Breast Pumps

Number: 0421

Table Of Contents

Policy
Applicable CPT / HCPCS / ICD-10 Codes
Background
References

Policy

Scope of Policy

This Clinical Policy Bulletin addresses breast pumps and associated supplies.

  1. Medical Necessity

    1. Breast Pump Rental

      Aetna considers rental of a reusable breast pump medically necessary durable medical equipment (DME) when either of the following criteria is met:

      1. For the period of time that a newborn is detained in the hospital after the mother is discharged; breast pump rental is not considered medically necessary once the newborn is discharged; or
      2. For babies who have congenital disorders that interfere with feeding, a breast pump is considered medically necessary for up to 12 months of age.

    2. Supplies

      Aetna considers the following breast pump supplies medically necessary:

      1. Breast milk storage bags (up to 4 boxes of 100 breast milk storage bags per month);
      2. Up to 8 replacement polycarbonate bottles; 8 replacement caps, nipple or lids for breast pump bottles; 8 replacement tubings; 8 replacement adapters; 8 replacement breast shields and splash protectors; and 8 replacement locking rings are considered medically necessary per year. Additional replacement supplies for comfort and convenience are not covered.

  2. Policy Limitations and Exclusions

    1. Aetna does not cover breast pump purchase under standard Aetna benefit plans that are not currently subject to Department of Health and Human Services (DHHS) requirements for coverage of breast pumps. Non-reusable manual or electric breast pumps that are available commercially are not considered by Aetna to fall within the standard contractual definition of durable medical equipment in that they are normally of use in the absence of illness or injury.
    2. Aetna does not cover the following breast pump-related items:

      1. Baby weight scales
      2. Batteries, battery-powered adaptors, and battery packs
      3. Breast milk, ice-packs, labels, labeling lids, and other similar products
      4. Breast pump cleaning supplies including soap, sprays, wipes, steam cleaning bags and other similar products
      5. Creams, ointments, and other products that relieve breasts or nipples
      6. Electrical power adapters for travel
      7. Garments or other products that allow hands-free pump operation
      8. Nursing bras, bra pads, breast shells, nipple shields, and other similar products
      9. Travel bags, and other similar travel or carrying accessories.

  3. Other

    The following policy applies to new health plans and non-grandfathered plans that are currently subject to DHHS requirements for coverage of breast pumps, with coverage beginning in the first plan year that begins on or after August 1, 2012 (please check benefit plan descriptions):

    1. Aetna considers purchase of a manual or standard electric breast pump medically necessary during pregnancy or at any time following delivery for breastfeeding.
    2. Aetna considers purchase of a manual or standard electric breast pump medically necessary for women who plan to breastfeed an adopted infant when the above listed criteria are met.
    3. Aetna considers rental of a heavy duty electrical (hospital grade) breast pump medically necessary for the period of time that a newborn is detained in the hospital.
    4. For women using a breast pump from a prior pregnancy, a new set of breast pump supplies is considered medically necessary with each subsequent pregnancy for initiation or continuation of breastfeeding during pregnancy or following delivery.
    5. A replacement manual or standard electrical breast pump is considered medically necessary for each subsequent pregnancy, for initiation or continuation of breastfeeding during pregnancy or following delivery.
    6. Aetna considers purchase of heavy duty electrical (hospital grade) breast pumps not medically necessary.
    7. Aetna considers purchase of wearable, battery-operated (electric) breast pumps not medically necessary.
Table:

CPT Codes / HCPCS Codes / ICD-10 Codes
Code Code Description

HCPCS codes covered if selection criteria are met:
A4281 Tubing for breast pump, replacement
A4282 Adapter for breast pump, replacement
A4283 Cap for breast pump bottle, replacement
A4284 Breast shield and splash protector for use with breast pump, replacement
A4285 Polycarbonate bottle for use with breast pump, replacement
A4286 Locking ring for breast pump, replacement
A4287 Disposable collection and storage bag for breast milk, any size, any type, each
E0602 Breast pump, manual, any type
E0603 Breast pump, electric (AC and/or DC), any type [not covered for purchase of wearable, battery-operated (electric) breast pumps]
E0604 Breast pump, hospital grade, electric (AC and/or DC), any type [not covered for purchase of wearable, battery-operated (electric) breast pumps]

HCPCS codes not covered for indications listed in the CPB:

Nipple or lid for breast pump bottle - No specific code:

ICD-10 codes covered if selection criteria are met:
O00.00 - O9A.53 Complications of pregnancy, childbirth and the puerperium
Q35.1 - Q37.9 Cleft palate and cleft lip
Q38.0 - Q38.4, Q38.6 - Q38.8 Other congenital malformations of tongue, mouth and phrarynx
Z34.00 - Z34.93 Encounter for supervision of normal pregnancy
Z39.0 - Z39.2 Encounter for maternal postpartum care and examination

Background

Breast-fed infants have a lower risk of diarrhea and otitis media than bottle-fed infants during the first year of life. For premature infants, breast milk helps prevent infections, speeds recovery from respiratory distress syndrome, increases weight gain, protects against retinopathy, and facilitates cognitive and visual development.

