Search Results (535)

Background: Hearing loss results from diverse biological insults along the auditory pathway, including sensory hair cell death, neural degeneration, and central auditory processing deficits. Implantable auditory neuroprostheses, such as cochlear and brainstem implants, aim to restore hearing by directly stimulating neural structures. Advances in neurobiology and device technology underpin the development of more sophisticated implants tailored to the biological complexity of auditory dysfunction. Aim: This narrative review of reviews aims to map the integration of artificial intelligence (AI) in auditory neuroprosthetics, analyzing recent research trends, key thematic areas, and the opportunities and challenges of AI-enhanced devices. By synthesizing biological and computational perspectives, it seeks to guide future interdisciplinary efforts toward more adaptive and biologically informed hearing restoration solutions. Methods: This narrative review analyzed recent literature reviews from PubMed and Scopus (last 5 years), focusing on AI integration with auditory neuroprosthetics and related biological processes. Emphasis was placed on studies linking AI innovations to neural plasticity and device–nerve interactions, excluding purely computational works. The ANDJ (a standard narrative review checklist) checklist guided a transparent, rigorous narrative approach suited to this interdisciplinary, rapidly evolving field. Results and discussion: Eighteen recent review articles were analyzed, highlighting significant advancements in the integration of artificial intelligence with auditory neuroprosthetics, particularly cochlear implants. Established areas include predictive modeling, biologically inspired signal processing, and AI-assisted surgical planning, while emerging fields such as multisensory augmentation and remote care remain underexplored. Key limitations involve fragmented biological datasets, lack of standardized biomarkers, and regulatory challenges related to algorithm transparency and clinical application. This review emphasizes the urgent need for AI frameworks that deeply integrate biological and clinical insights, expanding focus beyond cochlear implants to other neuroprosthetic devices. To complement this overview, a targeted analysis of recent cutting-edge studies was also conducted, starting from the emerging gaps to capture the latest technological and biological innovations shaping the field. These findings guide future research toward more biologically meaningful, ethical, and clinically impactful solutions. Conclusions: This narrative review highlights progress in integrating AI with auditory neuroprosthetics, emphasizing the importance of biological foundations and interdisciplinary approaches. It also recognizes ongoing challenges such as data limitations and the need for clear ethical frameworks. Collaboration across fields is vital to foster innovation and improve patient care. Full article

Background: Adverse childhood experiences (ACEs) can lead to hypothalamic–pituitary–adrenal axis dysregulation, negatively impacting child growth and development. Methods: The Hair Biomarkers Study (HBS-I) evaluated healthy preschool children using parent-reported surveys, anthropometrics, and painlessly obtained scalp hair to measure hair cortisol (HCC; ng/mg) and oxytocin concentrations (HOC; ng/mg) via ELISA; log-transformed data were used in analyses. Height, weight, and BMI percentiles were based on CDC growth curves. Linear regressions examined associations of child and maternal hair biomarkers with percentiles, adjusting for sociodemographic factors. Results: The median age was 39.1 months (IQR 23.5–53.0, N = 1189). Higher child Ln-HCC was associated with an increased BMI percentile (0.027; 95%Cl: 0.013, 0.040), while higher child Ln-HOC was associated with a decreased BMI (−0.016; 95%Cl: −0.028, −0.005). Similar significant associations were observed between maternal biomarkers and child growth. In models mutually adjusted for mother and child hair biomarkers, maternal Ln-HCC was associated with an increased BMI percentile (0.036; 95%Cl: 0.003, 0.069), while maternal Ln-HOC was associated with a decreased BMI percentile (−0.034; 95%Cl: −0.052, −0.016). Maternal ACEs of 2–3 vs. 0–1 were associated with increased child weight (0.057; 95%Cl: 0.003, 0.112) and BMI percentiles (0.076; 95%Cl: 0.017, 0.135). Conclusions: We show that higher maternal and child HCC was associated with increased child BMI percentiles, while higher HOC was linked with decreased BMI percentiles. Hair biomarkers may reflect the effects of nurturing vs. adverse experiences during critical windows of growth and development in early childhood. Full article

