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The science behind high-protein milk: How it differs from whey powder

High-protein milk simply concentrates the full range of proteins naturally present in milk

Editor's Note: From grocery lists, to fitness priorities, and even healthy snacking, protein is everywhere—but do we truly understand it? In this series, the Good Food Movement breaks down the science behind this vital macronutrient and its value to the human body.

For many of us, the word ‘high-protein’ conjures up images of shaker bottles, supplements, or even tubs of whey powder. But in the past few years, supermarket shelves have introduced another option: high-protein milk. It looks like regular milk, tastes like regular milk, and yet somehow promises nearly double the protein. This has naturally led to the assumption that high protein milk must be fortified with whey powder. Whey is the watery liquid left over when milk curdles, and the solids (curds) are strained out; whey powder, the concentrated protein extracted from this liquid has, in turn, become synonymous with gym culture and quick protein hits.

But high-protein milk is built on a very different principle, one that preserves the pre-existing balance of proteins found in milk rather than isolating and concentrating only one part of it. Instead of adding isolated whey proteins, which would change both its taste and the way our bodies may digest it, high-protein milk simply concentrates the full range of proteins naturally present in milk.

The proteins already present in milk

To understand this distinction, it helps to look at what milk contains. Cow’s milk carries two main proteins: casein and whey. Casein makes up the majority of this content, forming microscopic structures called micelles that stay suspended in milk. Whey makes up the remaining fraction and stays dissolved in the liquid.

This difference sets up the key contrast between proteins that remain blended in this manner (like those found in milk, where casein and whey co-exist) and isolated proteins (like whey powder, which extracts and concentrates only the whey fraction from milk). Blended proteins are digested across different speeds and durations; isolated proteins act quickly and intensely.

Also read: Whey to go: A complete guide to protein

How is high-protein milk made?

High-protein milk keeps this natural casein–whey blend intact. Instead of adding isolated protein, producers run fresh milk through a process called ultrafiltration. Think of it as a very fine sieve: water, lactose, and some minerals pass through, while the larger molecules of casein and whey stay behind. When the retained portion is recombined, you end up with milk that has more protein per millilitre and a higher calcium concentration (calcium is bound to casein micelles, which the process of ultrafiltration retains). Meanwhile, it keeps the original casein-to-whey ratio more or less intact.

This is the crucial distinction. Whey powder also uses ultrafiltration, much to the same degree. However, in contrast to high-protein milk, where ultrafiltration is applied to whole, fresh milk, only the whey liquid, where casein has already been removed in the curds, is subject to this process in the making of whey powder. Hence, unlike whey powder, which strips away the casein and delivers only the fast-acting part of milk’s protein, high-protein milk makes denser the full protein profile naturally present in the milk.

High-protein milk, by retaining this natural blend and simply concentrating it, supports both immediate recovery and longer-term maintenance,

This matters because the human body responds differently to blended proteins than to isolated ones. Whey is rapidly digested. So when you consume whey—an isolated protein—alone, you get a sharp, immediate rise in amino acids. This is excellent after a workout, when your muscle tissue is primed to repair itself. But that benefit lasts only for a limited window.

Meanwhile, casein digests slowly because it forms a soft curd in the stomach, giving a prolonged, steady release of amino acids. With its slow-release, casein stretches this window out. This is why research often describes the natural combination of casein and whey found in milk as offering both a ‘burst’ and a ‘supply line’ of amino acids. High-protein milk, by retaining this natural blend and simply concentrating it, supports both immediate recovery and longer-term maintenance, making it useful for people who want to tailor their protein intake to not just to workouts, but also to the long-term strengthening and functioning of the body—like steadier blood pressure, boosted immunity and bone development.

*Whey powder strips away the casein and delivers only the fast-acting part of milk’s protein.*

Also read: Protein traceability: Why knowing where your milk and pulses come from matters

High-protein milk fits into everyday eating

When evaluating these two sources of protein, there’s also the question of how the body uses this nutrient throughout the day. The broader science around muscle protein synthesis (MPS) indicates that our muscles respond best when we give them moderate amounts of high-quality protein at regular intervals. Since high-protein milk behaves like milk—just denser—it can be slotted naturally into meals and snacks without taking a supplement. In practical terms, this makes it easier to distribute protein intake across breakfast, lunch, and dinner, a strategy that supports better synthesis and reduces the peaks and troughs that come with having most of our protein during the heavier meals of lunch and dinner.