Aetna considers breast pump rental medically necessary for infants while they are detained in the hospital. Breast pumps used in the hospital are specifically designed for reuse (sterilizable) and are not sold commercially.

By contrast, the manual and electric breast pumps that are available commercially are not designed for reuse, and are most commonly sold to mothers with normal infants who are working, traveling, or for other reasons not always home to breast-feed the baby. Standard electric breast pumps or manual breast pumps may be necessary to initiate breast feeding in the postpartum period, within the first eight weeks following delivery. Manual breast pumps are sufficient for continuation of breastfeeding following the postpartum period. Current recommendations from the American Academy of Pediatrics are to continue breastfeeding of infants through one year of age.

Women may be able to breastfeed adopted infants through induced lactation. The process involves nipple stimulation with use of an electric breast pump beginning about two months before the adoptive mother expects to begin breast-feeding. In addition, hormonal therapy, such as supplemental estrogen or progesterone, may be prescribed to mimic the effects of pregnancy. Typically, hormone therapy for induced lactation is discontinued shortly before breast-feeding begins. At that point, the infant's suckling is thought to stimulate and maintain milk production.

Authorized under provisions of the Patient Protection and Affordable Care Act, the U.S. Department of Health and Human Services (DHHS) released health plan coverage guidelines, developed by a committee of the Institute of Medicine, that require health insurance plans to cover breast pumps and certain other women's preventive services. New health plans and non-grandfathered plans and issuers are required to provide coverage consistent with these guidelines in the first plan year (in the individual market, policy year) that begins on or after August 1, 2012.

The Centers for Disease Control and Prevention (CDC, 2010) recommended that infected women in the United States refrain from breast-feeding to avoid post-natal transmission of HIV-1 to their infants through breast milk.  These recommendations also should be followed by women receiving ant-iretroviral therapy.  Passage of anti-retroviral drugs into breast milk has been evaluated for only a few anti-retroviral drugs; ZDV, 3TC, and nevirapine have been detected in the breast milk of women.

Qi and colleagues (2014) described breast pump-related problems and injuries and identified factors associated with these problems and injuries.  Data were from the Infant Feeding Practices Study II; mothers were recruited from a nationally distributed consumer opinion panel.  Mothers were asked about breast pump use, problems, and injuries at infant ages 2, 5, and 7 months.  Survival analysis was used to identify factors associated with pump-related problems and injuries.  The sample included 1,844 mothers.  About 62 % and 15 % of mothers reported pump-related problems and injuries, respectively.  The most commonly reported problem was that the pump did not extract enough milk and the most commonly reported injury was sore nipples.  Using a battery-operated pump and intending to breast-feed less than 12 months were associated with higher risks of pump-related problems and injury.  Learning from a friend to use the pump was associated with lower risk of pump-related problems, and using a manual pump and renting a pump were associated with a higher risk of problems.  The authors concluded that these findings suggested that problems and injuries associated with breast pump use can happen to mothers of all socioeconomic characteristics.  Breast-feeding mothers may reduce their risks of problems and injury by not using battery-operated pumps and may reduce breast pump problems by not using manual pumps and by learning breast pump skills from a person rather than following written or video instructions.

