Search Results (272)

Background: Muscle function determines overall health and is often impaired in metabolic syndrome and cancer, largely due to oxidative stress and inflammation. Olive mill wastewater (OMWW) is rich in bioactive polyphenols (e.g., hydroxytyrosol and verbascoside) that may hinder these potential pro-sarcopenic mechanisms, representing a potential nutraceutical to limit muscle health decline. Objective: To evaluate the effects of short-term supplementation with an OMWW-derived polyphenol extract (Oliphenolia^®, OMWW-OL) on muscle-related parameters and antioxidant biomarkers in adults at metabolic risk while maintaining dietary habits. Methods: This exploratory, hypothesis-driven secondary analysis was based on a single-arm longitudinal pilot study assessing patients at baseline (T0), after 30 days of supplementation (T1), and 30 days post-discontinuation (T2). Anthropometry, bioelectrical impedance, and biochemical assessments were performed. Results: Supplementation was associated with modest increases in skeletal muscle mass, muscle mass percentage, and wrist, arm, and calf circumferences. Fat mass decreased progressively, while total body water percentage and hydration status improved. Ferritin levels rose at T2, alongside increases in protein thiols (PSH) and Trolox equivalent antioxidant capacity (TEAC), suggesting improved iron status and reduced oxidative stress. Body weight and BMI decreased, as expected in a dietary intervention for metabolic syndrome, while muscle health showed a tendency toward improvement. Conclusions: Although the findings require cautious interpretation, short-term OMWW-OL supplementation was associated with modest but consistent directional changes in muscle-related and metabolic indicators in adults at metabolic risk. The results support hypothesis generation and highlight the need for larger studies to further explore the potential role of OMWW-OL in the context of cancer-associated sarcopenia. Full article

The objective of this study was to evaluate the effects of timing of injectable trace mineral (ITM) administration (28 days (d) prior to or at weaning) on performance and health in mixed-sex beef calves (n = 115; 224 ± 40 kg). Calves were randomly assigned to one of the following treatments: (1) no ITM (CON), (2) ITM administered 28 d before weaning (PW), or (3) ITM administration at weaning (WEAN). At weaning, calves were transported to a local auction barn, held overnight, and returned the following day; BW, blood, and hair samples were collected prior to and through the receiving period. Data were analyzed using SAS 9.4. Serum Se increased in PW calves following ITM administration (p < 0.01). Serum Mn increased in PW and WEAN groups (p < 0.01) and PW calves showed increased serum Cu at weaning (p < 0.01). Across treatments, calves experienced 6% shrink following weaning and transport, with recovery of BW and intake occurring within 21 d and 8 d, respectively. Despite improved mineral status, no performance benefits were observed during the receiving period, reflecting adequate baseline mineral status and low-stress management conditions, suggesting that ITMs may have limited benefits in well-managed herds. Full article

This study evaluated the effects of an Astragalus membranaceus stem and leaf–Angelica sinensis stem and leaf mixture (AASL) as a medicinal feed supplement on immune function, antioxidant status, inflammatory responses, gut microbiota and the serum metabolome in weaned Simmental bull calves. Calves were fed diets containing different levels of AASL, and serum immunoglobulins, inflammatory cytokines, and antioxidant indices were determined. In addition, fecal short-chain fatty acid (SCFA) concentrations, gut microbiota composition, and serum metabolic profiles were analyzed, followed by correlation analyses among the microbiota, SCFAs and metabolites. The results showed that AASL was rich in crude protein, crude fat and trace elements. 4% AASL supplementation increased serum immunoglobulin (IgG and IgM) levels, decreased tumor necrosis factor-alpha (TNF-α), interleukin-6 (IL-6) and interleukin-1 beta (IL-1β) levels, and enhanced superoxide dismutase (SOD), glutathione (GSH) and total antioxidant capacity (T-AOC) activities (p < 0.01 or p < 0.001), indicating improved immune and antioxidant status and attenuated inflammatory responses. AASL also enriched beneficial bacterial genera, suppressed potentially harmful taxa, and increased SCFA concentrations. Differential metabolites were mainly enriched in tryptophan metabolism, lipid metabolism, neuroactive ligand-receptor interaction, sphingolipid signaling, and ATP-binding cassette (ABC) transporter pathways. Integrated microbiota metabolite analysis further suggested that AASL improved host metabolic status through the coordinated regulation of gut microbiota, SCFAs production and related metabolic pathways. Overall, AASL shows promise as a functional feed supplement for improving calf health. Full article

