Milk: Difference between revisions

Jump to navigation Jump to search
VisualWikitext
No edit summary
 
m (Robot: Automated text replacement (-{{SIB}} + & -{{EH}} + & -{{EJ}} + & -{{Editor Help}} + & -{{Editor Join}} +))
 
(4 intermediate revisions by 2 users not shown)
Line 1: Line 1:
{{SI}}




{{SI}}
{{EH}}


==Overview==
==Overview==
Line 30: Line 28:
{{nutritionalvalue | name=Cow    milk (whole) | water=88 g | kJ=250 | protein=3.2 g | fat=3.25 g | carbs=5.2 g | sugars=5.2 g | lactose=5.2 g | calcium_mg=113 | satfat=1.9 g | monofat=0.8 g | polyfat=0.2 g | vitA_ug=28 |thiamin_mg=0.04 | riboflavin_mg=0.18 | vitB12_ug=0.44 | vitD_iu=40 | potassium_mg=143 | magnesium_mg=10 | right=1 | source_usda=1 | note=100 ml corresponds to 103 g.<ref>{{cite web|url=http://hypertextbook.com/facts/2002/AliciaNoelleJones.shtml|title=Density of Milk|last=Jones|first=Alicia Noelle|work=The Physics Factbook|year=2002}}</ref>}}
{{nutritionalvalue | name=Cow    milk (whole) | water=88 g | kJ=250 | protein=3.2 g | fat=3.25 g | carbs=5.2 g | sugars=5.2 g | lactose=5.2 g | calcium_mg=113 | satfat=1.9 g | monofat=0.8 g | polyfat=0.2 g | vitA_ug=28 |thiamin_mg=0.04 | riboflavin_mg=0.18 | vitB12_ug=0.44 | vitD_iu=40 | potassium_mg=143 | magnesium_mg=10 | right=1 | source_usda=1 | note=100 ml corresponds to 103 g.<ref>{{cite web|url=http://hypertextbook.com/facts/2002/AliciaNoelleJones.shtml|title=Density of Milk|last=Jones|first=Alicia Noelle|work=The Physics Factbook|year=2002}}</ref>}}


Processed milk began containing differing amounts of fat during the 1950s. A serving (1 cup or 250 ml) of 2%-fat milk contains 285 mg of [[calcium]], which represents 22% to 29% of the [[daily recommended intake]] (DRI) of calcium for an adult. Depending on the age, 8 [[gram]]s of [[protein]], and a number of other nutrients (either naturally or through fortification):
Processed milk began containing differing amounts of fat during the 1950s. A serving (1 cup or 250 ml) of 2%-fat milk contains 285 mg of [[calcium]], which represents 22% to 29% of the daily recommended intake (DRI) of calcium for an adult. Depending on the age, 8 [[gram]]s of [[protein]], and a number of other nutrients (either naturally or through fortification):


* [[Vitamin D|Vitamins D]] and [[vitamin K|K]] are essential for bone health.
* [[Vitamin D|Vitamins D]] and [[vitamin K|K]] are essential for bone health.
Line 51: Line 49:
* [[Milk allergy|Cow milk allergy]] (CMA) is as an immunologically mediated adverse reaction to one or more cow's milk proteins. Rarely is it severe enough to cause death.[http://www.ncbi.nlm.nih.gov/sites/entrez?db=pubmed&uid=7704117&cmd=showdetailview&indexed=google]
* [[Milk allergy|Cow milk allergy]] (CMA) is as an immunologically mediated adverse reaction to one or more cow's milk proteins. Rarely is it severe enough to cause death.[http://www.ncbi.nlm.nih.gov/sites/entrez?db=pubmed&uid=7704117&cmd=showdetailview&indexed=google]
* There are some groups <ref>[http://www.thehealthierlife.co.uk/article/3097/calcium-rich-foods.html Calcium Rich Foods: Get All The Calcium You Need Without Milk]</ref> <ref>Feskanich D, Willett WC, Stampfer MJ, Colditz GA. Milk, dietary calcium, and bone fractures in women: a 12-year prospective study. Am J Public Health 1997; 87:992-7.</ref>debating the amount of calcium from milk that is actually absorbed by the human body. However, it is argued by detractors that calcium from dairy products has greater bio-availability than calcium from vegetable products. <ref> Brody T. Calcium and phosphate. In: Nutritional biochemistry. 2nd ed. Boston: Academic Press, 1999:761–94 </ref>
* There are some groups <ref>[http://www.thehealthierlife.co.uk/article/3097/calcium-rich-foods.html Calcium Rich Foods: Get All The Calcium You Need Without Milk]</ref> <ref>Feskanich D, Willett WC, Stampfer MJ, Colditz GA. Milk, dietary calcium, and bone fractures in women: a 12-year prospective study. Am J Public Health 1997; 87:992-7.</ref>debating the amount of calcium from milk that is actually absorbed by the human body. However, it is argued by detractors that calcium from dairy products has greater bio-availability than calcium from vegetable products. <ref> Brody T. Calcium and phosphate. In: Nutritional biochemistry. 2nd ed. Boston: Academic Press, 1999:761–94 </ref>
*One study <ref>[http://aje.oxfordjournals.org/cgi/content/abstract/165/9/998 H. Chen et al., Consumption of Dairy Products and Risk of Parkinson's Disease], American Journal of Epidemiology. 2007 May;165(9):998-1006</ref> demonstrated that men, and to some degree women, who drink a large amount of milk and consume dairy products were at a slightly increased risk of developing [[Parkinson's disease]]. The reason behind this is not fully understood, and it also remains unclear why there is less of a risk for women.<ref>[http://aje.oxfordjournals.org/cgi/content/abstract/165/9/998 H. Chen et al., Consumption of Dairy Products and Risk of Parkinson's Disease], American Journal of Epidemiology. 2007 May;165(9):998-1006</ref><ref>{{cite news | url = http://news.bbc.co.uk/1/hi/health/4419477.stm | publisher = [[BBC News]] | title = Milk linked to Parkinson's risk }}</ref>
*One study <ref>[http://aje.oxfordjournals.org/cgi/content/abstract/165/9/998 H. Chen et al., Consumption of Dairy Products and Risk of Parkinson's Disease], American Journal of Epidemiology. 2007 May;165(9):998-1006</ref> demonstrated that men, and to some degree women, who drink a large amount of milk and consume dairy products were at a slightly increased risk of developing [[Parkinson's disease]]. The reason behind this is not fully understood, and it also remains unclear why there is less of a risk for women.<ref>[http://aje.oxfordjournals.org/cgi/content/abstract/165/9/998 H. Chen et al., Consumption of Dairy Products and Risk of Parkinson's Disease], American Journal of Epidemiology. 2007 May;165(9):998-1006</ref><ref>{{cite news | url = http://news.bbc.co.uk/1/hi/health/4419477.stm | publisher = BBC News | title = Milk linked to Parkinson's risk }}</ref>
* Several sources suggest a correlation between high calcium intake (2000 mg per day, or twice the US [[recommended daily allowance]], equivalent to six or more glasses of milk per day) and [[prostate cancer]].<ref>[http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=9458087 Giovannucci, E. et al., Calcium and fructose intake in relation to risk of prostate cancer., Cancer Res. 1998 Feb 1;58(3):442-7.]</ref> A large study specifically implicates dairy.<ref>[http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&dopt=Abstract&list_uids=11566656 Chan, J.M., Dairy products, calcium, and prostate cancer risk in the Physicians' Health Study. Am J Clin Nutr. 2001 Oct;74(4):549-54. (disputed publication)]</ref> A review published by the [[World Cancer Research Fund]] and the [[American Institute for Cancer Research]] states that at least eleven human population studies have linked excessive dairy product consumption and prostate cancer,<ref>{{cite journal |journal= Food, nutrition and the prevention of cancer: a global perspective |date=1997|title= Food, nutrition and the prevention of cancer: a global perspective |author= The World Cancer Research Fund and American Institute for Cancer Research}}</ref> however  [[Randomized controlled trial|randomized clinical trial]] data with appropriate controls only exists for calcium, not dairy produce, where there was no correlation.<ref>Chan JM et al., (2005) Role of diet in prostate cancer development and progression. J Clin Oncol 23:8152-60.</ref>
* Several sources suggest a correlation between high calcium intake (2000 mg per day, or twice the US [[recommended daily allowance]], equivalent to six or more glasses of milk per day) and [[prostate cancer]].<ref>[http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=9458087 Giovannucci, E. et al., Calcium and fructose intake in relation to risk of prostate cancer., Cancer Res. 1998 Feb 1;58(3):442-7.]</ref> A large study specifically implicates dairy.<ref>[http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&dopt=Abstract&list_uids=11566656 Chan, J.M., Dairy products, calcium, and prostate cancer risk in the Physicians' Health Study. Am J Clin Nutr. 2001 Oct;74(4):549-54. (disputed publication)]</ref> A review published by the [[World Cancer Research Fund]] and the [[American Institute for Cancer Research]] states that at least eleven human population studies have linked excessive dairy product consumption and prostate cancer,<ref>{{cite journal |journal= Food, nutrition and the prevention of cancer: a global perspective |date=1997|title= Food, nutrition and the prevention of cancer: a global perspective |author= The World Cancer Research Fund and American Institute for Cancer Research}}</ref> however  [[Randomized controlled trial|randomized clinical trial]] data with appropriate controls only exists for calcium, not dairy produce, where there was no correlation.<ref>Chan JM et al., (2005) Role of diet in prostate cancer development and progression. J Clin Oncol 23:8152-60.</ref>