In a Cochrane review, Becker et al (2015) evaluated acceptability, effectiveness, safety, effect on milk composition, contamination and cost implications of methods of milk expression.  These investigators searched the Cochrane Pregnancy and Childbirth Group's Trials Register (March 2014), CINAHL (1982 to March 2014), conference proceedings, secondary references and contacted researchers.  Randomized and quasi-randomized trials comparing methods at any time after birth were selected for analysis.  Three authors independently assessed trials, extracted data and assessed risk of bias.  This updated review included 34 studies involving 1,998 participants, with 17 trials involving 961 participants providing data for analysis.  Eight studies compared 1 or more types of pump versus hand expression and 14 studies compared 1 type of pump versus another type of pump, with 3 of these studies comparing both hand expression and multiple pump types.  Fifteen studies compared a specific protocol or adjunct behavior including sequential versus simultaneous pumping protocols (5 studies), pumping more than 4 times per day versus less than 3 times per day (1 study), provision of a milk expression education and support intervention to mothers of pre-term infants versus no provision (1 study), provision of audio/visual relaxation to mothers of pre-term infants versus no specific relaxation (2 studies), commencing pumping within 1 hour of delivery versus between 1 to 6 hours (1 study), breast massage before or during pumping versus no massage (2 studies, of which 1 also tested a second behavior), therapeutic touch versus none (1 study), warming breasts before pumping versus not warming breasts (1 study), combining hand expression with pumping versus pumping alone (1 study) and a breast cleansing protocol versus no protocol (1 study).  There were insufficient comparable data on outcomes to undertake meta-analysis and data reported relates to evidence from single studies.  Only 1 of the 17 studies examining maternal satisfaction/acceptability provided data in a way that could be analyzed, reporting that mothers assigned to the pumping group had more agreement with the statement “I don't want anyone to see me pumping” than mothers in the hand expression group and the statement “I don't want anyone to see me hand expressing” (n = 68, mean difference (MD) -0.70, 95 % confidence interval [CI]: -1.25 to -0.15, p = 0.01), and that mothers found instructions for hand expression were clearer than for pumping (n = 68, MD 0.40, 95 % CI: 0.05 to 0.75, p = 0.02).  No evidence of a difference was found between methods related to adverse effects of milk contamination (1 study, n = 28, risk ratio (RR) 0.89, 95 % CI: 0.62 to 1.27, p = 0.51), (1 study, n = 142 milk samples, MD 0.20, 95 % CI: -0.18 to 0.58, p = 0.30), (1 study, n = 123 milk samples, MD 0.10, 95 % CI: -0.29 to 0.49, p = 0.61), (1 study, n = 141 milk samples, MD -0.10, 95 % CI: -0.46 to 0.26, p = 0.59 ); or level of maternal breast or nipple pain or damage (1 study, n = 68, MD 0.02, 95 % CI: -0.67 to 0.71, p = 0.96).  For the secondary outcomes, greater volume was obtained when mothers with infants in a neonatal unit were provided with a relaxation tape or music-listening interventions to use while pumping, when the breasts was warmed before pumping or massaged while pumping.  Initiation of milk pumping within 60 minutes of birth of a very low birth-weight infant obtained higher mean milk quantity in the first week than the group who initiated pumping later.  No evidence of difference in volume was found with simultaneous or sequential pumping or between pumps studied.  Differences between methods were found for sodium, potassium, protein and fat constituents; no evidence of difference was found for energy content.  No consistent effect was found related to prolactin change or effect on oxytocin release with pump type or method.  Economic aspects were not reported.  Most studies were classified as unclear or low risk of bias.  Most studies did not provide any information regarding blinding of outcome assessment; 15 of the 25 studies that evaluated pumps or products had support from the manufacturers.  The authors concluded that the most suitable method for milk expression may depend on the time since birth, purpose of expression and the individual mother and infant.  Low-cost interventions including early initiation when not feeding at the breast, listening to relaxation music, massage and warming of the breasts, hand expression and lower cost pumps may be as effective, or more effective, than large electric pumps for some outcomes.  They stated that small sample sizes, large standard deviations, and the diversity of the interventions argue caution in applying these results beyond the specific method tested in the specific settings.

In a Cochrane review, Becker and colleagues (2016) evaluated acceptability, effectiveness, safety, effect on milk composition, contamination and costs of methods of milk expression.  The authors concluded that the most suitable method for milk expression may depend on the time since birth, purpose of expression and the individual mother and infant.  Low-cost interventions including initiation of milk expression sooner after birth when not feeding at the breast, relaxation, massage, warming the breasts, hand expression and lower cost pumps may be as effective, or more effective, than large electric pumps for some outcomes.  Variation in nutrient content across methods may be relevant to some infants.  These researchers noted that small sample sizes, large standard deviations, and the diversity of the interventions argued caution in applying these results beyond the specific method tested in the specific settings.  Moreover, they stated that independently funded research is needed for more trials on hand expression, relaxation and other techniques that do not have a commercial potential.

References

The above policy is based on the following references:

