Empty breasts make milk faster than full breasts

FULL/EMPTY BREASTS

While it seems counterintuitive, the emptier your breasts are, the faster they make milk. A full bread has no place to store or hold the milk, so milk production slows to prevent plugged ducts and breast discomfort. Cluster feeding on an emptier breast actually tells the body to make more milk at a faster rate!! Some incorrectly assume you have to wait for the breast to “fill up” before feeding your baby or for pumping while at work. This will eventually lead to less milk, as a fuller breast tells your body baby isn’t eating very often and to slow milk production. The more frequent you empty the breast, the higher the fat content in that milk and the faster milk is made. The longer often you wait and the fuller the breast, the higher the water content in that milk and the slower your body will make milk overall.

W atch the baby, not the clock. Breasts may feel really full between feedings in the first few weeks after birth, but they’re also not supposed to stay engorged. There will come a time when they stay soft and don’t feel full between feedings or pumping, so waiting for that as a cue to feed will also sabotage your supply. Don’t be alarmed when your breasts no longer feel full between feeding. You’re entering a new stage where you’ll still make plenty of milk for your baby as long as you’re routinely emptying that milk. Trust your body. Trust your baby.

Vernix, delayed bathing, and breastfeeding

My little Peach right after birth

The vernix caseosa is a greasy, cheese-like coating that covers baby’s skin in the womb to protect their skin from getting pickled by amniotic fluid prior to birth. According to present knowledge, vernix production is unique to humans. At birth, vernix may cover the entire skin surface or only be found in body folds. Its color may actually help indicate intra-uterine problems or disease.

😳In utero: When swallowed by baby in utero, vernix helps:

• Develop the gut

• Prevents loss of electrolytes and fluids

• Seals the skin to prevent the amniotic fluid from turning baby into a raisin

• Acts as a microbial barrier from pathogens

• Protects skin growing underneath it

😳In birth: The oily texture may naturally lubricate the birth canal to reduce friction as baby makes their exit. It can also help with mother’s perineal healing!

😳 In postpartum:

• Vernix protects baby’s skin from drying out

• Reduced risk of bacterial infections

• Help baby retain heat

😳 In breastfeeding: The scent of vernix might be involved in triggering neural connections in babies’ brain needed for breastfeeding. The immune proteins found in vernix and amniotic fluid are similar to those found in breastmilk. Swallowing vernix and amniotic fluid in utero help coat baby’s lungs and digestive tract, preparing the digestive tract for the similar peptides found in breastmilk. The smell may also help baby find the breast!

The majority of the vernix is absorbed within the first day, so so it’s recommended to wait until after the first 24 hours to bathe baby. Vernix doesn’t fully absorb until day 5 or 6, so it’s best to wait until then.

Perspectives on breastfeeding

PERSPECTIVE

“My hospital nurse told me to feed baby every 2 hours with 15mL and my pediatrician told me to feed baby every 3 hours with 30mL.”

“My IBCLC told me there is a tongue tie but the ENT said there wasn’t one.”

“One consultant told me to use a nipple shield as lo as needed. The other said get off as quick as possible”

“They said don’t let baby feed more than 10 minutes per side, but my baby won’t stay latched that long.”

I hear this all the time in my practice and it can be confusing for families. Why did I get different advice from different people? Perspective. Doulas, midwives, pediatricians, even lactation consultants all come from their own training, education, clinical practice and personal experience. When in doubt, the best person to get lactation advice from is an IBCLC. They have had to go through extensive training and mentoring to become certified in the study of human lactation. But remember: even lactation consultants come from different perspectives.

A hospital based IBCLC typically only works with babies in the first 2-4 days after birth and may see dozens of babies in a week, getting only a short amount of time with each family. A private practice IBCLC may have more time to spend with you but experience and expertise may vary. An IBCLC who is also a nurse will approach breastfeeding differently than one who is also a feeding therapist or who started out as a mother who struggled to breastfeed and became passionate to help others going through what she went through. My best advice is find some one who listens to you, educates on why they want you to do something, and supports you in your journey. Because you have a unique perspective, too.

Lauren Archer, Love of a Little One doula, takes a picture of my midwife and newborn
This is the same image from Lauren’s perspective

What do my Labor and Delivery have to do with breastfeeding?

All babies are born with innate instincts and reflex to get them to the breast soon after birth. Every baby, when placed skin to skin on their mother immediately after birth, will do the breast crawl and have a first latch within approximately 60 minutes of delivery, even medicated or c-section births. In the first 24 hours, babies are often sleepy. Waking for brief periods to feed and go back to sleep. The second day (and usually the second night) is when babies make up for the first day after delivery, ravenously cluster feeding for hours, much to the dismay of now extremely fatigued parents. But your labor has more of an impact on breastfeeding than you may realize.