Line 60: Line 58:


* White blood cells -- Milk contains varying levels of [[white blood cells]] depending upon the health of the source animals, according to guidelines set up by the [[Food and Drug Administration]] and statistics reported by the dairy industry.<ref>[http://www.veganoutreach.org/health/gotmilk-abridged.html Greger, Michael. Paratuberculosis and Crohn's Disease: Got Milk? Pro-vegan online publication, January 2001]</ref>  
* White blood cells -- Milk contains varying levels of [[white blood cells]] depending upon the health of the source animals, according to guidelines set up by the [[Food and Drug Administration]] and statistics reported by the dairy industry.<ref>[http://www.veganoutreach.org/health/gotmilk-abridged.html Greger, Michael. Paratuberculosis and Crohn's Disease: Got Milk? Pro-vegan online publication, January 2001]</ref>  
* Bovine Growth Hormone(rbst) -- Since November 1993, with FDA approval, [[Monsanto]] has been selling recombinant bovine somatotropin (rbST)--or rBGH--to dairy farmers. Additional bovine growth hormone is administered to cattle in order to increase their milk production, though the hormone also naturally fosters liver production of [[Insulin-like growth factor 1|insulin-like growth factor 1 (IGF1)]]. The deposit thereof in the milk of rBGH-affected cattle has been the source of concern; however, all milk contains IGF1 since all milking cows produce bovine growth hormone naturally. The IGF1 in milk from rBGH-affected cattle does not vary from the range normally found in a non-supplemented cow.<ref>http://www.idfa.org/reg/biotech/talking2.cfm</ref>  Elevated levels of IGF1 in human blood has been linked to increased rates of breast, colon, and prostate cancer by stimulating their growth,<ref>[http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=16773200 Kahan, Z et al., Elevated levels of circulating insulin-like growth factor-I, IGF-binding globulin-3 and testosterone predict hormone-dependent breast cancer in postmenopausal women: a case-control study. Int J Oncol. 2006 Jul;29(1):193-200.]</ref><ref>[http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=16774935 Pacher, M. et al., Impact of constitutive IGF1/IGF2 stimulation on the transcriptional program of human breast cancer cells. Carcinogenesis. 2006 Jun 14]</ref> though this has not been linked to milk consumption. The EU has recommended against Monsanto milk.<ref>[http://www.preventcancer.com/press/releases/march21_99.htm International Scientific Committee Warns of Serious Risks of Breast and Prostate Cancer from Monsanto's Hormonal Milk. Press release of the Cancer Prevention Coalition.]</ref> In addition, the cows receiving rBGH supplements may more frequently contract an udder infection known as [[mastitis]], partly responsible for the aforementioned prevalence of [[blood cell]]s in dairy products.<ref>[http://www.preventcancer.com/consumers/general/milk.htm Milk: Epstein, S., America's Health Problem. Web page of the Cancer Prevention Coalition.]</ref> Milk from rBGH-affected cattle is banned in Canada, Australia, New Zealand, and Japan due to the mastitis problems. On June 9, 2006 the largest milk processor in the world and the two largest supermarkets in the United States--Dean Foods, Wal-Mart, and Kroger--announced that they are "on a nationwide search for rBGH-free milk [http://www.organicconsumers.org/2006/article_747.cfm]."  
* Bovine Growth Hormone(rbst) -- Since November 1993, with FDA approval, Monsanto has been selling recombinant bovine somatotropin (rbST)--or rBGH--to dairy farmers. Additional bovine growth hormone is administered to cattle in order to increase their milk production, though the hormone also naturally fosters liver production of [[Insulin-like growth factor 1|insulin-like growth factor 1 (IGF1)]]. The deposit thereof in the milk of rBGH-affected cattle has been the source of concern; however, all milk contains IGF1 since all milking cows produce bovine growth hormone naturally. The IGF1 in milk from rBGH-affected cattle does not vary from the range normally found in a non-supplemented cow.<ref>http://www.idfa.org/reg/biotech/talking2.cfm</ref>  Elevated levels of IGF1 in human blood has been linked to increased rates of breast, colon, and prostate cancer by stimulating their growth,<ref>[http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=16773200 Kahan, Z et al., Elevated levels of circulating insulin-like growth factor-I, IGF-binding globulin-3 and testosterone predict hormone-dependent breast cancer in postmenopausal women: a case-control study. Int J Oncol. 2006 Jul;29(1):193-200.]</ref><ref>[http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=pubmed&dopt=Abstract&list_uids=16774935 Pacher, M. et al., Impact of constitutive IGF1/IGF2 stimulation on the transcriptional program of human breast cancer cells. Carcinogenesis. 2006 Jun 14]</ref> though this has not been linked to milk consumption. The EU has recommended against Monsanto milk.<ref>[http://www.preventcancer.com/press/releases/march21_99.htm International Scientific Committee Warns of Serious Risks of Breast and Prostate Cancer from Monsanto's Hormonal Milk. Press release of the Cancer Prevention Coalition.]</ref> In addition, the cows receiving rBGH supplements may more frequently contract an udder infection known as [[mastitis]], partly responsible for the aforementioned prevalence of [[blood cell]]s in dairy products.<ref>[http://www.preventcancer.com/consumers/general/milk.htm Milk: Epstein, S., America's Health Problem. Web page of the Cancer Prevention Coalition.]</ref> Milk from rBGH-affected cattle is banned in Canada, Australia, New Zealand, and Japan due to the mastitis problems. On June 9, 2006 the largest milk processor in the world and the two largest supermarkets in the United States--Dean Foods, Wal-Mart, and Kroger--announced that they are "on a nationwide search for rBGH-free milk [http://www.organicconsumers.org/2006/article_747.cfm]."  