Automated milk feeders (AMFs) offer significant advantages in promoting natural feeding behavior in calves and reducing manual labor. With widespread use, the impact of AMF hygiene on calf health has attracted increasing research attention, as inadequate cleaning protocols may lead to bacterial accumulation on calf-contact surfaces and subsequent health risks for calves. This study aimed to quantify bacterial contamination on AMF surfaces, evaluate the cleaning efficacy of slightly acidic electrolyzed water (SAEW) compared to warm water and chemical disinfectants (n = two total samples), and optimize SAEW cleaning parameters using response surface methodology (RSM). Results revealed that bacterial loads on five high-frequency calf-contact surfaces ranged from 5.48 to 8.21 log₁₀ CFU/cm². SAEW at 60 mg/L achieved significantly higher cleaning efficacy than warm water and chemical disinfectants under field conditions (p < 0.01). Through RSM optimization (highly significant (p < 0.001)), the optimal SAEW cleaning parameters were determined as follows: cleaning time of 35 s, cleaning temperature of 78 °C, and available chlorine concentration (ACC) of 108 mg/L. Under the optimized parameters, bacterial and adenosine triphosphate (ATP) removal rates reached approximately 98%. These findings suggest that SAEW is a promising alternative sanitation agent for AMFs, provide preliminary parameters for rapid sanitation under the tested conditions, and hold the potential to support the standardized hygiene control of calf feeding equipment. Full article

Background: Today, it is important to measure livestock water consumption to devise sustainable solutions that consider environmental issues, livestock health requirements and animal welfare. Methods: This longitudinal study measured the water consumption of 66 calves subjected to two feeding diets: a recommended diet as control (CON) and an optimised diet (OPT). Individual measurements were collected daily and summarised on a weekly basis over a 20-week period. The analysis considered the impact of environmental conditions depending on the season of the calf’s birth. Results: Before weaning, calves spontaneously drank significant amounts of water in addition to the water brought by the calf milk replacer (CMR), but there was variability between animals. Water consumption among calves in the OPT group was higher than that among calves in the CON group from week 4 onwards (p = 0.005). At weaning, there was a significant increase in water consumption with a total water intake higher in calves in the OPT group compared to calves in the CON group (118.4 L and 78.9 L; p < 0.001). After weaning, water consumption was correlated with the solid feed intake in our model, which did not include direct fodder other than straw. There were no seasonal effects on water consumption before weaning at 9 weeks, but effects were observed after 13 weeks on the feeding plan (p = 0.008), with higher water consumption among calves born in winter and exposed to warmer temperatures in spring. Over a 20-week period, when calves had reached a weight of 180 kg in the OPT group and 150 kg in the CON group, water consumption had reached 1602 L and 1400 L respectively (p < 0.001). Conclusions: Free access to water should be maintained in calf rearing facilities, as water contributes to concentrated CMR and dry solid feed assimilation and the welfare of calves when the feeding plan remains at a modest level, enabling them to tolerate fluctuating environmental conditions. Full article

Background: Malnutrition and its risk are prevalent in older adults and contribute to frailty, morbidity, and mortality. Poor oral health—particularly tooth loss and inadequate prosthetic rehabilitation—may impair chewing, limit dietary variety, and accelerate nutritional decline. We investigated associations between dentition status, denture use, and nutritional status in a nationally representative sample of Polish older adults. Methods: We analyzed data from 5214 participants aged ≥60 years from the nationwide cross-sectional PolSenior2 study. Dentition status was classified as functional dentition (≥20 teeth), partial dentition (1–19 teeth), or edentulism (0 teeth). Nutritional status was assessed using the Mini Nutritional Assessment—Short Form (MNA-SF); impaired nutritional status was defined as MNA-SF <12 (malnourished or at risk). Additional indicators included hypoalbuminemia (<35 g/L) and small calf circumference (<31 cm). Associations were tested using chi-square and multivariable logistic regression adjusted for age, sex, education, and place of residence. Results: Functional dentition was present in 15.5%, partial dentition in 48.1%, and edentulism in 36.4% of participants. The proportion of edentulous individuals increased across worsening MNA-SF categories (26.2% in well-nourished, 41.8% in at risk, 46.9% in malnourished). In adjusted models, edentulism was associated with higher odds of impaired nutritional status compared with functional dentition (OR: 1.66; 95% CI: 1.32–2.10; p < 0.001), while partial dentition showed a non-significant trend (OR: 1.22; 95% CI: 0.98–1.52; p = 0.077). Among edentulous participants, denture use was more common in well-nourished individuals than in those with impaired nutritional status (93.0% vs. 77.2%), suggesting a possible association between active prosthetic rehabilitation and better nutritional status. Conclusions: In Polish older adults, tooth loss—particularly edentulism—is associated with poorer nutritional status. Screening for malnutrition risk may benefit from incorporating basic oral health and denture-use assessment while improved access to prosthetic rehabilitation may support nutritional resilience in ageing populations. Full article

