Search Results (486)

Modern genetic selection for high productivity has created a physiological conflict in ruminants, where the metabolic demands of lactation compete directly with the energy requirements of reproduction. This review provides a mechanistic synthesis of how key nutritional factors modulate the endocrine and cellular pathways governing reproductive success in cattle and sheep. Negative energy balance (NEB), characteristic of the early postpartum period, suppresses the hypothalamic–pituitary–gonadal (HPG) axis by impairing the pulsatile secretion of gonadotropin-releasing hormone (GnRH) and luteinizing hormone (LH), mediated through reduced kisspeptin signaling, growth hormone (GH) resistance, and decreased circulating insulin, insulin-like growth factor-1 (IGF-1), and leptin. At the macronutrient level, excess rumen-degradable protein elevates blood urea nitrogen and impairs the uterine environment, while omega-3 polyunsaturated fatty acids inhibit prostaglandin F2α synthesis to support corpus luteum maintenance. At the micronutrient level, selenium, copper, and zinc are essential antioxidant cofactors protecting gametes and embryos from oxidative stress, while vitamins A, D, and E regulate gene expression in reproductive tissues. Furthermore, maternal nutrition during critical gestational windows programs the reproductive capacity of offspring through epigenetic modifications, with profound implications for long-term herd fertility. Understanding these nutritional–reproductive interactions is crucial for developing precision feeding strategies that optimize herd fertility, improve animal welfare, and ensure the economic sustainability of livestock management. A thorough understanding of these nutritional–reproductive interactions is essential for developing precision feeding strategies that optimize fertility in high-producing ruminants. Full article

The role of amino acid disturbances in the mother–fetus system remains poorly understood, despite their critical involvement in gestational diabetes mellitus (GDM), fetal macrosomia (FM) and offspring metabolic programming. This study included 62 mother–newborn dyads stratified by GDM and FM status. An analysis of the association of amino acids with clinical parameters was performed using the Spearman test. Amino acid markers of GDM were identified using the mutual information index and the Mann–Whitney test. A random forest method was used to identify amino acid markers, with the SHAP value used to estimate the contribution of each amino acid. In maternal serum, GDM was associated with significantly lower levels of glycine, 1-methylhistidine, γ-aminobutyric acid, lysine, and tryptophan. Umbilical cord serum from GDM pregnancies showed reduced concentrations of glutamine, glycine, asparagine, methionine, and proline. In amniotic fluid, GDM with FM was characterized by elevated lysine and 1-methylhistidine. Cord blood exhibited increased lysine, proline, leucine, and allo-isoleucine, while amniotic fluid showed low homocitrulline, asparagine, and lysine, together with high histidine. Fetal weight correlated directory with lysine and isoleucine and inversely with homocitrulline. Pathway analysis linked maternal serum markers to disturbances in biotin, glutamate, and carnitine metabolism, whereas cord blood markers involved broader alterations in amino acid, purine, and amino sugar metabolism. In amniotic fluid from GDM with FM, the methylhistidine pathway was specifically enriched, suggesting changes in neonatal muscle protein turnover. GDM induces distinct alterations in the amino acid profiles of all three compartments, and the combination with FM yields unique metabolic signatures. These findings identify candidate biomarkers for prediction of GDM and its complications and point to potential targets for metabolic intervention. Full article

Background: Mothers with gestational diabetes mellitus (GDM) face specific challenges in breastfeeding, yet data on the long-term effectiveness of mobile-based interventions remain limited. This study aimed to evaluate the long-term effectiveness of a Mobile-Based Breastfeeding Promotion Program for GDM (M-BFGDM) on breastfeeding knowledge, self-efficacy, and practice rates up to 6 months postpartum. Methods: A nonequivalent control group pretest–posttest quasi-experimental study was conducted. Participants were recruited from an online community. The intervention group received the M-BFGDM, which included Information–Motivation–Behavioral Skills (IMB) model-based educational videos and KakaoTalk counseling. Data were collected at prenatal, 1-week, 1-month, and 6-month postpartum time points. Data were analyzed using generalized estimating equations (GEE) and repeated-measures ANOVA. Results: The final analysis included 38 participants (experimental group, n = 18; control group, n = 20). The M-BFGDM was effective in improving breastfeeding knowledge among women with GDM (p = 0.003). However, the intervention did not significantly influence the trajectory of breastfeeding self-efficacy or prevent the decline in practice rates over 6 months compared to the control group. Conclusions: These findings suggest that while mobile education enhances knowledge, sustained breastfeeding requires more intensive, individualized support to address physical barriers, such as low milk supply and latch difficulties. Full article

