Raw Milk Farmers

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Online Raw Milk Risk Management Training - February 10, 2021

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On February 10th, the Raw Milk Institute (RAWMI) will be presenting a 4.5-hour Raw Milk Risk Management training workshop. This presentation will be livestreamed online, so that means you could attend from your own location. The presentation will be part of the 2021 Ohio Ecological Food and Farm Association Conference (OEFFA).

About the Training

This RAWMI training day focuses on the benefits of raw milk, grass-to-glass identification of risks, development of a risk management plan, and lessons learned from other raw milk dairies.

We'll be providing lots of practical tips for the production of safe raw milk. This training has been shown to reduce outbreaks and illnesses, increase safety, and lower insurance costs.

There will be a couple long (1+ hour) breaks built into the schedule so that you can attend to other activities before re-joining the online class.

Registration Fees and Scholarships

The fee to attend this class is $75 for people who aren't members of the OEFFA.

We have $50 scholarships available if the cost is prohibitive for you. Email sarah@rawmilkinstitute.org if you want more info on how to apply for a scholarship.

How to Register

If you'd like to attend, the online registration form is here: https://conference.oeffa.org/registration/

Our class is listed under "Food and Farm School Classes." Hope to see you there!

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Kansas Raw Milk Micro-Dairy: Starting Small and Thinking Big

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Starting a Farm as Grandparents

Like many other raw milk farmers, Shelley and Matt Harding didn’t start out intending to farm.  Shelley has worked as an electrician, cosmetologist, and more recently as an educator for medical coding.  Matt has a background in criminal justice and construction, and is currently a machinist for the railroad.

Their kids were grown, and Shelley and Matt were settling into their role as grandparents. Yet something was missing. Shelley and Matt found themselves re-connecting with old dreams of having a small farm. So, they purchased some farm land where they could expand their garden and raise more chickens.

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But it wasn’t enough, especially for Matt.  He had fond memories of having a nurse cow and raising calves as a hobby during his teens and again in his twenties.  He recalled a certain peacefulness from spending time with his cattle. Now, decades later, Matt knew he wanted to have a cow again. But Shelley…

S&M Farm selfie

Shelley didn’t even *like* milk.  The taste and smell turned her off, and she’d had lactose intolerance symptoms for almost 20 years. Anytime she drank milk or milk products, she’d end up with abdominal cramping. Even still, Shelley knew how much it meant to Matt to have a cow again, so in the Spring of 2020 the Hardings brought home Miss Daisy, a pregnant Holstein heifer.

The Habit of Excellence

Shelley is a detail-oriented kinda person.  She naturally wants to do everything with excellence, and farming would be no different. If they were gonna have a cow and milk her, they were gonna do it right and do it well. Matt built a custom milking barn, and Shelley went to work on learning the ins-and-outs of safe raw milk.

With free mentoring from the Raw Milk Institute, the Hardings learned how to optimize their milking barn set-up, udder preparation, milking methods, bottling, and cleaning. They converted their basement into a milk bottling room, and worked hard to get the all of the details right.  

No More Lactose Intolerance or Allergies

But the milk… that was a big surprise for Shelley.  Miss Daisy’s raw milk didn’t smell or taste bad to Shelley like storebought milk had.  And Shelley didn’t have lactose intolerance symptoms with raw milk, either! 

Since she started drinking raw milk daily, Shelley no longer has gastrointestinal problems, and her seasonal allergies went away, too. No more allergy medications and no more sinus headaches. Raw milk helped their granddaughter overcome her allergies, too. The Harding’s experience aligns with scientific studies which have found that raw milk consumption is specifically associated with reduced rates of allergies.

Next Steps

Shelley and Matt’s S&M Farm is the newest dairy to be LISTED by the Raw Milk Institute.  They pride themselves on providing healthy, low-risk milk to a few families in Kansas.  Although Miss Daisy is their only cow for now, Shelley and Matt are already thinking about growing their dairy and building an on-farm lab for milk bacterial testing. The Raw Milk Institute welcomes S&M Farm to our community!

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Remembering the Walker-Gordon Dairy, an Innovator in Safe Raw Milk from 1897-1971

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Did you know that the science of producing safe raw milk was flourishing way back in the late 1800’s?  Read on for an interview with Dr Edward Tindall DVM, who worked at the Walker-Gordon Certified Raw Milk dairy in New Jersey.

Aerial view of Walker Gordon Laboratories and Dairy in Plainsboro, New Jersey.

Aerial view of Walker Gordon Laboratories and Dairy in Plainsboro, New Jersey.

Certified Medical Milk

Humans have had a long and successful history with raw milk for at least 10,000 years. Ancient peoples who consumed milk had a competitive advantage over those that did not have a steady source of readily available food, such that the reproductive capacity and/or survivability of ancient raw milk drinkers was substantially increased compared to non-milk-drinking populations.

After numerous millennia flourishing with raw milk, mankind’s relationship with raw milk took a wrong turn. By the mid-1800’s in America, some raw milk production had shifted away from farms and into highly-populated cities. Big cities did not have pastures or clean water, and the cows in city dairies were kept in filthy conditions with poor nutrition and poor animal health. Many of these cows were fed byproducts from alcohol distilleries, leading to illness in the cows. Raw milk had become a source of deadly diseases such as tuberculosis, typhoid, diphtheria, and scarlet fever. 

In the late 1800's, it was recognized that raw milk being produced in these conditions was dangerous, and two solutions were proposed.  Pasteurization was ushered in to address filthy conditions and unhealthy cows in cities.  It answered the question of how to commercialize dirty milk, rather than spending the time and energy it would take to produce clean milk from healthy cows. The other solution was to actually produce the milk in hygienic conditions with healthy animals.  

It was known that raw milk was a superior source of nutrition for infants and children, so the American Association of Medical Milk Commissions (AAMMC) was established in the late 1800's by Dr Henry Coit to ensure a supply of safe raw milk. The AAMMC was in operation for nearly a century, certifying medical raw milk for use in hospitals and for feeding infants and children.  

“The requirements of the New York Commission at that time were: ‘That the milk should contain 4 to 4.5 percent fat; that it should be free from pathogenic germs; and that the total number of bacteria should not be excessive. The milk was to be delivered in bottles and not over 24 hours old. It should be from healthy cows.”

~Walker-Gordon: One of a Kind

Walker Gordon’s Rotolactor in operation. School buses, tour buses, and families accounted for approximately 250,000 visitors annually.

Walker Gordon’s Rotolactor in operation. School buses, tour buses, and families accounted for approximately 250,000 visitors annually.

Walker-Gordon Dairy and Dr Edward Tindall DVM

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The Walker-Gordon dairy farm was a preeminent source of Certified Raw Milk for over 70 years.  Edward Tindall’s father worked at the Walker-Gordon farm, and he himself worked at the farm for several summers.  Edward went on to become a practicing veterinarian in New Jersey for nearly 40 years, and also developed implantable microchip technology for animals. The Raw Milk Institute is pleased to have Edward Tindall DVM on our Advisory Board.

In the late 1990’s, Edward co-authored a book about the Walker-Gordon farm titled Walker-Gordon: One of a Kind. Edward was kind enough to share more information about this extraordinary farm in a written interview. 

1.      Can you tell us about what made Walker-Gordon dairy farm so special?

Walker-Gordon was never intended to be just a dairy. The actual name was Walker-Gordon Laboratory Company, imprinted on their bottles and responsible for numerous innovations in the field of dairy. Among these were the first rotary centralized milking parlor, milking 1650 head. 50 cows were milked at a time (every 12 and a half minutes or one revolution) on the ʻRotolactorʼ.

The milk was immediately refrigerated, and if intended for the Philadelphia, New York or Boston market, shipped within hours from a refrigerated box car of the Pennsylvania Railroad on a siding adjacent to the milking parlor.

