Infant formula, baby formula or just formula (American English) or baby milk, infant milk or first milk (British English), is a manufactured food designed and marketed for feeding to babies and infants under 12 months of age, usually prepared for bottle-feeding or cup-feeding from powder (mixed with water) or liquid (with or without additional water). The U.S. Federal Food, Drug, and Cosmetic Act (FFDCA) defines infant formula as "a food which purports to be or is represented for special dietary use solely as a food for infants by reason of its simulation of human milk or its suitability as a complete or partial substitute for human milk".
Manufacturers state that the composition of infant formula is designed to be roughly based on a human mother's milk at approximately one to three months postpartum; however, there are significant differences in the nutrient content of these products. The most commonly used infant formulas contain purified cow's milk whey and casein as a protein source, a blend of vegetable oils as a fat source, lactose as a carbohydrate source, a vitamin-mineral mix, and other ingredients depending on the manufacturer. In addition, there are infant formulas using soybean as a protein source in place of cow's milk (mostly in the United States and Great Britain) and formulas using protein hydrolysed into its component amino acids for infants who are allergic to other proteins. An upswing in breastfeeding in many countries has been accompanied by a deferment in the average age of introduction of baby foods (including cow's milk), resulting in both increased breastfeeding and increased use of infant formula between the ages of 3- and 12-months.
A 2001 World Health Organization (WHO) report found that infant formula prepared in accordance with applicable Codex Alimentarius standards was a safe complementary food and a suitable breast milk substitute. In 2003, the WHO and UNICEF published their Global Strategy for Infant and Young Child Feeding, which restated that "processed-food products for...young children should, when sold or otherwise distributed, meet applicable standards recommended by the Codex Alimentarius Commission", and also warned that "lack of breastfeeding—and especially lack of exclusive breastfeeding during the first half-year of life—are important risk factors for infant and childhood morbidity and mortality".
In particular, the use of infant formula in less economically developed countries is linked to poorer health outcomes because of the prevalence of unsanitary preparation conditions, including lack of clean water and lack of sanitizing equipment. A formula-fed child living in unclean conditions is between 6 and 25 times more likely to die of diarrhea and four times more likely to die of pneumonia than a breastfed child. Rarely, use of powdered infant formula (PIF) has been associated with serious illness, and even death, due to infection with Cronobacter sakazakii and other microorganisms that can be introduced to PIF during its production. Although C. sakazakii can cause illness in all age groups, infants are believed to be at greatest risk of infection. Between 1958 and 2006, there have been several dozen reported cases of E. sakazakii infection worldwide. The WHO believes that such infections are under-reported.
- 1 Uses, risks and controversies
- 2 Preparation and content
- 3 Policy, industry and marketing
- 4 History
- 5 Infant formula processing
- 6 See also
- 7 References
- 8 External links
Uses, risks and controversies
The use and marketing of infant formula has come under scrutiny. Breastfeeding, including exclusive breastfeeding for the first 6 months of life, is widely advocated as "ideal" for babies and infants, both by health authorities — and accordingly in ethical advertising of infant formula manufacturers.
Despite the recommendation that babies be exclusively breastfed for the first 6 months, less than 40% of infants below this age are exclusively breastfed worldwide. The overwhelming majority of American babies are not exclusively breastfed for this period – in 2005 under 12% of babies were breastfed exclusively for the first 6 months, with over 60% of babies of 2 months of age being fed formula, and approximately one in four breastfed infants having infant formula feeding within two days of birth.
Some studies have shown that use of formula can vary according to the parents' socio-economic status, ethnicity or other characteristics. For example, according to a research conducted in Vancouver, Canada, 82.9% of mothers breastfeed their babies at birth, but the number differed between Caucasians (91.6%) and non-Caucasians (56.8%), with the difference essentially attributed to marital status, education and family income. In the United States, mothers of lower socio-economic status have been found less likely to breastfeed, although this may be partly related to adverse effects of government nutrition supplementation programs that provide subsidies for infant formula.
Use of infant formula
In some cases, breastfeeding is medically contraindicated. These include:
- Mother's health: The mother is infected with HIV or has active tuberculosis. She is extremely ill or has had certain kinds of breast surgery, which may have removed or disconnected all milk-producing parts of the breast. She is taking any kind of drug that could harm the baby, including both prescription drugs such as cytotoxic chemotherapy for cancer treatments as well as illicit drugs.
- One of the main global risks posed by breast milk specifically is the transmission of HIV and other infectious diseases. Breastfeeding by an HIV-infected mother poses a 5–20% chance of transmitting HIV to the baby. However, if a mother has HIV, she is more likely to transmit it to her child during the pregnancy or birth than during breastfeeding. A 2012 study conducted by researchers from the University of North Carolina School of Medicine showed reduced HIV-1 transmission in humanized mice, due to components in the breast milk. Cytomegalovirus infection poses potentially dangerous consequences for pre-term babies. Other risks include mother's infection with HTLV-1 or HTLV-2 (viruses that could cause T-cell leukemia in the baby), herpes simplex when lesions are present on the breasts, and chickenpox in the newborn when the disease manifested in the mother within a few days of birth. In some cases these risks can be mitigated by using heat-treated milk and nursing for a briefer time (e.g. 6 months, rather than 18–24 months), and can be avoided by using an uninfected woman's milk, as via a wet-nurse or milk bank, or by using infant formula and/or treated milk.
- In balancing the risks, such as cases where the mother is infected with HIV, a decision to use infant formula versus exclusive breastfeeding may be made based on alternatives that satisfy the “AFASS” (Acceptable, Feasible, Affordable, Sustainable and Safe) principles.
- Baby is unable to breastfeed: The child has a birth defect or inborn error of metabolism such as galactosemia that makes breastfeeding difficult or impossible.
- Baby is considered at risk for malnutrition: In certain circumstances infants may be at risk for malnutrition, such as due to iron deficiency, vitamin deficiencies (e.g. vitamin D which may be less present in breast milk than needed at high latitudes where there is less sun exposure), or inadequate nutrition during transition to solid foods. Risks can often be mitigated with improved diet and education of mothers and caregivers, including availability of macro and micronutrients. For example, in Canada, marketed infant formulas are fortified with vitamin D, but Health Canada also recommends breastfed infants receive extra vitamin D in the form of a supplement.
- Personal preferences, beliefs, and experiences: The mother may dislike breast-feeding or think it is inconvenient. In addition, breastfeeding can be difficult for victims of rape or sexual abuse; for example, it may be a trigger for posttraumatic stress disorder. Many families bottle feed to increase the father's role in parenting his child.
- Absence of the mother: The child is adopted, orphaned, abandoned, or in the sole custody of a man or male same-sex couple. The mother is separated from her child by being in prison or a mental hospital. The mother has left the child in the care of another person for an extended period of time, such as while traveling or working abroad.