High-protein milk, however, also has its limitations. Since it’s still milk, it retains lactose unless the manufacturer removes it separately—making it unsuitable for people with lactose intolerance. And while it offers more protein per serving than regular milk, it can’t match the sheer density of whey isolate, which is designed for people who need a large protein dose without extra fluid, fat, or carbohydrates. Its value lies elsewhere: as a whole-food, everyday option that fits naturally into the diet without leaning on supplement logic.

A food-first way to increase protein

In the landscape of high-protein eating, it is easy to collapse all protein sources into the same bucket. But understanding the difference between high-protein milk and whey powders reminds us that how protein is delivered is as important as how much of it we consume. One is a concentrated version of a food we already understand; the other is a targeted supplement engineered for speed and a low protein-to-calorie ratio. Both have their place, but if your goal is to eat more protein embedded into your natural diet—with a balance that supports sustained recovery, fullness, and steady muscle maintenance—high-protein milk may fare better for your body.

Also read: The ‘right time’ to eat protein: Little and often, rather than in one meal

Bugging out: Why declining insect populations in India spell doom for agriculture

As bees, moths and flies make a quiet exit, their absence will directly impact crop resilience and yield quality

Friends of the soil: A farmer’s key allies hide backstage and underground

From earthworms to dung beetles, the agricultural landscape and its thriving soil features a diverse set of agents

Decoding ragi’s cropping conditions: How farmers study soil, rains and temperature

Syncing with the monsoon is important for a rain-fed crop like ragi; sowing too early or late has a direct effect on harvests

Editor's note: Even before its current status as a nutrient-rich superfood, ragi has been a crucial chapter in the history of Indian agriculture. Finger millet, as it is commonly known, has been a true friend of the farmer and consumer thanks to its climate resilience and ability to miraculously grow in unfavourable conditions. As we look towards an uncertain, possibly food-insecure future, the importance of ragi as a reliable crop cannot be understated. In this series, the Good Food Movement explains why the millet deserves space on our farms and dinner plates. Alongside an ongoing video documentation of what it takes to grow ragi, this series will delve into the related concerns of intercropping, cover crops and how ragi fares compared to other grains.

Every cropping season in India begins not with a seed, but with the sky. For generations, farmers have read the rhythms of the monsoon like a living calendar—each phase of rain marking a specific agricultural activity. In Karnataka’s dryland regions, this relationship between rain, soil, and crop choice forms the foundation of sustainable farming.

The Good Food Movement is growing ragi on a 2-acre plot in Tumakuru district’s Tiptur town using traditional, organic methods and documenting the entire process, from sowing cover crops, to choosing the right seeds, to planting, sowing and harvesting.

This article aims to provide an overview of the cropping conditions in Tiptur to understand what goes behind a successful ragi harvest cycle in these dryland landscapes.

Understanding the geography

Karnataka is divided into the more forested regions of Malnad in the West and the open lands of the Maidan in the East, each with its own land use and settlement culture. Agriculture is more commonly practised in the expanses of the Maidan. Tiptur sits in the South Maidan zone of Karnataka. This is a semi-arid region characterised by red-brown soils and undulating terrain. Tiptur’s landscape in particular is home to vivid red, loamy soils.

The region’s average annual rainfall ranges between 700-900 mm. Tiptur, being on the leeward side of the Western Ghats, is on the lower range of this rainfall spectrum, receiving about 680-720 mm. Most of this rainfall occurs during the southwest monsoon (June to September), which nourishes the Kharif crop cycle. Average temperatures stay between 24°C and 34°C across the year. These conditions make Tiptur ideal for millets like ragi, along with pulses and oilseeds that thrive in well-drained soils and intermittent rainfall.

Each phase guides what happens on the farm, from preparing the land and sowing cover crops, to mulching, and the final sowing of ragi.

In this landscape, rain is a planning tool. Farmers track the traditional nakshatra (constellation)-based rain calendar, using the names of constellations like Revathi, Ashwini, and Rohini to track rains throughout the year. In Kannada, Mungaru refers to the crucial southwest monsoon, while the Hingaru or northeast monsoon (October–December) supports Rabi crops. Each phase guides what happens on the farm, from preparing the land and sowing cover crops, to mulching, and the final sowing of ragi.

