology. 28 (1): 13–20. Retrieved 14 December 2021.
  68. ^ "Safe preparation, storage and handling of powdered infant formula Guidelines" (PDF). World Health Organization. World Health Organization in collaboration with Food and Agriculture Organization of the United Nations. 2007. Archived (PDF) from the original on 24 December 2018. Retrieved 14 December 2021.
  69. ^ Cho, Tae Jin; Hwang, Ji Yeon; Kim, Hye Won; Kim, Yong Ki; Il Kwon, Jeong; Kim, Young Jun; Lee, Kwang Won; Kim, Sun Ae; Rhee, Min Suk (5 July 2019). "Underestimated Risks of Infantile Infectious Disease from the Caregiver's Typical Handling Practices of Infant Formula". Scientific Reports. 9 (1): 9799. Bibcode:2019NatSR...9.9799C. doi:10.1038/s41598-019-46181-0. ISSN 2045-2322. PMC 6611816. PMID 31278304. Retrieved 14 December 2021.
  70. ^ "WHO and UNICEF issue new guidance to promote breastfeeding in health facilities globally". UNICEF. Archived from the original on 14 December 2021. Retrieved 14 December 2021.
  71. ^ "Know the flow, don't go with the flow". Pediatric Feeding News. 2014-06-08. Archived from the original on 2018-12-13. Retrieved 2018-12-27.
  72. ^ "Drinks and cups for babies and toddlers". nhs.uk. 2017-12-21. Archived from the original on 2018-12-12. Retrieved 2018-12-27.
  73. ^ "Weaning from the Bottle". www.aap.org. American Academy of Pediatrics. Archived from the original on 2018-12-27. Retrieved 2018-12-27.
  74. ^ Lisa Enger. "Patient education: Weaning from breastfeeding (Beyond the Basics)". UpToDate. Archived from the original on 2018-12-27. Retrieved 2018-12-27.
  75. ^ Anil, Sukumaran; Anand, Pradeep S. (18 July 2017). "Early Childhood Caries: Prevalence, Risk Factors, and Prevention". Frontiers in Pediatrics. 5: 157. doi:10.3389/fped.2017.00157. PMC 5514393. PMID 28770188.
  76. ^ Lackey, Kimberly A.; Fehrenkamp, Bethaney D.; Pace, Ryan M.; Williams, Janet E.; Meehan, Courtney L.; McGuire, Mark A.; McGuire, Michelle K. (11 October 2021). "Breastfeeding Beyond 12 Months: Is There Evidence for Health Impacts?". Annual Review of Nutrition. 41 (1): 283–308. doi:10.1146/annurev-nutr-043020-011242. ISSN 0199-9885. PMID 34115518. S2CID 235412156. Retrieved 16 December 2021.
  77. ^ "BSI British Standards Index". bsonline.techindex.co.uk. Archived from the original on 2011-05-13.
  78. ^ a b Mo, Chuiyan (10 March 2021). "Baby Feeding Bottle Standards & Regulations in the United States". Compliance Gate. Archived from the original on 30 November 2021. Retrieved 30 November 2021.
  79. ^ "Baby Bottles". Consumer Watch. Archived from the original on 30 November 2021. Retrieved 30 November 2021.
  80. ^ Center for Food Safety and Applied Nutrition (20 December 2019). "FDA Issues Guidance on Food Contact Substances for Use with Infant Formula and/or Human Milk". FDA. Archived from the original on 30 November 2021. Retrieved 30 November 2021.
  81. ^ Center for Food Safety and Applied Nutrition (10 April 2020). "Once Baby Arrives from Food Safety for Moms to Be". FDA. Archived from the original on 11 April 2019. Retrieved 30 November 2021.
  82. ^ Office of Regulatory Affairs (2005). "Compliance Policy Guide: CPG Sec 500.450 Volatile N-Nitrosamines in Rubber Baby Bottle Nipples". FDA. Archived from the original on 2021-12-01. Retrieved 2021-12-01.