We learning and understanding how our bodies prepare for breastfeeding during pregnancy, how what happens during labor and birth sets the stage for breastfeeding, and how the first minutes and hours after birth can have a lasting impact on the entire breastfeeding journey. The way baby is born  powerfully influences the first hours and days of breastfeeding. Unmedicated, vaginal birth sets the stage for problem-free breastfeeding, where biology, instinct and reflex can take center stage. In contrast, a complicated, intervention-intensive labor and birth increases the risk of problems.

How long you labor is really out of your control. The length of your labor may actually increase breastfeeding difficulty. For really long labors (over 24 hours), pushing for 4 hours or more, or very intense short labors, both you and baby may be so exhausted that rest and recovery take precedence over breastfeeding. Baby may be too tired to breastfeed often in the first few days, which increases your risk of not stimulating the breast well which in turn delays colostrum transitioning to mature milk and can decrease the overall volume your breast may be able to make in the future. Long, medically intervened labors also usually mean increased bags of IV fluids, which can cause excess fluid in your body which in turn delays the transition of colostrum to mature milk up to 10-12 days. It can also cause your hand, feet, and breasts to swell with extra fluid, called third spacing, which can make latching baby a challenge. (See my videos on Instagram about reverse pressure softening for help with this).

Events surrounding birth can inadvertently sabotage breastfeeding, as birth is supposed to be a well orchestrated series of events and hormone releases, setting you up for successful breastfeeding. Many of the birthing practices that are considered almost routine (induction, epidurals, separation of the mother and her baby for cleaning, weighing and foot printing) interfere with this hormonal dance resulting in poorer breastfeeding outcomes.

The routine progression of hormonal changes during  labor and birth perfectly prepares the body to breastfeed immediately after birth. During labor, oxytocin surges are responsible for increasingly stronger and more effective contractions. As oxytocin goes up, and the pain that accompanies the strong contractions increases, endorphins are released. High levels of endorphins help you cope with painful contractions and contribute to their becoming more instinctive. As the baby moves down the birth canal, almost ready to be born, catecholamines are released. The surge in catecholamines creates an energy boost and allows the baby is born with high levels of catecholamines as well (; ). This results in a vigorous, alert baby and an energized mother ready to breastfeed for the first time.

 

Skin to skin contact immediately after birth helps these same hormones continue to work in preparation of the first breastfeeding moment. Baby’s body weight on mom’s uterus, baby hand and head movements on her body, and then baby sucking at the breast stimulate even more oxytocin release (). Oxytocin helps the placenta separate and contracts the uterus further, preventing excessive bleeding. After birth, high levels of catecholamine in the baby insure alertness for the breast crawl and first latch. The endorphins present in mom pass on to baby through her breast milk, helping the baby stay calm and relaxed. After the first feeding, these hormones peak and allow both mother and baby 

Prolactin and oxytocin, the. milk making hormones, are released by baby’s sucking at the breast. Prolactin makes milk and oxytocin causes your letdown or release of milk. Prolactin, AKA “the love hormone”, is responsible for nurturing behaviors. Oxytocin makes you feel relaxed, sleepy, or calm feelings during milk letdown. 

All Labor pain-relief drugs have been shown to delay the onset of milk production and increase the risk of breastfeeding difficulties. This was well documented in a 2014 study by Lind et al. Pitocin, unlike naturally occurring oxytocin, does not cross the blood/brain barrier. As a result, the pituitary is not stimulated to release endorphins. Without the pain-relieving help of abundant endorphins, people who are induced with pitocin are more likely to require epidurals. In a vicious cycle, whenever an epidural is given and all pain is removed, naturally occurring oxytocin levels drop, requiring increased amounts of pitocin to continue contractions (Lieberman & O’Donoghue, 2002). Without the high levels of oxytocin and endorphins that would normally be released, a surge in catecholamines does not occur immediately before birth. This hormonal disruption during labor results in women giving birth with relatively low levels of naturally occurring oxytocin, endorphins, and catecholamines. Consequently, the outcome of low hormonal levels is a less responsive mother and baby which in turn impacts vigor at the breast ().

The medication used in the epidural does, in fact, “get to the baby.” Epidural narcotics or anesthetic drugs cross the placenta and can be found in cord blood. More research is needed, but we are starting to learn the neurobehavioral effects of medicated deliveries. Babies exposed to epidurals have a higher risk of have difficulty with latching on and an uncoordinated suck/swallow response for hours or days after birth (; ). Epidurals are also documented to lengthen the second stage of Labor and increase the likelihood of needing a C-section. The trauma of c-section birth, versus the natural positioning of coming through the birth canal, can make it painful for baby to assume the natural, instinctive positioning for breastfeeding and can make it difficult to latch. 