The cows were attended 24 hours a day by herdsmen in 50 cow barns with constant attention to keeping the cows bedded on fresh peanut shell bedding and groomed, with ever present fresh water on demand, fed grain and excellent alfalfa hay year-round.

Other innovations were the addition of irradiated yeast to feeding regimens to enhance vitamin D (prophylaxis against childhood rickets), production of acidophilous milk for enteric health, harvesting crops at prime time for storage regardless of weather conditions, use of byproducts (fecal waste) for garden fertilizers, artificial insemination, crop production by cooperative farms under control and supervision of central organization, and extensive record keeping of health and productivity of each cow.

Bottling was done immediately adjacent to the Rotolactor. The milk, "certified and unpasteurized," was not exposed to anything but sterilized stainless steel and glass.

Bottling was done immediately adjacent to the Rotolactor. The milk, "certified and unpasteurized," was not exposed to anything but sterilized stainless steel and glass.

 

2.     What production and milking practices were used to keep the milk safe for people?

Cleanliness was ever a constant protocol. The cows were pre-washed with warm water prior to entering the milking parlor. There they were toweled by attendants in white uniforms, attached to sterilized stainless steel milkers, and the milk fed to Pyrex glass containers and delivered through stainless steel pipes to the bottling plant adjacent to the milking platform.

All milking personnel had weekly examinations and throat cultures by the local physician. Milk was routinely cultured in an on-site laboratory for bacterial counts and pathogens.

 

3. Since you were employed there for a time, tell us about what you did and what it was like to work there?

My employment was several summers working on maintenance and the storage of alfalfa hay. During haying season the crop was harvested at prime time regardless of the weather. Chopped in the field, blown into stake bodied trucks and delivered to the massive dehydrators, it was compressed into 110 to 130 pound bales around the clock. Starting a 7:00 am, the hay was stored in large barns, often in 120 degree summer temperatures.

Hay being delivered to the dehydrator for preservation. In later years, it was chopped into more manageable size for compression and baling.

Hay being delivered to the dehydrator for preservation. In later years, it was chopped into more manageable size for compression and baling.

4.    What kind of milk did this dairy produce?

Walker-Gordon produced Grade A, whole milk, unpasteurized of the highest quality the industry has ever known, from its inception in the earliest years of the twentieth century until it stopped production in 1971.

“For those of us who grew up with the taste of fresh, really fresh, whole milk, unadulterated in any manner except to chill it ice cold, today’s milk is a sad replacement…

 The unequaled taste of an ice cold half pint of milk, the cream layered on the top, after working several uninterrupted hours in excessively hot temperatures… I have yet to equal that flavor…”

~Walker-Gordon: One of a Kind

5.     Who were the usual customers for this milk?

The customers were the general public locally, with home delivery, and public markets from Washington, DC to Boston, Ma. A renowned quality product hailed for freshness and longevity, it had a very loyal consumer base. President Franklin Delano Roosevelt, when traveling abroad by ship, insisted that Walker-Gordon milk and cream be available, on board, for the trip.

6.    What was the safety record of this dairy that operated for about 8 decades up until 1971?

The safety record of Walker-Gordon milk and milk products was above reproach and I can find no instances (nor have I heard of any) of any untoward or adverse instances of health problems or lawsuits. Safety of personnel was extremely good. Farm accidents are ever present and WG had some, but fewer than would be expected.

“Cheaper milk from the heartland of America, increased labor costs, higher taxes, wages, and insurances, difficulty in attracting farm labor, the sky-rocketing value of land, and pressure for housing for an increasing and increasingly affluent population all contributed to the demise of farming in general, in New Jersey and elsewhere, and in particular to Walker-Gordon with its emphasis on high quality, first and foremost.”

~Walker-Gordon: One of a Kind

7.     What future potential do you see for raw milk dairy farming?

Prognostications of the future of raw milk dairy farming is fraught with the same magnitude of variables as the future of the country. I would like to believe that the future is positive, for indeed, I can think of no more beneficial product than clean, wholesome, properly handled raw milk that is fresh from the cow and unaltered by pasteurization or other untoward handling.

The vicissitudes of government and the legal profession, swayed by propaganda and functioning under ignorance of biology and a mindset that excludes information that does not align with biased public opinion is a very large hurdle to clear. As long as there is a discerning public with the economic wherewithal to acquire a quality product, the market is assured. I admire the efforts of individuals such as Dr. Joseph Heckman and Mark McAfee that take up the torch, live and advocate the premise, and forward such a noble cause.

Paving the Way with Safe Raw Milk

The Walker-Gordon dairy was certainly an exceptional dairy. Walker Gordon’s eight decades of safe raw milk production are an imminent example of what can be achieved through dedication and innovation.  At its peak, the Walker-Gordon dairy was producing 6,500 gallons of milk daily. Through hygienic practices and regular bacteria testing of its milk, Walker Gordon dairy was able to provide safe raw milk for thousands of people over several generations.

The last Certified Medical Milk dairy in the USA was Alta Dena dairy in Los Angeles, California.  Alta Dena produced its last quart of raw milk in May of 1999. With the end of the American Association of Medical Milk Commissions and their certification of raw milk dairies, there was a great need for leadership in safe raw milk.

The Raw Milk Institute (RAWMI) was created to fulfill this need.  RAWMI teaches well-established scientific principles and good production methods to assist farmers in producing hygienic, safe raw milk. Through its LISTING program, RAWMI assists farmers in developing risk analysis and management plans (RAMP) for their unique farms. RAWMI’s Common Standards have set an international benchmark for bacterial testing of raw milk.

Edward Tindall’s book, “Walker-Gordon: One of a Kind” is available from Covered Bridge Press, 39 Upper Creek Road, Stockton, New Jersey 08559 at $25 dollars per copy, plus USPS shipping. Covered Bridge Press can be reached at 908-996-4420.

Walker-Gordon: One of a Kind. Book by Edward Tindall, DVM.

Walker-Gordon: One of a Kind. Book by Edward Tindall, DVM.

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New Raw Milk Research from the 2020 IMGC Symposium

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Takeaways from a RAWMI Farmer

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The 17th International Milk Genomics Consortium (IMGC) Symposium was held on October 13-16, 2020. This year’s conference was presented virtually, to an audience of more than 270 people from around the world. As a raw milk farmer and Chairman of the Raw Milk Institute (RAWMI), this was the 10th annual symposium that I have attended.  

Through attending these conferences year-after-year, I have developed many close relationships with university and PhD scientists.  Although the virtual format didn’t allow much in terms of one-on-one connections and conversations with researchers, nonetheless there were many fascinating presentations this year.  

This year’s conference focused on health impacts of milk, with particular focus on immune health, gut microbiome, and breastfeeding in relation to COVID-19. You can see a complete list of all presentations here. There were several presentations related to raw milk which I want to share with the raw milk community.  

University of California-Davis

University of California-Davis

Loss of Allergy-Protective Capacity of Raw Cow’s Milk After Heat Treatment Coincides with Loss of Immune Active Whey Proteins

Ling Xiong, Wageningen University and Research, Wageningen, The Netherlands 

This study “aimed at achieving a better understanding of the underlying mechanism between heat damage to whey proteins and allergy development.” Raw milk has been correlated with anti-allergenic benefits, and heat-sensitive whey protein has been hypothesized to contribute to these benefits. In this study, “raw cow’s milk was heated for 30 min at 50, 60, 65, 70, 75, or 80 °C [122, 140, 149, 158, 167, or 176 °F]… The allergy-protective effect of differently heated milk samples were tested in a murine OVA-induced food allergy model.” 