  83. ^ Weston, Roderick J. (1 March 1985). "Volatile Nitrosamine Levels in Rubber Teats and Pacifiers Available in New Zealand". Journal of Analytical Toxicology. 9 (2): 89–90. doi:10.1093/jat/9.2.89. OSTI 6997326. PMID 3990253. Archived from the original on 20 December 2021. Retrieved 20 December 2021.
  84. ^ Park, Se-Jong; Jeong, Mi-Jin; Park, So-Ra; Choi, Jae Chun; Choi, Heeju; Kim, MeeKyung (10 April 2018). "Release of N-nitrosamines and N-nitrosatable substances from baby bottle teats and rubber kitchen tools in Korea". Food Science and Biotechnology. 27 (5): 1519–1524. doi:10.1007/s10068-018-0373-6. ISSN 1226-7708. PMC 6170278. PMID 30319863.
  85. ^ a b Gore, Andrea C.; Patisaul, Heather B. (October 2010). "Neuroendocrine Disruption: Historical Roots, Current Progress, Questions for the Future". Frontiers in Neuroendocrinology. 31 (4): 395–399. doi:10.1016/j.yfrne.2010.07.003. ISSN 0091-3022. PMC 2964387. PMID 20638407.
  86. ^ "Baby Bottles and Bisphenol A (BPA)". HealthyChildren.org. 23 February 2012. Archived from the original on 2014-10-28. Retrieved 2014-10-28.
  87. ^ Kay, Jane (24 June 2011). "SAN FRANCISCO / Lawmaker wants state to follow city's lead with 'toxic toy' ban / Bill would bar certain chemicals in products". The San Francisco Chronicle.
  88. ^ a b c d Vogel, Sarah A. (November 2009). "The Politics of Plastics: The Making and Unmaking of Bisphenol A "Safety"". American Journal of Public Health. 99 (S3): S559–S566. doi:10.2105/AJPH.2008.159228. PMC 2774166. PMID 19890158.
  89. ^ a b Halden, Rolf U. (1 March 2010). "Plastics and Health Risks". Annual Review of Public Health. 31 (1): 179–194. doi:10.1146/annurev.publhealth.012809.103714. ISSN 0163-7525. PMID 20070188.
  90. ^ Rozek, Laura S.; Dolinoy, Dana C.; Sartor, Maureen A.; Omenn, Gilbert S. (18 March 2014). "Epigenetics: Relevance and Implications for Public Health". Annual Review of Public Health. 35 (1): 105–122. doi:10.1146/annurev-publhealth-032013-182513. ISSN 0163-7525. PMC 4480875. PMID 24641556. Retrieved 30 November 2021.
  91. ^ Vandenberg, Laura N.; Maffini, Maricel V.; Sonnenschein, Carlos; Rubin, Beverly S.; Soto, Ana M. (1 February 2009). "Bisphenol-A and the Great Divide: A Review of Controversies in the Field of Endocrine Disruption". Endocrine Reviews. 30 (1): 75–95. doi:10.1210/er.2008-0021. PMC 2647705. PMID 19074586.
  92. ^ "BPA Bans and Restrictions in Food Contact Materials". Société Générale de Surveillance. 2018. Archived from the original on 18 January 2022. Retrieved 30 November 2021.
  93. ^ "Bisphenol A: EU ban on baby bottles to enter into force tomorrow". European Commission - European Commission. 31 May 2011. Archived from the original on 1 December 2021. Retrieved 1 December 2021.
  94. ^ "Umstrittene Chemikalie: EU-Behörde senkt Grenzwert für Bisphenol A". Der Spiegel (in German). January 21, 2015. Archived from the original on January 21, 2015. Retrieved January 21, 2015.
  95. ^ a b "Brazil to ban baby bottles containing BPA". Chemical Watch. 15 September 2011. Archived from the original on 1 December 2021. Retrieved 1 December 2021.
  96. ^ Tavernise, Sabrina (17 July 2012). "F.D.A. Makes It Official: BPA Can't Be Used in Baby Bottles and Cups". The New York Times. Archived from the original on 1 December 2021. Retrieved 1 December 2021.