Maternal nutrition during pregnancy plays a crucial role in fetal development and metabolic programming. Long-chain omega-3 polyunsaturated fatty acids (LC-PUFA n-3), particularly eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA), are known to influence mitochondrial function and cellular energy metabolism. The present preliminary study aimed to evaluate the effects of maternal omega-3 supplementation on mitochondrial bioenergetics in neonatal piglets. Pregnant sows were supplemented with either fish oil or algal oil rich in LC-PUFA n-3 (long-chain omega-3 polyunsaturated fatty acids) throughout gestation. Liver samples were collected from newborn piglets immediately after birth, and mitochondrial respiratory parameters, oxygen consumption rates, and selected oxidative stress markers were analyzed. The results indicated that maternal omega-3 supplementation was associated with improved mitochondrial respiratory parameters and enhanced oxidative phosphorylation efficiency in neonatal liver tissue. Both fish oil and algal oil supplementation showed similar trends in improving mitochondrial bioenergetic function. Although the study was exploratory and conducted on a limited number of animals, the findings suggest that maternal intake of LC-PUFA n-3 may influence mitochondrial metabolism in offspring. Further studies with larger experimental groups are required to confirm these observations and to better understand the mechanisms underlying these effects. Full article

The study analyzed ten reproductive traits in three major commercial breeds—Yorkshire, Landrace, and Duroc—raised under uniform management. Genetic parameters were estimated using a repeatability animal model in ASReml, genome-wide association studies (GWAS) were performed with 46,358 post-QC SNPs using GCTA, and genomic prediction was evaluated with GBLUP. Heritability estimates were low to moderate, with gestation length (GL) highest (0.33–0.41). GWAS identified significant loci across breeds: in Yorkshire, 37 genome-wide significant SNPs across 17 SSCs for seven traits; in Landrace, 16 SNPs for TNB and one for NBW; and in Duroc, 31 SNPs across 12 SSCs (predominantly for TNB). Among these SNPs, CNC10042060, CNC10160995, and CNCB10003799 were consistently associated with TNB in both Yorkshire and Duroc pigs. Additionally, five SNPs, CNC10012965, CNC10042060, CNC10120451, CNCB10003799, and CNCB10007759, showed significant associations with NBW in Yorkshire and Landrace pigs. Candidate genes mapped within ±1 Mb of significant SNPs were enriched for biologically plausible pathways. Genomic prediction accuracies ranged from low to high depending on trait and breed, such as reaching 0.68 for GL in 39 Yorkshire and 0.59 in Landrace. These results delineate shared and breed-specific genetic architectures, provide actionable markers and candidate genes, and can accelerate genetic gains in commercial breeding programs. Full article

Background: some consensus guidelines include C-reactive protein (CRP) in the diagnostic workup of early-onset neonatal sepsis (EOS), but its routine use remains debated due to variable diagnostic performance. The experiences and data from individual centers can help clarify its clinical utility and inform local practice. Methods: Retrospective analysis at a level III center assessing the impact of discontinuing routine C-reactive protein (CRP) testing for suspected early-onset sepsis (EOS). Laboratory use, antibiotic therapy, and outcomes in neonates of all gestational ages were compared before (2021–2022) and after (2024–2025) the policy change. Results: A total of 638 neonates were included (period 1, n = 348; period 2, n = 290). CRP testing decreased markedly (218/348 in period 1 vs. 40/290 in period 2; p < 0.001), alongside a significant reduction in the number of complete blood counts performed (285/348 vs. 214/290; p = 0.02). Concurrently, both the proportion of short antibiotic courses (≤48 h) initiated within the first 3 days of life (98/181 vs. 88/133) and the median duration of antibiotic therapy (48.0 h vs. 40.0 h; p < 0.001) decreased without worsening outcomes. The duration of antibiotic therapy was even shorter in infants born before 34 weeks’ gestation (48.0 h vs. 37.5 h; p < 0.001). Conclusions: Restricting the use of CRP in the evaluation of EOS was associated with a reduction in unnecessary antibiotic exposure. This strategy may be considered a core component of neonatal antibiotic stewardship programs. Full article