The field of haircutting robots is poised for a significant transformation, driven by advancements in artificial intelligence, mechatronics, and humanoid robotics. This perspective paper examines the emerging market for haircutting robots, propelled by decreasing hardware costs and a growing demand for automated grooming services. We review foundational technologies, including advanced hair modeling, real-time motion planning, and haptic feedback, and analyze their application in both teleoperated and fully autonomous systems. Key technical requirements and challenges in safety certification are discussed in detail. Furthermore, we explore how cutting-edge technologies like direct-drive systems, large language models, virtual reality, and big data collection can empower these robots to offer a human-like, personalized, and efficient experience. We propose a business model centered on supervised autonomy, which enables early commercialization and sets a path toward future scalability. This perspective paper provides a theoretical and technical framework for the future deployment and commercialization of haircutting robots, highlighting their potential to create a new sector in the automation industry. Full article

IGF-1 (insulin-like growth factor 1) is a growth factor primarily secreted by dermal papilla cells on hair-bearing skin that stimulates hair follicle proliferation and vascularization, and promotes the transition to the anagen growth phase of the hair follicle by activating key pathways such as PI3K/Akt and MAPK/ERK. IGF-1 also inhibits apoptosis, prolongs the follicular growth phase, and boosts VEGF expression, which supports microcirculation and nutrient delivery to hair follicles. The combined effects of IGF-1 and other growth factors, including VEGF, KGF (FGF-7), and PDGF, further amplify its effects on follicular cell proliferation and tissue repair. IGF-1’s ability to regulate the hair growth cycle and its interactions with other signaling pathways make it a compelling therapeutic target for hair loss disorders. Both preclinical models and clinical evidence highlight IGF-1 as a promising therapeutic option for conditions like androgenetic alopecia (AGA), where IGF-1 levels are typically diminished. While topical IGF-1 treatments have shown efficacy and safety with minimal systemic absorption, additional research is needed to improve delivery methods, such as liposomal gels and exosome-based carriers, and to evaluate long-term effects. Full article

Dry seed longevity varies considerably among species, but little is known about its relation with the climate and the molecular mechanisms that determine seed lifespan. Salicaceae species, with more than 620 species worldwide, are known to produce short-lived seeds, making them particularly good models to explore ageing processes in the glassy state rather than under accelerated ageing. We compared seed lifespan for 13 species of Salix and Populus across a broad geographical range (up to 2200 m a.s.l.). High-quality seeds were obtained by optimizing collection time (just before capsule dehiscence) and post-harvest handling (i.e., the use of negative pressure to remove seed hairs). At optimal moisture contents (MCs) between 6 and 9%, most species seeds demonstrated minimal decreases in viability after storage at −20 °C or in liquid nitrogen for 3 years. Dry room (15% RH, 15 °C) storage differentiated between species’ seed lifespans (P₅₀s) of c. 150 to >1200 d. Unlike Salix, Populus species from warm wet environments tended to produce longer-lived seeds in dry storage. Based on transcriptome data on Populus davidiana (longer-lived) and Populus euphratica (shorter-lived), we revealed high correlations between late seed maturation genes, such as 60% of HSP and 67% of LEA genes showed higher expression in P. davidiana seeds, while 70% of WRKY transcription factors showed significantly higher expression in P. euphratica seeds. For these two species, genes related to oxidative stress might be the most important contributor to different seed longevity in the dry glassy state. Full article

Purpose: Androgenetic alopecia (AGA) is a common, chronic, non-cicatricial dermatological condition characterized by progressive miniaturization of hair follicles. Although AGA is a benign disorder, it has a considerable impact on patients’ quality of life and psychological health. The current treatment options often demonstrate limited efficacy and are frequently associated with undesirable side effects. This study aimed to co-mill two natural compounds, quercetin (QT) and glycyrrhizic acid (GL), to develop follicle-targeted nanocrystals (NCs), thereby enhancing local accumulation, improving the pathological follicular microenvironment associated with AGA, and promoting hair regrowth. Methods: QT nanocrystals (QT-NCs) were fabricated using a top–down wet media milling technique with GL as a bioactive stabilizer. The resulting QT-NCs were characterized regarding their particle size, crystallinity, morphology, and stability. The skin permeation properties of the QT-NCs were further evaluated in vitro, and their therapeutic efficacy was assessed in a dihydrotestosterone (DHT)-induced AGA mouse model. Results: The QT-NCs exhibited an irregular structure with a particle size ranging from 200 to 300 nm, demonstrating uniform dimensions and excellent storage stability. In vitro permeation studies revealed a 2.27-fold increase in cumulative penetration and a 2.47-fold enhancement in skin retention compared to raw QT. In the DHT-induced AGA mouse model, QT-NCs significantly reduced local DHT levels while concurrently modulating the follicular microenvironment, resulting in markedly improved therapeutic outcomes. Notably, when co-administered, QT and GL demonstrated synergistic pharmacological effects, suggesting potential combinatory benefits. Conclusions: This study presents the first demonstration of QT-NCs for AGA treatment, establishing a novel therapeutic strategy with substantial potential for clinical translation. Full article