Calf diarrhea is a common early-life disorder that adversely affects growth, oxidative balance, immune function, and intestinal microbiota, thereby compromising health and production performance. This study systematically investigates the effects of naturally occurring diarrhea in 7-day-old suckling calves on oxidative stress, immune responses, intestinal barrier integrity, and gut microbiota structure and function. Fecal scores, serum antioxidant and immune indices, and intestinal permeability markers were measured, and fecal samples were subjected to metagenomic sequencing. Diarrhea-affected calves exhibited higher fecal scores, increased oxidative stress indicated by reduced total antioxidant capacity, elevated lipid peroxidation, and altered antioxidant enzyme activities. Humoral immunity was impaired, inflammatory responses were dysregulated, and intestinal barrier function was disrupted. Gut microbial diversity declined, showing a depletion in health-associated taxa and the enrichment of opportunistic pathogens. Correlation analyses revealed that pathogenic bacteria abundance positively associated with diarrhea severity, oxidative stress, inflammation, and barrier disruption, while beneficial genera correlated with antioxidant and immune function. Functional profiling indicated a microbial shift from amino acid metabolism and antioxidant homeostasis toward carbohydrate and energy metabolism under diarrheic conditions. These findings highlight the pivotal role of gut microbiota dysbiosis in diarrhea pathogenesis and provide a foundation for developing microbiome-targeted interventions to improve calf health. Full article

This study aimed to scientifically assess cold stress in dairy calves and optimize winter rearing protocols. A combined approach of feeding trials, expert surveys, and multidimensional data analysis was used to evaluate the effects of outdoor (−5~−28 °C) and indoor (5 °C) environments on Holstein dairy calves. A 60-day controlled trial was conducted with 20 healthy 5-day-old calves. In parallel, an interdisciplinary panel of 20 experts and 8 farmers established a cold stress evaluation system via the analytic hierarchy process (AHP), with cold stress levels quantified through fuzzy comprehensive evaluation. Environmental (weight = 0.62), physiological (weight = 0.22), and behavioral (weight = 0.16) factors contributed differentially to cold stress assessment, with data showing that outdoor calves were under mild cold stress (maximum membership degree = 0.64). The temperature–humidity index (THI) showed significant correlations with multiple physiological and biochemical parameters. Generalized linear mixed model (GLMM) analysis confirmed that THI variation significantly influenced calf standing time, respiratory rate (RR), malondialdehyde (MDA) content, and total antioxidant capacity (T-AOC). In feeding trials, indoor calves exhibited marginally higher average daily gain and body weight in early stages, whereas outdoor calves demonstrated significantly better growth performance by day 60. The outdoor group displayed increased lying and defecation behaviors, along with reduced locomotor/standing time and respiratory frequency. No significant intergroup differences were observed in serum immune or antioxidant indicators. Metabolomic analysis identified 20 differentially expressed metabolites, indicating an enhancement in the activity of energy metabolism pathways in calves. This study establishes a quantitative methodology for cold stress evaluation, clarifies environment–physiology–behavior interactions, and provides a theoretical basis for winter calf management. The results confirm that outdoor cold exposure did not hinder calf growth without compromising health, offering scientific support for optimizing outdoor rearing strategies in cold regions. Full article

Alleviating negative energy balance in perinatal yaks is a critical challenge for safeguarding the health of both dams and calves and achieving sustainable development of yak husbandry. While RPG supplementation represents an effective nutritional strategy, its transgenerational benefits, particularly the long-term effects on offspring calf development through maternal intervention, remain largely unexplored. In the present study, low-dose RPG (150 g d⁻¹, L-RPG, n = 6) markedly improved milk composition, elevating protein, fat, lactose, and gross energy contents (p < 0.05), and enhance calf weight gain (21.74%) with activation of the somatotropic axis (increased GH, IGF-1, etc.). Calves in this group also exhibited enhanced antioxidant capacity (higher SOD, CAT, and T-AOC) and improved immune regulation (lower IL-6, TNF-α). Multi-omics analyses revealed that L-RPG enriched beneficial taxa such as Solbacillus, Citricoccus, and Akkermansia muciniphila, optimized the hindgut microbiome, and upregulated serum metabolites including di-O-methylfraxetin and phenylalanyl-histidine. Integrated microbiota–metabolite profiling demonstrated significant cross-talk between the altered bacteria and metabolites. Collectively, supplementing dams with 150 g d⁻¹ RPG improves milk quality, modulates the calf gut microbiota, and reshapes host metabolism, thereby synergistically promoting offspring growth. Our findings provide a comprehensive “maternal nutrition–microbiota–metabolism” framework for understanding RPG’s mode of action and furnish both theoretical insights and practical guidance for dam–calf health management in yak production systems. Full article