No study has indicated that consumption of rBST-produced milk increases IGF1 levels, nor has any study demonstrated an increased risk of any disease between those consuming rBST and non-rBST produced milk. In 1994, the FDA has concluded that no significant difference has been shown between milk derived from rBST-treated and non-rBST-treated cows, nor does any test exist which can differentiate between milk from rBST-treated and non-rBST treated cows. <ref> http://www.fda.gov/bbs/topics/ANSWERS/ANS00564.html </ref>
No study has indicated that consumption of rBST-produced milk increases IGF1 levels, nor has any study demonstrated an increased risk of any disease between those consuming rBST and non-rBST produced milk. In 1994, the FDA has concluded that no significant difference has been shown between milk derived from rBST-treated and non-rBST-treated cows, nor does any test exist which can differentiate between milk from rBST-treated and non-rBST treated cows. <ref> http://www.fda.gov/bbs/topics/ANSWERS/ANS00564.html </ref>
Line 67: Line 65:
{{main|lactose intolerance}}
{{main|lactose intolerance}}


[[Lactose]], the [[disaccharide]] sugar component of all milk must be cleaved in the small intestine by the [[enzyme]] [[lactase]] in order for its constituents ([[galactose]] and [[glucose]]) to be absorbed. The production of this enzyme declines significantly after [[weaning]] in all mammals including humans{{Fact|date=December 2007}} (except for most northern westerners and a few other ethnic groups, lactase decline occurs after weaning, sometime between the ages of two and five). Once lactase levels have decreased sufficiently, consumption of small amounts of lactose can cause [[diarrhea]], [[Flatulence|intestinal gas]], [[cramps]] and [[bloating]], as the undigested lactose travels through the [[gastrointestinal tract]] and serves as nourishment for intestinal [[microflora]] who [[excrete]] gas. <ref>http://en.wikipedia.org/wiki/Anaerobic_respiration</ref>
[[Lactose]], the [[disaccharide]] sugar component of all milk must be cleaved in the small intestine by the [[enzyme]] [[lactase]] in order for its constituents ([[galactose]] and [[glucose]]) to be absorbed. The production of this enzyme declines significantly after [[weaning]] in all mammals including humans (except for most northern westerners and a few other ethnic groups, lactase decline occurs after weaning, sometime between the ages of two and five). Once lactase levels have decreased sufficiently, consumption of small amounts of lactose can cause [[diarrhea]], [[Flatulence|intestinal gas]], [[cramps]] and [[bloating]], as the undigested lactose travels through the [[gastrointestinal tract]] and serves as nourishment for intestinal [[microflora]] who [[excrete]] gas. <ref>http://en.wikipedia.org/wiki/Anaerobic_respiration</ref>


===Nutrition - comparison by animal source===
===Nutrition - comparison by animal source===
Line 75: Line 73:
! Constituents
! Constituents
! unit
! unit
! [[Cow]]
! Cow
! [[Goat]]
! Goat
! [[Sheep]]
! Sheep
! [[Water Buffalo]]
! Water Buffalo
|-
|-
| Water
| Water
Line 168: Line 166:
Source:  McCane, Widdowson, Scherz, Kloos.[http://www.northwalesbuffalo.co.uk/milk_analysis.htm]
Source:  McCane, Widdowson, Scherz, Kloos.[http://www.northwalesbuffalo.co.uk/milk_analysis.htm]


These compositions vary by breed, animal, and point in the lactation period.  [[Jersey cattle|Jersey]] cows produce milk of about 5.2% fat, [[Zebu]] cows produce milk of about 4.7% fat, [[Brown Swiss]] cows produce milk of about 4.0% fat, and [[Holstein (cattle)|Holstein-Friesian]] cows produce milk of about 3.6% fat.  The protein range for these four breeds is 3.3% to 3.9%, while the lactose range is 4.7% to 4.9%.  <ref>{{cite book | last = McGee | first = Harold | authorlink = Harold McGee | title = On Food and Cooking: The Science and Lore of the Kitchen, Completely Revised and Updated | publisher = Scribner |date=2004 | location = New York, NY | pages = 13 | isbn = 9780684800011}}</ref>
These compositions vary by breed, animal, and point in the lactation period.  Jersey cows produce milk of about 5.2% fat, Zebu cows produce milk of about 4.7% fat, Brown Swiss cows produce milk of about 4.0% fat, and Holstein-Friesian cows produce milk of about 3.6% fat.  The protein range for these four breeds is 3.3% to 3.9%, while the lactose range is 4.7% to 4.9%.  <ref>{{cite book | last = McGee | first = Harold | authorlink = Harold McGee | title = On Food and Cooking: The Science and Lore of the Kitchen, Completely Revised and Updated | publisher = Scribner |date=2004 | location = New York, NY | pages = 13 | isbn = 9780684800011}}</ref>
 
Milk fat percentages in all [[Beef cattle|dairy breeds]] vary according to digestible fibre, starch and oil intakes<ref>http://www.kt.iger.bbsrc.ac.uk/FACT%20sheet%20PDF%20files/kt21.pdf</ref>, and can therefore be manipulated by dairy farmers' diet formulation strategies. Mastitis infection can cause fat levels to decline.<ref>http://books.google.com/books?id=qJgdAEhQvnMC&pg=PA226&lpg=PA226&dq=mastitis+and+milk+fat+levels&source=web&ots=PrguNhnHdm&sig=W_MS2A7FWTBksmBYvZZk38dRh4A</ref>
 
==Varieties and brands== <!-- This section is linked to -->
{{seealso|Milk bottle top}}
 
Milk products are sold in a number of varieties based on types/degrees of
*mammal (e.g. Holstein cow),
*homogenization (e.g raw milk),
*sterilization (e.g. pasteurization),
*fat content (e.g. half and half),
*water content (e.g. dry milk),
*additives (e.g. vitamins),
*flavoring (e.g chocolate),
*fermentation (e.g. buttermilk),
*coagulation (e.g. cottage cheese),
*age (e.g. cheddar),
*packaging (e.g bottle), and
*branding strategies (e.g. organic).
 
Cow's milk is generally available in several varieties according to approximate [[butterfat]] content (using United States terminology):
 
* 36% or more butterfat - ''Heavy whipping cream''
* 30–36% butterfat - ''Whipping cream'' or ''Light whipping cream''
* 25% butterfat - ''Medium cream''
* 18–30% butterfat - ''Light, coffee, or table cream
* 10.5-18% butterfat - ''Half and half''
* 3.25% butterfat - ''Whole milk''
* about 2% butterfat - ''2%'' or ''Reduced fat''
* 1.5-1.8% butterfat - ''Semi-skimmed''
* about 1% butterfat - ''1%'' or ''Low fat''
* 0.5-0.0% butterfat - ''Nonfat'' or ''Skim'' or ''Skimmed''
 
In Canada "whole" milk refers to creamline (unhomogenized) milk.  "Homogenized" milk refers to milk which is 3.25% butterfat. Generally all store-bought milk in Canada has been homogenized. Yet, the term is also used as a name to describe butterfat content for a specific variety of milk. Modern commercial dairy processing techniques involve first removing all of the butterfat, and then adding back the appropriate amount depending on which product is being produced on that particular line.
 
In Britain, it is possible to get [[Channel Island milk]], which is 5.5% fat.
 
In the [[United States of America|United States]], skim milk is also known as "''fat free''" milk, due to [[United States Department of Agriculture|USDA]] regulations stating that any food with less than ½ gram of fat per serving can be labeled "fat free".
 
Full cream, or whole milk, has the full milk fat content (about 3-4% if [[Holstein Friesian|Friesian]]- or [[Holstein (cattle)|Holstein]]-breed are the source). For skimmed or semi-skimmed milk, all of the fat content is removed and then some (in the case of semi-skimmed milk) is returned.  The best-selling variety of milk is semi-skimmed; in some countries full-cream (whole) milk is generally seen as less healthy and skimmed milk is often thought to lack taste. Whole milk is recommended to provide sufficient fat for developing toddlers who have graduated from [[breast milk]] or [[infant formula]].
 
In the [[United States]] and [[Canada]], a blended mixture of half cream and half milk is often sold in small quantities and is called [[half and half|half-and-half]]. Half-and-half is used for creaming coffee and similar uses.  In Canada, ''low-fat cream'' is available, which has half the fat content of half-and-half.
 
Organic Milk (in the United States) or Bio-Milk & Biologique Milk (in Europe) is milk produced without the use of chemical herbicides or pesticides, and generally with more natural fertilizers and higher standards for the animals{{Fact|date=September 2007}}, and is now easy to find on the shelves in many areas. [[Demeter International|Demeter]] certified milk is produced with [[Biodynamic agriculture]] methods and is similar in standards to organic milk and biological milk, with a few special farm procedures added that are biodynamic-specific.
 
===Additives and flavoring===
In countries where the cattle (and often the people) live indoors, commercially sold milk commonly has [[vitamin D]] added to it to make up for lack of exposure to [[Ultraviolet light|UVB]] radiation.
 
