Search Results (835)

Colostrum is a nutrient-rich fluid secreted by mammals shortly after birth, primarily to provide passive immunity and support early immune development in newborns. Among its various sources, bovine colostrum is the most widely used supplement due to its high bioavailability, safety profile, and clinically supported health benefits. Rich in immunoglobulins, lactoferrin, growth factors, and antimicrobial peptides, bovine colostrum exhibits diverse biological activities that extend beyond neonatal health. Recently, the rising prevalence of cancer—driven by environmental stressors such as radiation, processed foods, and chronic inflammation, as well as non-environmental hereditary factors including germline mutations, family history, and epigenetic inheritance—has fueled interest in natural adjunctive therapies. Scientific studies have explored the anticancer potential of bovine colostrum, highlighting its ability to modulate immune responses, inhibit tumor growth, induce apoptosis in cancer cells, and reduce inflammation. Key components including lactoferrin and proline-rich peptides have been identified as contributors to these effects. Additionally, bovine colostrum may help reduce the side effects of standard cancer treatments, such as mouth sores from chemotherapy or weakened immune systems, by helping to heal tissues and boost the body’s defenses. While large-scale clinical studies are still needed, current findings suggest that bovine colostrum holds promise as a supportive element in integrative cancer care. In conclusion, bovine colostrum represents a safe, bioactive-rich natural supplement with multifaceted therapeutic potential, particularly in oncology, owing to its key components such as lactoferrin, immunoglobulins, growth factors (e.g., IGF-1, TGF-β), and proline-rich polypeptides (PRPs), which contribute to its immunomodulatory, anti-inflammatory, and potential anticancer effects. Ongoing and future research will be crucial to fully understand its mechanisms of action and establish its role in evidence-based cancer prevention and treatment strategies. Full article

The root-lesion nematode, Pratylenchus penetrans, is a migratory endoparasite that attacks potato roots, causing necrotic lesions and yield losses of up to 73%. Traditional detection and quantification methods are labor-intensive, time-consuming, and require prior nematode extraction and taxonomic expertise. This study aimed to develop a SYBR Green-based real-time quantitative PCR (qPCR) assay for detecting and quantifying P. penetrans directly from potato root DNA extracts. Bovine serum albumin (BSA) was tested to neutralize qPCR inhibitors in root DNA extracts. The assay showed high specificity and sensitivity to P. penetrans, detecting 1.56 × 10⁻² of a single nematode in 0.2 g of roots. A standard curve based on artificial nematode inoculations demonstrated a strong linear relationship between Cq values and log-transformed nematode numbers (R² = 0.993) with high amplification efficiency. Assessment using root samples from two greenhouse experiments involving five potato cultivars showed strong correlations (r = 0.902 and 0.887) between qPCR estimates and microscopic nematode counts. This study presents a new qPCR assay specifically optimized for direct detection and quantification of P. penetrans within potato root tissues, offering enhanced sensitivity and applicability for rapid in planta diagnostics to facilitate effective management strategies. Full article

This study aimed to compare the performance of three hydroxyapatite–β-tricalcium phosphate (HA–β-TCP) collagen composite grafts in a canine model for extraction socket preservation. Eight mongrel dogs underwent atraumatic bilateral mandibular premolar extraction, and sockets were randomly grafted with HBC28 (20% high-crystalline HA, 80% β-TCP bovine collagen), HBC37 (30% HA, 70% β-TCP, bovine collagen), or HPC64 (60% HA, 40% β-TCP, porcine collagen). Grafts differed in their HA–β-TCP ratio and collagen origin and content. Animals were sacrificed at 4 and 12 weeks, and the healing sites were evaluated using micro-computed tomography (micro-CT) and histological analysis. At 12 weeks, all groups showed good socket maintenance with comparable new bone formation. However, histological analysis revealed that HBC28 had significantly higher residual graft volume, while HPC64 demonstrated more extensive graft resorption. Histomorphometric analysis confirmed these findings, with statistically significant differences in residual graft area and bone volume fraction. No inflammatory response or adverse tissue reactions were observed in any group. These results suggest that all three HA–β-TCP collagen composites are biocompatible and suitable for socket preservation, with varying resorption kinetics influenced by graft composition. Selection of graft material may thus be guided by the desired rate of replacement by new bone. Full article