- Food allergies: The mother eats foods that may provoke an allergic reaction in the infant.
- Financial pressures: Maternity leave is unpaid, insufficient, or lacking. The mother's employment interferes with breastfeeding. Mothers who breastfeed may experience a loss of earning power.
- Societal structure: Breastfeeding may be forbidden at the mother's job, school, place of worship or in other public places, or the mother may feel that breastfeeding in these places or around other people is immodest, unsanitary, or inappropriate.
- Social pressures: Family members, such as mother's husband or boyfriend, or friends or other members of society may encourage the use of infant formula. For example, they may believe that breastfeeding will decrease the mother's energy, health, or attractiveness. 
- Lack of training and education: The mother lacks education and training from medical providers or community members. 
- Lactation insufficiency: The mother is unable to produce sufficient milk. In studies that do not account for lactation failure with obvious causes (such as use of formula and/or breast pumps), this affects around 2 to 5% of women. Alternatively, despite a healthy supply, the woman or her family may incorrectly believe that her breast milk is of low quality or in low supply. These women may choose infant formula either exclusively or as a supplement to breastfeeding.
- Fear of exposure to environmental contaminants: Certain environmental pollutants, such as polychlorinated biphenyls, can bioaccumulate in the food chain and may be found in humans including mothers' breast milk.
- However studies have shown that the greatest risk period for adverse effects from environmental exposures is prenatally. Other studies have further found that the levels of most persistent organohalogen compounds in human milk decreased significantly over the past three decades and equally did their exposure through breastfeeding.
- Research on risks from chemical pollution is generally inconclusive in terms of outweighing the benefits of breastfeeding. Studies supported by the WHO and others have found that neurological benefits of breast milk remain, regardless of dioxin exposure. It has also been reported that "adverse effects on learning and behavior are strongly associated with fetal exposure to persistent pollutants, not with breast milk exposure".
- In developing countries, environmental contaminants associated with increased health risks from use of infant formula, particularly diarrhea due to unclean water and lack of sterile conditions – both prerequisites to the safe use of formula – often outweigh any risks from breastfeeding.
- Lack of other sources of breast milk:
- Lack of wet nurses: Wet nursing is illegal and stigmatized in some countries, and may not be available. It may also be socially unsupported, expensive, or health screening of wet nurses may not be available. The mother, her doctor, or family may not know that wet nursing is possible, or may believe that nursing by a relative or paid wet-nurse is unhygienic.
- Lack of milk banks: Human-milk banks may not be available, as few exist, and many countries cannot provide the necessary screening for diseases and refrigeration.
Use of infant formula has been cited for numerous increased health risks. Studies have found infants in developed countries who consume formula are at increased risk for acute otitis media, gastroenteritis, severe lower respiratory tract infections, atopic dermatitis, asthma, obesity, type 1 and 2 diabetes, sudden infant death syndrome (SIDS), eczema and necrotizing enterocolitis when compared to infants who are breastfed. Some studies have found an association between infant formula and lower cognitive development, including iron supplementation in baby formula being linked to lowered I.Q. and other neurodevelopmental delays; however other studies have found no correlation.
In 2008, a case of melamine poisoning of infant formula was discovered in China, where milk was deliberately adulterated with the chemical, leading to the death of six babies, and illnesses in more than 300,000 infants, including cases of acute kidney failure. Large quantities of melamine were added to watered-down milk to give it the appearance of having adequate protein levels. Some of those responsible for the poisoning were sentenced to death.
In November 2008, traces of melamine were reported to have been found by the U.S. Food and Drug Administration in infant formula sold in the United States made by the three main American firms — Abbott Laboratories, Nestlé and Mead Johnson — responsible for 90–99% of the infant formula market in that country. The levels were much less than those reported in China, where levels of melamine contamination had reached as much as 2,500 parts per million, about 10,000 times higher than the recorded US levels. The safety data sheet for melamine (CAS registry number 108-78-1; C3-H6-N6) recorded the acute oral toxicity (median lethal dose) at 3161 mg/kg for a rat.
Health Canada conducted a separate test and also detected traces of melamine in infant formula available in Canada. The melamine levels were well below Health Canada's safety limits, although concerns remain about the safety of manufactured food for infants and monitoring of potentially dangerous substances.
Other health controversies
- In 1985, Syntex Corporation was ordered to pay $27 million in compensation for the deaths of two American infants who suffered brain damage after drinking the company's baby formula, called Neo-mull-soy. Formulas produced by Syntex had previously been subject to a major recall as they were found to have insufficient chloride to support normal infant growth and development.
- In 2003, baby formula manufactured by the German company Humana and sold in Israel under the brand Remedia caused severe vitamin deficiencies in babies. Babies who consumed the formula were hospitalized with cardiac and neurological symptoms. Three of them died, and at least twenty others were left with severe disabilities. An investigation revealed that the formula contained a much lower quantity of Thiamine than is needed for healthy infant development because of a manufacturing error. Humana's chief food technologist received a 30-month prison sentence for negligent manslaughter in February 2013 over the case.
- In 2010, Abbott Laboratories issued a voluntary recall of about five million Similac brand powder infant formulas that were sold in the United States, Guam, Puerto Rico and some Caribbean countries. The recall was issued after the presence of a 'small common beetle' was detected in the product.
- In Canada, New Zealand and elsewhere, public concerns have been raised over the continued sale and marketing of soy-based formulae potentially containing high levels of phytoestrogens, linked to abnormal child development including damage to babies' thyroid glands.
- In December 2011 Wal-Mart recalled a quantity of infant formula after a baby died in Missouri. "We extend our deepest condolences to this baby boy's family as they try to come to grips with their loss," said Dianna Gee, a Wal-Mart spokeswoman. "As soon as we heard what happened, we immediately reached out to the manufacturer of the formula and to the Department of Health and Senior Services to provide any information we may have to help with the investigation." Wal-Mart said it pulled a batch of Enfamil from its stores nationwide that matched the size and lot number ZP1k7G of the formula that may have sickened the baby in Missouri, Gee said. The baby formula was purchased from a Wal-Mart in Lebanon, Missouri. After the purchase, a 10-day-old infant died from a rare bacterial infection, CNN affiliate KYTV reported. Authorities ran tests to determine if the death came from the formula, the water to make the formula or any other factor, said Mead Johnson Nutrition, the company that makes Enfamil. "We are highly confident in the safety and quality of our products – and the rigorous testing we put them through," said Chris Perille, a Mead Johnson Nutrition spokesman.[Source CNN]
Preparation and content
Infant formulas come in powder, liquid concentrate, and ready-to-feed forms. They are designed to be prepared by the parent or caregiver in small batches and fed to the infant, usually with either a cup or a baby bottle.
