Human milk that has truly soured has a very distinct sour taste and odor – much like soured cow’s milk. If your milk doesn’t smell distinctly sour or rancid, then it should be safe to feed to your baby.
First, troubleshoot your storage procedures
If you repeatedly notice that your stored milk doesn’t smell or taste fresh, it might help to go through your storage procedures to see if there is something you could do to improve the smell/taste of your milk:
- Storage containers: Standard glass or plastic bottles (or any type of leak-proof food storage containers) are acceptable for storing mother’s milk, as are disposable bottle liners or “mother’s milk” bags. The best materials are glass or food-grade polypropylene or polybutylene (hard) plastic. Polyethylene bags (bottle liners) do not preserve nutrients and immune properties as well as glass or hard plastic. (Jones & Tully 2005)
- If you’re using standard plastic bottle liners, instead try using bags specifically designed for storing human milk.
- If you’re storing in plastic, try glass instead.
- Storage conditions:
- Do you plan to freeze the milk? If you’re not expecting to use refrigerated milk within 5-8 days of expression, then freeze as soon as possible after expression. Use as soon as possible after thawing (but always within 24 hours).
- Make sure that all packages in your refrigerator or freezer are sealed well, so that your milk cannot absorb odors from other foods. A box of baking soda placed in the refrigerator or freezer may help to absorb odors.
- Store your milk in the BACK of the refrigerator or freezer, not in the door. Don’t store your milk against the wall of a self-defrosting freezer.
- Is your freezer cold enough? If your freezer keeps ice cream hard, then the temperature is right.
Does your milk smell or taste soapy?
A few mothers find that their refrigerated or frozen milk begins to smell or taste soapy, even though all storage guidelines have been followed closely. Per Lawrence & Lawrence (p. 781), the speculation is that these mothers have an excess of the enzyme lipase in their milk, which begins to break down the milk fat soon after the milk is expressed. Most babies do not mind a mild change in taste, and the milk is not harmful, but the stronger the taste the more likely that baby will reject it.
Lipase is an enzyme that is normally present in human milk and has several known beneficial functions:
- Lipases help keep milk fat well-mixed (emulsified) with the “whey” portion of the milk, and also keep the fat globules small so that they are easily digestible (Lawrence & Lawrence, p. 156).
- Lipases also help to break down fats in the milk, so that fat soluble nutrients (vitamins A & D, for example) and free fatty acids (which help to protect baby from illness) are easily available to baby (Lawrence & Lawrence, p. 156).
- The primary lipase in human milk, bile salt-stimulated lipase (BSSL), “has been found to be the major factor inactivating protozoans” (Lawrence & Lawrence, p. 203).
Per Lawrence & Lawrence (p. 158), the amount of BSSL in a particular mother’s milk does not vary during a feed, and is not different at different times of day or different stages of lactation. There is evidence that there may be a decrease in lipase activity over time in mothers who are malnourished.
Many mothers who need to store their expressed milk but have problems with excess lipase sometimes wonder whether changing their diets may help. This post to the LLLI forums discusses some ideas from human milk researcher Leon Mitoulas about this question: Can diet changes help with the Lipase issue?
What can I do if my storage problem is due to excess lipase? Once the milk becomes sour or rancid smelling/tasting, there is no known way to salvage it. However, newly expressed milk can be stored by heating the milk to a scald to inactivate the lipase and stop the process of fat digestion. Scald the milk as soon after expression as possible.
To scald milk:
- Heat milk to about 180 F (82 C), or until you see little bubbles around the edge of the pan (not to a full, rolling boil).
- Quickly cool and store the milk.
Scalding the milk will destroy some of the antiinfective properties of the milk and may lower some nutrient levels, but this is not likely to be an issue unless all of the milk that baby is receiving has been heat-treated.
Per Lawrence & Lawrence, bile salt-stimulated lipase can also be destroyed by heating the milk at 144.5 F (62.5 C) for one minute (p. 205), or at 163 F (72 C) for up to 15 seconds (p. 771).
What if your milk tastes/smells sour, or even rancid, rather than soapy?
If your milk tastes/smells sour or rancid rather than soapy, the cause may be chemical oxidation rather than lipase (Mohrbacher, p. 461). Mom’s intake of polyunsaturated fats may be involved, or free copper or iron ions in her water. When this happens, Mohrbacher has a few suggestions to try:
- avoid your usual drinking water (either drinking it or having milk come into contact with it)
- avoid fish-oil and flaxseed supplements, and foods like anchovies that contain rancid fats
- increase your antioxidant intake (including beta carotene and vitamin E).
If you have frozen milk in your freezer that your child refuses
- Try mixing the “rejected” frozen milk with fresh milk. Start with half frozen, half fresh and adjust the amount of frozen milk up or down depending on your child’s preferences.
- Consider donating your frozen milk to a milk bank. Lipase and other taste issues are not typically an problem for milk banks. Visit HMBANA for more information and to find your closest milk bank.
Breastmilk Storage & Handling @
Storage and Handling of Breastmilk from Lactation Education Resources
Storage and Handling of Breastmilk by Becky Flora, BS, IBCLC (see “What about soured or “off” milk?”)
Excess Lipase details one mom’s experience with excess lipase, with lots of great information (including donating her unusable milk to a milk bank!)
Berkow SE, Freed LM, Hamosh M, Bitman J, Wood DL, Happ B, Hamosh P. Lipases and lipids in human milk: effect of freeze-thawing and storage. Pediatr Res. 1984 Dec;18(12):1257-62.
Bitman J, Wood DL, Mehta NR, Hamosh P, Hamosh M. Lipolysis of triglycerides of human milk during storage at low temperatures: a note of caution. J Pediatr Gastroenterol Nutr. 1983;2(3):521-4.
Dupuy P, Sauniere JF, Vis HL, Leclaire M, Lombardo D. Change in bile salt dependent lipase in human breast milk during extended lactation. Lipids. 1991 Feb;26(2):134-8.
Freed LM, Berkow SE, Hamosh P, York CM, Mehta NR, Hamosh M. Lipases in human milk: effect of gestational age and length of lactation on enzyme activity. J Am Coll Nutr. 1989 Apr;8(2):143-50.
Hamosh M, Dewey KG, Garza C, et al. Nutrition During Lactation. Institute of Medicine, Washington, DC, National Academy Press, 1991. pp. 138.
Jones F, Tully MR. Best Practice for Expressing, Storing and Handling Mother’s Milk in Hospitals, in Homes and in Daycares, 2nd ed. Raleigh, NC: Human Milk Banking Association of North America, 2006: 14-15, 20.
Lawrence R, Lawrence R. Breastfeeding: A Guide for the Medical Profession, 6th ed. Philadelphia, Pennsylvania: Mosby, 2005: 156-158, 203-205, 771, 781.
Lawrence RA. Storage of human milk and the influence of procedures on immunological components of human milk. Acta Paediatr Suppl. 1999 Aug;88(430):14-8.
May JT. Table 7: Effect of heat treatment or storage on antimicrobial factors in human milk. From: May JT. Molecular Virology: Tables of Antimicrobial Factors and Microbial Contaminants in Human Milk. Accessed 9/8/05.
May JT. Antimicrobial properties and microbial contaminants of breast milk–an update. Aust Paediatr J. 1984 Nov;20(4):265-9.
Mohrbacher N. Breastfeeding Answers Made Simple. Amarillo, Texas: Hale Publishing, 2010: 460-461.