Background: The rising demand for aesthetic dental treatments has spurred interest in peroxide-free color correctors as alternatives to traditional hydrogen peroxide formulations, which are associated with tooth sensitivity and potential enamel demineralization. This systematic review evaluates the whitening efficacy and safety profile of hydrogen peroxide-free color corrector (HPFCC) products, focusing on color change metrics, enamel and dentin integrity, and adverse effects. Methods: Following PRISMA guidelines, we searched PubMed, Scopus, and Web of Science throughout January 2025 for randomized controlled trials, observational studies, and in vitro experiments comparing HPFCC to placebo or peroxide-based agents. The data extraction covered study design, sample characteristics, intervention details, shade improvement (ΔE00 or CIE Lab), enamel/dentin mechanical properties (microhardness, roughness, elastic modulus), and incidence of sensitivity or tissue irritation. Risk of bias was assessed using the Cochrane tool for clinical studies and the QUIN tool for in vitro research. Results: Six studies (n = 20–80 samples or subjects) met the inclusion criteria. In vitro, HPFCC achieved mean ΔE00 values of 3.5 (bovine incisors; n = 80) and 2.8 (human molars; n = 20), versus up to 8.9 for carbamide peroxide (p < 0.01). Across studies, HPFCC achieved a mean ΔE00 of 2.8–3.5 surpassing the perceptibility threshold of 2.7 and approaching the clinical acceptability benchmark of 3.3. Surface microhardness increased by 12.9 ± 11.7 VHN with HPFCC (p < 0.001), and ultramicrohardness rose by 110 VHN over 56 days in prolonged use studies. No significant enamel erosion or dentin roughness changes were observed, and the sensitivity incidence remained below 3%. Conclusions: These findings derive from one clinical trial (n = 60) and five in vitro studies (n = 20–80), encompassing violet-pigment serums and gels with differing concentrations. Due to heterogeneity in designs, formulations, and outcome measures, we conducted a narrative synthesis rather than a meta-analysis. Although HPFCC ΔE00 values were lower than those of carbamide peroxide, they consistently exceeded perceptibility thresholds while maintaining enamel integrity and causing sensitivity in fewer than 3% of subjects, supporting HPFCCs as moderate but safe alternatives for young patients. Full article

Human adipose-derived stem cells (hASCs) are widely used in regenerative medicine due to their accessibility and high proliferative capacity. Platelet lysate (PL) has recently emerged as a promising alternative to fetal bovine serum (FBS), offering superior cell expansion potential; however, the molecular basis for its efficacy remains insufficiently elucidated. In this study, we performed RNA sequencing to compare hASCs cultured with PL or FBS, revealing a significant upregulation of genes related to stress response and cell proliferation under PL conditions. These findings were validated by RT–qPCR and supported by functional assays demonstrating enhanced cellular resilience to oxidative and genotoxic stress, reduced doxorubicin-induced senescence, and improved antiapoptotic properties. In a murine wound model, PL-treated wounds showed accelerated healing, characterized by thicker dermis-like tissue formation and increased angiogenesis. Immunohistochemical analysis further revealed elevated expression of chk1, a DNA damage response kinase encoded by CHEK1, which plays a central role in maintaining genomic integrity during stress-induced repair. Collectively, these results highlight PL not only as a viable substitute for FBS in hASC expansion but also as a bioactive supplement that enhances regenerative efficacy by promoting proliferation, stress resistance, and antiaging functions. Full article

Background and Clinical Significance: The retreatment of failed dental implants remains a challenging clinical scenario, particularly when complicated by peri-implantitis and as sociated bone loss. Successful management requires a comprehensive and predictable approach that addresses both hard and soft tissue deficiencies. Case Presentation: This case report illustrates a fully digital, prosthetically driven workflow for the rehabilitation of a posterior mandibular site following implant failure. A 44-year-old female patient underwent removal of a failing implant and adjacent tooth due to advanced peri-implantitis and periodontitis. After healing, a digital workflow—including intraoral scanning, cone-beam computed tomography (CBCT), and virtual planning—was employed to design and fabricate a customized CAD/CAM titanium mesh for vertical guided bone regeneration. The grafting procedure utilized a composite mixture of autogenous bone and anorganic bovine bone (A-Oss). After nine months of healing, two implants with a hydrophilic surface (SOI) were placed using a fully guided surgical protocol (OneGuide system). Subsequent soft tissue grafting and final prosthetic rehabilitation with monolithic zirconia restorations resulted in stable functional and aesthetic outcomes. Conclusions: This case highlights how the integration of modern digital technologies with advanced regenerative procedures and innovative implant surfaces can enhance the predictability and long-term success of implant retreatment in compromised posterior sites. Full article

