College
Rowan-Virtua School of Osteopathic Medicine
Keywords
MSK, Pregnancy, Long Term, Bone, Pregnant, Joint
Date of Presentation
5-1-2025 12:00 AM
Poster Abstract
Pregnancy and lactation represent significant physiological challenges to maternal skeletal health, with substantial implications for both short and long-term musculoskeletal integrity. Research emphasizes that lactation induces notable skeletal adaptations, with up to 10% bone mineral density loss occurring in trabecular-rich regions such as the spine and hip (1,5). While most women experience substantial recovery post-weaning, the research indicates that recovery patterns vary significantly, with some women experiencing incomplete restoration of bone mass, potentially compromising long-term skeletal strength (3).
The underlying mechanisms driving these changes are primarily hormonal, with elevated parathyroid hormone-related protein (PTHrP) and decreased estrogen levels during lactation facilitating bone resorption and contributing to joint instability (3,6). Advanced imaging studies have revealed that women with pregnancy and lactation-associated osteoporosis (PLO) exhibit significantly degraded bone microarchitecture directly correlating with increased fracture susceptibility (7). Through animal model research, it is determined that reproductive history may have lasting effects on joint durability through alterations in the tendon-to-bone interface and proximal humerus morphology (2).
Identifying risk factors associated with greater bone loss and delayed recovery, such as low BMI, vitamin D deficiency, prolonged breastfeeding duration, and genetic predisposition, provides valuable clinical markers for identifying women at heightened risk. Many women report fractures or significant musculoskeletal pain in the postpartum period before receiving an appropriate diagnosis and intervention (8). This highlights a critical gap in current maternal healthcare protocols and emphasizes the need for improved postnatal bone health screening, especially for women with multiple risk factors.
Future Directions
These findings demonstrate a need for clinical guidelines for monitoring and supporting maternal bone health throughout pregnancy, lactation, and the postpartum recovery period. Healthcare providers should consider reproductive history as a potential risk factor for musculoskeletal conditions later in life, particularly for women who experienced complications or delayed recovery. Implementation of targeted screening protocols, provider-patient education, and weight-bearing exercise recommendations, may help mitigate adverse skeletal outcomes associated with reproduction and lactation (4,6,8).
The long-term implications of reproductive-associated bone changes deserve further investigation, particularly regarding the potential cumulative effects of multiple pregnancies and extended lactation periods on lifetime fracture risk and joint stability. Additionally, research into genetic and molecular factors influencing individual recovery patterns could lead to more personalized approaches to maternal bone health management during this vulnerable period.
Disciplines
Medicine and Health Sciences | Musculoskeletal System | Obstetrics and Gynecology | Orthopedics | Pathological Conditions, Signs and Symptoms | Women's Health
Included in
Musculoskeletal System Commons, Obstetrics and Gynecology Commons, Orthopedics Commons, Pathological Conditions, Signs and Symptoms Commons, Women's Health Commons
Musculoskeletal Changes in Pregnancy: Implications for Long-Term Bone & Joint Health
Pregnancy and lactation represent significant physiological challenges to maternal skeletal health, with substantial implications for both short and long-term musculoskeletal integrity. Research emphasizes that lactation induces notable skeletal adaptations, with up to 10% bone mineral density loss occurring in trabecular-rich regions such as the spine and hip (1,5). While most women experience substantial recovery post-weaning, the research indicates that recovery patterns vary significantly, with some women experiencing incomplete restoration of bone mass, potentially compromising long-term skeletal strength (3).
The underlying mechanisms driving these changes are primarily hormonal, with elevated parathyroid hormone-related protein (PTHrP) and decreased estrogen levels during lactation facilitating bone resorption and contributing to joint instability (3,6). Advanced imaging studies have revealed that women with pregnancy and lactation-associated osteoporosis (PLO) exhibit significantly degraded bone microarchitecture directly correlating with increased fracture susceptibility (7). Through animal model research, it is determined that reproductive history may have lasting effects on joint durability through alterations in the tendon-to-bone interface and proximal humerus morphology (2).
Identifying risk factors associated with greater bone loss and delayed recovery, such as low BMI, vitamin D deficiency, prolonged breastfeeding duration, and genetic predisposition, provides valuable clinical markers for identifying women at heightened risk. Many women report fractures or significant musculoskeletal pain in the postpartum period before receiving an appropriate diagnosis and intervention (8). This highlights a critical gap in current maternal healthcare protocols and emphasizes the need for improved postnatal bone health screening, especially for women with multiple risk factors.
Future Directions
These findings demonstrate a need for clinical guidelines for monitoring and supporting maternal bone health throughout pregnancy, lactation, and the postpartum recovery period. Healthcare providers should consider reproductive history as a potential risk factor for musculoskeletal conditions later in life, particularly for women who experienced complications or delayed recovery. Implementation of targeted screening protocols, provider-patient education, and weight-bearing exercise recommendations, may help mitigate adverse skeletal outcomes associated with reproduction and lactation (4,6,8).
The long-term implications of reproductive-associated bone changes deserve further investigation, particularly regarding the potential cumulative effects of multiple pregnancies and extended lactation periods on lifetime fracture risk and joint stability. Additionally, research into genetic and molecular factors influencing individual recovery patterns could lead to more personalized approaches to maternal bone health management during this vulnerable period.