Reduced fat milks often have added [[vitamin A]] to compensate for the loss of the vitamin during fat removal; in the [[United States]] this results in reduced fat milks having a higher vitamin A content than whole milk.<ref> [http://www.ams.usda.gov/howtobuy/dairy.htm "How to Buy Dairy Products"], ''Home and Garden Bulletin 255'', [[USDA]], February 1995. Retrieved 16 May 2007.</ref>
 
To aid digestion in those with [[lactose intolerance]], milk is available in some areas with added bacterial cultures such as ''[[Lactobacillus acidophilus]]'' ("[[acidophilus milk]]") and [[bifidobacteria]] ("[[a/B milk]]").<ref>[http://www.nationaldairycouncil.org/nationaldairycouncil/nutrition/products/product_yogurt.pdf "Yogurt and Other Cultured Dairy Products"], [[National Dairy Council]], 2000.</ref> Another milk with ''[[Lactococcus lactis]]'' bacteria cultures ("[[buttermilk|cultured buttermilk]]") is often used in cooking to replace the traditional use of naturally [[soured milk]], which has become rare due to the ubiquity of pasteurization which kills the naturally occurring lactococcus bacteria.<ref>{{cite book | author=[[Irma Rombauer|Rombauer, Irma S.]] and [[Marion Rombauer Becker]] | title=[[Joy of Cooking]] (Revised Edition) | publisher=Bobbs Merrill | year=1975 | pages=533 | isbn=0-672-51831-7}}</ref>
 
Milk often has [[flavoring]] added to it for better taste or as a means of improving sales. [[Chocolate]] [[Flavoured milk|flavored milk]] has been sold for many years and has been followed more recently by such other flavors as strawberry and banana.
 
[[South Australia]] has the highest consumption of flavored milk per person in the world, where [[Farmers Union Iced Coffee]] outsells [[Coca-Cola]], a success shared only by [[Inca Kola]] in [[Peru]] and [[Irn-Bru]] in [[Scotland]].
 
[[Switzerland]] has a soft drink based on milk that tastes and looks much like SevenUp. This popular "milk-cola", named [[Rivella]], is in fact the national soft drink and even comes complete in low calorie & low sugar varieties. In spite of what might be expected, it does not taste like milk.
 
===Distribution===
Because milk spoils so easily, it should, ideally, be distributed as quickly as possible. In many countries milk used to be delivered to households daily, but economic pressure has made milk delivery much less popular, and in many areas daily delivery is no longer available. People buy it chilled at grocery or convenience stores or similar retail outlets. Prior to the widespread use of [[plastic]]s, milk was sold in wax-coated paper containers; prior to that milk was often distributed to consumers in [[glass]] bottles; and before glass bottles, in bulk that was ladled into the customer's container.
 
In the [[United Kingdom|UK]], milk can be delivered daily by a [[milkman]] who travels his local [[milk round]] (route) using a battery-powered [[milk float]] during the early hours.  Milk is delivered in 1 [[pint glass]] bottles with [[aluminium foil]] tops.  Silver top denotes full cream unhomogenized; red top full cream homogenized; red/silver top semi-skimmed; blue/silver check top skimmed; and gold top channel island. 
 
Empty bottles are rinsed before being left outside for the milkman to collect and take back to the dairy for washing and reuse.  Currently many milkmen operate franchises as opposed to being employed by the dairy and payment is made at regular intervals, by leaving a check; by cash collection; or [[direct debit]]. 
 
Although there was a steep decline in doorstep delivery sales throughout the 1990s, the service is still prominent, as dairies have diversified and the service is becoming more popular again.  The doorstep delivery of milk is seen as part of the UK's heritage, and is relied upon by people up and down the country. 
 
In [[New Zealand]], milk is no longer distributed in glass bottles.  In rural [[India]], milk is delivered daily by a local milkman carrying bulk quantities in a metal container, usually on a bicycle; and in other parts of metropolitan India, milk is usually bought or delivered in a plastic bags or cartons via-shops or supermarkets.
 
In the United States bottles were replaced with [[milk carton]]s, which are tall paper boxes with a square cross-section and a peaked top that can be folded outward upon opening to form a spout. Now milk is increasingly sold in plastic bottles. First the gallon and half-gallon sizes were sold in plastic jugs while the smaller sizes were sold in milk cartons. Recently milk has been sold in smaller resealable bottles made to fit in [[automobile]] [[cup holder]]s.
 
The half-pint milk carton is the traditional unit as a component of school lunches. In the U.S., pictures of [[Child abduction|missing children]] were printed on the larger milk cartons as a public service until it was determined that this was disturbing to children.
 
[[Ultra-high-temperature processing|UHT]] milk]]
Milk preserved by the [[Ultra-high-temperature processing|UHT]] process is sold in cartons often called a brick that lack the peak of the traditional milk carton. Milk preserved in this fashion does not need to be refrigerated before opening and has a longer shelf life than milk in ordinary packaging. It is more typically sold unrefrigerated on the shelves in Europe than in America.
 
Glass milk containers are now rare. Most people purchase milk in bags, plastic jugs or waxed-paper cartons. [[Ultraviolet]] light from [[fluorescent lamp|fluorescent lighting]] can destroy some of the proteins in milk{{Fact|date=March 2007}} so many companies that once distributed milk in [[Transparency (optics)|transparent]] or highly [[translucent]] containers are now using thicker materials that block the UV light. Many people feel that such "UV protected" milk tastes better{{Fact|date=March 2007}}.