Panton–Valentine leukocidin (PVL) is a pore-forming toxin secreted by Staphylococcus aureus (S. aureus) and a significant virulence factor that plays a crucial role in the pathogenesis of dairy mastitis. Previous studies by our research group demonstrated that baicalin inhibits the apoptosis and hyperphosphorylation of cytoskeletal proteins induced by recombinant Panton–Valentine leukocidin (rPVL) in bovine mammary epithelial cells (BMECs). However, the effects of baicalin on the proliferation of BMECs and the underlying mechanism remain unclear. Consequently, this study aimed to explore this underlying mechanism through an LC-MS/MS analysis performed in 4D data-independent acquisition (DIA) mode. Quantitative analysis identified 757 differentially expressed phosphoproteins, among which phosphorylation levels of proteins involved in BMEC proliferation and cell cycle regulation exhibited significant alterations (p < 0.05). rPVL inhibited BMEC proliferation in a dose-dependent manner and induced G0/G1 phase arrest and dephosphorylation of the cell-cycle-related proteins BCLAF1^S285, CDK7^T170, NF2^S518, and PKM2S37. Preintervention with baicalin significantly upregulated the expression and phosphorylation of these proteins and alleviated the G0/G1 phase arrest induced by rPVL in BMECs in vitro. The establishment of the mitotic state in BMECs due to the effect of baicalin appears to be closely related to the regulation of the phosphorylation of CDK7, PKM2, BCLAF1, and NF2. Moreover, in vivo analysis revealed that S. aureus ATCC49775 and rPVL induced dramatic structural destruction and pathological impairment of mammary gland tissues in mice and that these histopathological changes were ameliorated after baicalin intervention. Quantitative immunohistochemical analysis revealed that baicalin mitigated the rPVL-induced dephosphorylation of the aforementioned cell-cycle-related proteins and increased their phosphorylation. Both in vitro and in vivo experimental evidence demonstrated that baicalin effectively reversed rPVL-induced G0/G1 phase arrest in BMECs (p < 0.01) by significantly increasing the phosphorylation levels of cell cycle regulatory proteins (p < 0.05). Additionally, baicalin alleviates pathological damage to mammary gland tissues in mouse models. These data suggest that baicalin possesses antibacterial and antitoxin effects, indicating that it is an effective preventive agent against bovine mastitis. Full article

Vitamin D is essential for calcium homeostasis, bone mineralization, immunity, and disease prevention. In a field study with Holstein-Friesian dairy cows, the impact of prepartum vitamin D₃ treatment on early postpartum placental gene expression, focusing on calcium metabolism, feto-placental growth, and immune response, had been investigated. Eight multiparous cows were treated with 10 mL vitamin D₃ (1 million IU cholecalciferol/mL) intramuscularly on day 273 of pregnancy, while eight others remained untreated and served as controls. Placental tissues were collected post-calving, and gene expression was analyzed using quantitative real-time PCR. Among 23 genes, 5 showed significant downregulation in the treated group: CaBP-9k (reduced by 88.1% from 32.80 ± 91.50 to 3.90 ± 8.54), ESR1 (reduced by 95.7% from 7.89 ± 17.87 to 0.34 ± 0.34), LHR (reduced by 96.5% from 3.75 ± 5.45 to 0.13 ± 0.17), NOD1 (reduced by 94.1% from 4.21 ± 7.00 to 0.25 ± 0.30), and TLR1 (reduced by 99.7% from 24.80 ± 61.45 to 0.07 ± 0.08). These results suggest that vitamin D₃ supplementation affects key pathways related to calcium transport, reproductive function, and immune response in the bovine placenta. These molecular changes may help to explain improved calcium homeostasis and reduced postpartum complications, offering insights into how targeted nutritional interventions can enhance reproductive efficiency in high-producing dairy cows. Full article

Tissue-engineered artificial skin has the potential to enhance wound healing without necessitating extensive surgical procedures or causing donor-site morbidity. The purpose of this study was to examine the possibility of developing tri-layered tissue-engineered full-thickness artificial skin with a basement membrane for clinical use to accelerate wound healing. We engineered full-thickness artificial skin with a basement membrane for wound healing by employing stromal vascular fraction (SVF) cells for the dermal layer and autologous keratinocytes for the epidermal layer. The fabrication of a basement membrane involved the use of 100% bovine collagen and 4% elastin produced through a low-temperature three-dimensional printer. Scaffolds for cells were printed with 100% bovine collagen. The basement membrane underwent evaluations for collagenase degradation, tensile strength, and structural characteristics using scanning electron microscopy. The final tri-layered full-thickness artificial skin included two cell scaffolds with a basement membrane between them. The basement membrane may support cellular attachment without inducing significant cytotoxic effects. This study presents a novel strategy for full-thickness artificial skin development, combining SVF and keratinocytes with an optimized collagen-elastin basement membrane. This method may overcome the significant limitations of current artificial skin, thereby contributing to the advancement of tissue-engineering in wound healing for clinical use. Full article