  97. ^ DeNoon, Daniel J. "FDA Bans BPA in Baby Bottles". WebMD. Archived from the original on 1 December 2021. Retrieved 1 December 2021.
  98. ^ "Argentina bans BPA in baby bottles". Chemical Watch. 24 April 2012. Archived from the original on 1 December 2021. Retrieved 1 December 2021.
  99. ^ "South Korea to ban BPA in infant and toddler FCMs". Chemical Watch. 12 September 2018. Archived from the original on 1 December 2021. Retrieved 1 December 2021.
  100. ^ "India to test consumer products and FCMs for BPA presence". Chemical Watch. 18 November 2020. Archived from the original on 1 December 2021. Retrieved 1 December 2021.
  101. ^ a b c d Stevens, Emily E; Patrick, Thelma E; Pickler, Rita (1 January 2009). "A History of Infant Feeding". Journal of Perinatal Education. 18 (2): 32–39. doi:10.1624/105812409X426314. PMC 2684040. PMID 20190854.
  102. ^ Brown, Amy (1 July 2018). "Chapter 9 Sociological and Cultural Influences upon Breastfeeding". Breastfeeding and Breast Milk – from Biochemistry to Impact. Georg Thieme Verlag KG. doi:10.21428/3d48c34a.2a0f254a. S2CID 240465757. Archived from the original on 2 December 2021. Retrieved 2 December 2021.
  103. ^ a b Fildes, Valerie (1995). "Chapter 4 The Culture and Biology of Breastfeeding: An Historical Review of Western Europe". In Stuart-Macadam, Patricia; Dettwyler, Katherine (eds.). Breastfeeding : Bicultural Perspectives. Somerset: Taylor and Francis. pp. 101–126. ISBN 9781351530743. Retrieved 3 December 2021.
  104. ^ a b c d Castilho, S. Diez; Barros Filho, A. de Azevedo (2014). "Historical aspects of formula feeding". In Preedy, Victor R.; Watson, Ronald Ross; Zibadi, Sherma (eds.). Handbook of dietary and nutritional aspects of bottle feeding. Wageningen, Netherlands: Wageningen Academic Publishers. pp. 17–33. ISBN 9789086867776. Retrieved 1 December 2021.
  105. ^ a b c d e f Greenberg, Martin H.; Smith, George F.; Vidyasagar, Dharmapuri (1980). "Neonatal Feeding". Historical Review and Recent Advances in Neonatal and Perinatal Medicine. Mead Johnson Nutritional Division. Archived from the original on 7 February 2022. Retrieved 30 November 2021.
  106. ^ a b Wilke, Carolyn (21 July 2021). "What did ancient people eat? Scientists find new clues in old pottery". Knowable Magazine. doi:10.1146/knowable-052221-1. Archived from the original on 30 November 2021. Retrieved 30 November 2021.
  107. ^ a b Dunne, J.; Rebay-Salisbury, K.; Salisbury, R. B.; Frisch, A.; Walton-Doyle, C.; Evershed, R. P. (2019-09-25). "Milk of ruminants in ceramic baby bottles from prehistoric child graves" (PDF). Nature. 574 (7777): 246–248. Bibcode:2019Natur.574..246D. doi:10.1038/s41586-019-1572-x. hdl:1983/fe4e378a-bfc6-4b0a-8c00-7ef4a49dba0d. ISSN 1476-4687. PMID 31554964. S2CID 202760220. Archived (PDF) from the original on 2020-05-09. Retrieved 2020-06-05.
  108. ^ a b Peringer, Annabelle (2014). "The history of baby bottles". Alimentarium Magazine. Archived from the original on 30 November 2021. Retrieved 30 November 2021.
  109. ^ a b c d Wickes, I. G. (1 October 1953). "A History of Infant Feeding: Part IV--Nineteenth Century Continued" (PDF). Archives of Disease in Childhood. 28 (141): 416–422. doi:10.1136/adc.28.141.416. PMC 1988630. PMID 13105394. Archived (PDF) from the original on 30 November 2021. Retrieved 30 November 2021.