This study “tested the various heat-treated milk samples for their native protein profile and their allergy-protective capacity... the allergy-protective effect of raw cow's milk is lost after heating milk for 30 min at 65 °C [149 °F] or higher. This loss of protection coincided with a reduction in native immunologically active whey proteins.” 

Heat treatment at 65 °C or higher destroyed allergy-protective capacity of raw milk in murine OVA-induced food allergy model. Xiong, et al.

Heat treatment at 65 °C or higher destroyed allergy-protective capacity of raw milk in murine OVA-induced food allergy model. Xiong, et al.

The whey protein in raw milk provides protection from allergies, asthma, and inflammation.  When heated above 149 °F, these properties are dramatically reduced or eliminated. This finding is an important confirmation of the unique beneficial properties of whole, unprocessed raw milk. Raw dairy products such as cheese, butter, and strained yogurts would not be expected to have such strong anti-allergenic benefits because they do not contain whey. 

All across the world, when raw cheeses are made the raw whey is drained off and either discarded, used as a fertilizer, or fed to animals such as pigs.  Raw whey protein is arguably one of the most vital components in raw milk and it is literally treated as a waste byproduct. Some raw whey is made into powder and sold as a health product. Most of the whey protein powders on the market are not raw, but are highly pasteurized, spray dried, and oxidized. These widely available whey products no longer have the bioactivity found in the raw form.  

The new research on the anti-allergenic benefits of raw whey shows that, instead of being discarded, the whey left over from making cheese has great potential. Researchers called for innovation to bring raw whey protein to the market for the benefit of human health.  

B. infantis EVC001 Colonization in Breastfed Infants Modulates Cytokine Profile Linked to Autoimmune and Allergic Diseases

Bethany Henrick, Evolve Biosystems Inc., Davis, CA, USA 

This research at UC Davis has been studying the effects of Bifidobacteria infantis EVC001 on gut microbiome and immune health. “The intestinal microbiome plays a critical role in the development of the immune system…Stool samples were collected at Day 6 (baseline) and day 60 of life from exclusively breastfed infants (n=40) randomly selected to receive either 1.8 x 1010 CFU B. infantis EVC001 daily for 21 days starting Day 7 postnatal (EVC001) or breast milk alone (controls).

“Importantly, infants fed B. infantis EVC001 produced significantly decreased levels of [proinflammatory cytokines], while [beneficial cytokine considered to reduce autoimmune and allergic diseases] levels were significantly increased…

“These findings suggest a novel immunomodulatory function of B. infantis in breastfed infants… and further imply this strain of bacteria may [be]… critically important in the reduction of… autoimmune and allergic diseases.” 

The researchers have identified that Bifidobacteria infantis is critical to the training and development of T-Cells, which play a central role in the immune system. Historically, Bifidobacteria dominated the microbiome of breastfed infants. These beneficial bacteria actively train naive T-Cells into protective “Killer T-Cells.” This is foundational and is essential to the development of the newborn infant’s immune system. Under the current set of societal and nutritional conditions, Bifidobacteria in newborns are reduced due to limited breast feeding, use of baby formulas and antibiotics, and high C-section rates. This new research demonstrates that supplementation with Bifidobacteria is likely to improve infants’ immune systems. 

Image from Bethany Henrick’s Presentation at the 2020 IMGC Symposium

Image from Bethany Henrick’s Presentation at the 2020 IMGC Symposium

Evidence of a Significant Secretory-IgA-Dominant SARS-CoV-2 Immune Response in Human Milk Following Recovery from COVID-19

Rebecca Powell, Icahn School of Medicine at Mount Sinai, New York, NY, USA

Researchers studied breastfeeding mothers and infants during the peak of the New York City COVID-19 outbreak in early 2020. It was found that COVID-19 positive mothers did not transfer the virus to their babies. Tests of the breastmilk of COVID-19 positive mothers found that there is a strong “SARS-CoV-2 immune response [in the form of antibodies] in human milk after infection in the majority of individuals.” Breastmilk from COVID-19 positive mothers contains antibodies which can then confer protection against COVID-19 to their breastfed babies. Interestingly, the milk from COVID-19 positive mothers has been shown to continue to contain COVID-19 antibodies even months after the infection.  

This is one of nature’s protective gifts. Mammalian mothers protect their young through breast milk and antibody sharing. This important fact has also lead other researchers to consider the use of immune milk from cows as a therapeutic food.  It was hypothesized that, if cows were exposed to coronavirus during the last stages of pregnancy, the colostrum they produced after calving would contain coronavirus antibodies.  

My own RAWMI LISTED dairy (Organic Pastures Dairy Company) worked with IMGC and UC Davis researchers in early 2020 to test this hypothesis in a pilot study.  The cows were exposed to a bovine coronavirus in late pregnancy, and their colostrum and milk were then tested after calving. It worked! Antibodies to coronavirus were found in the colostrum and milk after calving. This study is now being expanded at UC Davis using their own cows. Further work needs to be done to better understand any potential impact of antibodies in milk on older children and adults, who do not have permeable guts like young infants do.  

 

Milk, Nose, Gut: Microbiomes in the CHILD Cohort Study

Meghan Azad, University of Manitoba, Winnipeg, Canada 

The CHILD Cohort Study (www.childstudy.ca) is a study of 3,500 Canadian families from pregnancy onwards to understand the developmental origins of chronic diseases. This study has shown that breastfeeding and vaginal birth are associated with reduced risks of childhood asthma and obesity. These beneficial effects appear to be partly mediated by the infant gut microbiome, which is seeded with beneficial bacteria in the birth canal as well as through breastfeeding. Current research is focused on understanding “how breastfeeding practices and breast milk components (including bacteria, fungi, oligosaccharides, fatty acids, hormones and cytokines) shape the developing infant nasal and gut microbiomes and contribute to health and disease trajectories.”   

Raw milk from other mammals has been correlated with many of the same benefits as human breast milk. Like breast milk, raw milk contains a wide array of essential nutrients, fats, proteins, anti-inflammatory and digestive enzymes, bioavailable vitamins, and minerals, all in a natural form which is most easily utilized by the body.  

Image from Meghan Azad’s Presentation at the 2020 IMGC Symposium

Image from Meghan Azad’s Presentation at the 2020 IMGC Symposium

Difference in Levels of SARS-CoV-2 Spike Protein- and Nucleocapsid-Reactive SIgM/IgM, IgG and SIgA/IgA Antibodies in Human Milk

Veronique Demers Mathieu, Medolac Laboratories/University of Massachusetts Amherst, USA 

Researchers from the University of Massachusetts sought gain an understanding of the “presence and the levels of [COVID-19] antibodies” in breast milk. The researchers measured the amounts of various types of COVID-19 antibodies in breast milk samples from 41 women during the pandemic. They found that women who “had symptoms of viral respiratory infection during the last year” had higher levels of certain types of COVID-19 antibodies than women who had experienced no viral respiratory symptoms in the last year.  Heat treatment of the breast milk at 100°C (212 °F) for 30 minutes “completely inactivated” the antibodies. The researchers concluded that, “The presence of SARS-CoV-2-reactive antibodies in human milk could provide passive immunization to the breastfed infants.” 

This research has confirmed that antibodies are completely destroyed through heat treatment of milk. Breast milk must be raw in order to provide antibody protection to infants. This same science applies to raw milk from other mammals.

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Closing Remarks

The symposium ended with closing remarks by Dr. Bruce German and Dr. Jennifer Smilowitz from UC Davis. They discussed two important upcoming needs in the community of scientific research about milk:

  1. Defining breast milk as the keystone research target of 21st Century for the public research funding agencies of the world, and

  2. Positioning food as the first line of defense for nourishment and therapeutics in emerging infections of public health impact. 