Nuclear Magnetic Resonance (NMR) and Magnetic Resonance Imaging (MRI) are powerful techniques that have been employed to analyze foodstuffs comprehensively. These techniques offer in-depth information about the chemical composition, structure, and spatial distribution of components in a variety of food products. Quantitative NMR is widely applied for precise quantification of metabolites, authentication of food products, and monitoring of food quality. Low-field ¹H-NMR relaxometry is an important technique for investigating the most abundant components of intact foodstuffs based on relaxation times and amplitude of the NMR signals. In particular, information on water compartments, diffusion, and movement can be obtained by detecting proton signals because of H₂O in foodstuffs. Saffron adulterations with calendula, safflower, turmeric, sandalwood, and tartrazine have been analyzed using benchtop NMR, an alternative to the high-field NMR approach. The fraudulent addition of Robusta to Arabica coffee was investigated by ¹H-NMR Spectroscopy and the marker of Robusta coffee can be detected in the ¹H-NMR spectrum. MRI images can be a reliable tool for appreciating morphological differences in vegetables and fruits. In kiwifruit, the effects of water loss and the states of water were investigated using MRI. It provides informative images regarding the spin density distribution of water molecules and the relationship between water and cellular tissues. ¹H-NMR spectra of aqueous extract of kiwifruits affected by elephantiasis show a higher number of small oligosaccharides than healthy fruits do. One of the frauds that has been detected in the olive oil sector reflects the addition of hazelnut oils to olive oils. However, using the NMR methodology, it is possible to distinguish the two types of oils, since, in hazelnut oils, linolenic fatty chains and squalene are absent, which is also indicated by the ¹H-NMR spectrum. NMR has been applied to detect milk adulterations, such as bovine milk being spiked with known levels of whey, urea, synthetic urine, and synthetic milk. In particular, T2 relaxation time has been found to be significantly affected by adulteration as it increases with adulterant percentage. The ¹H spectrum of honey samples from two botanical species shows the presence of signals due to the specific markers of two botanical species. NMR generates large datasets due to the complexity of food matrices and, to deal with this, chemometrics (multivariate analysis) can be applied to monitor the changes in the constituents of foodstuffs, assess the self-life, and determine the effects of storage conditions. Multivariate analysis could help in managing and interpreting complex NMR data by reducing dimensionality and identifying patterns. NMR spectroscopy followed by multivariate analysis can be channelized for evaluating the nutritional profile of food products by quantifying vitamins, sugars, fatty acids, amino acids, and other nutrients. In this review, we summarize the importance of NMR spectroscopy in chemical profiling and quality assessment of food products employing magnetic resonance technologies and multivariate statistical analysis. Full article

Medical hydrogels represent a promising solution for the treatment of corneal diseases and trauma, offering potential to address the shortage of donor corneas. To meet the functional requirements of artificial corneas in tissue engineering, it is crucial to fabricate biomimetic structures with high optical transparency using 3D printing techniques. As fiber alignment during the printing process has a pronounced impact on light transmittance, precise control of the printing parameters is essential. This study focuses on the experimental optimization of 3D printing conditions for hydrogel materials to improve their physical properties, particularly optical clarity, thereby enhancing their suitability for artificial corneal applications. Collagen derived from bovine Achilles tendons was chosen due to its excellent printability. A series of controlled experiments were conducted to systematically investigate the influence of key process parameters on hydrogel transparency. The findings enabled the identification of an optimized parameter set that significantly improved the optical properties of the 3D-printed biomimetic corneal stroma. Additionally, cell seeding and culture assays confirmed the favorable biocompatibility of the developed material. Full article

Cultivated meat, developed through cell culture technology, is emerging as a promising solution that closely mimics both the flavor and nutrient profiles of conventional meat. One key component that contributes to the flavor of meat is fat content. In this study, bovine adipose-derived stem cells (bADSCs) were cultured for the production of alternative fat in vitro. The expression of mesenchymal stem cell (MSC) markers (CD29, CD73, and CD105) and colony forming efficiency were assessed to characterize bADSCs. bADSCs were differentiated into adipocytes to produce cultivated fat in 2D or 3D culture. The cultivated fat was analyzed by gas chromatography to verify the similarity of the fatty acids of animal-derived fat. Our results show that bADSCs have characteristics of MSC and could differentiate into adipocyte. The ratio of unsaturated fatty acids and saturated fatty acids in cultivated fat and adipose tissue was similar. Adipogenic differentiation of ADSCs using a textured vegetable protein (TVP) scaffold could form the lipid droplets in the TVP. This study demonstrated the establishment of a culture system for the fat production from bADSCs in vitro. The fat produced through bADSCs shows the potential to be used in the composition of hybrid-cultivated meat. Full article