Heat stress, particularly during the prepartum period, compromises dairy cow health and has lasting effects on offspring. This study aimed to investigate the effects of maternal yeast culture (YC) supplementation during heat stress on the intestinal health of newborn calves, with a specific focus on elucidating the associated changes in jejunal morphology, microbial community, and metabolic profiles. Cows receiving YC had lower rectal temperatures, confirming mitigated heat stress. Their calves showed enhanced immune status (higher IgA, IgG) and reduced oxidative stress and metabolic markers. Jejunal structure and barrier integrity were improved. While microbial diversity was similar, specific bacterial abundances differed (e.g., Enterococcus spp. enriched in YC calves). Metabolomic analysis revealed modulated bile acid pathways and metabolites in YC calves, correlating with the microbial shifts. In conclusion, maternal YC supplementation during heat stress supports calf early-life gut health and development through maternal-offspring programming, optimizing gut microbiota, metabolism, and immunity. Full article

This study investigated the associations between acute-phase proteins (APPs) such as serum amyloid A (SAA), haptoglobin (Hp), and albumin (Alb) as well as immunoglobulin G (IgG) with bovine respiratory disease (BRD), seroconversion to respiratory infections and farm-level factors in rearing calves. Datasets were obtained from a randomised trial of 476 calves in Finland that compared morbidity in large- versus small-group housing. Calves were assessed for clinical BRD, and their blood was sampled three times during the first 50 rearing days to measure APPs and IgG concentrations and virus-specific antibodies against Mycoplasma bovis (M. bovis), bovine respiratory syncytial virus (BRSV), bovine parainfluenza virus 3 (BPIV3), and bovine coronavirus (BCV). Linear mixed-effects regression models showed higher serum SAA and Hp concentrations in calves with clinical BRD. BRSV seroconversion was associated with increased serum SAA and lower Alb while M. bovis seroconversion with increased serum Hp. Calves in larger groups had lower serum Hp, SAA and Alb, and pens with higher BRD cases were associated with increased serum SAA and lower Alb. IgG concentration was associated with BRSV seroconversion. These results suggest that early immune monitoring using APPs and IgG could help guide targeted management strategies to improve calf health and welfare. Full article

Bovine babesiosis is a widespread tick-borne parasitic disease that compromises calf health and productivity, causing substantial economic losses. This study evaluated the potential of molecular and hematobiochemical biomarkers for the detection of babesiosis in Holstein calves by analyzing the expression dynamics of selected immune and antioxidant genes and their association with blood-based indicators. Blood samples were collected from 243 fattening calves, classified as healthy (n = 180) or naturally infected (n = 63). Transcriptional levels of immune-related genes (IL-2, IL-6, TNF-α, and MCP-1) and antioxidant genes (SOD3, CAT, GPX, and GST) were measured alongside hematological, biochemical, immunological, and oxidative stress assessments. Infected calves exhibited significant upregulation (p < 0.05) of immune and pro-inflammatory genes, indicating strong immune activation, while antioxidant gene expression was markedly downregulated, reflecting impaired redox balance. These molecular changes were accompanied by hematobiochemical alterations, including elevated liver and kidney markers, serum lipids, inflammatory mediators, and oxidative stress indices. Conversely, reductions were observed in glucose, serum proteins, thyroid hormones, essential minerals, total antioxidant capacity, and endogenous antioxidant enzymes. The coordinated assessment of immune and antioxidant gene expression with hematobiochemical profiles provides a robust biomarker-based approach for the early detection and monitoring of bovine babesiosis. These integrated molecular and blood-based indicators may support effective diagnosis, disease management, and control strategies in livestock production systems. Full article