Infant formulas come in a variety of types:
- Cow's milk formula is the most commonly used type. The milk has been altered to resemble breast milk.
- Soy protein based formulas are frequently used for infants allergic to cow's milk or lactose. Soy-based formulas can also be useful if the parent wants to exclude animal proteins from the child's diet.
- Protein hydrolysate formulas contain protein that's been broken down into smaller sizes than are those in cow's milk and soy-based formulas. Protein hydrolysate formulas are meant for babies who don't tolerate cow's milk or soy-based formulas.
- Specialized formulas are also available for premature infants and those with specific medical conditions.
Manufacturers and health officials advise it is very important to measure powders or concentrates accurately to achieve the intended final product concentration; otherwise, the child will be malnourished. It is advisable that all equipment that comes into contact with the infant formula be cleaned and sterilized before each use. Proper refrigeration is essential for any infant formula which is prepared in advance.
In developing countries, formula is frequently prepared improperly, resulting in high infant mortality due to malnutrition and diseases such as diarrhea and pneumonia. This is due to lack of clean water, lack of sterile conditions, lack of refrigeration, illiteracy (so written instructions cannot be followed), poverty (diluting formula so that it lasts longer), and lack of education of mothers by formula distributors. These problems and resulting disease and death are a key factor in opposition to the marketing and distribution of infant formula in developing countries by numerous public health agencies and NGOs (discussed in more detail at Nestlé boycott and International Code of Marketing of Breast-milk Substitutes).
Besides breast milk, infant formula is the only other milk product which the medical community considers nutritionally acceptable for infants under the age of one year (as opposed to cow's milk, goat's milk, or follow-on formula). Supplementing with solid food in addition to breast milk or formula begins during weaning, and most babies begin supplementing about the time their first teeth appear, usually around the age of six months.
Although cow's milk is the basis of almost all infant formula, plain cow's milk is unsuited for infants because of its high casein content and low whey content, and untreated cow's milk is not recommended before the age of 12 months. The infant intestine is not properly equipped to digest non-human milk, and this may often result in diarrhea, intestinal bleeding and malnutrition. To reduce the negative effect on the infant's digestive system, cow's milk used for formula undergoes processing to be made into infant formula. This includes steps to make protein more easily digestible and alter the whey-to-casein protein balance to one closer to human milk, the addition of several essential ingredients (often called "fortification", see below), the partial or total replacement of dairy fat with fats of vegetable or marine origin, etc.
The nutrient content of infant formula for sale in the United States is regulated by the Food and Drug Administration (FDA) based on recommendations by the American Academy of Pediatrics Committee on Nutrition. The following must be included in all formulas produced in the U.S.:
- Linoleic acid
- Vitamins: A, C, D, E, K, thiamin (B1), riboflavin (B2), B6, B12
- Folic acid
- Pantothenic acid
- Minerals: magnesium, iron, zinc, manganese, copper
- Sodium chloride
- Potassium chloride
- Carbohydrates are an important source of energy for growing infants, as they account for 35 to 42% of their daily energy intake. In most cow's milk-based formulas, lactose is the main source of carbohydrates present, but lactose is not present in cow's milk-based lactose-free formulas nor specialized non-milk protein formulas or hydrolyzed protein formulas for infants with milk protein sensitivity. Lactose is also not present in soy-based formulas. Therefore, those formulas without lactose will use other sources of carbohydrates, such as sucrose and glucose, dextrins, and natural and modified starches. Lactose is not only a good source of energy, it also aids in the absorption of the minerals magnesium, calcium, zinc and iron.
- Nucleotides are compounds found naturally in human breast milk. They are involved in critical metabolic processes, such as energy metabolism and enzymatic reactions. Also, as the building blocks of deoxyribonucleic acid (DNA) and ribonucleic acid (RNA), they are essential for normal body functions. Compared to human breast milk, cow's milk has lower levels of the nucleotides uridine, inosine, and cytidine. Therefore, several companies that produce infant formula have added nucleotides to their infant formulas.
Other commonly used ingredients:
- Emulsifiers and stabilizers: Ingredients added to prevent the separation of the oil from the water (and its soluble components) in the infant formula. Some commonly used emulsifiers include monoglycerides, diglycerides, and gums.
- Diluents: Skim milk is commonly used as the primary diluent in milk-based liquid formula to provide the bulk of the volume. In contrast, purified water is the most commonly used diluent in milk-free formulations.
Policy, industry and marketing
The policy, regulatory and industry environments surrounding the infant formula market vary tremendously between countries.
The International Code of Marketing of Breast-milk Substitutes is an international health policy framework adopted by the World Health Assembly of the WHO in 1981 regarding infant formula marketing, including strict restrictions on advertising. Its implementation depends on the laws of different countries and the behavior of infant formula manufacturers – the code has no power itself. Legislation and corporate behavior vary significantly between countries: at least 84 countries have enacted national legislation implementing all or many of the provisions of the Code and 14 countries have draft laws awaiting adoption; whereas elsewhere neither the Code nor its principles are followed by governments or formula manufacturers.
Practices that are banned in the Code include most advertising, claiming health benefits for formula, and giving free samples to women able to breastfeed – this latter practice is particularly criticized because it can interfere with lactation, creating dependence on formula. In many countries free samples of infant formula have been provided to hospitals for decades; infant formula is often the only product routinely provided free of charge to hospitals. The Baby Friendly Hospital Initiative aims to reduce and eliminate this controversial practice.
Infant formula is one of the top three consumer commodities in the Philippines, and among the most imported products. Annual sales amount to some US$469 million annually. US$88 million is spent on advertising the product.
Infant formula marketing has been regulated since the 1987 Executive Order 51 or "Milk Code", which regulated, but did not ban, practices such as advertising and providing free samples. Shortly after it was enacted, Wyeth introduced "follow-on formula", which was not in the purview of the Milk Code which predated its market entry.
In 2006, the Department of Health banned the advertising of infant formula and the practice of providing free samples, regardless of intended age group (in the Revised Implementing Rules and Regulations of Executive Order 51, or RIRR). The new regulation was challenged by the infant formula industry in the Supreme Court. Initially the challenge was dismissed, but this decision was reversed following industry pressure and a controversial letter by American business leader Thomas Donahue, then President and CEO of the US Chamber of Commerce, resulting in the regulation being suspended and advertising continuing.
The Guardian newspaper reports widespread illegal advertising and marketing of formula milk contrary to World Health Organization guidelines. Doctors and midwives are encouraged to promote feeding babies formula milk, advertising also targets mothers directly. Babies get sick and sometimes die because poor mothers cannot sterilize bottles.