Also read: Why Akkadi Salu, an ancient practice of intercropping ragi, deserves a comeback

Pre-monsoon preparations

The cropping season begins around March-April, long before the main monsoon showers arrive. Farmers begin tilling and preparing their fields, before the first Revathi rains. This is followed by the sowing of cover crops—crops that are grown before the main crop to prevent soil erosion and replenish soil nutrients. Though there isn't a fixed rule for which crops to select, it is recommended to incorporate 80% as legumes for nitrogen fixation and 20% as non-legumes to maintain diversity. In our experiment, we used a mix of sunn hemp, spiny sesbania, horsegram, mustard, sesame and cowpea.

This stage, often overlooked in conventional agriculture, is crucial for restoring the land. The cover crops fix nitrogen, protect the topsoil from heat and erosion, and naturally add biomass once they are mixed back into the soil. As they mature, often growing 4–6 feet tall by the onset of the Mungaru rains in June, they create a dense green canopy which lowers soil temperatures, compared to land exposed to the sun.

The arrival of the southwest monsoons in June marks the onset of the Kharif crop cycle. The matured cover crops are tilled back into the soil using a rotavator in time for planting the main ragi crop. This produces green manure, a natural nutrient source that boosts soil fertility and microbial life. Around 16 tons of fresh biomass per acre can be generated in this phase, part of which contributes to long-term soil carbon.

Also read: A crop for the future: Why India should invest in ragi and its climate resilience

The Kharif cycle and the rains

It’s important to sync the harvest cycle of ragi, a hardy millet and dietary staple in this region, with the Kharif monsoon cycle. Cover crops are sown to align with the onset of the first Ashwini rains. Thereafter, ragi is typically sown in late July—once the soil has absorbed sufficient monsoon moisture and the decomposed biomass. Farmers rely on consistent showers during the Pushya and Ashlesha (mid-July to mid-August) rains to aid germination. The Tumakuru district experiences the last of its rainfall in mid-October. By this time, the crop should have reached a healthy maturation rate of 70-80% so that it can be harvested in November. Syncing with the monsoon is especially important for a rain-fed crop like ragi: if you sow too early, harvesting might become difficult during heavy rains. Sow too late, and the soil may lose its moisture.

Rainfall patterns in Tiptur have become increasingly erratic over the last 5 years, in terms of both the number of rainy days and the quantum of rainfall received during a specific period. Delays during Mrigashira and Ardra (June and early July) mean that cover crops mature under limited moisture, forcing farmers to adapt dynamically—sometimes switching to short-duration millet or pulse varieties if rains fail to arrive on time.

This adaptive approach—watching the skies, responding to soil feedback, and making crop decisions in real-time—is the essence of rain-fed agriculture. Unlike irrigated systems, farmers here depend entirely on the sequencing of natural rainfall, balancing risk and regeneration.

This adaptive approach—watching the skies, responding to soil feedback, and making crop decisions in real-time—is the essence of rain-fed agriculture.

The red loamy soil of Tiptur is moderately low in organic carbon—which makes regenerative practices like cover cropping essential. Integrating organic manure and green biomass helps rebuild the soil’s structure, improving its ability to retain moisture and nutrients during dry spells.

By sequencing operations with each nakshatra calendar, farmers turn uncertainty into a working rhythm. Land is prepared and a layer of mixed cover crops is sown during the pre-summer rains. These grow into a canopy, and are re-incorporated into the soil during the early monsoon at the beginning of the Kharif season. Ragi is sown once the soil absorbs the biomass, and is then harvested when the spikes turn brown.

Agriculture is a dialogue between soil ecology and seasonal uncertainty. The Kharif cycle, too, isn’t merely a harvest calendar or a farming schedule. Each rainfall event, each temperature shift, reshapes the farmer’s decisions. Through cover cropping, green manuring, and careful timing, the land learns to breathe again between harvests.

Also read: The grain divide: How ragi and rice compare in the field and on our plates

India’s first meal crisis: Is the rise of formula threatening breastfeeding?

Despite global health organisations and laws vouching for exclusive breastfeeding for the first six months, formula is making a dent in infant nutrition

Across delivery rooms in India, whether in public or private hospitals, newborns are increasingly being fed formula as their first meal, often without parental consent. This trend is not accidental. From the lack of institutional and infrastructural support for breastfeeding, to marketing by formula brands, to healthcare professionals advocating for formula milk (FM), infant formula is on the rise in India. This reality unfolds even as it poses deep threats to child health, maternal well-being, and inevitably, public nutrition.