Milk comes in a variety of containers with local variants:
Milk fat percentages in all dairy breeds vary according to digestible fibre, starch and oil intakes<ref>http://www.kt.iger.bbsrc.ac.uk/FACT%20sheet%20PDF%20files/kt21.pdf</ref>, and can therefore be manipulated by dairy farmers' diet formulation strategies. Mastitis infection can cause fat levels to decline.<ref>http://books.google.com/books?id=qJgdAEhQvnMC&pg=PA226&lpg=PA226&dq=mastitis+and+milk+fat+levels&source=web&ots=PrguNhnHdm&sig=W_MS2A7FWTBksmBYvZZk38dRh4A</ref>
* [[Australia]] and [[New Zealand]]: Distributed in a variety of sizes, most commonly in [[aseptic]] cartons for up to 1 litres, and plastic screw-top bottles beyond that with the following volumes; 1.1L, 2L, and 3L. 1 litre Bags are starting to appear in supermarkets, but have not yet proved popular. Most UHT-milk is packed in 1 or 2 litre paper containers with a sealed plastic spout.
* [[Brazil]]: Used to be sold in cooled 1 litre bags, just like in [[South Africa]]. Nowadays the most common form is 1 litre aseptic cartons containing UHT skimmed, semi-skimmed or whole milk, although the plastic bags are still in use.
* [[Canada]]: 1.33 litre plastic bags (sold as 4 litres in 3 bags) are widely available in some areas (especially [[Ontario]] and [[Québec]]), although the 4 litre plastic jug has supplanted them in [[western Canada]]. Other common packaging sizes are 2 litre, 1 litre, 500 [[millilitre]], and 250 millilitre cartons, as well as 4 litre, 1 litre, 250 mL aseptic cartons and 500 [[millilitre]] plastic jugs.
* [[China]]: Sweetened milk is a drink popular with students of all ages and is often sold in small plastic bags complete with straw.  Adults not wishing to drink at a banquet often drink milk served from cartons or [[milk tea]].
* Parts of [[Europe]]: Sizes of 500 millilitres, 1 litre (the most common), 2 litres and 3 litres are commonplace.
* [[Hong Kong]] - milk is sold in glass bottles (220 mL), cartons (236 mL and 1L), plastic jugs (2 litres) and aseptic cartons (250 mL).
* [[India]]: Commonly sold in 500 mL plastic bags. It is still customary to serve the milk boiled, despite pasteurization. Milk is often buffalo milk. Flavored milk is sold in most convenience stores in waxed cardboard containers. Convenience stores also sell many varieties of milk (such as flavored and ultra-pasteurized) in different sizes, usually in aseptic cartons.
* [[Israel]]: Non-UHT milk is most commonly sold in 1 litre waxed cardboard boxes and 1 litre plastic bags. It may also be found in 0.5L and 2L waxed cardboard boxes, 2L plastic jugs and 1L plastic bottles. UHT milk is available in 1 litre (and less commonly also in 0.25L) carton "bricks".
* [[Japan]]: Commonly sold in 1 litre waxed cardboard boxes. In most city centers there is also [[Delivery (commerce)|home delivery]] of milk in glass jugs. As seen in [[China]], sweetened and flavored milk drinks are very popular to see in [[vending machine]]s.
* [[South Africa]]: Commonly sold in 1 litre bags. The bag is then placed in a plastic jug and the corner cut off before the milk is poured.
*[[South Korea]]: sold in cartons (180mL, 200mL, 500mL 900mL, 1L, 1.8L, 2.3L), plastic jugs (100Ml and 1.8L), aseptic cartons (180mL and 200mL) and plastic bags (100mL).
* [[Poland]]: UHT milk is mostly sold in aseptic cartons (500mL, 1L, 2L), and non-UHT in 1L plastic bags or plastic bottles. Milk, UHT is commonly boiled, despite being pasteurized.
*[[Turkey]]: Commonly sold in 500 mL or 1L cartons or special plastic bottles. UHT milk is more popular. Milkmen also serve in smaller towns and villages.
* [[United Kingdom]]: Most stores still stock [[Imperial unit|Imperial]] sizes: 1 pint (568 mL), 2 pints (1.136 L), 4 pints (2.273 L), 6 pints (3.408 L) or a combination including both metric and imperial sizes. Glass milk bottles delivered to the doorstep by the milkman are typically pint-sized and are returned empty by the householder for repeated [[reuse]]. Milk is also sold at supermarkets in either aseptic cartons or HDPE bottles.  Milk can still be legally sold by the Imperial pint in [[reuse|reusable]] bottles in the UK under EU regulations (a distinction only shared with beer and cider), whilst a growing number of manufacturers such as [[Northern Foods]] now sell milk in 1 and 2 litre bottles.
* [[United States]]: Commonly sold in [[gallon]], half-gallon and [[quart]] containers ([[U.S. customary units#Liquid volume|U.S. customary units]]) of rigid plastic or, occasionally for sizes less than a gallon, waxed cardboard, although bottles made of opaque [[Polyethylene terephthalate|PET]] are starting to become more commonplace in all smaller sizes. The US single-serving size is usually the half-pint (about 240 ml). Occasionally dairies will deliver milk straight to customers in coolers filled with glass bottles (usually half-gallon). Some [[convenience store]] chains in the United States (such as [[Kwik Trip]] in the [[Midwest]]) sell milk in 1/2 gallon bags.
* [[Uruguay]]: Commonly sold in 1 litre bags. The bag is then placed in a plastic jug and the corner cut off before the milk is poured.
 
Practically everywhere, [[condensed milk]] and evaporated milk is distributed in metal cans, 250 and 125 ml paper containers and 100 and 200 mL squeeze tubes, and [[powdered milk]] (skim and whole) is distributed in boxes or bags.
 
[[Image:Yakult brazil.jpg|thumb|Brazilian [[Yakult]], an example of the use of milk.]]


===Spoilage and Fermented Milk Products===
===Spoilage and Fermented Milk Products===
When [[raw milk]] is left standing for a while, it turns "[[sour]]". This is the result of [[fermentation (food)|fermentation]], where [[lactic acid bacteria]] ferment the [[lactose]] inside the milk into [[lactic acid]].  Prolonged fermentation may render the milk unpleasant to consume.  This fermentation process is exploited by the introduction of bacterial cultures (e.g. ''[[Lactobacilli]] sp., [[Streptococcus]] sp., [[Leuconostoc]] sp.'', etc) to produce a variety of fermented milk products. The reduced pH from lactic acid accumulation denatures proteins and caused the milk to undergo a variety of different transformations in appearance and texture, ranging from an aggregate to smooth consistency.  Some of these products include [[sour cream]], [[yoghurt]], [[cheese]], [[buttermilk]], [[viili]], [[kefir]] and [[kumis]].  ''See [[Dairy product]]'' for more information.
When raw milk is left standing for a while, it turns "sour". This is the result of fermentation, where [[lactic acid bacteria]] ferment the [[lactose]] inside the milk into [[lactic acid]].  Prolonged fermentation may render the milk unpleasant to consume.  This fermentation process is exploited by the introduction of bacterial cultures (e.g. ''[[Lactobacilli]] sp., [[Streptococcus]] sp., [[Leuconostoc]] sp.'', etc) to produce a variety of fermented milk products. The reduced pH from lactic acid accumulation denatures proteins and caused the milk to undergo a variety of different transformations in appearance and texture, ranging from an aggregate to smooth consistency.  Some of these products include sour cream, yogurt, cheese, buttermilk, viili, kefir and kumis.  ''See [[Dairy product]]'' for more information.


[[Pasteurized|Pasteurization]] of cow's milk initially destroys any potential pathogens and increases the shelf-life <ref>http://www.fda.gov/fdac/features/2004/504_milk.html</ref><ref>[http://jds.fass.org/cgi/reprint/65/12/2233.pdf]</ref>, but eventually results in spoilage that makes it unsuitable for consumption.  This causes it to assume an unpleasant odor, and the milk is deemed non-consumable due to unpleasant taste and an increased risk of [[food poisoning]]. In raw milk, the presence of [[lactic acid]]-producing bacteria, under suitable conditions, ferments the lactose present to lactic acid. The increasing [[acidity]] in turn prevents the growth of other organisms, or slows their growth significantly. During pasteurization however, these lactic acid bacteria are mostly destroyed.   
Pasteurization of cow's milk initially destroys any potential pathogens and increases the shelf-life <ref>http://www.fda.gov/fdac/features/2004/504_milk.html</ref><ref>[http://jds.fass.org/cgi/reprint/65/12/2233.pdf]</ref>, but eventually results in spoilage that makes it unsuitable for consumption.  This causes it to assume an unpleasant odor, and the milk is deemed non-consumable due to unpleasant taste and an increased risk of [[food poisoning]]. In raw milk, the presence of [[lactic acid]]-producing bacteria, under suitable conditions, ferments the lactose present to lactic acid. The increasing [[acidity]] in turn prevents the growth of other organisms, or slows their growth significantly. During pasteurization however, these lactic acid bacteria are mostly destroyed.   


In order to prevent spoilage, milk can be kept [[refrigerator|refrigerated]] and stored between 1 and 4 [[Celsius|degrees Celsius]] in [[bulk tank]]s. Most milk is [[pasteurized]] by heating briefly and then [[refrigerator|refrigerated]] to allow transport from [[factory farming|factory farms]] to local markets. The spoilage of milk can be forestalled by using ultra-high temperature ([[UHT]]) treatment; milk so treated can be stored unrefrigerated for several months until opened. Sterilized milk, which is heated for a much longer period of time, will last even longer, but also loses more nutrients and assume a different taste{{Fact|date=November 2007}}. [[Condensed milk]], made by removing most of the water, can be stored in cans for many years, unrefrigerated, as can [[evaporated milk]]. The most durable form of milk is [[milk powder]], which is produced from milk by removing almost all [[water]]. The [[moisture content]] is usually less than 5% in both drum and spray dried [[milk powder]].
In order to prevent spoilage, milk can be kept refrigerated and stored between 1 and 4 degrees Celsius in bulk tanks. Most milk is pasteurized by heating briefly and then refrigerated to allow transport from factory farms to local markets. The spoilage of milk can be forestalled by using ultra-high temperature ([[UHT]]) treatment; milk so treated can be stored unrefrigerated for several months until opened. Sterilized milk, which is heated for a much longer period of time, will last even longer, but also loses more nutrients and assume a different taste. Condensed milk, made by removing most of the water, can be stored in cans for many years, unrefrigerated, as can evaporated milk. The most durable form of milk is milk powder, which is produced from milk by removing almost all [[water]]. The moisture content is usually less than 5% in both drum and spray dried milk powder.
 