In other words, raw milk is considered to be the most important area of research going forward. This is because raw milk contains the bioactive genomic secrets of life, and to a large degree determines how well the immune system and gut microbiome will function. When the science of raw milk is better understood, human health will be improved and more illnesses will be prevented. 

In summary, this conference confirmed the following.  

  • Raw milk is a whole bioactive superfood that nourishes and builds the immune system.

  • Heat destroys the bioactive elements in raw milk that impart health benefits.

  • Raw whey is a new market opportunity, yet innovation will be required because the FDA forbids sale of raw whey. Safe raw whey must be produced in the same ways that safe raw milk is produced.

  • Raw breast milk provides protection against COVID-19 to breastfeeding infants. There is a need for more research into the immune-protective benefits of raw milk from other mammals.

 

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Why Raw Milk Standards Matter

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Back in 2011 before the Raw Milk Institute (RAWMI) was formed, there were no universal standards for safe raw milk production. Consumer demand for raw milk was expanding, as people learned about the health benefits of raw milk as well as the negative effects of pasteurization. There was a growing body of evidence that children who drink raw milk have decreased rates of asthma, allergies, eczema, ear infections, fever, and respiratory infections. Whereas pasteurized milk is a top food allergen and difficult to digest, raw milk is actually a health-supporting food with rich therapeutic potential that is easily digested by most consumers. Yet, standards for raw milk varied widely from state to state and country to country. 

The occasional foodborne illness outbreaks that could be tied to raw milk continued to tarnish raw milk’s reputation.  And worse yet, some of these outbreaks actually led to life-threatening illnesses. As raw milk’s popularity grew, it was being consumed by a wider segment of the population including immune-compromised people. Whereas average healthy people are likely to have relatively mild symptoms from exposure to foodborne pathogens, immune-compromised people are more likely to have severe symptoms.

Perfectly Safe Food?

It is important to note that there is no such thing as a perfectly safe food. A CDC analysis of foodborne illnesses from 2009-2015 showed that the top food categories commonly linked to illnesses were chicken, pork, and seeded vegetables. Multi-state foodborne illness outbreaks have been linked to foods ranging from unpasteurized apple juice to ground beef to soy nut butter to lettuce.

Pasteurized milk is not perfectly safe, either, and is implicated in foodborne illnesses and outbreaks every year.  Although a wide range of foods including meats and vegetables are known to have the potential for causing foodborne illnesses, only raw milk is targeted by government regulators as a food to be completely avoided. Countries such as Canada and Australia currently have complete bans on raw milk.

Raw Milk Institute Method for Safe Raw Milk

The Raw Milk Institute was founded in 2011 to advance the cause of safe raw milk.  The numerous health benefits of raw milk make it an essential food, which is too important to be allowed to be systematically suppressed by regulators and government agencies. RAWMI sought to better understand the important factors in ensuring that raw milk was safe to consume.

In 2011-12, RAWMI brought together a diverse international group with the purpose of establishing standards for safe raw milk. This group included medical doctors and epidemiologists, nutritional consultants, veterinarians, food safety scientists, raw milk farmers, and raw milk consumers. This collaborative group developed the Raw Milk Institute Common Standards, which were initially released in 2012. 

The RAWMI Common Standards describe a three-pronged approach for the production of safe raw milk which consists of:

  • Farmer training and mentoring

  • Risk Analysis and Management Plan (RAMP) for the unique conditions on each individual farm

  • Stringent yet achievable bacterial test standards for coliforms and Standard Plate Count (SPC)

The Common Standards Work!

Since their release in 2012, the RAWMI Common Standards have become a foundational part of low-risk raw milk production across North America. When farmers are well-trained, use careful production practices as laid out in their individual RAMP, and perform ongoing bacterial testing of their milk, they can produce raw milk that is ultra-low-risk.

Researchers from Canada and Europe have studied the safety of raw milk intended for direct human consumption, and have specifically considered milk from farms who implement the RAWMI Common Standards. They have found that carefully produced raw milk is a low-risk food which is fundamentally different from pre-pasteurized milk. The implementation of the RAWMI Common Standards has led to a significant reduction in raw milk-related illnesses and outbreaks.

The table below contrasts pathogen test data from pre-pasteurized milk vs. raw milk intended for direct human consumption.  As illustrated in the table, pathogen testing of pre-pasteurized milk samples has detected pathogens in up to 33% of samples.  In contrast, there were zero pathogens detected in thousands of milk samples from raw milk intended for direct human consumption. It is clear from this test data that pre-pasteurized milk is categorically different from raw milk intended for direct human consumption.

Common Standards and RAMP 2020 Update

Knowledge about safe raw milk is continually advancing. With the review of the RAWMI Advisory Board and LISTED farmers, the RAWMI Common Standards and RAMP have recently been updated to include the latest information about best practices in raw milk production. The updated Common Standards and RAMP are also now inclusive of other dairy animals such as goats and sheep. The 2020 Common Standards and RAMP are available here:

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Soil Fertility and Pastures for High Quality Raw Milk

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Feeding dairy animals on green sunny pastures is the preferred way to produce raw milk.  Paddock rotations that provide a daily cycle of movement to fresh, sunny, green pastures provides an ideal environment for keeping dairy animals healthy, clean, and producing high-quality raw milk.  In many cases when dairy farmers transition from an industrial confinement feeding model to a pasture-based feeding system, they are pleased to find that animal health often improves.  

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Soil fertility and rotational grazing are of prime importance to pasture management.  Fertile soil is the main source for minerals taken up by the forage plants which dairy animals graze upon.  Soils supplied with calcium and phosphorus fortify milk with these minerals which are needed by people to build strong bones.     

Besides soil being a source for mineral enrichment of milk, a substantial body of scientific literature reports that milk produced by animals on pasture has enhanced nutritional properties compared to milk produced by confinement operations.  Milk produced during the grazing season has a more favorable ratio of omega-3 to omega-6 fatty acids.  Pasture raised milk also has higher levels of conjugated linoleic acid and fat-soluble vitamins that are beneficial to human nutrition.      

Whether soil fertility is managed or neglected can also influence the health of dairy animals.  Sometimes pasture lands are neglected and not managed to optimize soil fertility, forage quality, and health and productivity of grazing animals.  For example, an imbalance of the minerals calcium, magnesium, and potassium in soils can put animal health at risk.  When soil pH management and liming are neglected weedy plant species may be favored over the more nutritious leguminous forage species preferred by dairy cows.     

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To produce raw milk of the highest quality, producers should make observations as they walk over the pastures grazed by dairy animals.  In weedy pastures where more desirable forage species are failing to thrive, it may be a sign of poor soil fertility or other mismanagement.  Soil sampling and testing for soil fertility status can be performed to help diagnose reasons for poor pasture performance.  Even on seemingly well performing pastures, regular soil fertility sampling and testing should be done about every three years to monitor soil pH and fertility status. 

A new publication Soil Fertility Recommendations for Pastures is now available online from Rutgers University, New Jersey Agriculture Research Station (E364 Soil Fertility Recommendations for Pastures. Heckman, J. https://njaes.rutgers.edu/e364 ).  Although this publication was specifically designed for New Jersey much of the information is universal.  The main soil fertility guidelines are most applicable to Eastern and Midwestern states. Higher levels of precipitation in the Eastern states cause nutrients to leach and acidify the soil.  This increases the need to apply limestone more frequently. 

In other regions, soil fertility needs, and testing procedures may be different and based on the local geological and climatic conditions.  For instance, soils in the arid Southwest tend to be alkaline and as such the pastures may benefit from acidifying soil amendments. Also, different climatic regions may grow different forage species.  To account for regional differences, farmers should consult with local expertise for soil fertility recommendations. 

In summary, producers of fresh unprocessed milk are encouraged to make the best use of pastures as a major feed source during the grazing season.  When the soil fertility conditions are optimized for the health and productivity of dairy animals, farmers will be able to provide customers with nutritious dairy products of the highest quality.              