A report from The News Minute details the experience of Vidya Sanap, a 32-year old researcher at IIT Bombay, who was eager to breastfeed after a C-section delivery, but when she asked the nursing staff for help, she was chided. “Your breast milk won’t run out if you don’t feed immediately,”—this is how Sanap remembers the nurses’ response. Another report in Quartz talks about another new mother’s first experience with breastfeeding: Sanika Chawla had delivered a healthy boy at a private hospital in Bengaluru. However, she didn’t get to hold him for several hours. Much to her chagrin, he had already been fed formula for his first meal.

These are just some among numerous examples in maternity wards, where babies are being whisked away by nursing staff and initiated on formula, against the mother’s wishes. What drives this breastfeeding-versus-formula turf war across Indian infant care?

Mother’s milk

The World Health Organization (WHO) recommends that infants be exclusively breastfed (EBF) for the first six months. Continued breastfeeding is recommended until a child turns two, with complementary foods being introduced after six months. Medical research has drawn countless links between early breastfeeding and its positive impact on both infant and maternal health. Lactation experts confirm that colostrum—the thick yellow liquid that is produced by the mother during pregnancy—is loaded with antibodies and immunoglobulins that boost infant immunity.

UNICEF advocates breastfeeding within the first hour of birth, but government data shows that only about 42% of all Indian babies have that healthy start.

Mothers also transmit good bacteria, which live in the infant’s gut, helping digest food and boosting their immune system. Breastfeeding significantly lowers infant mortality and risks of gastrointestinal disease and obesity in later life. Additionally, mothers who breastfeed have lowered chances of ovarian and breast cancer, Type 2 diabetes and cardiovascular disease. This is especially pertinent in countries like India with high rates of infant and neonatal mortality—27 infant deaths and 19 neonatal deaths for every 1000 live births in 2021.

UNICEF advocates breastfeeding within the first hour of birth, but government data shows that only about 42% of all Indian babies have that healthy start. There are legitimate reasons as to why breastfeeding isn’t always a viable option; not every newborn takes to the nipple immediately, or has a breastfeeding mother. Sometimes, new mothers also experience lactation failure.

The early makers of infant formula recognised this. The first known commercial infant formula was a cow milk-based formula made by chemist Justus von Liebig in Germany in 1865. Until then, many gave their infants other substitutes like homemade evaporated milk, and ‘pap’, a bread-and-water mush, from hard-to-clean utensils teeming with bacteria. Others employed wet nurses—women who were responsible for breastfeeding another’s child. Death rates were alarmingly high in the early 1800s, only two in three babies who weren't breastfed completed the age of one. The timing of Liebig's formula was opportune, and the appeal quickly spread beyond just women who couldn’t breastfeed. Liebig’s Soluble Food for babies (comprising primarily cow’s milk, wheat and malt flour and potassium bicarbonate) made commercial formula accessible and affordable.

Physicians in the 1960s and ‘70s (especially in the Global North) also began recommending these commercial formulas, making them more popular among mothers. However, an important detail to note here is that infant formula was developed as a substitute for breast milk, specifically for mothers who couldn’t breastfeed. Bridging a gap in infant nutrition was Liebig’s primary motive behind the development of formula.

And so it went, for a while: it seems like formula milk was mostly used on a case-by-case basis. What changed? What led to the formula boom?

Also read: The transformative potential of universal school meals

Formula’s vulture grip

For one, the introduction of formula dramatically transformed the workplace. For many new mothers who want to, or must return to work, formula is a lifeline—especially when taking extended time away can come at a real cost to their careers. Several studies mention that earning gaps increase after mothers return to the workplace once their maternity leaves end. One mother says formula helped both her and her baby adapt to a work routine: “I had to go back to work in three months, so I started topping up with formula in two months so that my supply would temper and my baby would get used to the bottle.”

According to the WHO, the global formula milk industry was worth $55 billion in 2022. It has also found that global breastfeeding rates have increased very little in the last two decades. Meanwhile, the sale of formula milk has more than doubled in the same period.