  110. ^ a b Harris, Charles S. "Photographic proof" (PDF). The Federation of Historical Bottle Collectors. Archived (PDF) from the original on 30 November 2021. Retrieved 30 November 2021.
  111. ^ a b Davenport, Romola J. (September 2021). "Mortality, migration and epidemiological change in English cities, 1600–1870" (PDF). International Journal of Paleopathology. 34: 37–49. doi:10.1016/j.ijpp.2021.05.009. PMC 7611108. PMID 34146819. Archived (PDF) from the original on 3 December 2021. Retrieved 3 December 2021.
  112. ^ Davenport, Romola Jane (2 January 2019). "Infant-feeding practices and infant survival by familial wealth in London, 1752–1812". The History of the Family. 24 (1): 174–206. doi:10.1080/1081602X.2019.1580601. PMC 6474727. PMID 31058272.
  113. ^ Fildes, Valerie (2019). "1 Breast-Feeding Practices During Industrialisation 1800–1919". In Falkner, Frank (ed.). Infant and Child Nutrition Worldwide: Issues and Perspectives. CRC Press. ISBN 978-0367450489. Retrieved 3 December 2021.
  114. ^ a b Knodel, John; Kintner, Hallie (1 November 1977). "The impact of breast feeding patterns on the biometric analysis of infant mortality". Demography. 14 (4): 391–409. doi:10.2307/2060586. JSTOR 2060586. PMID 913727. S2CID 37803365.
  115. ^ Castilho, Silvia Diez; Barros Filho, Antonio de Azevedo; Cocetti, Monize (June 2010). "Evolução histórica dos utensílios empregados para alimentar lactentes não amamentados (Historical evolution of utensils used to feed non breastfed infants)". Ciência & Saúde Coletiva. 15 (suppl 1): 1401–1410. doi:10.1590/s1413-81232010000700050. PMID 20640300. Retrieved 30 November 2021.
  116. ^ "Addenda 162: The Biberon, A New Feeding-Bottle". The Retrospect of Practical Medicine and Surgery. 23 (July). Adee & Estabrook: 301. 1851. Retrieved 30 November 2021.
  117. ^ Bogucki, E. (2007). History of Nursing Bottles. Archived from the original on July 1, 2017. Retrieved February 27, 2014. {{cite book}}: |work= ignored (help)
  118. ^ "The First Measured Century: Timeline: Data - Mortality". PBS. Archived from the original on 20 January 2022. Retrieved 3 December 2021. Prior to 1900, infant mortality rates of two and three hundred [per 1000 live births] obtained throughout the world.
  119. ^ Williams, Naomi; Mooney, Graham (August 1994). "Infant mortality in an 'Age of Great Cities': London and the English provincial cities compared, c. 1840–1910". Continuity and Change. 9 (2): 185–212. doi:10.1017/S0268416000002265. ISSN 1469-218X. S2CID 143834557. Retrieved 3 December 2021.
  120. ^ "Populations Past – Atlas of Victorian and Edwardian Population". Populations Past. University of Cambridge. Archived from the original on 3 December 2021. Retrieved 3 December 2021.
  121. ^ a b c "The history of the feeding bottle". A diary of a lesbian family. Archived from the original on 30 November 2021. Retrieved 30 November 2021.
  122. ^ Barrett, Ronald; Kuzawa, Christopher W.; McDade, Thomas; Armelagos, George J. (October 1998). "Emerging and Re-emerging Infectious Diseases: The Third Epidemiologic Transition". Annual Review of Anthropology. 27 (1): 247–271. doi:10.1146/annurev.anthro.27.1.247. Archived from the original on 3 December 2021. Retrieved 3 December 2021.
  123. ^ Preston, Samuel H.; Haines, Michael R. (1991). Fatal Years: Child Mortality in Late Nineteenth-Century America (PDF). Princeton University Press. Archived (PDF) from the original on 17 January 2022. Retrieved 3 December 2021.
  124. ^ "1920's Pyrex Baby Bottle". Collectors Weekly. Archived from the original on 30 November 2021. Retrieved 30 November 2021.