Background/Objectives: Postmenopausal osteoporosis disrupts magnesium homeostasis and hematological balance, contributing to systemic inflammation and metabolic alterations. This study aimed to assess the effects of dietary interventions—tempeh, daidzein, probiotics, and their combinations—on magnesium status and hematological ratios in a postmenopausal osteoporotic Wistar rat model. Methods: Sixty-four rats were divided into one sham group (n = 8) and seven ovariectomized (OVX) groups (n = 56), with different modified diets administered for six weeks. In addition, one of the groups received alendronate bisphosphonate as a pharmacological reference to benchmark the dietary interventions against standard anti-osteoporotic therapy. Magnesium levels in the tissues and feces, along with blood hematological ratios (neutrophil-to-lymphocyte ratio (NLR), monocyte-to-lymphocyte ratio (MLR), platelet-to-lymphocyte ratio (PLR), and triglyceride-to-glucose index (TyG)), were evaluated. Results: The results revealed that a combination of tempeh and probiotics (OTL) significantly increased magnesium levels in the feces, spleen, and hair, while reducing liver magnesium levels. Compared to the standard groups (S and O), the hematological analysis revealed that the daidzein group (OD) had the highest MLR, while the OTL group exhibited the lowest TyG index. The alendronate bisphosphonate (OB) intervention showed no significant effect on tissue magnesium levels, feces magnesium levels, or hematological ratios. Correlation analysis revealed a strong negative association between spleen magnesium levels and the PLR (r = −0.626) and a positive relationship between liver magnesium levels and TyG (r = 0.422). Conclusions: The authors of this study concludes that while ovariectomy significantly altered magnesium status and hematological ratios, the dietary combination of tempeh, daidzein, and probiotics did not demonstrate an apparent beneficial effect on magnesium status or inflammatory ratios in a postmenopausal osteoporotic rat model. However, the findings highlight interesting aspects of magnesium status and its correlations with metabolic and inflammatory parameters, warranting further investigation. Full article

Hair loss (alopecia) is a common disorder caused by an interruption in the body’s cycle of hair production. This pathology negatively affects the psychoemotional state of patients and significantly reduces their quality of life. The currently available medical treatments (including minoxidil therapy) are effective in arresting the progression of the disease; however, they allow only partial regrowth of hair at best. A significant clinical result occurs only with regular drug use. There is still great interest in finding new drugs for the treatment of alopecia. In this study, we aimed to examine the effect of an aqueous dispersion of unmodified fullerene C60 (ADF) on hair growth. ADF, produced by a unique technology, is biocompatible and non-toxic. Nu/nu mice were subcutaneously injected (2 μg/animal) every two days for a period of 11 days with ADF and, for control purposes, with phosphate-buffered saline (PBS). It was shown that ADF stimulated hair growth. Histological analysis of the nu/nu mice skin areas showed that animals treated with ADF had significantly more (about twice as many) hair follicles in the anagen phase compared to mice treated with PBS. The effect on hair growth persisted even after discontinuation of ADF administration. Analysis of gene expression demonstrated that ADF affected the Wnt-signaling pathway, increased the expression of the Wnt10b (wingless-type Mouse Mammary Tumor Virus integration site family, member 10B) factor, angiogenetic factors, and downregulated tumor necrosis factor-alpha levels. We propose that the mechanism of ADF action is likely related to its ability to attract macrophages to the hair follicle microenvironment and promote their polarization to the M2 phenotype. In addition, using molecular modeling, we tried to substantiate our hypothesis about the interaction of ADF with the adenosine A2A receptor, which may cause a decrease in tumor necrosis factor-alpha production. Thus, ADF may become a promising drug for the development of new approaches to the treatment of alopecia associated with immune disorders. Full article