  1. American Academy of Pediatrics (AAP). Human milk. In: 2006 Red Book: Report of the Committee on Infectious Diseases. 26th ed. LK Pickering, CJ Baker, SS Long, JA McMillan, eds. Elk Grove Village, IL: AAP; 2006:123-130.
  2. Anderson JW, Johnstone BM, Remley DT. Breast-feeding and cognitive development: A meta-analysis. Am J Clin Nutr. 1999;70(4):525-535.
  3. Beake S, Bick D, Narracott C, Chang YS. Interventions for women who have a caesarean birth to increase uptake and duration of breastfeeding: A systematic review. Matern Child Nutr. 2017;13(4).
  4. Beaudry M, Dufour R, Marcoux S. Relation between infant feeding and infections during the first six months of life. J Pediatr. 1995;126(2):191-197.
  5. Becker GE, McCormick FM, Renfrew MJ. Methods of milk expression for lactating women. Cochrane Database Syst Rev. 2008;(4):CD006170.
  6. Becker GE, Smith HA, Cooney F. Methods of milk expression for lactating women. Cochrane Database Syst Rev. 2015;2:CD006170.
  7. Becker GE, Smith HA, Cooney F. Methods of milk expression for lactating women. Cochrane Database Syst Rev. 2016;9:CD006170.
  8. Bier JB, Ferguson A, Anderson L, et al. Breast-feeding of very low birth weight infants. J Pediatr. 1993;123(5):773-778.
  9. Birch E, Birch D, Hoffman D, et al. Breast-feeding and optimal visual development. J Pediatr Ophthalmol Strabismus. 1993;30(1):33-38.
  10. Centers for Disease Control and Prevention (CDC). Human immunodeficiency virus (HIV), and acquired immunodeficiency virus (AIDS). Should a woman infected with HIV breastfeed her baby? Blueprint for Action on Breastfeeding. Atlanta, GA: CDC; 2000:12-13. Available at: http://www.cdc.gov/breastfeeding/disease/hiv.htm. Accessed March 27, 2014.
  11. Consumers Union. Breast pumps. Babies & Kids. ConsumerReports.org. Yonkers, NY: Consumers Union; November 2005. Available at: http://www.consumerreports.org/cro/babies-kids/breast-pumps-1105/index.htm. Accessed June 6, 2006.
  12. Dewey KG, Heinig MJ, Nommsen-Rivers LA. Differences in morbidity between breast-fed and formula-fed infants. J Pediatr. 1995;126(5 Pt 1):696-702.
  13. Fair FJ, Ford GL, Soltani H. Interventions for supporting the initiation and continuation of breastfeeding among women who are overweight or obese. Cochrane Database Syst Rev. 2019;9:CD012099.
  14. Hambidge KM, Krebs NF. Nutrition & feeding. In: Handbook of Pediatrics. 18th ed. GB Merenstein, D Kaplan, AA Rosenberg, eds. Stamford, CT: Appleton & Lange; 1997:50-51.
  15. Hayes DK, Prince CB, Espinueva V, et al. Comparison of manual and electric breast pumps among WIC women returning to work or school in Hawaii. Breastfeed Med. 2008;3(1):3-10.
  16. Hender K. Infant formula compared to breast milk for the prevention of allergies in neonates. Evidence Centre Critical Appraisal. Clayton, VIC: Centre for Clinical Effectiveness (CCE); 2001.
  17. Henderson G, Anthony MY, McGuire W. Formula milk versus maternal breast milk for feeding preterm or low birth weight infants. Cochane Database Syst Rev. 2007;(4):CD002972.
  18. Henderson G, Fahey T, McGuire W. Nutrient-enriched formula milk versus human breast milk for preterm infants following hospital discharge. Cochrane Database Syst Rev. 2007;(4):CD004862.
  19. Kramer MS, Kakuma R. Optimal duration of exclusive breastfeeding. Cochrane Database Syst Rev. 2002;(1):CD003517.
  20. Leiter V, Agiliga A, Kennedy E, Mecham E. Pay at the pump?: Problems with electric breast pumps. Soc Sci Med. 2022;292:114625.
  21. Meier PP, Patel AL, Hoban R, Engstrom JL. Which breast pump for which mother: An evidence-based approach to individualizing breast pump technology. J Perinatol. 2016;36(7):493-499.
  22. Ohyama M, Watabe H, Hayasaka Y. Manual expression and electric breast pumping in the first 48 h after delivery. Pediatr Int. 2010;52(1):39-43.
  23. Post ED, Stam G, Tromp E. Milk production after preterm, late preterm and term delivery; effects of different breast pump suction patterns. J Perinatol. 2016;36(1):47-51.
  24. Price E, Weaver G, Hoffman P, et al. Decontamination of breast pump milk collection kits and related items at home and in hospital: Guidance from a Joint Working Group of the Healthcare Infection Society and Infection Prevention Society. J Hosp Infect. 2016;92(3):213-221.
  25. Qi Y, Zhang Y, Fein S, et al. Maternal and breast pump factors associated with breast pump problems and injuries. J Hum Lact. 2014;30(1):62-72; quiz 110-112.
  26. Quigley MA, Henderson G, Anthony MY, McGuire W. Formula milk versus donor breast milk for feeding preterm or low birth weight infants. Cochrane Database Syst Rev. 2007;(4):CD002971.