Pembrolizumab is a programmed cell death protein (PD-1) inhibitor, humanized antibody widely used in cancer immunotherapy. Choriocarcinoma is an aggressive type of gestational trophoblastic neoplasia. Its treatment is based on surgical removal of the tumorous tissue and systemic chemotherapy; however, in some chemoresistant cases, immunotherapy can also be a valid option. Here, we report the first successful programmed death inhibitor-based treatment of a patient diagnosed with stage IV, ultra-high-risk choriocarcinoma in Hungary. Full article

Responses to cutaneous injury differ fundamentally across developmental stages in several mammal species. During early human gestation, when the fetus is less than 24 weeks old, wounds are capable of restoring normal tissue architecture without forming fibrotic scars. In contrast, postnatal and adult injuries typically resolve through the process of fibrosis. This divergence reflects coordinated differences in epidermal and dermal compartments, inflammatory signaling, extracellular matrix (ECM) composition, mechanical cues, and gene regulation. Recent studies have demonstrated that dermal fibroblasts are no longer considered a uniform population but instead arise from distinct developmental lineages with stable functional identities. Engrailed-1-negative fibroblasts (ENFs) predominate in early fetal skin in mice and support regenerative repair, while Engrailed-1-positive fibroblasts (EPFs) emerge later in development and are the principal contributors to fibrotic matrix deposition following injury. The developmental shift between these fibroblast populations coincides with the loss of scar-free healing capacity. This review examines the current understanding of fibroblast lineage specification, with particular emphasis on the roles of mechanotransduction, extracellular matrix cues, and epigenetic regulation. Elucidating how these lineage-encoded programs are established and maintained may enable strategies to reprogram adult fibroblasts toward a fetal-like regenerative state and thereby promote scar-free tissue repair. Full article

Preeclampsia (PE), fetal growth restriction (FGR), and gestational diabetes mellitus (GDM) complicate approximately 15–20% of pregnancies and represent major contributors to perinatal morbidity, mortality, and long-term cardiovascular risk in offspring. Increasing evidence from longitudinal cohort studies indicates that adult cardiovascular disease, including hypertension, coronary artery disease, and stroke, may be programmed in utero through early alterations in fetal cardiac structure and function. Two-dimensional speckle-tracking echocardiography (2D-STE) has emerged as the most sensitive non-invasive technique for detecting subclinical myocardial deformation, often preceding abnormalities detected by conventional Doppler or biometric parameters. While numerous third-trimester studies have demonstrated impaired global longitudinal strain (GLS), altered ventricular geometry, and diastolic dysfunction in established disease, data from mid-gestation (18–28 weeks), the critical preclinical window, remain extremely limited. Therefore, this review aims to systematically synthesize the available evidence on fetal cardiac deformation parameters assessed by 2D-STE at mid-gestation in pregnancies that subsequently developed PE, FGR, or GDM, in order to identify the earliest detectable signatures of fetal cardiovascular programming and highlight key knowledge gaps that must be addressed prior to clinical implementation. Full article