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Antibiotic Resistant Genes in Raw Milk - What Does the Data Really Mean?

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Government-Funded Study Finds ZERO Pathogens in Raw Milk Samples!

That’s what the headlines should have read.

Instead, the study was titled, “Reservoirs of antimicrobial resistance genes in retail raw milk” [1]. The study, funded by the National Institutes of Health (NIH) and the United States Department of Agriculture (USDA), was not able to find any pathogens in raw milk. So instead they focused on trying to create fear of antibiotic resistant genes which were found to proliferate when raw milk was allowed to sit at room temperature for hours.  

Antibiotic Resistant Genes are Ubiquitous

Antibiotic resistant genes are everywhere. They’ve been found in every environment, including pristine habitats that have been virtually untouched by humans such as Antarctica [2, 3].  They’re even found in the dust of buildings [4].

“Antibiotics are ancient, dating back hundreds of millions of years. Resistance is therefore equally ancient, and the number of genes in the resistome is a reflection of the continuous co-evolution of small molecules in natural environments and microbial genomes.”  

-Gerard Wright, Nature Reviews Microbiology 2007 [3]

Given that they are ubiquitous in the environment, it is no surprise that there are antibiotic resistant genes in many foods [5]. Breast milk, too, contains antibiotic resistant genes carried on bacteria found in the raw breast milk [6].

Breastmilk and Antibiotic Resistant Genes

Researchers in Helsinki found that, even though breast milk contains antibiotic resistant genes, babies who were breast fed actually have less antibiotic resistant genes in their guts than babies who weren’t breastfed or who terminated breastfeeding early [7].  Researchers attribute this benefit to the fact that breastmilk promotes the growth of beneficial bacteria such as bifidobacteria, which can then outcompete the bacteria carrying antibiotic resistant genes. Like breast milk, cow’s milk has also been shown to support the growth of bifidobacterial [8]. 

Potential Dangers of Antibiotic Resistant Genes

Antibiotic resistant genes can pose potential health threats in specific circumstances. When antibiotics are taken, the intestinal microbiome is disrupted as both beneficial and harmful bacteria are killed off. This weakens our immune systems overall [9]. If there are antibiotic resistant bacteria present in the gut, taking antibiotics actually allows these bacteria to proliferate in the absence of competing bacteria. There can then be infection or illness which is not able to be respond to antibiotics. Antibiotic resistance is now responsible for the deaths of tens of thousands of people every year in the USA alone [10].

For example, C. diff. colitis (clostridium difficile colitis) is infection of the colon that results from disruption of the healthy bacteria in the gut, usually as a result of taking antibiotics. C. diff. can cause diarrhea, abdominal pain, fever, bloody stools, kidney failure, and even death. One of the best treatment options for severe C. diff. infections is fecal transplant. Severely ill C. diff. patients have a 92% cure rate from fecal transplants, which provide a healthy flush of poop from a healthy human donor into the colon [11]. The fecal transplant recolonizes the gut with healthy bacteria.

Zero Pathogens in Raw Milk Samples

Coming back to the study funded by the NIH and USDA [1], researchers found that antibiotic resistant genes proliferated in raw milk that was allowed to sit at room temperature for hours.  Their research showed that raw milk which was kept refrigerated had low levels of antibiotic resistant genes.  What this actually demonstrates is that raw milk from around the country is being produced very cleanly, resulting in low bacteria counts.

Most of the potential beneficial bacteria to be found in milk is from either fecal or soil origin. Yes…dirt is very good for you and a little poop does not hurt either [12]. It has long been understood that living in a farm environment has substantial health benefits over living in urban environments [13]. However, in our modern world with immune-compromised consumers, the raw milk standards have had to change.

For raw milk to be legal for sale and safe for the general public (including immune-compromised people), it must be very hygienic. It can no longer have dirt or poop in it. So, all that is left is clean, delicious, safe raw milk from deep inside the cow’s or goat’s udder. The government-funded study tested retail raw milk samples and they found ZERO pathogens! This should be celebrated as true progress towards farm cleanliness and testing.

“[Raw] milk samples in the present study were screened for Listeria spp., Salmonella enterica, and E. coli O157:H7. None were detected.”

-Liu et al. Microbiome 2020 [1]

Fermenting Raw Milk

For thousands of years, people have known how to ferment or “clabber” raw milk by simply leaving it at room temperature instead of refrigerating it.  In the absence of refrigeration, traditional cultures often consumed raw milk in fermented form [14]. Such milk would have contained ample beneficial lactic acid bacteria from the small amounts of dirt or manure that would have been present on the udders and teats of the milk animals, and would therefore quickly ferment at room temperature. 

In modern times, people have largely lost their taste for spontaneously fermented, sour raw milk. Raw milk farmers and consumers aim to maintain the sweet flavor of fresh milk as long as possible. The farmers do this by thoroughly cleaning the udders and milking equipment to ensure the milk will have low bacteria counts [15], as well as by rapidly chilling the milk and keeping it cold.  Consumers, too, work to make sure their raw milk is kept cold, even during transport.  Keeping raw milk cold allows it to retain its sweet taste and gives it a longer shelf life.

One useful point of information from the government-funded study was the finding that “spontaneous fermentation does not grow beneficial lactic acid bacteria”. This means that the very clean, low-bacteria count raw milk which is currently available in the USA may not ferment very well in the traditional way. The flavor of spontaneously fermented raw milk is not generally palatable to the modern raw milk consumer. Thus, most raw milk consumers actually work to make sure that their raw milk does not ferment and stays fresh and sweet.

Generally, raw milk consumers who intentionally ferment their milk will do so by adding beneficial bacteria such as yogurt starter or kefir grains. Kefir, in particular, is associated with a wide number of health benefits including lower blood pressure, decreased insulin resistance, tumor suppression and prevention, and improved composition of the gut microbiota [16-19].

The Bottom Line

The NIH and USDA-funded study found no pathogens in raw milk. This is further confirmation of the findings published in the January 2020 Journal of Epidemiology and Infection which concluded that “raw milk can be produced with a high level of hygiene and safety” [20].

The government-funded study focused on antibiotic resistant genes which can proliferate in raw milk that is left at room temperature for hours. However, it is no surprise that raw milk, like breastmilk and many other foods, contains antibiotic resistant genes. The presence of antibiotic resistant genes is not an issue unless the balance of good bacteria in the gut gets disrupted. Both breastmilk and raw milk are known to promote the growth of beneficial bacteria such as bifidobacteria. The study completely ignored the growing body of evidence that has shown that children who drink raw milk have decreased rates of asthma, allergies, eczema, ear infections, fever, and respiratory infections [21-23].

The best way to beat antibiotic resistant bacteria is to protect and nourish the biodiverse bacteria in the gut. You can do this by avoiding antibiotics and processed foods, which damage the gut and immune system [24, 25]. Instead, eat plenty of whole foods such as raw milk, milk kefir, grassfed beef, eggs, and fresh or fermented vegetables and fruits to feed the beneficial bacteria in the gut and allow it to thrive [26].