  125. ^ "See how vintage baby bottles, infant nursers & feeding accessories have changed over the years - Click Americana". Click Americana. 21 June 2020. Archived from the original on 3 December 2021. Retrieved 3 December 2021.
  126. ^ "Google Patents: Inventor Adda M. Allen". patents.google.com. Archived from the original on 6 December 2021. Retrieved 6 December 2021.
  127. ^ Stokowski, Laura A. "Quiz: A Nurse Invented That? Inventiveness, Ingenuity, and Innovation in Nurses". Medscape. Archived from the original on 6 December 2021. Retrieved 6 December 2021.
  128. ^ Vance, Jacqueline (September 30, 2014). "A nurse invented that! (But most likely didn't get credit for it)". The Real Nurse Jackie. Archived from the original on 6 December 2021. Retrieved 6 December 2021.
  129. ^ U.S. patent 2442656 A, "Nursing nipple for bottles", American J.W. Less in 1948 (www.google.ca/patents/US2442656, accessed February 27, 2014)
  130. ^ U.S. patent 2747573 A, "Valved nursing nipple", issued to W.A. Schaich of Owens-Illinois in 1956 (www.google.ca/patents/US2747573, accessed February 27, 2014)
  131. ^ E.g., see U.S. patent 6032810 A, "One-piece nipple/collar for nursers and the like", issued to the Americans M.A. Gilbertson, B. J. Meyers, E.A. Raleigh, and M.S. Stowe of Gerber Products Company in 2000 (www.google.ca/patents/US6032810), and U.S. patent 20120248056 A1, "Teat unit", issued to the Swiss R. Fischer, E. Furrer, and B. Emmenegger of Medela Holding Ag in 2012 (www.google.ca/patents/US20120248056). Accessed February 27, 2014.
  132. ^ E.g., see U.S. patent US 7775394 B2, "Opening-force-maximizing device of an underpressure-activated valve for a drinking container", issued to the Norwegian K. Næsje of Smartseal As in 2010 (www.google.ca/patents/US7775394). Accessed February 27, 2014.
  133. ^ Global Baby Bottle Market Size & Share Report, 2019-2025. Grand View Research, Inc. 2019. Archived from the original on 6 December 2021. Retrieved 6 December 2021.
  134. ^ Taylor, Jennifer (November 3, 2011). "North American Culture: Undermining Breastfeeding (Part 1 of 3)". Contemporary Ob/Gyn. Archived from the original on 6 December 2021. Retrieved 6 December 2021.
  135. ^ "Welcome to Key Note.co.uk". Archived from the original on 2009-07-27. Retrieved 2006-09-21.
  136. ^ "American Academy of Pediatrics, AAP Policy on Breastfeeding and Use of Human Milk, see www2.aap.org accessed February 28, 2014". Archived from the original on 2014-04-25. Retrieved 2014-02-28.
  137. ^ a b c Breastfeeding, Section On (March 1, 2012). "Breastfeeding and the Use of Human Milk". Pediatrics. 129 (3): e827–e841. doi:10.1542/peds.2011-3552. PMID 22371471. Archived from the original on December 12, 2019. Retrieved April 2, 2021 – via pediatrics.aappublications.org.
  138. ^ Tully DB, Jones F, Tully MR (May 2001). "Donor milk: what's in it and what's not". Journal of Human Lactation. 17 (2): 152–5. doi:10.1177/089033440101700212. PMID 11847831. S2CID 8798973.[permanent dead link]
  139. ^ "Fearless Formula Feeder - Infant Feeding Support". www.fearlessformulafeeder.com. Archived from the original on 2014-03-04. Retrieved 2014-02-28.
  140. ^ Barston, S. (2012). Bottled Up: How the Way We Feed Babies Has Come to Define Motherhood, and Why It Shouldn't. University of California Press. ISBN 9780520270237. Archived from the original on March 6, 2014. Retrieved February 28, 2014.
  141. ^ "Tommee Tippee and Nuk Are the Latest Baby Bottle Brands to Get Sued over Microplastics". What to Expect.
[edit]