Evolution has carefully fine-tuned the ‘recipe’ for breast milk to optimise for both maternal and infant health. Infant formula is a manufactured breast-milk substitute, available in liquid or powder form. However, infants' intestines are not naturally designed to digest these, lactation consultant Manisha Gogri says. Different compositions make up different infant formula. A series of articles published by The Lancet in 2016 lists the risks, which include more episodes of diarrhoea and respiratory infection. Companies that make formula claim that long chain polyunsaturated fatty acids in formula milk are involved in the development of the brain, eyes and the nervous system. However, these statements have little substantiation in scientific literature.

Type of baby formula	Composition
Cow milk-based	The most commonly chosen formula. Made using cow milk, fortified with iron and lactose – compounds naturally found in breast milk. Butterfat is removed and replaced with more easily digestible fats
Goat-milk based	Contains proteins very similar to cow-milk based formulas, and also processed to the same nutritional standard
Soy-based	Contains a combination of protein and carbohydrates that differs from that found in milk-based baby formula. Usually recommended if babies are lactose-intolerant
Extensively hydrolysed	Also known as ‘predigested’ formula. Proteins are broken down into smaller components that make it easier for a baby’s system to digest. Babies prone to allergies or other health conditions benefit from this kind

India has one of the most stringent laws in the world against breast milk substitutes, detailed in the Indian Milk Substitutes (IMS) Act, enacted in 1992 and enforced in 1993. The Act regulates the production, promotion, and distribution of infant milk substitutes by prohibiting advertising, point-of-sale promotions, and free samples, while placing stringent labeling requirements on these products as well. It also restricts health workers and institutions from providing biased information. Despite this, under the pretext of offering a substitute in cases of “low breast milk supply,” a multimillion-dollar industry thrives, claiming to calm crying or fussiness and to keep babies more satiated.

However, the idea of new mothers having a ‘low breast milk supply’ may very well be a myth. In a detailed report from The Wire, Dr. Arun Gupta, chairman of Breastfeeding Promotion Network of India (BPNI), a national NGO to promote healthy breastfeeding practices, says that a mother can usually produce enough milk to feed her baby, but it is often a challenge to bring the supply forth and nurse the baby. A host of other factors affect this process: milk production and flow depends—the more a baby breastfeeds, the greater the demand for milk in the mother’s body. Suckling activates nerves that signal the body to release prolactin and oxytocin. Prolactin triggers the alveoli to produce milk, while oxytocin makes the tiny muscles contract, pushing milk from the alveoli into the ducts. The release of oxytocin is also sensitive to a mother’s mental state. Dr. Gupta says that predatory tactics by formula makers disrupt this, pushing mothers into believing they cannot produce enough. Since breast milk supply is contingent on how much the baby feeds, introducing formula also affects it.

India has one of the most stringent laws in the world against breast milk substitutes, detailed in the Indian Milk Substitutes (IMS) Act

In India, especially, women face heightened familial and social scrutiny on their choice to nurse and/or introduce formula. A blog outlines how this new mother felt cloistered by her family while feeding: “Every session of breastfeeding (basically, every two hours) was slowly unravelling into a nightmare, where I felt I had no control. My female relatives would surround the bed, one of them holding the baby, and others pressing my nipple and commenting on my milk supply. My husband and I felt very helpless,” she says.

“I was under tremendous stress and … unable to generate enough milk for my son, who was subsequently fed only cow milk and formula,” another mother says. Surveys have found how over 50% of nursing mothers cite both physical and emotional breastfeeding woes, including sore nipples and irritated skin, a reason why they may turn to formula, especially if they have more than one child. These stories have themes in common: mothers feel like they do not have enough information and support on either breastfeeding or formula. This makes them feel like they have to endure the journey alone, and even when they do turn to formula, it isn’t without guilt or a public questioning of their scruples.

Even the BPNI acknowledges that formula is an essential part of infant and young child feeding in cases of lactation failure. After all, formula was always originally intended as medicine.

And then there is the matter of breastfeeding among low-income populations: one could expect it to be higher, owing to the rising costs of baby formula. What emerges is a very counterintuitive conclusion. The pressure to return to work makes EBF for six months difficult for many mothers, and this is especially true for the urban poor, who–being part of the informal labour sector–virtually have no maternal care benefits. There are examples of FM companies having infiltrated low-income countries as well: they offer cheap samples at first, and then dramatically increase prices, further entrenching families in cycles of poverty. Formula is also expensive, and so, many families tend to stretch out a box for much longer. The unavailability of clean water in most Indian slums, too, risks infant health.