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References

[1] Liu, J., Zhu, Y., Jay-Russell, M. et al. (2020) Reservoirs of antimicrobial resistance genes in retail raw milk. Microbiome 899 (2020). https://doi.org/10.1186/s40168-020-00861-6

[2] Durso LM, Miller DN, Wienhold BJ (2012) Distribution and Quantification of Antibiotic Resistant Genes and Bacteria across Agricultural and Non-Agricultural Metagenomes. PLOS ONE 7(11): e48325. https://doi.org/10.1371/journal.pone.0048325

[3] Wright, G. (2007) The antibiotic resistome: the nexus of chemical and genetic diversity. Nat Rev Microbiol 5175–186 (2007). https://doi.org/10.1038/nrmicro1614

[4] Ben Maamar S, Glawe AJ, Brown TK, Hellgeth N, Hu J, et al. (2020) Mobilizable antibiotic resistance genes are present in dust microbial communities. PLOS Pathogens 16(1): e1008211. https://doi.org/10.1371/journal.ppat.1008211

[5] Fogler K, Guron GKP, Wind LL, Keenum IM, Hession WC, Krometis L-A, Strawn LK, Pruden A and Ponder MA (2019) Microbiota and Antibiotic Resistome of Lettuce Leaves and Radishes Grown in Soils Receiving Manure-Based Amendments Derived From Antibiotic-Treated Cows. Front. Sustain. Food Syst. 3:22. doi: 10.3389/fsufs.2019.00022

[6] Pärnänen, K., Karkman, A., Hultman, J. et al. (2018) Maternal gut and breast milk microbiota affect infant gut antibiotic resistome and mobile genetic elements. Nat Commun 93891. https://doi.org/10.1038/s41467-018-06393-w

[ 7] Ravindran S. (2019) Breastfeeding May Help Protect Babies from Antibiotic-Resistant Bacteria. SPLASH! milk science update: January 2019 Issue. https://milkgenomics.org/article/breastfeeding-may-help-protect-babies-from-antibiotic-resistant-bacteria/

[8] Rova S, Rada V, Marsik P, Vlkova E, Bunesova V, Sklenar J, Splichal I. (2011) Growth of bifidobacteria and clostridia on human and cow milk saccharides. Anaerobe 17(5). https://doi.org/10.1016/j.anaerobe.2011.07.009.

[9] McAfee M, Smith S. (2020) Immunity, the Immune System, and Raw Milk. Raw Milk Institute website. https://www.rawmilkinstitute.org/updates/immunity-the-immune-system-and-raw-milk

[10] Centers for Disease Control and Prevention. (2019) More People in the United States Dying from Antibiotic-Resistant Infections than Previously Estimated. CDC website. https://www.cdc.gov/media/releases/2019/p1113-antibiotic-resistant.html

[11] Brandt L. J. (2012). Fecal transplantation for the treatment of Clostridium difficile infection. Gastroenterology & hepatology, 8(3). https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3365524/

[12] Akst, J. (2020) The influence of soil no immune health. The Scientist website. https://www.the-scientist.com/news-opinion/the-influence-of-soil-on-human-health-66885

[13] Wells, AD, Poole JA, and Romberger DJ. (2014) Influence of farming exposure on the development of asthma and asthma-like symptoms. International immunopharmacology, 23(1), 356–363. https://doi.org/10.1016/j.intimp.2014.07.014

[14] Levi, J. (2014) The Smoke Cured Fermented Milk of the Samburu. Presentation at Wise Traditions London 2014. https://westonaprice.london/videos/samburu/

[15] Smith, S. (2020) Udder Preparation for Raw Milk. Raw Milk Institute website. https://www.rawmilkinstitute.org/updates/udder-preparation-for-raw-milk

[16] Bourrie BC, Willing BP, and Cotter PD. (2016) The Microbiota and Health Promoting Characteristics of the Fermented Beverage Kefir. Frontiers in microbiology, 7, 647. https://doi.org/10.3389/fmicb.2016.00647

[17] Bellikci-Koyu E, Sarer-Yurekli BP, Akyon Y, Aydin-Kose F, Karagozlu C, Ozgen AG, Brinkmann A, Nitsche A, Ergunay K, Yilmaz E, and Buyuktuncer Z. (2019) Effects of Regular Kefir Consumption on Gut Microbiota in Patients with Metabolic Syndrome: A Parallel-Group, Randomized, Controlled Study. Nutrients, 11(9), 2089. https://doi.org/10.3390/nu11092089

[18] Guzel-Seydim ZB, Kok-Tas T, Greene AK, Seydim AC. (2011) Review: functional properties of kefir. Crit Rev Food Sci Nutr. 51(3):261-268. doi:10.1080/10408390903579029

[19] de Oliveira Leite AM, Miguel MA, Peixoto RS, Rosado AS, Silva JT, and Paschoalin VM. (2013) Microbiological, technological and therapeutic properties of kefir: a natural probiotic beverage. Brazilian journal of microbiology : [publication of the Brazilian Society for Microbiology], 44(2), 341–349. https://doi.org/10.1590/S1517-83822013000200001

[20] Berge AC, Baars T. (2020) Raw milk producers with high levels of hygiene and safety. Epidemiology and Infection. 148:e14. doi:10.1017/S0950268820000060

[21] Loss G, Apprich S, Waser M, Kneifel W, Genuneit J, Büchele G, Weber J, Sozanska B, Danielewicz H, Horak E, Joost van Neerven RJ, Heederik D, Lorenzen PC, von Mutius E, Braun-Fahrländer C; GABRIELA study group. (2011) The protective effect of farm milk consumption on childhood asthma and atopy: The GABRIELA study. Journal of Allergy and Clinical Immunology. 128 (4): 766-73. https://www.jacionline.org/article/S0091-6749(11)01234-6/fulltext

[22] Perkin MR and Strachan DP. (2006) Which aspects of the farming lifestyle explain the inverse association with childhood allergy? Journal of Allergy and Clinical Immunology. 2006; 117 (6):1374-81. https://www.jacionline.org/article/S0091-6749(06)00651-8/fulltext

[23] Loss G, Depner M, Ulfman LH, Joost van Neerven RJ, Hose AJ, Genuneit J, Karvonen M, Hyvärinen A, Kaulek V, Roduit C, Weber J, Lauener R, Pfefferle PI, Pekkanen J, Vaarala O, Dalphin JC, Riedler J, Braun-Fahrländer C, von Mutius E, Ege MJ; PASTURE study group. (2015) Consumption of unprocessed cow's milk protects infants from common respiratory infections. Journal of Allergy and Clinical Immunology.  135 (1): 56-62. https://www.jacionline.org/article/S0091-6749%2814%2901274-3/fulltext

[24] Watanabe K, Gilchrist CA, Uddin J, Burgess SL, Abhyankar MM, Moonah SN, Noor Z, Donowitz JR, Schneider BN, Arju T, Ahmed E, Kabir M, Alam M, Haque R, Pramoonjago P, Mehrad B, Petri WA. (2017) Microbiome-mediated neutrophil recruitment via CXCR2 and protection from amebic colitis. PLOS Pathogens; 13 (8): e1006513 DOI: 10.1371/journal.ppat.1006513

[25] Paula Neto HA, Ausina P, Gomez LS, Leandro JGB, Zancan P, Sola-Penna M. (2017) Effects of Food Additives on Immune Cells As Contributors to Body Weight Gain and Immune-Mediated Metabolic Dysregulation. Front Immunol.8:1478. doi:10.3389/fimmu.2017.01478

[26] McAfee M. (2020) Build Immune System Strength With Whole Foods: Drink Raw Milk! Raw Milk Institute website. https://www.rawmilkinstitute.org/updates/whole-foods-build-immune-system-strength

Michigan Raw Milk Farmer on a Mission to Heal

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We’re giving a big “Welcome!” to Michigan’s Six S Dairy, the 21st farm to become LISTED by the Raw Milk Institute. Jenny and Brent Skelonc, along with their four children, have been farming at Six S Dairy since 2008. They produce raw milk as well as pasture-raised beef, pork, chicken and eggs.

Farming to Improve Their Family’s Health

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Jenny and Brent embarked on farming after their youngest daughter was born with a rare genetic syndrome. In striving to give their daughter the best possible health, Jenny and Brent realized that living on a farm would be the healthiest environment for her. Indeed, multiple studies have shown that living on a traditional farm is healthier for kids, and is associated with lower rates of asthma and allergies. The Six S Dairy revolves around raising their animals well, with plenty of pasture, fresh air, and sunshine.