==Language and culture==
{{wikisourcepar|Littell's Living Age/Volume 144/Issue 1861/Chinese Prohibition of the Consumption of Cow's Milk|an account (1880) of a Chinese prohibition against drinking cow's milk.}}
The importance of milk in human culture is attested to by the numerous expressions embedded in our languages, for example "the milk of human kindness". In ancient [[Greek mythology]], the [[goddess]] [[Hera]] spilled her [[breast]] milk after refusing to feed [[Heracles]], resulting in the [[Milky Way]].
 
In [[Africa]]n and [[Asia]]n [[developing country|developing nations]], [[butter]] is traditionally made from fermented milk rather than cream. It can take several hours of churning to produce workable butter grains from fermented milk.<ref>Crawford ''et al'', part B, section III, ch. 1: [http://www.fao.org/docrep/003/t0251e/T0251E15.htm#ch1 Butter]. Retrieved 28 November 2005.</ref>
 
Holy books have also mentioned milk; the Bible contains references to the Land of Milk and Honey. In the [[Quran]], there is a request to wonder on milk as follows: 'And surely in the livestock there is a lesson for you, We give you to drink of that which is in their bellies from the midst of digested food and blood, pure milk palatable for the drinkers.'(16-The Honeybee, 66). The Ramadhan fast is traditionally broken with a glass of milk and dates.
 
The verb, "to milk" something is often used in the vernacular of many English-speaking countries as a synonym for extortion or, in less loaded terms, taking advantage of a situation where one has another person at a disadvantage,


==Notes==  
==Notes==  
Line 298: Line 189:


==See also==
==See also==
{{portal|Food}}
* [[Bovine somatotropin]]
* [[Babcock test]] - determines the butterfat content of milk.
* [[Grain milk]]
* [[Grain milk]]
* [[Milk bottle]]
* [[Powdered milk]]
* [[Raw milk]]
* [[Raw milk]]
* [[Got Milk?]] - US commercial [[Advertising campaign|ad campaign]] encouraging the consumption of milk
* [[Cheese]]
* [[Cheese]]
* [[Operation Flood]]
* [[Mammary gland]]
* [[Mammary gland]]
* [[Lactation]]
* [[Lactation]]
Line 313: Line 197:
* [[Nipple]]
* [[Nipple]]
* [[Breast]]
* [[Breast]]
* [[Milk line]]


==External links==
==External links==
{{cookbook}}
{{wiktionary|milk}}
{{commons}}
* [http://www.hsph.harvard.edu/nutritionsource/calcium.html Harvard School of Public Health: Calcium and Milk]: describes claims of milk supporters and critics
* [http://www.hsph.harvard.edu/nutritionsource/calcium.html Harvard School of Public Health: Calcium and Milk]: describes claims of milk supporters and critics
* [http://www.sciencebyjones.com/MILK_NOTES.HTM Milk Factsheet]
* [http://www.sciencebyjones.com/MILK_NOTES.HTM Milk Factsheet]
* [http://www.qualitionary.eu/index.php?title=Milk Qualitionary - Legal Definitions - Milk]
* [http://www.qualitionary.eu/index.php?title=Milk Qualitionary - Legal Definitions - Milk]


[[Category:Milk|*]]
[[Category:Symbols of Vermont]]
[[Category:Vermont cuisine]]
[[Category:Symbols of Oregon]]
[[Category:Agriculture in New Zealand]]


[[af:Melk]]
 
[[am:ወተት]]
[[Category:Milk]]
[[ar:حليب]]
 
[[ast:Lleche]]
{{WH}}
[[ay:Millk'i]]
[[bm:Nɔnɔ]]
[[zh-min-nan:Leng]]
[[be-x-old:Малако]]
[[bar:Muich]]
[[bs:Mlijeko]]
[[br:Laezh]]
[[bg:Мляко]]
[[ca:Llet]]
[[cs:Mléko]]
[[cy:Llaeth]]
[[da:Mælk]]
[[pdc:Millich]]
[[de:Milch]]
[[nv:Abe']]
[[et:Piim]]
[[el:Γάλα]]
[[es:Leche]]
[[eo:Lakto]]
[[eu:Esne]]
[[fa:شیر (لبنیات)]]
[[fr:Lait]]
[[fur:Lat]]
[[ga:Bainne]]
[[gd:Bainne]]
[[ko:우유]]
[[hy:Կաթ]]
[[hr:Mlijeko]]
[[io:Lakto]]
[[id:Susu]]
[[ia:Lacte]]
[[is:Mjólk]]
[[it:Latte]]
[[he:חלב]]
[[jv:Susu]]
[[ka:რძე]]
[[rw:Amata]]
[[la:Lac]]
[[lv:Piens]]
[[lt:Pienas]]
[[li:Mèlk]]
[[ln:Míliki]]
[[hu:Tej]]
[[mk:Млеко]]
[[ml:പാല്‍]]
[[mn:Сүү]]
[[nah:Chichihualātl]]
[[nl:Melk (drank)]]
[[cr:ᒎᒎᔑᓈᐴ]]
[[new:दुरु]]
[[ja:乳]]
[[no:Melk]]
[[nn:Mjølk]]
[[nrm:Lait]]
[[oc:Lach]]
[[uz:Sut]]
[[nds:Melk]]
[[pl:Mleko]]
[[pt:Leite]]
[[ksh:Milesch]]
[[ro:Lapte]]
[[qu:Lichi]]
[[ru:Молоко]]
[[sq:Qumështi]]
[[simple:Milk]]
[[sk:Mlieko]]
[[sl:Mleko]]
[[sr:Млеко]]
[[fi:Maito]]
[[sv:Mjölk]]
[[tl:Gatas]]
[[ta:பால்]]
[[tt:Söt]]
[[th:นม]]
[[vi:Sữa]]
[[tr:Süt]]
[[uk:Молоко]]
[[wa:Laecea]]
[[yi:מילעך]]
[[zh-yue:奶]]
[[bat-smg:Pėins]]
[[zh:牛奶]]
{{WikiDoc Sources}}
{{WikiDoc Sources}}

Latest revision as of 17:27, 9 August 2012

WikiDoc Resources for Milk

Articles

Most recent articles on Milk

Most cited articles on Milk

Review articles on Milk

Articles on Milk in N Eng J Med, Lancet, BMJ

Media

Powerpoint slides on Milk

Images of Milk

Photos of Milk

Podcasts & MP3s on Milk

Videos on Milk

Evidence Based Medicine

Cochrane Collaboration on Milk

Bandolier on Milk

TRIP on Milk

Clinical Trials

Ongoing Trials on Milk at Clinical Trials.gov

Trial results on Milk

Clinical Trials on Milk at Google

Guidelines / Policies / Govt

US National Guidelines Clearinghouse on Milk

NICE Guidance on Milk

NHS PRODIGY Guidance

FDA on Milk

CDC on Milk

Books

Books on Milk

News

Milk in the news

Be alerted to news on Milk

News trends on Milk

Commentary

Blogs on Milk

Definitions

Definitions of Milk

Patient Resources / Community

Patient resources on Milk

Discussion groups on Milk

Patient Handouts on Milk

Directions to Hospitals Treating Milk

Risk calculators and risk factors for Milk

Healthcare Provider Resources

Symptoms of Milk

Causes & Risk Factors for Milk

Diagnostic studies for Milk

Treatment of Milk

Continuing Medical Education (CME)

CME Programs on Milk

International

Milk en Espanol

Milk en Francais

Business

Milk in the Marketplace

Patents on Milk

Experimental / Informatics

List of terms related to Milk


Overview

Milk is an opaque white liquid produced by the mammary glands of female mammals (including monotremes). Mammary glands are highly specialized sweat glands. The female ability to produce milk is one of the defining characteristics of mammals. It provides the primary source of nutrition for newborns before they are able to digest other types of food. The early lactation milk is known as colostrum, and carries the mother's antibodies to the baby. It can reduce the risk of many diseases in the baby. Males of all mammal species retain the breasts that are part of the fundamental mammalian animal structure, hence their nipples. Lactation occurs in males in certain rare circumstances, both naturally and artificially, however, some pharmaceuticals precipitate lactation in males readily. The exact components of raw milk varies by species, but it contains significant amounts of saturated fat, protein and calcium as well as vitamin C.