Also read: Food fortification 101: Can foods built in with nutrients counter malnutrition, deficiencies?

A public health crisis, exacerbated

If the IMS Act provides a solid legislative foundation, intervention by healthcare professionals is crucial to counter misinformation. Yet, the crisis is often exacerbated by the neonatal healthcare industry itself. A WHO survey on formula nutrition in 15 countries (excluding India) reported that 60% of women in Bangladesh and 45% in Nigeria had received a recommendation for formula from a qualified health worker. With birth rates declining in the West, countries like India and China have become primetime targets to boost formula sales. Another study across eight countries by the WHO and UNICEF—including Vietnam, China and Bangladesh—showed how formula marketing directly influences feeding decisions, despite the International Code of Marketing of Breast-milk Substitutes (1981). Apart from using a myriad of offline and digital marketing channels, formula companies also sought to alter medical professionals’ understanding of this breast milk substitute, since they had direct access to patients. Trusted brands have come under fire for promoting their products as ‘identical’ to breast milk.

Dr. Gogri says that one of the most common misconceptions that parents have about breast milk and formula is that they are equivalent in nutritional content.

Dr. Gogri says that one of the most common misconceptions that parents have about breast milk and formula is that they are equivalent in nutritional content. Dr. Armida Fernandez, former Head of Neonatology at LTGM Hospital, Sion (hereafter referred to as Sion Hospital), weighs in on how hospital staff are often complicit. “After birth, the baby should be put to the breast right away, because the more the baby sucks, the more milk will come in. In the first days, milk comes in very small quantities—sometimes just drops—and that is normal. Mothers need to be reassured that this is enough, since a newborn’s stomach is only about the size of a thumb,” Fernandez says. When the babies cry incessantly, parents panic and are led to formula as a quick-fix solution.

“Instead of keeping the baby on the mother’s chest and ensuring what we refer to as ‘skin-to-skin contact’, many hospitals put the newborn under a warmer and even give them a bath. Both these practices lead to rapid fluid loss,” Fernandez adds.

When asked about how formula is peddled in hospitals despite the IMS Act, Gogri underscores the basic fact that formula milk is, in the end, medicine. “Hospitals always stock FM containers, it is only advertising and promotion that is discouraged. Not all use of formula in hospitals can be attributed to malpractice or any malicious intent, really. More often than not, it's just a lack of awareness and negligible counselling about how important breastfeeding is in those early hours,” Gogri says. Many mothers aren’t aware of the benefits of breast milk, and even those who do, sometimes find themselves fighting back against their own caregivers.

Not all use of formula in hospitals can be attributed to malpractice or any malicious intent, really. More often than not, it's just a lack of awareness and negligible counselling about how important breastfeeding is in those early hours,” Gogri says.

In India, a lack of infrastructural as well as social support also explains why mothers turn to formula.

In India, a lack of infrastructural as well as social support for mothers also prevails. A dearth of breastfeeding and pumping rooms in public spaces and the stigma around breastfeeding in public in the first place also explains why mothers turn to formula. Gogri says that BPNI has set up Hirkani Kaksha–rooms designated for breastfeeding and expressing milk–in Maharashtra. “Several rooms have been set up at bus stops and train stations across Maharashtra. Unfortunately, many of them are unclean and in various states of disrepair; some have even become dumping grounds for trash,” she says.

Breast milk banks may offer answers

Discouraging or banning formula milk is not the answer. Even the BPNI acknowledges that formula is an essential part of infant and young child feeding in cases of lactation failure. Brazil, which runs the world’s leading breast milk donation program, shows another path forward: one where mothers are encouraged to donate their milk to vulnerable infants who might otherwise depend on formula.

The need for human milk banks in India is immense. Each year, 2.7 crore children are born in the country, of which 75 lakhs have low birth weight and 35 lakh are preterm. A preterm infant requires at least 30 ml of milk—volumes that add up quickly across millions of births. Yet, infrastructure remains scarce: until 2013, only 8–10 milk banks existed, and even today metro cities average only 5–6 banks each.

Dr. Armida Fernandez pioneered Asia’s first milk bank at Mumbai’s Sion Hospital in 1989. When asked what the Sion Neonatal Intensive Care Unit (NICU) was like at that point, she says, “We were losing newborn babies because of diarrhoea and sepsis, and one of the reasons was a feed of formula. I realised that if we had to stop the infection at source, we had to move to breast milk exclusively. And to ensure a continuous and safe supply of human milk, we needed a human milk bank.”