Background: This study evaluated the effects of rumen-protected choline (RUPCHOL) supplementation in dairy cows from 21 days before calving to 28 days postpartum. The objective was to determine how RUPCHOL influences metabolic status, milk composition, and subsequent calf growth until weaning. Methods: Twenty-seven pregnant Holstein cows were assigned to a Control group (n = 13) or an RUPCHOL group (n = 14), both receiving a total mixed ration (TMR), with the RUPCHOL group supplemented with 15 g/day of choline chloride. Cows were monitored during prepartum, calving, and postpartum periods for body weight, body condition score, dry matter intake, rectal temperature, milk yield and composition, and blood metabolites. Results: RUPCHOL supplementation tended to reduce serum aspartate aminotransferase and lowered concentrations of non-esterified fatty acids and β-hydroxybutyrate, indicating improved metabolic status. Milk total solids, fat, and protein percentages were higher in RUPCHOL-fed cows, suggesting enhanced milk quality. Maternal supplementation did not affect colostrum immunoglobulin G (IgG) content or calf body weight and body measurements (heart girth, wither height, hip height, and body length) from birth to weaning. Conclusions: In summary, RUPCHOL supplementation improved indicators of metabolic health and milk composition of dairy cows during the peripartum period without altering calf growth outcomes. Full article

Amid rapid global population aging, developing age-friendly urban spaces centered on the “15-minute community life circle” has become a priority in planning research. Taking Shenhe District of Shenyang City, a region undergoing deep aging, as a case study, this research constructs a facility weighting system reflecting the actual needs of the elderly. Integrating multi-source spatial data, the XGBoost model and SHAP framework were applied to analyze the non-linear effects of socio-economic, functional, and land-use factors on facility convenience. Results indicate that: (1) facility convenience exhibits a distinct “west-high, east-low” spatial pattern, characterized by high agglomeration in the western core and significant deficits in the eastern fringe; (2) convenience levels vary across categories, with medical and health facilities showing the highest accessibility, while cultural and leisure (CALFs), life service, and elderly care service facilities (ECSFs) remain the primary deficiencies; and (3) influencing variables demonstrate complex non-linear mechanisms, wherein functional density and distance from the city center are critical drivers with non-monotonic effects, while road network density displays threshold effects, inhibiting ECSFs and CALFs at high densities. These findings provide a refined, quantitative basis for optimizing facility layouts and formulating urban renewal strategies to build age-friendly communities. Full article

Background/Objectives: Lower extremity injuries represent a major health concern in elite snowsport disciplines, where high mechanical loads, complex movement patterns, and demanding environmental conditions substantially increase injury risk. Understanding injury incidence and burden in this population is essential for developing sport- and sex-specific prevention strategies. This retrospective study determined lower extremity injury incidence and burden among elite snowsport athletes. Methods: Ninety-nine Turkish National Snowsport Teams Training Camp athletes (34 females; 65 males) consented to a review of their medical records for injury incidence. Overall, sex- and sport-specific injury incidence (number/10,000 h) and burden (weeks missing/10,000 h) were calculated. Results: Overall, medial tibial stress syndrome (MTSS) was the highest burden (9.5 ± 38.7), and ankle sprain (1.7 ± 0.4) was the highest-incident injury. However, injury incidence and burden patterns differed by sex and sport. Notably, medial tibial stress syndrome (MTSS) showed comparable incidence in female and male athletes but resulted in a substantial injury burden in both sexes, reflecting prolonged time-loss from training and competition and indicating a meaningful negative impact on athletic performance. Specifically, the highest-burden injury for women was anterior cruciate ligament (ACL) rupture (16.2 ± 64.5), and for men the most common injury was MTSS (9.7 ± 40.7). For cross-country skiers, MTSS had the highest burden and incidence. For all other sports, and across sexes, ankle sprain was the highest incidence injury—women (1.3 ± 3.0), men (2.0 ± 4.5), biathletes (2.3 ± 5.7), Alpine skiers (2.8 ± 4.5), ski jumpers (1.6 ± 3.1), and snowboarders (3.2 ± 4.7)—plus the highest-burden injury for biathletes (6.9 ± 14.3) and ski jumpers (6.0 ± 14.0). The highest burden injury for Alpine skiers was ACL damage (34.3 ± 87.2), and for snowboarders it was knee collateral ligament injury (27.8 ± 78.6). Moreover, patellar tendinitis, hamstring strains, calf strains, Achilles ruptures, anterior tibial pain, meniscus tears, and hip injuries were frequently observed in injury patterns. Conclusions: Ankle sprains were the most frequent lower extremity injury in elite snowsport athletes, whereas medial tibial stress syndrome (MTSS) and anterior cruciate ligament (ACL) injuries accounted for the greatest injury burden. Injury incidence and burden differed by sex and snowsport discipline. Full article