Physical and chemical structure

Milk is an emulsion of butterfat globules within a water-based fluid. Each fat globule is surrounded by a membrane consisting of phospholipids and proteins; these emulsifiers keep the individual globules from joining together into noticeable grains of butterfat and also protect the globules from the fat-digesting activity of enzymes found in the fluid portion of the milk. In unhomogenized cow's milk, the fat globules average about four micrometers across. The fat-soluble vitamins A, D, E, and K are found within the milkfat portion of the milk (McGee 18).

The largest structures in the fluid portion of the milk are casein protein micelles: aggregates of several thousand protein molecules, bonded with the help of nanometer-scale particles of calcium phosphate. Each micelle is roughly spherical and about a tenth of a micrometer across. There are four different types of casein proteins, and collectively they make up around 80 percent of the protein in milk, by weight. Most of the casein proteins are bound into the micelles. There are several competing theories regarding the precise structure of the micelles, but they share one important feature: the outermost layer consists of strands of one type of protein, kappa-casein, reaching out from the body of the micelle into the surrounding fluid. These Kappa-casein molecules all have a negative electrical charge and therefore repel each other, keeping the micelles separated under normal conditions and in a stable colloidal suspension in the water-based surrounding fluid[1] (McGee 19–20).

Both the fat globules and the smaller casein micelles, which are just large enough to deflect light, contribute to the opaque white color of milk. The fat globules contain some yellow-orange carotene, enough in some breeds — Guernsey and Jersey cows, for instance — to impart a golden or "creamy" hue to a glass of milk. The riboflavin in the whey portion of milk has a greenish color, which can sometimes be discerned in skim milk or whey products (McGee 17). Fat-free skim milk has only the casein micelles to scatter light, and they tend to scatter shorter-wavelength blue light more than they do red, giving skim milk a bluish tint.[2]

Milk contains dozens of other types of proteins besides the caseins. They are more water-soluble than the caseins and do not form larger structures. Because these proteins remain suspended in the whey left behind when the caseins coagulate into curds, they are collectively known as whey proteins. Whey proteins make up around twenty percent of the protein in milk, by weight. Lactoglobulin is the most common whey protein by a large margin (McGee 20–21).

The carbohydrate lactose gives milk its sweet taste and contributes about 40% of whole cow milk's calories. Lactose is a composite of two simple sugars, glucose and galactose. In nature, lactose is found only in milk and a small number of plants (McGee 17). Other components found in raw cow milk are living white blood cells. Mammary-gland cells, various bacteria, and a large number of active enzymes are some other components in milk (McGee 16).

Nutrition and health

The composition of milk differs widely between species. Factors such as the type of protein; the proportion of protein, fat, and sugar; the levels of various vitamins and minerals; and the size of the butterfat globules and the strength of the curd are among those than can vary.[3] For example:

  • Human milk contains, on average, 1.1% protein, 4.2% fat, 7.0% lactose (a sugar), and supplies 72 kcal of energy per 100 grams.
  • Cow's milk contains, on average, 3.4% protein, 3.6% fat, and 4.6% lactose, and supplies 66 kcal of energy per 100 grams. See also Nutritional benefits further on.

Aquatic mammals, such as seals and whales, produce milk that is very rich in fats and other solid nutrients when compared with land mammals' milk.

Nutritional benefits

Template:Nutritionalvalue

Processed milk began containing differing amounts of fat during the 1950s. A serving (1 cup or 250 ml) of 2%-fat milk contains 285 mg of calcium, which represents 22% to 29% of the daily recommended intake (DRI) of calcium for an adult. Depending on the age, 8 grams of protein, and a number of other nutrients (either naturally or through fortification):

Studies show possible links between low-fat milk consumption and reduced risk of arterial hypertension, coronary heart disease, colorectal cancer and obesity. Overweight individuals who drink milk may benefit from decreased risk of insulin resistance and type 2 diabetes.[4]

Interestingly, a study has shown that for women desiring to have a child, those who consume full fat dairy products may actually slightly increase their fertility, while those consuming low fat dairy products may slightly reduce their fertility due to interference with ovulation. However, studies in this area are still inconsistent.[5]

Nutritional and physiological detriments

  • Milk contains casein, a substance that breaks down in the human stomach to produce casomorphin, an opioid peptide. In the early 1990s it was hypothesized that casomorphin can cause or aggravate autism,[6] [7] and casein-free diets are widely promoted. Studies supporting these claims have had significant flaws, and the data are inadequate to guide autism treatment recommendations.[8]
  • Lactose intolerance, discussed below.
  • Cow milk allergy (CMA) is as an immunologically mediated adverse reaction to one or more cow's milk proteins. Rarely is it severe enough to cause death.[4]
  • There are some groups [9] [10]debating the amount of calcium from milk that is actually absorbed by the human body. However, it is argued by detractors that calcium from dairy products has greater bio-availability than calcium from vegetable products. [11]
  • One study [12] demonstrated that men, and to some degree women, who drink a large amount of milk and consume dairy products were at a slightly increased risk of developing Parkinson's disease. The reason behind this is not fully understood, and it also remains unclear why there is less of a risk for women.[13][14]
  • Several sources suggest a correlation between high calcium intake (2000 mg per day, or twice the US recommended daily allowance, equivalent to six or more glasses of milk per day) and prostate cancer.[15] A large study specifically implicates dairy.[16] A review published by the World Cancer Research Fund and the American Institute for Cancer Research states that at least eleven human population studies have linked excessive dairy product consumption and prostate cancer,[17] however randomized clinical trial data with appropriate controls only exists for calcium, not dairy produce, where there was no correlation.[18]

Controversy

A number of groups e.g. PETA and the Vegetarian & Vegan Foundation (VVF) have provided strong scientific evidence linking cows' milk and dairy products to a wide range of illnesses and diseases [19] White Lies.

Common claims cited by anti-milk advocates:

  • White blood cells -- Milk contains varying levels of white blood cells depending upon the health of the source animals, according to guidelines set up by the Food and Drug Administration and statistics reported by the dairy industry.[20]
  • Bovine Growth Hormone(rbst) -- Since November 1993, with FDA approval, Monsanto has been selling recombinant bovine somatotropin (rbST)--or rBGH--to dairy farmers. Additional bovine growth hormone is administered to cattle in order to increase their milk production, though the hormone also naturally fosters liver production of insulin-like growth factor 1 (IGF1). The deposit thereof in the milk of rBGH-affected cattle has been the source of concern; however, all milk contains IGF1 since all milking cows produce bovine growth hormone naturally. The IGF1 in milk from rBGH-affected cattle does not vary from the range normally found in a non-supplemented cow.[21] Elevated levels of IGF1 in human blood has been linked to increased rates of breast, colon, and prostate cancer by stimulating their growth,[22][23] though this has not been linked to milk consumption. The EU has recommended against Monsanto milk.[24] In addition, the cows receiving rBGH supplements may more frequently contract an udder infection known as mastitis, partly responsible for the aforementioned prevalence of blood cells in dairy products.[25] Milk from rBGH-affected cattle is banned in Canada, Australia, New Zealand, and Japan due to the mastitis problems. On June 9, 2006 the largest milk processor in the world and the two largest supermarkets in the United States--Dean Foods, Wal-Mart, and Kroger--announced that they are "on a nationwide search for rBGH-free milk [5]."

