Molly Kaissar
@mkaissar.bsky.social
PhD Candidate @ UMN | Pregnancy Biomechanics Researcher | Advancing Women's Health Through Science & Innovation
You can find our full study here💗: authors.elsevier.com/c/1m4RM54GVt...
@jmccardiology.bsky.social @cardioob.bsky.social
@jmccardiology.bsky.social @cardioob.bsky.social
authors.elsevier.com
November 10, 2025 at 7:04 PM
You can find our full study here💗: authors.elsevier.com/c/1m4RM54GVt...
@jmccardiology.bsky.social @cardioob.bsky.social
@jmccardiology.bsky.social @cardioob.bsky.social
Moving forward, we should:
💗investigate how the heart changes after lactation ends
💗explore the relationship between breastfeeding and postpartum cardiac recovery in humans
💗report lactation status in future murine postpartum studies
💗investigate how the heart changes after lactation ends
💗explore the relationship between breastfeeding and postpartum cardiac recovery in humans
💗report lactation status in future murine postpartum studies
November 10, 2025 at 7:03 PM
Moving forward, we should:
💗investigate how the heart changes after lactation ends
💗explore the relationship between breastfeeding and postpartum cardiac recovery in humans
💗report lactation status in future murine postpartum studies
💗investigate how the heart changes after lactation ends
💗explore the relationship between breastfeeding and postpartum cardiac recovery in humans
💗report lactation status in future murine postpartum studies
Our model suggested that biological stimuli like hormones drive heart growth in early lactation, but hemodynamic loading sustains growth later on
Our model also suggested that both hormonal and hemodynamic unloading are required for heart growth reversal after pregnancy
Our model also suggested that both hormonal and hemodynamic unloading are required for heart growth reversal after pregnancy
November 10, 2025 at 7:03 PM
Our model suggested that biological stimuli like hormones drive heart growth in early lactation, but hemodynamic loading sustains growth later on
Our model also suggested that both hormonal and hemodynamic unloading are required for heart growth reversal after pregnancy
Our model also suggested that both hormonal and hemodynamic unloading are required for heart growth reversal after pregnancy
We then used computational multiscale modeling to uncover how biological and mechanical cues work together to drive these cardiac adaptations.
November 10, 2025 at 7:02 PM
We then used computational multiscale modeling to uncover how biological and mechanical cues work together to drive these cardiac adaptations.
We found that pregnancy-induced heart group reversed after delivery, but only in our non-lactating mice. Instead, we saw SIGNIFICANT HEART GROWTH in our lactating mice! 🤱🏻💗
November 10, 2025 at 7:02 PM
We found that pregnancy-induced heart group reversed after delivery, but only in our non-lactating mice. Instead, we saw SIGNIFICANT HEART GROWTH in our lactating mice! 🤱🏻💗
In our most recent study, Kyoko Yoshida and I collaborated with
Elnaz Gajar-Rahimi and Craig Goergen to characterize postpartum changes in heart size, shape, and function in both lactating and non-lactating mice using four-dimensional cardiac ultrasound (4DUS)
Elnaz Gajar-Rahimi and Craig Goergen to characterize postpartum changes in heart size, shape, and function in both lactating and non-lactating mice using four-dimensional cardiac ultrasound (4DUS)
November 10, 2025 at 7:02 PM
In our most recent study, Kyoko Yoshida and I collaborated with
Elnaz Gajar-Rahimi and Craig Goergen to characterize postpartum changes in heart size, shape, and function in both lactating and non-lactating mice using four-dimensional cardiac ultrasound (4DUS)
Elnaz Gajar-Rahimi and Craig Goergen to characterize postpartum changes in heart size, shape, and function in both lactating and non-lactating mice using four-dimensional cardiac ultrasound (4DUS)