Assessing the influence of preconception diet on male fertility: a systematic scoping review.
Study Goal
The researchers aimed to examine the effects of dairy consumption on male fertility outcomes, including sperm parameters and clinical fertility measures.
Results Summary
The study found inconsistent relationships between dairy consumption and clinical fertility outcomes (e.g., pregnancy rates, live birth rates). Limited evidence suggested dairy may improve sperm parameters, but results were not conclusive.
Population
Men in the preconception period, including those undergoing fertility treatments.
Effective Dosage
Not specified
Duration
Not specified
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
tomato juice | increase | sperm motility | - | - | may benefit | #1 |
increasing fish | increase | fecundability | - | - | may improve | #2 |
reducing sugar-sweetened beverages | increase | fecundability | - | - | may improve | #3 |
reducing processed meat | increase | fecundability | - | - | may improve | #4 |
reducing total fat | increase | fecundability | - | - | may improve | #5 |
cereals | no change | pregnancy rates or live birth rates | - | - | showed no relationship | #6 |
soy | no change | pregnancy rates or live birth rates | - | - | showed no relationship | #7 |
dairy | no change | pregnancy rates or live birth rates | - | - | showed no relationship | #8 |
consuming red meat | neutral | pregnancy rates or live birth rates | - | - | inconsistent relationships | #9 |
consuming a 'healthy diet' pattern | neutral | pregnancy rates or live birth rates | - | - | inconsistent relationships | #10 |
increasing fish | increase | sperm parameters | - | - | supported | #11 |
increasing fats/fatty acids | increase | sperm parameters | - | - | supported | #12 |
increasing carbohydrates | increase | sperm parameters | - | - | supported | #13 |
increasing dairy | increase | sperm parameters | - | - | supported | #14 |
reducing processed meat | increase | sperm parameters | - | - | supported | #15 |
fruits | neutral | sperm parameters | - | - | evidence was inconsistent | #16 |
vegetables | neutral | sperm parameters | - | - | evidence was inconsistent | #17 |
cereals | neutral | sperm parameters | - | - | evidence was inconsistent | #18 |
legumes | neutral | sperm parameters | - | - | evidence was inconsistent | #19 |
eggs | neutral | sperm parameters | - | - | evidence was inconsistent | #20 |
red meat | neutral | sperm parameters | - | - | evidence was inconsistent | #21 |
protein | neutral | sperm parameters | - | - | evidence was inconsistent | #22 |
Healthy diet patterns | increase | sperm health | - | - | were shown to improve | #23 |
BACKGROUND: The last decade has seen increased research on the relationship between diet and male fertility, but there are no clearly defined nutritional recommendations for men in the preconception period to support clinical fertility outcomes. OBJECTIVE AND RATIONALE: The purpose of this scoping review is to examine the extent and range of research undertaken to evaluate the effect(s) of diet in the preconception period on male clinical fertility and reproductive outcomes. SEARCH METHODS: Four electronic databases (MEDLINE and EMBASE via Ovid, CAB Direct, and CINAHL via EBSCO) were searched from inception to July 2023 for randomized controlled trials (RCTs) and observational studies (prospective/retrospective, case-control, and cross-sectional). Intervention studies in male participants or couples aiming to achieve dietary or nutritional change, or non-intervention studies examining dietary or nutritional components (whole diets, dietary patterns, food groups or individual foods) in the preconception period were included. Controls were defined as any comparison group for RCTs, and any/no comparison for observational studies. Primary outcomes of interest included the effect(s) of male preconception diet on clinical outcomes such as conception (natural or via ART), pregnancy rates and live birth rates. Secondary outcomes included time to conception and sperm parameters. OUTCOMES: A total of 37 studies were eligible, including one RCT and 36 observational studies (prospective, cross-sectional, and case-control studies; four studies in non-ART populations) published between 2008 and 2023. Eight reported clinical outcomes, 26 reported on secondary outcomes, and three reported on both. The RCT did not assess clinical outcomes but found that tomato juice may benefit sperm motility. In observational studies, some evidence suggested that increasing fish or reducing sugar-sweetened beverages, processed meat or total fat may improve fecundability. Evidence for other clinical outcomes, such as pregnancy rates or live birth rates, showed no relationship with cereals, soy and dairy, and inconsistent relationships with consuming red meat or a 'healthy diet' pattern. For improved sperm parameters, limited evidence supported increasing fish, fats/fatty acids, carbohydrates and dairy, and reducing processed meat, while the evidence for fruits, vegetables, cereals, legumes, eggs, red meat and protein was inconsistent. Healthy diet patterns in general were shown to improve sperm health. WIDER IMPLICATIONS: Specific dietary recommendations for improving male fertility are precluded by the lack of reporting on clinical pregnancy outcomes, heterogeneity of the available literature and the paucity of RCTs to determine causation or to rule out reverse causation. There may be some benefit from increasing fish, adopting a healthy dietary pattern, and reducing consumption of sugar-sweetened beverages and processed meat, but it is unclear whether these benefits extend beyond sperm parameters to improve clinical fertility. More studies exploring whole diets rather than singular foods or nutritional components in the context of male fertility are encouraged, particularly by means of RCTs where feasible. Further assessment of core fertility outcomes is warranted and requires careful planning in high-quality prospective studies and RCTs. These studies can lay the groundwork for targeted dietary guidelines and enhance the prospects of successful fertility outcomes for men in the preconception period. Systematic search of preconception diet suggests that increasing fish and reducing sugary drinks, processed meats and total fat may improve male fertility, while consuming healthy diets, fish, fats/fatty acids, carbohydrates and dairy and reducing processed meat can improve sperm health.