No study has indicated that consumption of rBST-produced milk increases IGF1 levels, nor has any study demonstrated an increased risk of any disease between those consuming rBST and non-rBST produced milk. In 1994, the FDA has concluded that no significant difference has been shown between milk derived from rBST-treated and non-rBST-treated cows, nor does any test exist which can differentiate between milk from rBST-treated and non-rBST treated cows. [26]

Lactose intolerance

Main article: lactose intolerance

Lactose, the disaccharide sugar component of all milk must be cleaved in the small intestine by the enzyme lactase in order for its constituents (galactose and glucose) to be absorbed. The production of this enzyme declines significantly after weaning in all mammals including humans (except for most northern westerners and a few other ethnic groups, lactase decline occurs after weaning, sometime between the ages of two and five). Once lactase levels have decreased sufficiently, consumption of small amounts of lactose can cause diarrhea, intestinal gas, cramps and bloating, as the undigested lactose travels through the gastrointestinal tract and serves as nourishment for intestinal microflora who excrete gas. [27]

Nutrition - comparison by animal source

Milk Composition Analysis, per 100 grams

Constituents unit Cow Goat Sheep Water Buffalo
Water g 87.8 88.9 83.0 81.1
Protein g 3.2 3.1 5.4 4.5
Fat g 3.9 3.5 6.0 8.0
Carbohydrate g 4.8 4.4 5.1 4.9
Energy kcal 66 60 95 110
kJ 275 253 396 463
Sugars (Lactose) g 4.8 4.4 5.1 4.9
Fatty Acids:
Saturated g 2.4 2.3 3.8 4.2
Mono-unsaturated g 1.1 0.8 1.5 1.7
Polyunsaturated g 0.1 0.1 0.3 0.2
Cholesterol mg 14 10 11 8
Calcium IU 120 100 170 195

Source: McCane, Widdowson, Scherz, Kloos.[6]

These compositions vary by breed, animal, and point in the lactation period. Jersey cows produce milk of about 5.2% fat, Zebu cows produce milk of about 4.7% fat, Brown Swiss cows produce milk of about 4.0% fat, and Holstein-Friesian cows produce milk of about 3.6% fat. The protein range for these four breeds is 3.3% to 3.9%, while the lactose range is 4.7% to 4.9%. [28]

Milk fat percentages in all dairy breeds vary according to digestible fibre, starch and oil intakes[29], and can therefore be manipulated by dairy farmers' diet formulation strategies. Mastitis infection can cause fat levels to decline.[30]

Spoilage and Fermented Milk Products

When raw milk is left standing for a while, it turns "sour". This is the result of fermentation, where lactic acid bacteria ferment the lactose inside the milk into lactic acid. Prolonged fermentation may render the milk unpleasant to consume. This fermentation process is exploited by the introduction of bacterial cultures (e.g. Lactobacilli sp., Streptococcus sp., Leuconostoc sp., etc) to produce a variety of fermented milk products. The reduced pH from lactic acid accumulation denatures proteins and caused the milk to undergo a variety of different transformations in appearance and texture, ranging from an aggregate to smooth consistency. Some of these products include sour cream, yogurt, cheese, buttermilk, viili, kefir and kumis. See Dairy product for more information.

Pasteurization of cow's milk initially destroys any potential pathogens and increases the shelf-life [31][32], but eventually results in spoilage that makes it unsuitable for consumption. This causes it to assume an unpleasant odor, and the milk is deemed non-consumable due to unpleasant taste and an increased risk of food poisoning. In raw milk, the presence of lactic acid-producing bacteria, under suitable conditions, ferments the lactose present to lactic acid. The increasing acidity in turn prevents the growth of other organisms, or slows their growth significantly. During pasteurization however, these lactic acid bacteria are mostly destroyed.

In order to prevent spoilage, milk can be kept refrigerated and stored between 1 and 4 degrees Celsius in bulk tanks. Most milk is pasteurized by heating briefly and then refrigerated to allow transport from factory farms to local markets. The spoilage of milk can be forestalled by using ultra-high temperature (UHT) treatment; milk so treated can be stored unrefrigerated for several months until opened. Sterilized milk, which is heated for a much longer period of time, will last even longer, but also loses more nutrients and assume a different taste. Condensed milk, made by removing most of the water, can be stored in cans for many years, unrefrigerated, as can evaporated milk. The most durable form of milk is milk powder, which is produced from milk by removing almost all water. The moisture content is usually less than 5% in both drum and spray dried milk powder.

Notes

  1. Dairy Chemistry and Physics, webpage of University of Guelph
  2. Dairy Chemistry and Physics, webpage of University of Guelph
  3. Introduction to Dairy Science and Technology, webpage of University of Guelph
  4. Dairy's Role in Managing Blood Pressure, web page of the US National Dairy Council
  5. [1]
  6. Reichelt KL, Knivsberg A-M, Lind G, Nødland M (1991). "Probable etiology and possible treatment of childhood autism". Brain Dysfunct. 4: 308–19.
  7. Christison GW, Ivany K (2006). "Elimination diets in autism spectrum disorders: any wheat amidst the chaff?". J Dev Behav Pediatr. 27 (2 Suppl 2): S162–71. PMID 16685183.
  8. Christison GW, Ivany K (2006). "Elimination diets in autism spectrum disorders: any wheat amidst the chaff?". J Dev Behav Pediatr. 27 (2 Suppl 2): S162–71. PMID 16685183.
  9. Calcium Rich Foods: Get All The Calcium You Need Without Milk
  10. Feskanich D, Willett WC, Stampfer MJ, Colditz GA. Milk, dietary calcium, and bone fractures in women: a 12-year prospective study. Am J Public Health 1997; 87:992-7.
  11. Brody T. Calcium and phosphate. In: Nutritional biochemistry. 2nd ed. Boston: Academic Press, 1999:761–94
  12. H. Chen et al., Consumption of Dairy Products and Risk of Parkinson's Disease, American Journal of Epidemiology. 2007 May;165(9):998-1006
  13. H. Chen et al., Consumption of Dairy Products and Risk of Parkinson's Disease, American Journal of Epidemiology. 2007 May;165(9):998-1006
  14. "Milk linked to Parkinson's risk". BBC News.
  15. Giovannucci, E. et al., Calcium and fructose intake in relation to risk of prostate cancer., Cancer Res. 1998 Feb 1;58(3):442-7.
  16. Chan, J.M., Dairy products, calcium, and prostate cancer risk in the Physicians' Health Study. Am J Clin Nutr. 2001 Oct;74(4):549-54. (disputed publication)
  17. The World Cancer Research Fund and American Institute for Cancer Research (1997). "Food, nutrition and the prevention of cancer: a global perspective". Food, nutrition and the prevention of cancer: a global perspective.
  18. Chan JM et al., (2005) Role of diet in prostate cancer development and progression. J Clin Oncol 23:8152-60.
  19. [2]
  20. Greger, Michael. Paratuberculosis and Crohn's Disease: Got Milk? Pro-vegan online publication, January 2001
  21. http://www.idfa.org/reg/biotech/talking2.cfm
  22. Kahan, Z et al., Elevated levels of circulating insulin-like growth factor-I, IGF-binding globulin-3 and testosterone predict hormone-dependent breast cancer in postmenopausal women: a case-control study. Int J Oncol. 2006 Jul;29(1):193-200.
  23. Pacher, M. et al., Impact of constitutive IGF1/IGF2 stimulation on the transcriptional program of human breast cancer cells. Carcinogenesis. 2006 Jun 14
  24. International Scientific Committee Warns of Serious Risks of Breast and Prostate Cancer from Monsanto's Hormonal Milk. Press release of the Cancer Prevention Coalition.
  25. Milk: Epstein, S., America's Health Problem. Web page of the Cancer Prevention Coalition.
  26. http://www.fda.gov/bbs/topics/ANSWERS/ANS00564.html
  27. http://en.wikipedia.org/wiki/Anaerobic_respiration
  28. McGee, Harold (2004). On Food and Cooking: The Science and Lore of the Kitchen, Completely Revised and Updated. New York, NY: Scribner. p. 13. ISBN 9780684800011.
  29. http://www.kt.iger.bbsrc.ac.uk/FACT%20sheet%20PDF%20files/kt21.pdf
  30. http://books.google.com/books?id=qJgdAEhQvnMC&pg=PA226&lpg=PA226&dq=mastitis+and+milk+fat+levels&source=web&ots=PrguNhnHdm&sig=W_MS2A7FWTBksmBYvZZk38dRh4A
  31. http://www.fda.gov/fdac/features/2004/504_milk.html
  32. [3]

References

See also

External links

Template:WH Template:WikiDoc Sources

Retrieved from "https://www.wikidoc.org/index.php?title=Milk&oldid=679683"