Elective induction of labor is also a risk to breastfeeding because of the potential of added intervention and the increased likelihood of the baby being born prematurely. The more premature a baby is, even at 37-38 weeks, the more immature and uncoordinated sucking and swallowing can be. Babies practice the coordination of sucking and swallowing in utero without expiation to feed, so the longer they are able to practice in utero, the more coordinated and ready they are to feed at birth.

So now what? You’ve had the baby and had a long, medicated delivery. Knowledge is power. You cannot change your birth story, but you can influence your breastfeeding journey.

  • Keep baby in skin to skin contact as long dn often as possible to help restore your oxytocin levels. Every 60 minutes 1-2x/day has been found to exponentially increase milk supply
  • Offer the breast frequent and often. Work on getting baby into a good position to ensure a deep latch
  • If you are separated from your baby or baby is super sleepy, hand express and/or start pumping. You will want to hand express or pump every 2-3 hours during the day and every 3-4 hours at night. You will get more colostrum from hand expression than pumping int he first three days, but pumping will help stimulate the nipples. Don’t be discouraged if you see little milk from a pump. The stimulation is needed until baby is able to latch
  • Stay hydrated and eat good foods full of protein
  • Use a paced bottle feeding technique and try not to over feed baby if you need to supplement. Always supplement with your own milk first, followed by formula. Babies need very little milk in the first 3 days.
  • Find lactation help as soon as possible to help create a plan to get breastfeeding back on track
  • Anderson G, Moore E, Hepworth J, Bergman N. Early skin-to-skin contact for mothers and their healthy newborn infants (Cochrane Review). 2003. In The Cochrane Library, 3. Oxford: John Wiley. [PubMed]
  • Baumgarder D. J, Muehl P, Fischer M, Pribbenow B. Effect of labor epidural anesthesia on breastfeeding on healthy full-term newborns delivered vaginally. Journal of the American Board of Family Practitioners. 2003;16(1):7–13. [PubMed] [Google Scholar]
  • Declercq E. R, Sakala C, Corry M. P, Applebaum S, Risher P. 2002. Listening to mothers: The first national U.S. survey of women’s childbearing experiences. New York: Maternity Center Association. Also, retrieved December 13, 2004, from  www.maternitywise.org/listeningtomothers. [Google Scholar]
  • Kroeger M, Smith L. J. 2004. Impact of birthing practices on breastfeeding: Protecting the mother and baby continuum. Sudbury, MA: Jones and Bartlett Publishers. [Google Scholar]
  • Lamaze International. 2003. Promoting, protecting, and supporting normal birth: Six care practices. Washington, DC: Author. Also, retrieved December 13, 2004, from www.lamaze.org/about/policy.asp and  http://normalbirth.lamaze.org/institute/default.asp. [Google Scholar]
  • Lamaze International. Six care practices that promote, protect, and support normal birth [entire issue]. Journal of Perinatal Education. 2004;13(2) [Google Scholar]
  • Lieberman E, O’Donoghue C. Unintended effects of epidural analgesia during labor: A systematic review. American Journal of Obstetrics and Gynecology. 2003;186(5):s31–68. [PubMed] [Google Scholar]
  • Matthiesen A. S, Ransjo-Arvidson A. B, Nissen E, Uvnas-Moberg K. Postpartum maternal oxytocin release by newborns: Effects of infant hand massage and sucking. Birth. 2001;28(1):13–19.[PubMed] [Google Scholar]
  • Newton N. The fetus ejection reflex revisited. Birth. 1987;14(2):106–108. [PubMed] [Google Scholar]
  • Odent M. 2003. Birth and breastfeeding: Rediscovering the needs of women during pregnancy and childbirth. East Sussex, England: Clairview Books. [Google Scholar]
  • Ransjo-Arvidson A. B, Matthiesen S, Lilja G, Nissen E, Widstrom A. M, Uvnas-Moberg K. Maternal analgesia during labor disturbs newborn behavior. Effects on breastfeeding, temperature, and crying. Birth. 2001;28(1):5–12. [PubMed] [Google Scholar]
  • Righard L, Alade M. Effect of delivery room routines on success of first breastfeed. Lancet. 1990;336:1105–1107. [PubMed] [Google Scholar]
  • U.S. Department of Health and Human Services & The Advertising Council. Breastfeeding awareness. 2003. Retrieved December 13, 2004, from http://www.adcouncil.org/campaigns/breastfeeding/
  • Uvnas-Mobert K. 2003. The oxytocin factor: Tapping the hormone of calm, love and healing. Cambridge, MA: Da Capa Press. [Google Scholar]