In South Africa, there is a move towards plain packaging of infant formula under R 991 of the Foodstuffs, Cosmetics and Disinfectants Act; as of 6 December 2013, Regulation 7 (Sale and Promotion) is force, whereas Regulations 2-6 (primarily with respect to labelling) are scheduled to come into force on 6 December 2014. One of the key requirements as per Regulation 3.1.A.iii is a conspicuous message stating “[t]his product shall only be used on the advice of a health professional”.
In the United Kingdom, infant formula advertising has been restricted since 1995; advertising for "follow-on formula" is legal, which has been cited as a loophole allowing advertising of similarly-packaged formula.
In the United States, infant formula is both heavily marketed – the country has not adopted the Code, nor is it being systematically implemented by manufacturers for domestic marketing – and even heavily subsidized by the government: at least one third of the American market is supported by the government, with over half of infant formula sold in the country provided through the Special Supplemental Nutrition Program for Women, Infants, and Children (known as WIC).
According to surveys, over 70% of large U.S. hospitals dispense infant formula to all infants, a practice opposed by the American Academy of Pediatrics and in violation of the Code. The Gerber Products Company began marketing its brand of infant formula directly to the public in October 1989, while the Carnation Company began marketing Good Start infant formula directly to the public in January 1991.
Infant formula costs are a significant fraction of the WIC program costs: 21% post-rebate and 46% pre-rebate. Formula manufacturers are granted a WIC monopoly in individual states. Meanwhile, breastfeeding rates are substantially lower for WIC recipients; this is partly attributed to formula being free of charge to mothers in the WIC program, who are of lower socio-economic status. Violations of federal policy have also been found in terms of infant formula company advertising using the WIC trademark, to reach both WIC and non-WIC participants. In recent years WIC has been expanding its breastfeeding promotion strategies, including providing subsidies for clients who use milk banks.
Early infant foods
In 1865, the first infant food was invented.
Throughout history, mothers who could not breastfeed their babies either employed a wet nurse or, less frequently, prepared food for their babies, a process known as "dry nursing". Baby food composition varied according to region and economic status. In Europe and North America during the early 19th century, the prevalence of wet nursing began to decrease, while the practice of feeding babies mixtures based on animal milk rose in popularity.
This trend was driven by cultural changes as well as increased sanitation measures, and it continued throughout the 19th and much of the 20th century, with a notable increase after Elijah Pratt invented and patented the India-rubber nipple in 1845. As early as 1846, scientists and nutritionists noted an increase in medical problems and infant mortality was associated with dry nursing. In an attempt to improve the quality of manufactured baby foods, in 1867, Justus von Liebig developed the world's first commercial infant formula, Liebig's Soluble Food for Babies. The success of this product quickly gave rise to competitors such as Mellin's Food, Ridge's Food for Infants and Nestlé's Milk.
Raw milk formulas
As physicians became increasingly concerned about the quality of such foods, medical recommendations such as Thomas Morgan Rotch's "percentage method" (published in 1890) began to be distributed, and gained widespread popularity by 1907. These complex formulas recommended that parents mix cow's milk, water, cream, and sugar or honey in specific ratios to achieve the nutritional balance believed to approximate human milk reformulated in such a way as to accommodate the believed digestive capability of the infant.
At the dawn of the 20th century in the United States, most infants were breastfed, although many received some formula feeding as well. Home-made "percentage method" formulas were more commonly used than commercial formulas in both Europe and the United States. They were less expensive and were widely believed to be healthier. However, formula-fed babies exhibited more diet-associated medical problems, such as scurvy, rickets and bacterial infections than breastfed babies. By 1920, the incidence of scurvy and rickets in formula-fed babies had greatly decreased through the addition of orange juice and cod liver oil to home-made formulas. Bacterial infections associated with formula remained a problem more prevalent in the United States than in Europe, where milk was usually boiled prior to use in formulas.
Evaporated milk formulas
In the 1920s and 1930s, evaporated milk began to be widely commercially available at low prices, and several clinical studies suggested that babies fed evaporated milk formula thrive as well as breastfed babies
These findings are not supported by modern research. These studies, accompanied by the affordable price of evaporated milk and the availability of the home icebox initiated a tremendous rise in the use of evaporated milk formulas. By the late 1930s, the use of evaporated milk formulas in the United States surpassed all commercial formulas, and by 1950 over half of all babies in the United States were reared on such formulas.
In parallel with the enormous shift (in industrialized nations) away from breastfeeding to home-made formulas, nutrition scientists continued to analyze human milk and attempted to make infant formulas that more closely matched its composition. Maltose and dextrins were believed nutritionally important, and in 1912, the Mead Johnson Company released a milk additive called Dextri-Maltose. This formula was made available to mothers only by physicians. In 1919, milkfats were replaced with a blend of animal and vegetable fats as part of the continued drive to closer simulate human milk. This formula was called SMA for "simulated milk adapted."
In the late 1920s, Alfred Bosworth released Similac (for "similar to lactation"), and Mead Johnson released Sobee. Several other formulas were released over the next few decades, but commercial formulas did not begin to seriously compete with evaporated milk formulas until the 1950s. The reformulation and concentration of Similac in 1951, and the introduction (by Mead Johnson) of Enfamil (for "infant meal") in 1959 were accompanied by marketing campaigns that provided inexpensive formula to hospitals and pediatricians. By the early 1960s, commercial formulas were more commonly used than evaporated milk formulas in the United States, which all but vanished in the 1970s. By the early 1970s, over 75% of American babies were fed on formulas, almost entirely commercially produced.
When birth rates in industrial nations tapered off during the 1960s, infant formula companies heightened marketing campaigns in non-industrialized countries. Unfortunately, poor sanitation led to steeply increased mortality rates among infants fed formula prepared with contaminated (drinking) water. Additionally, low-income families may over-dilute in an effort to "stretch" supplies resulting in malnourishment for the infant. Organized protests, the most famous of which was the Nestlé boycott of 1977, called for an end to unethical marketing. This boycott is ongoing, as the current coordinators maintain that Nestlé engages in marketing practices which violate the International Code of Marketing of Breast-milk Substitutes.
Generic brand formulas
In addition to commercially marketed brands, generic brands (or store brands) of infant formula were introduced in the United States in 1997, first by PBM Products. These private label formulas are sold by many leading food and drug retailers such as Wal-Mart, Target, Kroger, Loblaws, and Walgreens. All infant formula brands in the United States are required to adhere to the Food and Drug Administration (FDA) guidelines. As reported by the Mayo Clinic: “as with most consumer products, brand-name infant formulas cost more than generic brands. But that doesn't mean that brand-name [Similac, Nestle, Enfamil] formulas are better. Although manufacturers may vary somewhat in their formula recipes, the FDA requires that all formulas contain the same nutrient density.”