Background: Adolescent pregnancy remains a major global public health issue, often linked to socioeconomic and educational disparities rather than biological immaturity. This study aimed to identify sociodemographic factors associated with adolescent pregnancies and to evaluate their impact on maternal and neonatal outcomes in a tertiary hospital in Northeastern Romania. Methods: A retrospective analysis was conducted at the “Cuza Vodă” Obstetrics-Gynecology Clinic Hospital, Iași, over two periods: 2013–2017 and January–October 2025. Records of 637 mothers aged <20 years were reviewed. Variables included age, education, prenatal monitoring, gestational age, delivery mode, neonatal outcomes, and obstetric complications. Statistical analyses were performed using SPSS v26, employing ANOVA, Welch ANOVA, and post hoc tests (p < 0.05). Ethical approval was obtained from the institutional ethics committee. Results: The mean maternal age was 17.26 ± 1.5 years, with 82.6% from rural areas. Most had only primary or lower secondary education. Fully monitored pregnancies were associated with significantly higher birth weights (mean = 3249 g) compared with unmonitored pregnancies (mean = 3009 g; p < 0.001). Infants of mothers with low education had the lowest mean birth weights (2963 g; p = 0.002). Preterm births represented 14.3% of cases, and cesarean deliveries accounted for 34.5%. A slight but significant increase in maternal age was observed between 2013–2017 and 2025 (p < 0.001), suggesting delayed adolescent childbearing. Conclusions: Low educational attainment and inadequate prenatal monitoring remain major determinants of adverse neonatal outcomes among adolescent mothers. Comprehensive sexual education, improved prenatal care accessibility, and social support programs are essential to reduce adolescent pregnancy rates and improve reproductive health in Romania. Full article

Maternal nutrition during pregnancy critically influences fetal programming, shaping the offspring’s lifelong health and disease susceptibility. Both undernutrition and overnutrition affect fetal metabolism, predisposing offspring to obesity and cardiometabolic disorders in adulthood. This review examines current evidence on how maternal nutrition, particularly overnutrition and its complications, such as gestational diabetes mellitus (GDM) and obesity, affects offspring health. It also explores the biochemical and epigenetic mechanisms underlying aberrant fetal programming induced by an unfavorable intrauterine environment. Excess nutrient exposure in utero alters fetal metabolic pathways by modifying the expression of key metabolic genes and nutrient sensors, increasing susceptibility to metabolic syndrome later in life. Maternal obesity has additionally been linked to cognitive dysfunction, immune alterations, and elevated cancer-related mortality in the offspring. GDM exposure disrupts fetal hypothalamic development, impairing appetite regulation. Emerging evidence suggests that epigenetic changes induced by maternal overnutrition may be transmitted across generations and that paternal obesity may also contribute to fetal metabolic programming. Although lifestyle interventions during pregnancy have been tested, they show limited long-term benefits, whereas pre-pregnancy BMI remains the strongest predictor of offspring obesity, emphasizing the critical role of preconception care and the prevention of overweight in women of reproductive age. Full article

Background/Objectives: Circulating inflammatory cytokines and tissue sensitivity are both elevated following heat stress-induced intrauterine growth restriction (IUGR). Cytokines disrupt myoblast function and muscle growth, and thus we hypothesized that suppressing inflammatory tone in IUGR-born lambs by supplementing anti-inflammatory nutraceuticals would improve early postnatal growth. Methods: IUGR lambs produced by maternal heat stress were supplemented daily with 42 mg/kg oral omega-3 polyunsaturated fatty acid (ω-3 PUFA) Ca²⁺ salts or placebo from birth to 28 days of age. Results: By day 28, the 21% lighter bodyweights for IUGR lambs were fully resolved by ω-3 PUFA due to the complete recovery of average daily gain. Subcutaneous fat deposition and visceral organ growth were modestly diminished in IUGR-born lambs, but skeletal muscle mass was more markedly restricted. This coincided with 63% less muscle AdipoR2 but 27% greater circulating adiponectin. ω-3 PUFA reduced or eliminated deficits in subcutaneous fat, visceral organs, and five of the six individual muscles assessed, which corresponded with rescue of myoblast populations and AdipoR2 content. In turn, asymmetric growth restriction was resolved at one month of age. Conclusions: These findings show that targeting heightened inflammatory tone during the neonatal period in IUGR-born offspring can recover early growth in skeletal muscle and other soft tissues. Full article

