Morphological Forms Research Articles

Aspartic Acid Binding on Hydroxyapatite Nanoparticles with Varying Morphologies Investigated by Solid-State NMR Spectroscopy and Molecular Dynamics Simulation.

Hydroxyapatite (HAP) exhibits a highly oriented hierarchical structure in biological hard tissues. The formation and selective crystalline orientation of HAP is a process that involves functional biomineralization proteins abundant in acidic residues. To obtain insights into the process of HAP mineralization and acidic residue binding, synthesized HAP with specific lattice planes including (001), (100), and (011) are structurally characterized following the adsorption of aspartic acid (Asp). The adsorption affinity of Asp on HAP surfaces is evaluated quantitatively and demonstrates a high dependency on the HAP morphological form. Among the synthesized HAP nanoparticles (NPs), Asp exhibits the strongest adsorption affinity to short HAP nanorods, which are composed of (100) and (011) lattice planes, followed by nanosheets with a preferential expression of the (001) facet, to which Asp displays a similar but slightly lower binding affinity. HAP nanowires, with the (100) lattice plane preferentially developed, show significantly lower affinity to Asp and evidence of multilayer adsorption compared to the previous two types of HAP NPs. A combination of solid-state NMR (SSNMR) techniques including 13C and 15N CP-MAS, relaxation measurements and 13C-31P Rotational Echo DOuble Resonance (REDOR) is utilized to characterize the molecular structure and dynamics of Asp-HAP bionano interfaces with 13C- and 15N-enriched Asp. REDOR is used to determine 13C-31P internuclear distances, providing insight into the Asp binding geometry where stronger 13C-31P dipolar couplings correlate with binding affinity determined from Langmuir isotherms. The carboxyl sites are identified as the primary binding groups, facilitated by their interaction with surface calcium sites. The Asp chelation conformations revealed by SSNMR are further refined with molecular dynamics (MD) simulation where specific models strongly agree between the SSNMR and MD models for the various surfaces.

Altering the redox status of Chlamydia trachomatis directly impacts its developmental cycle progression.

Chlamydia trachomatis is an obligate intracellular bacterial pathogen with a unique developmental cycle. It differentiates between two functional and morphological forms: elementary body (EB) and reticulate body (RB). The signals that trigger differentiation from one form to the other are unknown. EBs and RBs have distinctive characteristics that distinguish them, including their size, infectivity, proteome, and transcriptome. Intriguingly, they also differ in their overall redox status as EBs are oxidized and RBs are reduced. We hypothesize that alterations in redox may serve as a trigger for secondary differentiation. To test this, we examined the function of the primary antioxidant enzyme alkyl hydroperoxide reductase subunit C (AhpC), a well-known member of the peroxiredoxins family, in chlamydial growth and development. Based on our hypothesis, we predicted that altering the expression of ahpC would modulate chlamydial redox status and trigger earlier or delayed secondary differentiation. To test this, we created ahpC overexpression and knockdown strains. During ahpC knockdown, ROS levels were elevated, and the bacteria were sensitive to a broad set of peroxide stresses. Interestingly, we observed increased expression of EB-associated genes and concurrent higher production of EBs at an earlier time in the developmental cycle, indicating earlier secondary differentiation occurs under elevated oxidation conditions. In contrast, overexpression of AhpC created a resistant phenotype against oxidizing agents and delayed secondary differentiation. Together, these results indicate that redox potential is a critical factor in developmental cycle progression. For the first time, our study provides a mechanism of chlamydial secondary differentiation dependent on redox status.

The development of L. major, L. donovani and L. martiniquensis, Leishmania currently emerging in Europe, in the sand fly species Phlebotomus perniciosus and P. tobbi.

Several new species of Leishmania have recently emerged in Europe, probably as the result of global changes and increased human migration from endemic areas. In this study, we tested whether two sand fly species, the Western Mediterranean Phlebotomus perniciosus and the Eastern Mediterranean P. tobbi, are competent vectors of L. donovani, L. major and L. martiniquensis. Sand flies were infected through the chick skin membrane using Leishmania species and strains of various geographical origins. Leishmania infections were evaluated by light microscopy and qPCR, and the representation of morphological forms was assessed from Giemsa-stained gut smears. Neither P. perniciosus nor P. tobbi supported the development of L. martiniquensis, but L. major and L. donovani in both species survived defecation of blood meal remnants, colonized the stomodeal valve and produced metacyclic stages. The results with L donovani have shown that infection rates in sand flies can be strain-specific; therefore, to determine vector competence or refractoriness, it is optimal to test at least two strains of Leishmania. Both sand fly species tested are potential vectors of L. donovani and L. major in Mediterranean area. However, further studies will be needed to identify European vectors of L. martiniquensis and to test the ability of other European sand fly species to transmit L. major, L. donovani, L. tropica and L. infantum.