The growing interest in functional foods has directed scientific attention toward alternative milk sources, particularly camel and donkey milk, which have been traditionally consumed for their purported health benefits across diverse cultures. These milk sources possess unique nutritional profiles and bioactive compositions that differ substantially from conventional bovine milk. This review examines the current scientific understanding of the anti-inflammatory and antioxidant bioactivities of camel and donkey milk, exploring their bioactive constituents and therapeutic potential. Camel and donkey milk demonstrate notable antioxidant and anti-inflammatory properties that may exceed those of conventional milk sources. Key bioactive compounds include lactoferrin, lysozyme, immunoglobulins, bioactive peptides, vitamins C and E, and polyunsaturated fatty acids. Mechanistic studies reveal that milk from donkeys and camels suppresses inflammatory pathways through NF-κB inhibition, cytokine modulation (reducing IL-6, IL-1β, and TNF-α while enhancing IL-10), and antioxidant pathway activation via Nrf2-ARE signaling. Donkey milk exhibits particularly high lysozyme content and demonstrates significant immunomodulatory effects, while camel milk shows remarkable therapeutic potential in diabetes management, nephroprotection, and hepatoprotection. Preclinical studies demonstrate efficacy in treating oxidative stress-related disorders, inflammatory conditions, metabolic dysfunction, and tissue injury models. Altogether, the published data show that camel and donkey milk represent promising functional foods with significant antioxidant and anti-inflammatory bioactivities mediated through multiple molecular pathways. Their unique bioactive profiles offer therapeutic potential for various health conditions, warranting further clinical investigation and development as nutraceutical interventions. Full article

Bovine alphaherpesvirus 1 (BoAHV-1) is a promising oncolytic virus that can infect the human lung carcinoma cell line A549. In an effort to adapt the virus to grow more rapidly in these cells through the serial passaging of viral progeny, we were unsuccessful. Here, we found that extracellular vesicles (EVs) secreted by BoAHV-1-infected A549 cells (referred to as EDVs) contain 59 viral proteins, including both viral structure proteins (such as gC and gD) and viral regulatory proteins (such as bICP4 and bICP22), as identified via a proteomic analysis. These EDVs can bind to and enter target cells, inhibit viral particles binding to cells, and stimulate the production of IFN-α and IFN-β in A549 cells. When EDVs are inoculated into rabbits via either the conjunctival sacs or intravenously, they can be readily detected in neurons within the trigeminal ganglia (TG), where they reduce viral replication and promote the transcription of IFN-γ. Furthermore, incorporation of the known anti-herpesvirus drug Acyclovir (ACY) into the EDVs leads to synergistically enhanced antiviral efficacy. Collectively, the EDVs exhibit antiviral effects by blocking viral binding to target cells and stimulating the innate immune response, thereby leading to the failure of the serial passaging of viral progeny in these cells, and these EDVs may serve as a promising vector for delivering drugs targeting TG tissues for antiviral purposes. Full article

Background and Objectives: Perineal wound complications and pelvic fluid collections or abscesses following proctectomy for Crohn’s disease are a common cause of morbidity and might be mitigated by filling the pelvis and occluding the pelvic inlet with a flap. Alternative flap options can be considered when inadequate omentum is available and when avoiding myofasciocutaneous flaps. Materials and Methods: A retrospective review of our Crohn’s proctectomy database was conducted to identify patients who underwent a non-omental or non-myofasciocutaneous local pedicle flap to their pelvis or pelvic exclusion using biological material during surgery. The techniques and outcomes of these alternative techniques are described in detail. Results: 228 patients underwent proctectomy for Crohn’s disease during the 10-year study period. However, only six patients had their pelvis filled or pelvic inlet occluded using a non-omental, non-myofasciocutaneous local pedicled flap or biological material. The techniques identified included two sigmoid mesocolic flaps, one peritoneal, preperitoneal fat and falciform ligament flap, one perivesical fat flap, one Gerota’s fat pad flap, and one bovine pericardial patch assisted pelvic exclusion. These flaps’ clinicopathological and operative characteristics, surgical outcomes, and technical aspects are described. Conclusions: When greater omentum is unavailable or inadequate and myofasciocutaneous flaps need to be avoided, local pedicled flaps using a range of intra-abdominal tissues or biological material can be used to fill the pelvis or occlude the pelvic inlet after proctectomy for Crohn’s disease. These techniques may help to prevent short and long-term complications associated with having a pelvic dead space. Full article