At the time, the concept of milk banks was alien, and Fernandez faced a lot of distrust and suspicion. “I never faced skepticism from the mothers themselves. Many mothers were ill and needed milk to support their babies, and others in the ward volunteered to be informal wet nurses for strangers’ babies. Once, a new mother who was also a resident at the hospital fed a baby who had tetanus, and it survived only because of her,” she adds.

Himani Khandekar, the manager at the milk bank, or the Comprehensive Lactation Management Centre (CLMC) at Sion Hospital, Mumbai, says that the objective is to ensure that infants are exclusively breastfed until their discharge. The reality of operating a milk bank, however, is grim and laborious. “Our supervisors and counsellors are scattered across the NICU, TCU (transitional care unit), and the post-natal care units, where mothers and babies rest after discharge. All these areas have separate breast milk pumping stations. The staff make individual rounds, personally going from bed-to-bed, training mothers in better breastfeeding practices, helping infants to latch.,” Khandekar says.

All mothers who are admitted in the hospital undergo an evaluation of their medical history, a serological testing of their milk and a physical examination of the breasts. When patients pass this screening, they are encouraged to be donors. “Counsellors help mothers understand the benefits of donating: it relieves their fullness and pain, can help other vulnerable infants, and actually increase their production as well, quite contrary to the myth of ‘running out.’”

The milk from these three different areas is pooled and divided equally into three equal aliquots to be fed into the Sterifeed—a fully-automatic pasteurizer capable of holding 36 bottles of 250 cubic centimetres of milk. The milk undergoes a heating cycle, where it is heated to 62.5 degree celsius, and then rapidly cooled to 15 degrees and then 4 degrees over the next two hours. After this, it is meticulously labelled and stored in deep freeze storages of -20 C, and tested for bacterial contamination.

“We dispense the milk primarily to premature and extremely sick/vulnerable babies in the NICU, whose mothers are ill themselves, or are experiencing lactation failure,” Khandekar says. “People from outside have also approached us to access PDHM (Pasteurized Donor Human Milk) reserves, but unlike staff, they are unaware of the temperature it is to be stored at, or the window in which it should be consumed. This may end up causing more harm than good.” The reach of milk banks in India, therefore, remains starkly limited–especially when compared to countries like Brazil.

Shortage of PDHM is a persistent reality that milk banks face. “Not every mother admitted in our wards will be willing to donate her milk,” Khandekar says. For every donor who comes forward, there are several newborns in urgent need who go without. The bank operates with a small team, making this work demanding. Counsellors spend their days on their feet, moving endlessly between wards, balancing the urgency of persuasion with the labour of reassuring anxious mothers.

Dr. Fernandez says that milk banks in India face two major barriers: lack of institutional budgets for equipment and staff (most rely on private donations or Rotary support) and the limited number of donors beyond hospital mothers. Khandekar affirms that there is a massive gap in demand and supply. Unlike in other countries where lactation professionals follow up with milk collection at home, and a dense network is set up for supply, India relies mainly on in-hospital donations due to hygiene and storage constraints, severely limiting collections.

Also read: Sivaranjani Santosh's fight to knock mislabelled ORS off the shelf

Scaling up milk banks while promoting breastfeeding, while not a utopian, or fix-it-all solution, could be transformative. This approach eases the burden for mothers coping with delayed lactation, infant health issues, or bereaving the loss of their own child, while ensuring babies get safe nutrition—as opposed to the alternative, which is formula. Dr. Fernandez suggests setting up ‘milk donation camps,’ much like blood donation camps. This however, would require policy changes in budgeting and infrastructural support, and large-scale awareness of breast milk banks, when most of us might have never heard that they exist.

The dominance of formula milk in India is not as much to do with parental choice but the result of systemic neglect. Unless India invests in breastfeeding support and human milk banking, it risks outsourcing infant nutrition to commerce, where formula will continue to fill the gaps—at the cost of its youngest citizens.

Edited by Anushka Mukherjee and Neerja Deodhar

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The ‘right time’ to eat protein: Little and often, rather than in one meal

Spreading out your protein intake and timing it after workouts has the maximum benefit

Editor's Note: From grocery lists, to fitness priorities, and even healthy snacking, protein is everywhere—but do we truly understand it? In this series, the Good Food Movement breaks down the science behind this vital macronutrient and its value to the human body.