Hearing is essential for animal survival and social communication, relying on the function of sensory hair cells. These cells possess organized stereocilia bundles enriched with mechano-electrical transduction (MET) channels that convert mechanical stimuli into electrical signals. Tip links, fine extracellular filaments connecting adjacent stereocilia, play a critical role in transmitting mechanical forces to MET channels. Over the past three decades, technological advances have significantly enhanced our understanding of the molecular and cellular mechanisms underlying auditory transduction. Zebrafish, with its conserved hair cell structure and function similar to mammals, has become a valuable model in auditory research. The aim of this review is to summarize the research progress on the molecular and cellular mechanisms of MET, tip link, and stereocilia complex, with an emphasis on zebrafish studies, providing an important reference for understanding diseases of the human auditory system. Full article

This study investigates how perceptual and emotional factors—perceived naturalness, aesthetic pleasure, environmental concern, and disgust—shape consumer acceptance of a human-hair-derived bio-fabricated textile product (a unisex cardholder). In a scenario-based online survey, participants viewed an AI-generated image accompanied by a short vignette. A purposive sample of young adults in Istanbul with prior experience purchasing sustainable textile products was recruited and screened. All constructs were measured with standard Likert-type scales and translated into Turkish using a two-way back-translation procedure. Data were analyzed with PLS-SEM. Model fit was acceptable, and the model accounted for a substantial share of the variance in adoption intention. Aesthetic pleasure showed a clear positive influence on adoption intention, whereas perceived naturalness did not display a direct effect. Environmental concern modestly strengthened the link between naturalness and adoption. Disgust emerged as the dominant moderator, fully conditioning the naturalness pathway and reducing—but not eliminating—the effect of aesthetic pleasure. Together, these findings indicate that perceived naturalness, aesthetic pleasure, environmental concern, and disgust jointly shape adoption intention and that practical emphasis should be placed on reducing feelings of disgust while enhancing aesthetic appeal. Full article

High-resolution 3D pavement images have become a valuable data source for automated surface distress detection and assessment. However, accurately identifying and segmenting cracks from pavement images remains challenging, due to factors such as low contrast and hair-like thinness. This study investigates key factors affecting segmentation performance and proposes a novel deep learning architecture designed to enhance segmentation robustness under these challenging conditions. The proposed model integrates a multi-resolution feature extraction stream with gated attention mechanisms to improve spatial awareness and selectively fuse information across feature levels. Our extensive experiments on a 3D pavement dataset demonstrated that the proposed method outperformed several state-of-the-art architectures, including FCN, U-Net, DeepLab, DeepCrack, and CrackFormer. Compared with U-Net, it improved F1 from 0.733 to 0.780. The gains were most pronounced on thin cracks, with F1 from 0.531 to 0.626. Our paired t-tests across folds showed the method is statistically better than U-Net and DeepCrack on Recall, IoU, Dice, and F1. These findings highlight the effectiveness of the attention-guided, multi-scale feature fusion method for robust crack segmentation using 3D pavement data. Full article

Although the ultimate drivers of bat fatalities at wind turbines are still not well understood, the foraging behavior of insectivorous bats puts them at increased risk of collision with rotating blades. Wind energy facilities are commonly located in agriculture fields where bats can exploit periodic superabundant insect emergence events in the late summer and early autumn. Thermal imaging, acoustic monitoring, and bat carcass stomach content analyses show that bats prey upon insects on and near wind turbine towers. Studies have shown a positive association between insect abundance and bat activity, including in agricultural systems. We conducted a systematic review of bat diets for four common bat species in the Midwest and northern Great Plains to synthesize existing knowledge across species, assess the extent to which these bat focal species consume crop pests, and evaluate the potential for crop pest emergence models to predict temporal and spatial patterns of bat fatalities in this region. Big brown bats and eastern red bats consumed a variety of crop pests, including some for which emergence models may be available. In contrast, there were few studies for hoary bats or silver-haired bats, and the dietary evidence available has insufficient taxonomic resolution to conclude that crop pests were consumed. To augment existing data and illuminate relationships, we recommend that genetic diet analyses for bats, specifically hoary and silver-haired, be conducted in the late summer and autumn in this region. The results of these studies may provide additional candidate insect models to evaluate for predicting bat fatalities at wind turbines and clarify if the superabundant insect emergence hypothesis warrants further investigation. Full article