This study examined the effects of average daily gain (ADG) during gestation on growth, nutrient digestibility, metabolic response, and subsequent milk yield and composition in dairy heifers. Twenty pregnant Holstein × Gyr heifers (450 ± 5.0 kg; 18 ± 1.1 months) were randomly assigned to moderate (MOD; target 0.35 kg/day) or high (HIG; target 0.70 kg/day) ADG groups, and received a total mixed ration from day 70 of gestation until calving. Body growth, blood metabolites, and lactation performance after birth were measured. At calving, HIG heifers had greater body weight (p < 0.01) and thoracic perimeter (p = 0.02). Nutrient digestibility and most blood metabolites were not affected by ADG (p > 0.05), except for triiodothyronine concentrations, which differed between treatments over time (p < 0.01). Milk yield and energy-corrected milk were not affected by gestational ADG (p > 0.10), while milk fat and total solids showed numerical treatment × week interactions (p ≤ 0.10). These results indicate that higher ADG during gestation increases body reserves at calving but does not affect milk yield. The moderate ADG for Holstein × Gyr heifers during gestation may improve milk quality through higher fat and solids content, emphasizing the importance of tailoring growth strategies for heifers during gestation. Full article

Background/Objective: To identify the risks and outcomes of extensively drug-resistant Gram-negative bacilli (XDR-GNB) in neonates. Methods: This retrospective case–control study (1995–2024) included neonates with late-onset sepsis (n = 132) and XDR-GNB bacteremia (n = 26) compared with those without XDR-GNB (n = 106). Results: Median gestational age was 31 weeks and birth weight 1540 g. The prevalence of XDR-GNB was 19.7%. The most common XDR-GNB and non-XDR-GNB pathogens were Acinetobacter baumannii and Klebsiella pneumoniae. Sepsis onset occurred earlier in the XDR-GNB group than in the non-XDR-GNB group (7.0 vs. 12.5 days, p = 0.005). In multivariable analysis using Firth’s penalized likelihood method, the XDR-GNB group was more likely to have gastrointestinal anomalies (adjusted odds ratio 3.81, 95% confidence interval 1.24–12.01, p = 0.02) and history of umbilical arterial catheterization (adjusted odds ratio 3.04, 95% confidence interval 1.21–7.95, p = 0.02) compared to the non-XDR-GNB group. The XDR-GNB group had higher rates of septic shock (50.0% vs. 18.9%, p = 0.002) and inadequate empiric antimicrobial therapy (34.6% vs. 13.2%, p = 0.02). The non-susceptibility rates to third-generation cephalosporins, gentamicin, carbapenems, amikacin, and colistin were 83.3%, 58.3%, 48.1%, 30.4%, and 4.4%, respectively. Conclusions: Empirical colistin treatment is warranted for neonates in high-XDR environments who exhibit septic shock and have specific risk factors, such as gastrointestinal anomalies or the presence of an umbilical arterial catheter. Multimodal interventions, including antimicrobial stewardship programs, have been used to prevent or reduce the incidence of neonatal XDR-GNB sepsis. Full article

Background/Objectives: Gestational diabetes mellitus (GDM) is one of the most common metabolic complications during pregnancy. Nutritional and diabetological education constitutes the cornerstone of treatment; however, its actual impact according to maternal knowledge levels requires further evaluation. The objectives of this study were to assess the influence of maternal dietary and lifestyle knowledge on the metabolic control of women diagnosed with GDM and to analyze the effectiveness of nutritional and diabetological education received during pregnancy in achieving favorable obstetric and perinatal outcomes. Methods: A prospective observational cohort study was conducted at a tertiary referral center in women diagnosed with GDM. Participants completed a specific questionnaire to evaluate dietary and lifestyle knowledge relevant to glycemic control. Pregnancy follow-up included anthropometric measurements, maternal biochemical parameters—including oral glucose tolerance tests—and maternal-fetal obstetric outcomes, analyzed in relation to knowledge levels and education received. Results: Results showed that women with lower nutritional knowledge exhibited higher body weight, body mass index, and glucose levels in GDM diagnostic tests. Higher knowledge levels were associated with improved metabolic control. Nutritional and diabetological education during pregnancy proved beneficial, with better maternal-fetal outcomes observed, particularly among women who received reinforced education. Conclusions: Dietary and lifestyle knowledge significantly influenced GDM metabolic control. Nutritional education before and during pregnancy is key to optimizing glycemic management and improving maternal-fetal outcomes, supporting the need for preventive and educational programs targeting women with risk factors. Full article