Milk in Life Conditions (MiLC): Bacterial Composition of Human Milk Pumped and Stored in "Real-Life" Conditions

Not Applicable

Completed

Conditions: Human Milk Microbiome
Bacterial Growth

Interventions: Device: Sterile pump set-up
Device: Mother's Own pump set-up

Registration Number: NCT03123874

Lead Sponsor: Cornell University

Brief Summary: The MiLC trial is a randomized control trial of two different breast pump set-ups: mother's own and sterile. The objective of this trial is to investigate the bacterial composition of human milk pumped and stored in "real-life" conditions. To meet this objective, lactating mothers will fully express breast milk from one breast on two consecutive pumping sessions at home, once with the participant's own pumps and collection kits (own pump set-up) and once with a hospital-grade pump and disposable, sterile collection kits (sterile pump set-up). Randomization will be used to determine which pump participants use first. From the total volume of milk pumped during each pumping session, the researchers will collect 1 oz. Milk from both pumps will be stored at home and sampled on days 0, 2, 4, and 30 after expression for analysis of its bacterial composition.

Detailed Description: Participants will donate 1 oz of human milk during each of two consecutive pumping sessions, for a total volume of 2 oz donated on one day. To collect this human milk, participants will be asked to fully express one breast during each pumping session. Participants will pump once with the participant's own pump set-up and once with the sterile pump set-up (provided by the research team). Women will be randomized to which pump is used first.

Randomization will be done using stratified randomization as follows: participants were stratified by how their infants were fed, namely whether infants were fed human milk only vs. human milk and complementary foods). Then, randomization was conducted within each strata. The researchers aim to have a minimum of 25 participants in each stratum.

All human milk collections will occur at participants' homes between 0700 and 1100 hours. The second pumping session must begin 3 hours (+/-30 minutes) after the beginning of the first pumping session (e.g. the first pumping session at 7:30 am and the second at 10:30 am). Participants will elect from which breast to donate human milk and that breast will be used for both pumping sessions. Participants will be asked not to nurse from or pump that breast during the 2 hours before the first pumping session and not until after the second pumping session (a total of \~5.5 hours).

From the milk produced during each pumping session (which could be up to \~6 oz), researchers will collect 1 oz using a sterile, plastic syringe. Participants will keep the remaining volume of milk. Each ounce of milk collected will be separated into 5 sterile containers (provided). Participants will store donated milk at home until it is picked up by a researcher 2, 4, and 30 days after pumping.

Recruitment & Eligibility

Status: COMPLETED

Sex: Female

Target Recruitment: 52

Inclusion Criteria

Lactating women over the age of 18 years
Self-reported as healthy women and infants
Use an electric breast pump
Confident of ability to donate 1 oz of milk from one breast during each of two consecutive pumping sessions where pumping sessions are 3 hours (+/- 30 minutes) apart and between 0700-1100 hours.
Able to store donated milk at home for 30 days
Have infants who do not consume formula or only consume formula episodically as long as the most recent formula-feeding occurred > 2 weeks before the day milk is pumped for this study.

Exclusion Criteria

Not confident of ability to donate 1 oz of milk from one breast during each of two consecutive pumping sessions, 3 hours (+/- 30 minutes) apart and between the hours of 0700-1100 hours.
Infant consumption of formula in the past 2 weeks
Current indication of breast infection (e.g., breast pain, discomfort, lumps, mastitis with fever, red streaks, or hard red portions of the breast)
Breast pain that the woman does not consider "normal" for lactation/breastfeeding
Signs/symptoms of acute illness in woman or infant in past 7 days including fever (rectal or temporal temperature ≥99.5 F), dark green nasal discharge, diarrhea (abrupt onset of 3 or more excessively "loose" stools in one day), vomiting (where infant vomiting is not associated with feeding), or severe cough.

Study & Design

Study Type: INTERVENTIONAL

Study Design: CROSSOVER

Arm && Interventions

Group	Intervention	Description
Sterile pump set-up first	Mother's Own pump set-up	Participants will pump with sterile pump set-ups first. Approximately 3 hours later, participants will pump with their own pump set-ups.
Mother's Own pump set-up first	Mother's Own pump set-up	Participants will pump with their own pump set-ups first. Approximately 3 hours later, participants will pump with sterile pump set-ups.
Sterile pump set-up first	Sterile pump set-up	Participants will pump with sterile pump set-ups first. Approximately 3 hours later, participants will pump with their own pump set-ups.
Mother's Own pump set-up first	Sterile pump set-up	Participants will pump with their own pump set-ups first. Approximately 3 hours later, participants will pump with sterile pump set-ups.

Primary Outcome Measures

Name	Time	Method
Bacterial Community Diversity	0 days after pumping	Bacterial community diversity will be assessed using the the Shannon diversity index. The Shannon diversity index is a type of entropy measure and is a function of the distribution of the total number of organisms across all of the species. If S is the total number of species in the sample and p_i is the number of organisms in the i-th species divided by the total number of organisms, then Diversity = -Σ p_i log(p_i). This metric will be assessed on data collected via high-throughput sequencing of the bacterial 16S rRNA gene present in milk.
Bacterial Community Richness	0 days after pumping	Richness is the total number of different bacterial taxa detected in the sample. This metric will be assessed on data collected via high-throughput sequencing of the bacterial 16S rRNA gene present in milk.
Total Live Aerobic Bacterial Counts	0 days after pumping	Number of live total aerobic bacteria in milk assessed by aerobic culturing of milk on plate count agar. Reported as colony-forming units (CFU)/mL.