Similarly, in Canada all infant formulas regardless of brand are required to meet standards set by Health Canada.
Follow-on and toddler formulas
Follow-on or toddler formulas are sold for ages 6 months to 2 years, (when infants are typically breastfed) and are not nutritionally complete nor subject to the same regulations as infant formula. Critics have argued that follow-on and toddler formulas were introduced to circumvent the regulations regarding infant formula and have resulted in confusing advertising.
An early example of follow-on formula was introduced by Wyeth in the Philippines in 1987, following the introduction in this country of regulations on infant formula advertising, but which did not address follow-on formulas (products that did not exist at the time of their drafting). Similarly, while infant formula advertising is illegal in the United Kingdom, follow-on formula advertising is legal, and the similar packaging and market results in follow-on advertisements frequently being interpreted as advertisements for formula. (See also industry and marketing, below.)
Usage since 1970s
Since the early 1970s, industrial countries have witnessed a resurgence in breastfeeding among newborns and infants to 6 months of age. This upswing in breastfeeding has been accompanied by a deferment in the average age of introduction of other foods (such as cow's milk), resulting in increased use of both breastfeeding and infant formula between the ages of 3–12 months.
The global infant formula market has been estimated at $7.9 billion, with North America and Western Europe accounting for 33% of the market and considered largely saturated, and Asia representing 53% of the market. South East Asia is a particularly large fraction of the world market relative to its population. Infant formula is the largest segment of the baby food market, with the fraction given as between 40% and 70%.
Leading health organizations (e.g. WHO, U.S. Centers for Disease Control and Department of Health and Human Services) are attempting to reduce the use of infant formula and increase the prevalence of breastfeeding from birth through 12 to 24 months of age through public health awareness campaigns. The specific goals and approaches of these breastfeeding promotion programs, and the policy environment surrounding their implementation, vary by country. As a policy basic framework, the International Code of Marketing of Breast-milk Substitutes, adopted by the WHO's World Health Assembly in 1981, requires infant formula companies to preface their product information with statements that breastfeeding is the best way of feeding babies and that a substitute should only be used after consultation with health professionals. The Baby Friendly Hospital Initiative also restricts use by hospitals of free formula or other infant care aids provided by formula companies. (See also Policy section below.)
Infant formula processing
|1867||A formula containing wheat flour, cow's milk, malt flour, and potassium bicarbonate was developed.|
|1915||A powder form of infant formula was introduced, containing cow's milk, lactose, oleo oils, and vegetable oils.|
|1929||Soy formula was introduced.|
|1935||Protein was added because it was believed cow's milk protein content was lower than human milk protein content; protein at 3.3–4.0 g/100 kcal was added.|
|1959||Iron fortification was introduced because a large amount of iron (~80%) is used to expand the red blood cell mass in a growing infant. Infants with birth weights between 1500 and 2500g require 2 mg/kg of iron per day. Infants with weights of less than 1500g require 4 mg/kg per day.|
|1962||The whey:casein ratio was made similar to human milk because producers were aware that human milk contains a higher ratio of whey protein, and cow's milk contains a higher ratio of casein.|
|1984||Taurine fortification was introduced because newborn infants lack the enzymes needed to convert and form taurine.|
|Late 1990||Nucleotide fortification was introduced into infant formula because nucleotides can act as growth factors and may enhance the infant immune system.|
|Early 2000||Polyunsaturated fatty acid fortification was introduced. Polyunsaturated fatty acids, such as docosahexaenoic acid (DHA) and arachidonic acid (ARA), were added because those fatty acids play an important role in infant brain development.|
Current general procedure
The manufacturing process may differ for different types of formula made; therefore the following is the general procedure for liquid-milk based formulas:
Primary ingredients are blended in large stainless steel tanks and skim milk is added and adjusted to 60 °C. Then, fats, oils and emulsifiers are added. Additional heating and mixing may be required to get proper consistency. Next, minerals, vitamins, and stabilizing gums are added at various points, depending on their sensitivity to heat. The batch is temporarily stored and then transported by pipelines to pasteurization equipment when mixing is complete.
This is a process that protects against spoilage by eliminating bacteria, yeasts and molds. It involves quickly heating and then cooling of the product under controlled conditions which micro-organisms cannot survive. The batch is held at around 85–94 °C for approximately 30 seconds which is necessary to adequately reduce micro-organisms and prepare the formula for filling.
This is a process which increases emulsion uniformity and stability by reducing size of fat and oil particles in the formula. It is done with a variety of mixing equipment that applies shear to the product and this mixing breaks fat and oil particles into very small droplets.
Standardization is used to ensure that the key parameters like pH, fat concentration and vitamins and mineral content are correct. If insufficient levels of these are found, the batch is reworked to achieve appropriate levels. After this step, the batch is ready to be packaged.
Packaging depends on manufacturer and type of equipment used, but in general, liquid formula is filled into metal cans with lids crimped into place.
Heat treatment or sterilization
Finally, infant formulas are heat treated to maintain the bacteriologic quality of the product. This can be done traditionally by either retort sterilization or high-temperature short-time (HTST) treatment. Recently, ultrahigh-temperature treated formula has become more commonly used. If powdered formula is made, then spray drying would be required in addition. Retort sterilization is a traditional retort sterilization method that uses 10-15mins treatment at 118 °C. Ultrahigh-temperature (UHT) is a method that uses a brief (2–3 seconds) treatment at 142 °C. Because of the short time used, there is little protein denaturation, but the process still ensures sterility of the final product.
Recent and future potential new ingredients
Recently, probiotics have become a new ingredient in many of our foods, and studies have been completed regarding the use of probiotics in infant formula Several randomized, controlled trials completed recently have shown limited and short term clinical benefits for the use of probiotics in infants’ diet The safety of probiotics in general and in infants, especially preterm infants, has been investigated in a limited number of controlled trials. The findings thus far suggest probiotics are generally safe. Therefore, the study suggested more scientific research is necessary before a conclusion can be made about probiotic supplementation in infant formula, since the research is still quite preliminary.
Prebiotics are undigestible carbohydrates that promote the growth of probiotic bacteria in the gut. Human milk contains a variety of oligosaccharides believed to be an important factor in the pattern of microflora colonization of breastfed infants. Because of variety, variability, complexity and polymorphism of the oligosaccharide composition and structure, it is currently not feasible to reproduce the oligosaccharide components of human milk in a strictly structural fashion.
The European Society of Pediatric Gastroenterology, Hepatology, and Nutrition Committee on Nutrition found evidence to support short term effects of ingesting prebiotics on stool microflora of infants with increased in the number of bifidobacteria. Babies can be at risk of dehydration with the induction of softer stools, if they have the kidney immaturity and/or a poor ability to concentrate urine. A reduction of pathogens has been associated with the consumption of prebiotics. However, there was no evidence to support major clinical or long-term benefits. Therefore, there is little evidence of beneficial effects of prebiotics in dietary products.