We often mistake the question ‘Are you getting enough protein?’ to be inquiring about the amount of protein-rich food we are eating. But this seemingly simple nutritional goal is also about ensuring that the protein gets used up by the body effectively. The World Health Organization has declared 0.8 g per kg of body weight as the minimum Recommended Daily Allowance (RDA). But the way this requirement is framed could be misleading—because adhering to this figure blindly does not guarantee that you can avoid deficiency.

Research suggests that having 0.4g per kg of body weight per meal across breakfast, lunch, and dinner actually increases the rate of muscle synthesis by 25% compared to when protein intake is skewed.

To begin with, we could look at a single plate of food. When you have more than a certain amount of protein in one meal, your body cannot digest it. If it were carbohydrates or fats that were in excess on the plate, the body would simply store them (as fat). But the body does not have a mechanism to store excess protein. Instead, any excess gets broken down first to ammonia, and then urea, before being discarded entirely.

Additionally, according to studies, we have a tendency to concentrate our daily protein intake around either lunch or dinner, leaving the other two meals of the day deficient. This means that the simplest and most crucial change you can make to your protein intake is to spread it out. Research suggests that having 0.4g per kg of body weight per meal across breakfast, lunch, and dinner actually increases the rate of muscle synthesis by 25% compared to when protein intake is skewed.

Also read: Is there an ‘ideal’ amount of protein that must be consumed?

Distributed through the day

This is believed to happen because of the specifics of a certain function of the body called Muscle Protein Synthesis or MPS. This is the process used by our muscle tissues to convert amino acid chains into muscle. MPS is relevant even if you are not an active gym-goer since our bodies have a daily muscle protein turnover. Every day, you lose some muscle mass, and you need protein to make new muscle mass to ensure that you maintain consistent muscle mass.

To stay on the lower end of the muscle loss scale, spreading out your protein intake should be your focus.

When we ingest high-quality protein, MPS begins, and slowly but surely, new muscle starts growing. But, MPS has a ceiling. The synthesis is in action only up to a certain amount of protein, and then it stops. This doesn’t mean the rest of the protein remains unabsorbed—it is certainly converted into amino acids and used by the body, just not for muscle building. Distributing protein intake throughout the day can, then, enable more opportunities for muscle building without hitting a ceiling.

This balance gets all the more crucial as you age. Sarcopenia is a fancy-sounding word for the gradual, progressive loss of muscle mass and strength that is linked with old age. Someone in their 30s may think old age is still some distance away, but alas, biologically, it has already sneaked in. You lose about 3-8% of your muscle mass every decade after hitting 30. This muscle loss makes you frailer, and can even increase the risk of fractures. To stay on the lower end of the muscle loss scale, spreading out your protein intake should be your focus.

Also read: Protein’s seen and unseen benefits: How it affects metabolism, muscle repair

The connection between timing protein and exercise

Based on your health and lifestyle, other factors can help you adjust when to have protein, as well. For example, if you are looking to lose weight, then it might help to incorporate high-protein snacks like Greek yogurt instead of, say, biscuits, since they will keep you full for longer; this also ensures some of your protein intake happens outside of lunch and dinner. Remember, these high-protein snacks don’t have to be expensive; the quality of protein depends on its composition (does it have all essential amino acids?) and digestibility.

If you are someone who works out regularly, then incorporating protein during or right after your workouts is a good idea—it has been proven to reduce muscle soreness and fasten recovery.

If you are someone who works out regularly, then incorporating protein during or right after your workouts is a good idea—it has been proven to reduce muscle soreness and fasten recovery. If you are someone who rarely works out, you might find that exercise can help your protein goals. Any physical activity helps maintain muscle mass through a simple function. At any given moment, our muscles are being slowly broken down (muscle breakdown or catabolism) and being rebuilt again (muscle synthesis and anabolism), in the body. Muscle mass is maintained when the rate of muscle synthesis is higher than that of muscle breakdown—something that physical activity can ensure. Resistance and intensity training are the best ways to initiate anabolic or muscle building functions in the body. The muscle building benefits last for 24 to 48 hours post workout, and some studies have found that you could get the maximum benefits from consuming protein within two hours of your workout.

Also read: Why your body may not be optimising the protein you eat

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