Living on a farm sets the stage for better health, and being nourished by well-produced farm fresh foods is even more critical. In making it a priority to keep their youngest daughter healthy, the whole family switched to a nutrient-rich real food diet centered around fresh foods from their own farm. In doing so, they experienced obvious health improvements including better immune systems.

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Raw Milk Heals

Once the Skelonc family started producing and drinking raw milk in 2017, they saw that their twins’ 14-year battle with severe eczema ended almost instantly! Their experience confirms the studies which have shown that raw milk consumption is specifically associated with reduced rates of eczema.

Dedication to Low-Risk Raw Milk

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Six S Dairy operates as a herdshare in Sand Lake, Michigan, providing raw milk to dozens of families every week. Six S Dairy takes the safety of their raw milk seriously.  Having been mentored by Edwin Shank from The Family Cow dairy in Pennsylvania, Six S Dairy has their own on-farm lab where they can test their raw milk to ensure it is being produced in a way that discourages pathogen growth. They test their milk every day to ensure it has low bacterial counts.

Six S Dairy has worked diligently to become LISTED by the Raw Milk Institute by developing their own Risk Analysis and Management Plan. They will be a great addition to the Raw Milk Institute’s community of dedicated farmers.

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Udder Preparation for Raw Milk

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Raw milk that is carefully and intentionally produced for direct human consumption is a low-risk food.  Udder preparation is one of the most important steps for producing clean, safe raw milk. If you don’t properly clean the udders and teats, dirt and manure contamination can contribute pathogenic bacteria into the milk. With proper cleaning and preparation of the udders and teats, the risk of pathogenic bacteria in the milk is dramatically reduced.

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Manage the Environment

Got dirty, muddy udders? If so, that’s a sign that your farm conditions have some room for improvement. If you manage the farm environment properly, that will go a long way towards ensuring that your animals’ udders are fairly clean before even stepping into the milking parlor. The following are some important environmental factors to manage.

Clean and Dry Resting Places

If your animals are given a relatively clean and dry place to rest, they will be less likely to get filthy on a regular basis. Your individual farm will have its own unique challenges depending on the weather and landscape. Some examples of optimal resting areas are well-managed rotational pastures, compost bed packs in the barn, or other areas that are high, dry, and shaded.

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Calves and Kids

Be aware that your animals’ offspring (calves, kids, etc.) can be a source of pathogens. Just like human babies, these animal babies explore the world with their mouths and can then directly transfer harmful bacteria to the udders. Animal babies have immature immune systems and are also more likely to harbor pathogens themselves. For low-risk raw milk production, ideally the calves/kids will be bottlefed and not allowed access to their mother’s udders. 

Chickens, Pigs, and Other Livestock

Poultry and livestock on the farm can be sources of pathogens as well.  For instance, if a cow lies down in a pasture with fresh chicken manure, her udders can become contaminated with salmonella or campylobacter pathogens. Ideally, the milk animals should be kept separately from other animals to reduce the pathogen risk.

Poultry should not be allowed into the milking parlor. Some raw milk farms choose to purposely rotate their chickens through the pastures after the cows/goats have moved through the pasture to ensure they are not sharing the space simultaneously.  If your chickens do share pastures with your milk animals, extra care will need to be taken to ensure the udders are properly cleaned before milking.    

Hair Management

Depending on the animal, there may be excess hair around the udders and teats. This hair can make it more difficult to properly clean the area before milking.  Regularly trimming the hair is one method for ensuring that proper cleaning can be achieved.

Additionally, the long tails on cows can become a source of contamination during milking when the cow switches her tail. Trimming the hair at the end of the tail is a good method for reducing this risk.  

Manure Management

Manure in the milking parlor can become a source of pathogen contamination, especially for cows which have much messier manure than goats and sheep. The milking parlor should be cleaned of manure on a daily basis before, during, and after milking. Giving cows a brief standing period or walk before leading them into the milking parlor is another method for reducing the amount of manure in the milking parlor.

Pre-Milking Udder Preparation

The end goal of udder preparation is for the udder to be clean and dry at the time of milking. A basic procedure to achieve this is as follows.

1.       Clean the udder and teats

2.       Pre-dip each teat in an iodine- or hydrogen peroxide-based teat dip

3.       Wipe off the teat dip

4.       Strip each teat and inspect the milk

5.       Apply the milking machine

6.       After milking, apply iodine-based post-dip to each teat

Each farm has its own unique challenges. There is no one procedure that will work perfectly for all farmers at all times. Here are some specific pointers that may help you in developing your own best udder preparation procedures.

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Clean the Udder and Teats

If the udder and teats are very dirty, such as caked with mud or manure, you may need to do a wet soapy wash of the area first. There is no need to wet down the whole animal, as that will make it more likely for contamination to drip down onto the udders. Remember that wetness will allow bacteria to migrate from one area to another, and any bacteria is likely to end up at the low point which is the teats. If you must wash the udder and teats, make sure to dry them well before proceeding with the damp cloth wiping steps below. 

If the environment has been managed well, the udder and teats will probably be relatively clean when the animal enters the milking parlor. Use a clean, damp cloth to wipe off the teats and udder. Make sure to wipe from the teats outward, so that the teats are the cleanest parts. Using white cloths will allow you to easily see whether there is still any dirt or filth coming off the teats/udder.

Make sure to use a new cloth for each animal, and you may even need to use multiple cloths per animal to make sure the teats are well-cleaned. Have a separate bucket to place the soiled cloths into, so they don’t contaminate the clean cloths.

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Pre-dip Teats in Iodine- or Hydrogen Peroxide-Based Teat Dip

After cleaning the udder and teats, pre-dip the teats. Both iodine and hydrogen peroxide-based teat dips are approved for organic milk production.

Iodine-based teat dips have been used successfully since the 1960’s and have a longer shelf life than hydrogen peroxide-based dips. Because iodine-based teat dips have a thicker consistency, care needs to be taken to ensure that the pre-dip is properly wiped off before milking. Iodine-based teat dips are currently quite expensive.

Hydrogen peroxide-based teat dips are much less expensive than iodine-based dips, but they also have somewhat less effectiveness in preventing mastitis. Hydrogen peroxide-based teat dips have a thinner consistency and thus can work well in spray applications. Care needs to be taken to ensure that the spray is applied to all sides of the teats.

Make sure to leave the pre-dip on for at least 30 seconds so that it has appropriate time to sanitize the teats. Beware not to dip dirty udders into your teat dip, else you may end up contaminating the whole cup! 

Once the teat dip has been on for at least 30 seconds, wipe off the teat dip with a clean, dry cloth.

Dip Then Strip, or Strip Then Dip?

It does not appear to matter whether you strip the teats and then pre-dip, or dip first and then strip the teats. Data from the National Mastitis Council has shown that there is “no significant difference in the monthly rate of clinical mastitis, new subclinical cases or milk per cow per day" whether the teats are stripped-then-dipped or dipped-then-stripped. Either way, the important thing is to build consistency and stick with your procedures. 

Strip Each Teat and Inspect the Milk

Using clean or gloved hands, manually strip a few squirts of milk out of each teat. Inspect the milk for any signs of coagulation, stringiness, blood, etc. If there is anything abnormal, the milk is best discarded or used for some other purpose rather than direct human consumption.

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Apply the Milking Machine

Once the teats have been cleaned, dipped, stripped, and dried, you are ready to apply the milking machine. Manage the milk claws such that they never touch the ground, and are quickly applied to the teats once the vacuum is turned on.