Lysozyme and lactoferrin
Lysozyme is an enzyme that is responsible for protecting the body by damaging bacterial cell walls. Lactoferrin is a globular, multifunctional protein that has antimicrobial activity. Compared to human milk, cow’s milk has a signifactly lower levels of lysozyme and lactoferrin; therefore, the industry has an increasing interest in adding them into infant formulas.
- Child development
- Baby food
- Baby bottle
- Breast milk
- Dairy allergy
- List of dairy products
- U.S. Food and Drug Administration. What is an infant formula.
- Wells, J.C.K. Nutritional considerations in infant formula design. Seminars in Fetal & Neonatal Medicine, 1(1): 19–26 (February 1996).
- Medicine, Institute of; Board, Food Nutrition; Formula, Committee on the Evaluation of the Addition of Ingredients New to Infant (2004). 3 Comparing Infant Formulas with Human Milk - Infant Formula: Evaluating the Safety of New Ingredients - The National Academies Press. nap.edu. doi:10.17226/10935. ISBN 978-0-309-09150-3. PMID 25009867. Retrieved April 3, 2018.
- Fomon, Samuel J. (2001). Infant Feeding in the 20th Century: Formula and Beikost. San Diego, CA: Department of Pediatrics, College of Medicine, University of Iowa. Retrieved September 16, 2006.
- Ryan, Alan (April 4, 1997). "The Resurgence of Breastfeeding in the United States". Pediatrics. 99 (4): e12. doi:10.1542/peds.99.4.e12. PMID 9099787. Retrieved May 24, 2008.
- .World Health Organization. Global strategy for infant and young child feeding. Geneva, 2003. Retrieved August 8, 2011.
- "Infant and Young Child Feeding and Care". UNICEF. Retrieved June 8, 2007.
- World Health Organization. Guidelines for the safe preparation, storage and handling of powdered infant formula. Geneva, 2007.
- "Breastfeeding Frequently Asked Questions". Centers for Disease Control and Prevention. May 22, 2007. Retrieved May 24, 2008.
- Nestlé FAQ – Should all mothers be encouraged to breastfeed exclusively for the first 6 months?
- World Health Organization. World Breastfeeding Week August 1–7, 2011. Retrieved August 8, 2011.
- "Results: Breastfeeding and Infant Feeding Practices - Breastfeeding - CDC". www.cdc.gov. December 5, 2017. Retrieved April 3, 2018.
- "National Immunization Survey (NIS)". cdc.gov. December 1, 2017. Retrieved April 3, 2018.
- Williams, PL; Innis, SM; Vogel, AM;, (1998), Breastfeeding and weaning practices in Vancouver. Can J Public Health. 1996 Jul–Aug;87(4):231-6.
- Sharing the Economic Burden: Who Pays for WIC’s Infant Formula? Archived May 11, 2009, at the Wayback Machine., AmberWaves, September 2004.
- Boyle, Robert J; Ierodiakonou, Despo; Khan, Tasnia; Chivinge, Jennifer; Robinson, Zoe; Geoghegan, Natalie; Jarrold, Katharine; Afxentiou, Thalia; Reeves, Tim; Cunha, Sergio; Trivella, Marialena; Garcia-Larsen, Vanessa; Leonardi-Bee, Jo (8 March 2016). "Hydrolysed formula and risk of allergic or autoimmune disease: systematic review and meta-analysis". BMJ. 352: i974. doi:10.1136/bmj.i974. PMC 4783517. PMID 26956579.
- "When should a mother avoid breastfeeding?". Centers for Disease Control and Prevention. August 26, 2006. Retrieved February 25, 2007.
- WHO, UNICEF, UNFPA, UNAIDS. HIV transmission through breastfeeding: A review of available evidence. Geneva: World Health Organization, 2004.
- Lawrence RM, Lawrence RA (2004). "Breast milk and infection". Clin Perinatol. 31 (3): 501–28. doi:10.1016/j.clp.2004.03.019. PMID 15325535.
- Lamounier JA, Moulin ZS, Xavier CC (2004). "[Recommendations for breastfeeding during maternal infections]". J Pediatr (Rio J) (in Portuguese). 80 (5 Suppl): S181–8. doi:10.2223/jped.1252. PMID 15583769.
- Wahl A, Swanson MD, Nochi T, Olesen R, Denton PW, et al. (2012) Human Breast Milk and Antiretrovirals Dramatically Reduce Oral HIV-1 Transmission in BLT Humanized Mice. PLoS Pathog 8(6): e1002732. doi:10.1371/journal.ppat.1002732
- Schleiss MR (2006). "Acquisition of human cytomegalovirus infection in infants via breast milk: natural immunization or cause for concern?". Rev. Med. Virol. 16 (2): 73–82. doi:10.1002/rmv.484. PMID 16287195.
- "Infant Feeding Options in the Context of HIV". aed.org. Retrieved April 3, 2018.
- de Paoli MD, Manongi RM, Klepp KI. Infant Feeding Options Recommended for Mothers with HIV: Are they acceptable, feasible, affordable, sustainable and safe? Int Conf AIDS. 2004 Jul 11–16; 15.
- Mamiro PS, Kolsteren P, Roberfroid D, Tatala S, Opsomer AS, Van Camp JH (2005). "Feeding practices and factors contributing to wasting, stunting, and iron-deficiency anaemia among 3-23-month old children in Kilosa district, rural Tanzania". J Health Popul Nutr. 23 (3): 222–30. PMID 16262018.
- "Archived copy". Archived from the original on February 13, 2010. Retrieved December 3, 2009.
- Lee, Ellie (December 17, 2010). "Mums who choose bottle over breastfeeding 'demonised'". BBC News. Retrieved December 26, 2010.
- Katy (2009). "Breastfeeding as a Rape or Sexual Abuse Survivor". Pandora's Project. Retrieved March 20, 2012.
- Kendall-Tackett, Kathleen (April–May 1997). "Breastfeeding and the Sexual Abuse Survivor". LEAVEN. 33 (2): 27. Retrieved March 20, 2012.
- Earle S. (December 2000). "Why some women do not breast feed: bottle feeding and fathers' role". Midwifery. 16 (4): 323–30. doi:10.1054/midw.2000.0222. PMID 11080468.
- Chen, Yi Chun (2006). "Effects of work-related factors on the breastfeeding behavior of working mothers in a Taiwanese semiconductor manufacturer: a cross-sectional survey". BMC Public Health. 6: 160. doi:10.1186/1471-2458-6-160. PMC 1538587. PMID 16787546.
