Higher body mass index associated with increased oxidative stress in women undergoing IVFHigher BMI linked to oxidative stress in infertility treatment

Frontiers in Medicine Published April 30, 2026 DOI ↗ Editorial oversight: Dr. Sofia Müller, MD · Lifespan & Whole-Person Care

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Key Takeaway

Note the association between higher BMI and increased oxidative stress markers in women undergoing IVF.

This prospective observational cross-sectional study investigated the association between body mass and oxidative stress markers in women undergoing in vitro fertilization. The study evaluated BMI alongside other risk factors to determine their impact on redox imbalance and the antioxidant defense system.

Results indicated that increasing BMI, particularly within the overweight and obese ranges, was associated with a shift toward a pro-oxidative state. BMI was identified as the strongest determinant of redox imbalance among the analyzed risk factors. Specific biochemical changes associated with increasing BMI included reduced superoxide dismutase (SOD) activity, alterations in SOD isoenzyme activity, increased lipid peroxidation, and decreased total antioxidant capacity.

Safety and tolerability data were not reported. Because this was a cross-sectional study, the findings identify associations rather than establishing direct causality. However, the data suggest that BMI is a key modifiable determinant of redox homeostasis in women undergoing infertility treatment.

Trying to conceive through IVF is already an emotional and physical rollercoaster. For many women, the biological hurdles feel out of their control. However, new research suggests that body mass index (BMI) might be a key factor in how the body handles internal stress during this process.

Researchers looked at how BMI relates to oxidative stress, which is a type of chemical imbalance in the body. They found that as BMI increases, particularly in the overweight and obese ranges, the body shifts toward a pro-oxidative state. This means the body's natural defenses are struggling to keep up with harmful molecules.

The study specifically tracked markers like antioxidant capacity and lipid peroxidation (a process that damages cells). The results showed that higher BMI was linked to lower levels of protective enzymes and a decrease in the body's total antioxidant capacity. In fact, the researchers identified BMI as the strongest driver of this chemical imbalance among the risk factors they studied.

While these findings are important, it is worth noting that this was an observational study. This means the researchers observed patterns in a group of women rather than proving that weight changes directly cause these biological shifts. Still, the data points to BMI as a modifiable factor that could play a role in fertility health.

What this means for you:

Higher BMI is linked to increased oxidative stress and lower antioxidant protection in women undergoing IVF.

Study Details

Study typeCohort

EvidenceLevel 3

PublishedApr 2026

View Original Abstract ↓

IntroductionInfertility treatment may be influenced by systemic metabolic and redox imbalances. This prospective observational (cross-sectional) study aimed to evaluate the impact of clinical risk factors on oxidative stress markers and components of the antioxidant defence system in women undergoing in vitro fertilization.MethodsTo capture complex redox interactions, we applied a triad-based analytical framework to assess relationships between clinical variables and oxidative stress–related biomarkers.ResultsThe results indicate that body mass index (BMI) is the strongest determinant of redox imbalance among the analyzed risk factors. Increasing BMI, particularly in the overweight and obese ranges, was associated with a shift toward a pro-oxidative state, as reflected by reduced superoxide dismutase (SOD) activity, alterations in SOD isoenzyme activity, increased lipid peroxidation, and decreased total antioxidant capacity. None of the other evaluated risk factors demonstrated similarly consistent associations with the oxidative stress biomarker panel.DiscussionThe applied statistical modeling approach enabled the identification of potential cause–and–effect relationships between infertility risk factors and oxidative stress–related biomarkers, identifying BMI as a key modifiable determinant of redox homeostasis, with antioxidant enzymes playing a central role.

Higher body mass index associated with increased oxidative stress in women undergoing IVFHigher BMI linked to oxidative stress in infertility treatment

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