After Milking, Apply Iodine-Based Post-Dip

Once the milking is done, apply an iodine-based post-dip to the teats. This will help to seal the teat orifice against bacteria. Try to ensure that the animals remain standing for at least 30 minutes after applying the post-dip; this will allow the dip to fully dry before there is any potential contamination from lying down.

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Example Udder Prep Video

Here is a video example of udder preparation, so you can see some of the principles of proper udder preparation in action. Remember that each farm is unique, and there is no solitary procedure that will work perfectly for all farmers at all times.

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Advice for Farmers Considering the Switch to Raw Milk

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In today’s unpredictable world, many dairy farmers are interested in selling raw milk. Due to the domino-effect of changes in the supply chain due to COVID19, many dairy farms are having to dump their milk. The dairy processing industry which was previously supplying milk to schools and restaurants cannot rapidly adapt to bottling and delivering milk for retail sales. Selling raw milk may seem like a good alternative to many of these dairy farms, but in actuality this would be a complex change requiring a large amount of forethought and precaution.

Demand for raw milk is increasing in recent years as consumers learn about raw milk’s significant health benefits. Raw milk consumption has been correlated to decreased rates of asthma, allergies, eczema, ear infections, fever, and respiratory infections. Raw milk consumption has also been correlated with improved lung health, and many consumers who are lactose intolerant can actually consume raw milk with no problems.  Plus, raw milk tastes great! Raw milk’s deliciousness is one of the main drivers for why consumers choose raw milk over pasteurized milk. 

It’s Not a Trivial Change

Switching from producing milk intended for pasteurization to raw milk intended for direct human consumption requires a huge shift in mindset and practices. Studies have shown that up to 24% of pre-pasteurized milk contains pathogens, whereas raw milk from well-trained farmers is very unlikely to contain pathogens.

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Chart from “Two Types of Raw Milk” by the British Columbia Fresh Milk Project

Farmers who produce low-risk raw milk carefully manage the cleanliness and hygiene of the farm as a whole from grass-to-glass. From the health of the herd, to cleanliness of the milking parlor, to the specific cleaning processes for the milk line, to ensuring rapid milk chilling, to regularly testing their milk, and everything in between, raw milk farmers have to be dedicated to taking their farm management to the next level in order to ensure that their raw milk is safe to consume.

For dairy farmers who are considering the switch to raw milk production, here are some specific guidelines for producing safe raw milk.

Cleanliness

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Cleanliness is of paramount importance in producing raw milk. Your whole milking system, from udders to bottling, must be cleaned exceptionally well, or else there is a much higher likelihood that the milk will end up tainted with pathogens.

Udder preparation and cleaning is of particular importance, since dirty udders are the most probable source for pathogens in milk. Udders need to be clean and dry at milking.  For raw milk production, udder prep typically includes:

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  • brushing and/or cleaning the udders to make sure they are hygienic

  • using a clean rag and towel for each cow/doe

  • applying iodine-based teat dip, which is left on for at least 30 seconds

  • wiping off the teat dip with a clean, dry towel

  • stripping each teat with clean hands or gloves, and inspecting the milk to look for any signs of clotting, blood, etc.

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(More details on udder prep are given here.)

Special care needs to be taken to ensure that the milking system, chiller, and tank are cleaned frequently and thoroughly.  Typically, the milking system needs to be cleaned after each milking with cool/tepid water first, followed by very hot alkaline cleaner, and then finished with hot acidic cleaner. Milk tanks need to be cleaned frequently, including complete disassembly and cleaning of the tank valve.

Milk bottling should ideally occur in a clean, uncluttered room with smooth washable walls and floor. Care should be taken to ensure that the milk bottling room is kept clean and is not contaminated with manure or other filth.

Herd Health

Herd health is very important in raw milk production, as unhealthy animals are more likely to develop infection and mastitis which increases the likelihood of having pathogens in the milk. Your raw milk herd must be verified to be free of tuberculosis, brucellosis, and Johne’s disease. Biosecurity must be carefully managed to ensure that the herd does not come into contact with other animals (wild or domesticated) that may be carrying disease.

Rapid Chilling and Maintaining the Cold Chain

Under ideal growth conditions, bacteria counts double every 20 minutes.  Increased bacterial counts are associated with faster milk souring as well as greater presence of pathogens.  Decreased temperatures slow bacterial growth dramatically, and thus it is quite important to make sure that raw milk is rapidly chilled to slow bacterial growth. Ideally, raw milk should be chilled to 38F within an hour of milking. Keep raw milk cold throughout the bottling process and all the way through customer receipt of the milk.

Preventing Cross Contamination

Be aware that other farm animals such as chickens, rodents, birds, and pigs can pose a pathogen threat. For instance, chickens may carry salmonella and campylobacter, and cows/does that lie down in chicken manure may end up with pathogen contamination on their udders. Your milking herd should be kept separate from pigs and chickens. Chickens and birds should be kept out of the milking barn.

Milk stacking occurs when milk from subsequent milkings is placed in the same tank. Milk stacking is to be avoided as much as possible because it increases the likelihood of having bacterial problems. One bad batch can contaminate the rest. Additionally, milk stacking raises the temperature of the previously-cooled milk, making it more likely to support bacterial growth.

If your farm will produce both pasteurized and raw milk, you’ll need to take special care to ensure that the pasteurized milk is kept completely separated from raw milk. Pasteurized milk provides an ideal growth environment for pathogenic Listeria mono be can because there is no beneficial bacteria present to outcompete the Listeria.

Regular Testing

Don’t make the mistake of assuming that, just because your family can drink your raw milk with no problems, there are no pathogens present. Farm families have robust immune systems due to repeated exposure to the farm environment, so they are less likely to become ill from raw milk.  However, if you are selling raw milk to the public, you may end up with customers who have weak or impaired immune systems.  These customers will have a much lower threshold for illness from pathogens than farm families.

Testing is an important part of safe raw milk production. Testing provides a verification step that the practices and procedures are working well to produce low-risk raw milk. According to the Raw Milk Institute (RAWMI) Common Standards, raw milk should be tested regularly for coliforms and standard plate count. These tests provide a good indication of the hygiene, cleanliness, and handling of the milk. The Common Standards call for <10 coliforms/mL and <5,000 for SPC.

Take Care of Your Market

Selling to people versus selling to a processor: It’s an entirely different and very rewarding world. If you get it right, you’ll become a trusted brand and be beloved. 

As farmers who want to switch into the raw dairy market, besides following high standards for cleanliness and farm management, one of the biggest changes for you will be selling directly to people, kids, and families. You will no longer sell to a processor. The families you provide raw milk to trust you, and you’d better do an outstanding job! 

Building a market for raw milk does not just happen. Selling to a processor doesn’t require answering questions from end consumers or developing close consumer relationships. You’ll have to work hard to develop each relationship with your consumers, and be prepared to answer lots of questions. You must be interested in answering these questions and carefully researching to assure that the most current and accurate information is provided. All of this needs to be done with a warm smile :) and some compassion. 

As we say at RAWMI, “You don’t sell raw milk. You teach it”. If you teach enough, you can sell enough. It’s all about making that consumer connection with very high quality and safety. 

That means you become both a teacher and a producer.  If consumers don’t know what is so great about raw milk... they won’t buy it.  Why would they? They must learn first, then the sale is a done deal. Knowledge is gained and trust is earned before a sale is completed. 

Welcome to world of raw milk and directly nourishing people. 

We’re Here to Help

If you want more information on switching to raw milk production, please don't hesitate to ask. The Raw Milk Institute (RAWMI) trains and mentors farmers in the production of low-risk raw milk. RAWMI is a non-profit organization, so our training and mentoring is FREE for farmers. We also have brochures that can help with educating consumers about the benefits of raw milk. We'd be happy to help you in making sure you get off to a good start with raw milk. You can email us at contact@rawmilkinstitute.org.