- DELL’ANTONIA, KJ (3 April 2012). "The True Cost of Breast-feeding — This Milk Isn't Free". New York Times. Retrieved 15 September 2017.
- "The Surgeon General's Call to Action to Support Breastfeeding". NCBI. Retrieved 15 September 2017.
- Lin-Lin, Su. "Antenatal education and postnatal support strategies for improving rates of exclusive breast feeding: randomised controlled trial". BMJ. BMJ. Retrieved 15 September 2017.
- Spitzer, Alan B.; Polin, Richard A.; Alan R., MD Spitzer; Richard A., MD McPherson (2001). Fetal and Neonatal Secrets (The Secrets Series). Philadelphia: Hanley & Belfus. p. 155. ISBN 978-1-56053-424-2.
- Przyrembel H, Heinrich-Hirsch B, Vieth B (2000). Exposition to and health effects of residues in human milk. Adv. Exp. Med. Biol. Advances in Experimental Medicine and Biology. 478. pp. 307–25. doi:10.1007/0-306-46830-1_27. ISBN 978-0-306-46405-8. PMID 11065082.
- Fürst P. Dioxins, polychlorinated biphenyls and other organohalogen compounds in human milk. Levels, correlations, trends and exposure through breastfeeding. Molecular Nutrition & Food Research, 50(10): 922–933, October 2006.
- "Healthy Milk, Healthy Baby – Chemical Pollution and Mother's Milk – Chemicals: Dioxins and Furans". nrdc.org. Retrieved April 3, 2018.
- Rogan, W.J., et al. Should the Presence of Carcinogens in Breast Milk Discourage Breast Feeding?, Regulatory Toxicology and Pharmacology 1991; 13: pp. 228–240. – cited in NRDC
- Brouwer, A., et al. Report of the WHO Working Group on the Assessment of Health Risks for Human Infants from Exposure to PCDDs, PCDFs and PCBs, Chemosphere 1998; 37(9–12): pp. 1627–1643. – cited in NDRC
- "Environmental Working Group – Mother's Milk] – [http://www.ewg.org/node/20111 Mother's Milk: Sidebar: Breast Milk Is Still Best". ewg.org. Retrieved April 3, 2018. External link in
- Groskop, Viv (January 5, 2007). "Viv Groskop on women who breastfeed other people's babies". the Guardian. Retrieved April 3, 2018.
- "Breast-feeding and Guilt: Interview with a Mayo Clinic Specialist"
- Melnik, Bodo C. (2012-01-01). "Excessive Leucine-mTORC1-Signalling of Cow Milk-Based Infant Formula: The Missing Link to Understand Early Childhood Obesity". Journal of Obesity. 2012: 1–14. doi:10.1155/2012/197653. ISSN 2090-0716. PMC 3317169. PMID 22523661.
- Stanley Ip; Mei Chung; Gowri Raman; Priscilla Chew; Nombulelo Magula; Deirdre DeVine; Thomas Trikalinos; Joseph Lau (April 2007). "Breastfeeding and Maternal and Infant Health Outcomes in Developed Countries". Evidence Report/technology Assessment (153): 1–186. PMC 4781366. PMID 17764214.
- Riordan JM (1997). "The cost of not breastfeeding: a commentary". J Hum Lact. 13 (2): 93–7. doi:10.1177/089033449701300202. PMID 9233193.
- Sadauskaite-Kuehne V, Ludvigsson J, Padaiga Z, Jasinskiene E, Samuelsson U (2004). "Longer breastfeeding is an independent protective factor against development of type 1 diabetes mellitus in childhood". Diabetes Metab. Res. Rev. 20 (2): 150–7. doi:10.1002/dmrr.425. PMID 15037991.
- Pratt HF (1984). "Breastfeeding and eczema". Early Hum. Dev. 9 (3): 283–90. doi:10.1016/0378-3782(84)90039-2. PMID 6734490.
- McCann JC, Ames BN (2005). "Is docosahexaenoic acid, an n-3 long-chain polyunsaturated fatty acid, required for development of normal brain function? An overview of evidence from cognitive and behavioral tests in humans and animals". Am. J. Clin. Nutr. 82 (2): 281–95. doi:10.1093/ajcn.82.2.281. PMID 16087970.
- Kerr, Martha; Désirée Lie (2008). "Neurodevelopmental Delays Associated With Iron-Fortified Formula for Healthy Infants". Medscape Psychiatry and Mental Health. Retrieved August 4, 2008.
- Chinese news media step up efforts in fight for food safety, The Globe and Mail, posted May 18, 2011.
- FDA Finds Traces Of Melamine In US Infant Formula Archived July 11, 2011, at the Wayback Machine., posted by Associated Press, November 26, 2008.
- Calls for national infant formula recall spread: Worried parents look for guidance after traces of melamine found, posted by MSNBC.com, November 26, 2008.
- Health Canada. Questions and Answers – Melamine. Retrieved August 9, 2011.
- Mount, Charles (March 1, 1985). "$27 Million for 2 Victims". Chicago Tribune. Retrieved April 23, 2009.
were given the baby formula, called Neo-mull-soy, when they were infants ... In 1978, Syntex eliminated salt from the formula, a move that Hayes said caused ...
- The Syntex Problem Archived September 27, 2011, at the Wayback Machine., by Robert Goedert, Harvard Law School, May 2007.
- "Study of Israeli baby formula tragedy highlights vital vitamin B1 role". timesofisrael.com. Retrieved April 3, 2018.
- Abbott Voluntarily Recalls Certain Similac® Brand Powder Infant Formulas, Abbott Press Release, issued September 22, 2010.
- INFACT Canada. Genetic engineering and infant foods.
- World Alliance for Breastfeeding Action. Infant Feeding Products.
- Aksglaede L. The sensitivity of the child to sex steroids: possible impact of exogenous estrogens. Archived September 27, 2011, at the Wayback Machine. Human Reproduction Update, Advance Access published May 2, 2006.
- Mayo Clinic staff. "Infant formula: Your questions answered". Mayo Clinic. Retrieved 7 October 2015.
- Jiang, Jeter, Nelson, and Ziegler (July 2000). "Intestinal Blood Loss During Cow Milk Feeding in Older Infants". Arch Pediatr Adolesc Med. 154 (7): 673–678. doi:10.1001/archpedi.154.7.673. Retrieved Apr 6, 2011.
- Blachford, Ed. Cengage, G. “Baby Formula”, eNotes.com, November 3, 2009
- Schmidl, M.K., Labuza, T.P. (2000)."Infant formula and Medical Foods. In Essential of Functional Foods". Aspen Publishers. pp. 137–164. Google Book Search. Retrieved on November 7, 2009.