Equisetum telmateia Ehrh. (great horsetail) belongs to the Equisetaceae family and its aerial parts have been traditionally used for skin conditions and to achieve healthy and resilient skin, nails, and hair. This study aimed to evaluate the inhibition of skin-related enzymes by, the antioxidant capacity of, and the phytochemical composition of E. telmateia. Additionally, a novel emulgel was formulated from the main methanolic extract and characterized in terms of pH, viscosity, determination of content quantification, textural profile analysis, and spreadability. After the characterization studies, in vitro release and ex vivo permeation and penetration studies were performed. Firstly, the dried aerial parts of E. telmateia were macerated in methanol, followed by partitioning with solvents of increasing polarity: n-hexane, chloroform, ethyl acetate, and n-butanol. Antioxidant activity was assessed using DPPH, FRAP, CUPRAC, and TOAC assays, while enzyme inhibition was analyzed for collagenase, elastase, hyaluronidase, and tyrosinase. LC-MS/MS analysis identified 53 phytochemical compounds. Protocatechuic acid, the main phenolic compound, was quantitatively analyzed in each subfraction by HPTLC. The in vitro release studies showed sustained release of the reference substance (protocatechuic acid) and the kinetic modeling of the release was fitted to the Higuchi model. The ex vivo permeation and penetration studies showed that the formulation exhibited a retention of 3.06 ± 0.21 µg.cm⁻² after 24 h, whereas the suspended extract demonstrated a skin retention of 1.28 ± 0.47 µg.cm⁻². Both the extracts and the formulated emulgel exhibited inhibitory effects on skin-related enzymes. Our finding suggested that E. telmateia might be a valuable ingredient for wrinkle care and skin-regenerating cosmetics. Full article

Alopecia areata (AA) is an autoimmune disorder of hair loss resulting from a T-cell mediated attack on hair follicles. Three Janus kinase (JAK) inhibitors have been approved for the treatment of moderate-to-severe alopecia areata; however, safety concerns for immunosuppressive therapy have limited their use. We previously demonstrated that BMD-1141, consisting of parathyroid hormone (PTH) fused to a collagen-binding domain (CBD) (PTH-CBD) improved hair retention, increased anagen hair follicles counts, and reduced hair follicle dystrophy in C3H/HeJ-engrafted mice). We now compare the effects of a single subcutaneous injection of BMD-1141 with the daily, high-dose, oral administration of the JAK inhibitor ruxolitinib on anagen hair follicle counts and hair regrowth in C3H/HeJ-engrafted mice. BMD-1141-treated mice exhibited a significant increase in anagen hair follicle counts (p < 0.05) and enhanced hair regrowth compared to ruxolitinib-treated mice after 8 weeks. Hair follicles from the BMD-1141-treated mice showed increased beta-catenin, consistent with a mechanism of stimulating the anagen transition of hair follicles, and did not increase immune cell infiltration. Thus, a single subcutaneous dose of BMD-1141 stimulated hair regrowth comparable to daily ruxolitinib, apparently by stimulating the hair cycle, rather than inhibiting the autoimmune response. Full article

Background/Objectives: Androgenetic alopecia suppresses hair follicle growth. This occurs via dihydrotestosterone (DHT), which inhibits key molecular pathways such as Wnt/β-catenin and Sonic Hedgehog (SHH) signaling. Exosomes derived from plant callus cultures are promising biomaterials for targeted delivery and regenerative medicine. This study aimed to investigate the protective effects of hemp seed callus-derived exosomes (E40) against DHT-induced inhibition of feather follicle development in a chicken embryo model. Methods: E40 exosomes were isolated and purified from the calli of germinated hemp seeds. A DHT-induced feather loss model was established by injecting chicken embryos on embryonic day 7 (E7) with DHT (50 ng/mL), with or without co-administration of E40 (40 µg/mL). On embryonic day 12 (E12), feather length, density, and expression of molecular markers were analyzed. The methods included FISH, Western blotting, and quantitative analysis of PTCH1, AR, SHH, SMO, GLI1, Wnt, β-catenin, BMP4, and Noggin. Results: DHT treatment significantly reduced feather length and density. It also downregulated SHH and Wnt/β-catenin markers, upregulating BMP4 and androgen receptor expression. Co-treatment with E40 restored feather length and density to levels comparable to controls and significantly recovered the expression of SHH, SMO, GLI1, Wnt, and β-catenin. E40 also suppressed DHT-induced BMP4 upregulation by approximately 30% and reduced androgen receptor expression. Conclusions: These results suggest that hemp seed-derived exosomes (E40) effectively mitigate DHT-induced feather follicle inhibition by modulating critical signaling pathways and immune-related markers, supporting their potential application as a nanocarrier-based therapeutic strategy for alopecia management. Full article