- International Code of Marketing of Breast-Milk Substitutes. World Health Organization. 1981. ISBN 978-92-4-154160-2.
- UNICEF. International Code of Marketing of Breast-milk Substitutes. Retrieved August 9, 2011.
- Counseling the nursing mother, By Judith Lauwers, Anna Swisher, p. 597
- Milk wars in the Philippines: Breastmilk versus Infant Formula, Global Voices, posted July 11, 2007.
- Cher S Jimenez, Spilled corporate milk in the Philippines, Asia Times Online, July 25, 2007, retr 22Dec 2008
- "The Philippine Milk Code: A timeline". pcij.org. June 20, 2007. Retrieved April 3, 2018.
- UNICEF Philippines. Breastfeeding advocates form consolidated action against formula companies. Makati City, November 13, 2006. Retrieved August 9, 2011.
- "Letter by Thomas Donahue, August 11, 2006" (PDF). pcij.org. Retrieved April 3, 2018.
- "Breast or bottle: The final showdown". pcij.org. June 20, 2007. Retrieved April 3, 2018.
- How formula milk firms target mothers who can least afford it The Guardian
- Formula for Plain (Bland) Packaging The Anton Mostert Chair of Intellectual Property, December 3, 2013. Retrieved 24 July, 2014
- "The Infant Formula and Follow–on Formula Regulations 1995". www.opsi.gov.uk. Retrieved April 3, 2018.
- "The Unicef UK Baby Friendly Initiative". Baby Friendly Initiative. Retrieved April 3, 2018.
- Breastfeeding Around the World: The International Code of Marketing of Breast Milk Substitutes. Archived May 3, 2011, at the Wayback Machine. Retrieved August 9, 2011.
- A Growing Boost for Baby Formula, by Markos Kaminis, BusinessWeek, January 11, 2005
- Periodic Survey of Fellows: Survey shows most AAP members support formula advertising policy Archived March 21, 2011, at the Wayback Machine., American Academy of Pediatrics (AAP).
- Breastfeeding: Some Strategies Used to Market Infant Formula May Discourage Breastfeeding; State Contracts Should Better Protect against Misuse of WIC Name, U.S. Government Accountability Office (GAO)
- Banking on Breastmilk Archived May 31, 2009, at the Wayback Machine.
- Stevens, E. E; Patrick, T. E; Pickler, R (2009). "A History of Infant Feeding". The Journal of Perinatal Education. 18 (2): 32–39. doi:10.1624/105812409X426314. PMC 2684040. PMID 20190854.
- Schuman A (February 1, 2003). "A concise history of infant formula (twists and turns included)". Contemporary Pediatric. Retrieved September 16, 2006.
- Olver, Lynne (2004). "Food Timeline – history notes: baby food". Retrieved September 16, 2006.
- Spaulding, Mary; Penny Welch (1994). Nurturing Yesterday's Child: A Portrayal of the Drake Collection of Paediatric History. B C Decker Inc. ISBN 978-0-920474-91-4.
- Hale, Sarah Josepha (1852). The Ladies' New Book of Cookery: A Practical System for Private Families in Town and Country. New York: H. Long & Brother. p. 437.
- Committee on the Evaluation of the Addition of Ingredients New to Infant Formula (2004). "Infant Formula: Evaluating the Safety of New Ingredients". The National Academies Press. Archived from the original on September 13, 2006. Retrieved September 16, 2006.
- "The history of the feeding bottle". Archived from the original on August 30, 2006. Retrieved September 16, 2006.
- Simon, Johann Franz (1846). Animal chemistry: with reference to the physiology and pathology of man. Lea and Blanchard. OCLC 5884760.
- Levenstein, Harvey (1988). Revolution at the Table: The Transformation of the American Diet. New York: Oxford University Press. p. 122. ISBN 978-0-520-23439-0.
- Levenstein, Harvey (June 1983). ""Best for Babies" or "Preventable Infanticide"? The Controversy over Artificial Feeding of Infants in America, 1880–1920". Journal of American History. 70 (1): 75–94. doi:10.2307/1890522. JSTOR 1890522. Check date values in:
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- Friedenwald, Julius; John Ruhrah (1910). Diet in Health and Disease. New York: W.B. Saunders Co.
- Marriott, William McKim; Schoenthal, L. (1929). "An experimental study of the use of unsweetened evaporated milk for the preparation of infant feeding formulas". Archives of Pediatrics. 46: 135–148.
- Solomon, Stephen (December 6, 1981). "The Controversy Over Infant Formula". The New York Times. p. 8. Retrieved August 11, 2008.
- Breastfeeding: Only 1 in 5 countries fully implement WHO’s infant formula Code, WHO, 30 July 2013.
- Mayo Clinic, November 2007
- Government of Alberta, Health and Wellness. Infant formula. Archived October 7, 2011, at the Wayback Machine.
- ABC News. Chocolate Toddler 'Formula' Pulled After Sugar Uproar. June 10, 2010.
- Ingredients for the World Infant Formula Market, UBIC consulting
- "Promotion & Support of Breastfeeding and Obesity Prevention". Centers for Disease Control and Prevention. May 22, 2007. Retrieved May 24, 2008.
- "Public Service Campaign to Promote Breastfeeding Awareness Launched" (Press release). United States Department of Health and Human Services. June 4, 2006. Retrieved May 22, 2008.
- "Promoting proper feeding for infants and young children". World Health Organization. Retrieved May 24, 2008.
- Institute of Medicine (U.S.) (2004). Defining Safety for Infants. In “Infant Formula: Evaluating the Safety of New Ingredients”, The National Academic Press. pp. 22–42., Retrieved on November 15, 2009.
- American (1999). "Iron fortification of infant formulas". Pediatrics. 104 (1): 119–123. doi:10.1542/peds.104.1.119.
- Heird, W.C. (2004). Taurine in neonatal nutrition – revisited. Arch Dis Child Fetal Neonatal Ed, 89, 473–474.
- Lonnerdal B.; Hernell O. (1998). "Effects of feeding ultrahigh-temperature (UHT)-treated infant formula with different protein concentrations or powdered formula, as compared with breast-feeding, on plasma amino acids, hematology, and trace element status". Am. J. Clin. Nutr. 68 (2): 350–6. doi:10.1093/ajcn/68.2.350. PMID 9701193.
- Carvalho, R.S., Michail, S., Ashai-Khan, F., Mezoff, A.G. (2008). An Update on Pediatric Gastroenterology and Nutrition: A Review of Some Recent Advances. Curr Probl Pediatr Adolesc Health Care, 204–228.
- International Assassination of Infant Food Manufacturers,“Prebiotics in Infant Nutrition” Archived January 7, 2010, at the Wayback Machine., November 9, 2009