Deciphering infectious uveitis etiology: Immune cell profiling in keratic precipitates using in vivo confocal microscopy

PurposeTo elucidate the etiology of infectious uveitis through the comprehensive analysis of keratic precipitates (KPs) using in vivo confocal microscopy (IVCM). DesignCross-sectional, observational case series. MethodsThis single-center, cross-sectional study was conducted at a tertiary care eye hospital from January 2021 to October 2023. It involved a detailed ophthalmologic evaluation of all subjects and included a total of 46 eyes from 36 subjects who were diagnosed with infectious uveitis. IVCM, specifically utilizing the HRT II Rostock corneal module, was employed to study the biomicroscopic morphology of KPs. The categorization of KPs was based on cell size, morphology, and reflection. ResultsCells of KPs were assessed for size, morphology, and reflection through in vivo confocal microscopy. Patients, ranging in age from 13 to 80 years (median 51 years), exhibited diverse morphologic forms of KPs. Neutrophil-dominated KPs with uniform size were predominantly observed in bacterial and fungal endophthalmitis cases (19/19, 100 %), accompanied by small numbers of mononuclear-macrophages in three eyes (3/19, 15.8 %). Viral uveitis cases displayed a broader array of immune cell types, including characteristic striated or dendritic cells in all eyes (27/27, 100 %). Lymphocytes were commonly present (24/27, 88.9 %), forming clusters in sixteen eyes and dispersed in the corneal endothelium below the midline in eight eyes. Neutrophil infiltration was notable in three cytomegalovirus-infected eyes (3/27, 11.1 %). A marked increase in sub-basal corneal epithelial Langhans cells was associated with viral uveitis. ConclusionsNeutrophil-dominated KPs strongly indicate endogenous bacterial or fungal endophthalmitis, while the presence of dendritic cells and lymphocytes in KPs is suggestive of viral uveitis. In vivo confocal microscopy emerges as a crucial tool for differentiating the etiologic diagnosis of infectious uveitis.

Learning Verbs in Sentences: Children With Developmental Language Disorder and the Role of Retrieval Practice.

Retrieval practice has been shown to assist the word learning of children with developmental language disorder (DLD). Although this has been true for learning new verbs as well as new nouns and adjectives, these children's overall verb learning has remained quite low. In this preregistered study, we presented novel verbs in transitive sentences with varying subjects/agents and objects/patients to determine if recall could be improved and if retrieval practice continued to be facilitative. Fourteen children with DLD aged 4-5 years and 13 same-age peers with typical language development (TD) learned eight novel verbs over two sessions. Half of the novel verbs were presented with spacing between study and retrieval trials, and half were presented with the same frequency in study trials without the opportunity for retrieval. All novel verbs were presented in sentences such as, "The woman is deeking the shoe." Children's ability to recall and use the novel verbs in the same sentence structure was tested after the second session and 1 week later. The children were also required to use the novel verbs in bare-stem form in a new structure, as in, "That woman likes to deek the towel." Both groups of children showed increased recall relative to a previous novel verb study. The children with TD showed the expected advantages of spaced retrieval over repeated study and could use the novel verbs in the new morphological form and sentence structure. The children with DLD, however, showed an advantage for spaced retrieval only shortly after the learning period. These children had great difficulty changing the novel verbs to a bare stem and using them in a new structure. Although spaced retrieval assists children's novel verb recall, children with DLD in particular require additional help using these verbs with morphological and syntactic flexibility.

A Corpus-Based Multifactorial Study of Help/help to Alternation in Learners’ Language: From the Perspective of Probabilistic Grammar

This corpus-based multifactorial study delves deeper into the well-known alternation between bare and full infinitive complements, specifically regarding the help concordances. It extends the line of research to learners’ language productions with a focus on comparing and contrasting the probabilistic grammatical knowledge reflected in the help/ help to choices, which are constrained by a complex network of factors. Regression modeling indicates that constraints such as the horror aequi and certain morphological forms of the verb help are comparatively stable among groups of Chinese English language learners and native English speakers. Therefore, the principle of cognitive complexity and the avoidance strategy fueling infinitive variations are further tested. While the object typology differs in effect strength, it also prompts consideration of cultural influences on the part of Chinese English learners. In addition, two different patterns of interaction effects are explored in each dataset, which implies that learners’ language choice is usage-based, determined by an unconscious assessment of multiple clues that are learned from language input and shaped by language experiences.

Phylogeographic structuring in a widespread southern African grass snake (Psammophiinae: Psammophylax rhombeatus)

ABSTRACT The structural and environmental heterogeneity within southern Africa has given rise to many morphological forms of Psammophylax rhombeatus distributed throughout the country, with previous studies neglecting the associated molecular significance of these forms. The species’ widespread, generalist ecology coupled with the substantial phylogenetic structuring previously acknowledged within the species, makes P. rhombeatus the ideal candidate for phylogeographic analyses. Using 103 samples, representing the full distribution of the species, phylogenetic analyses retrieved four well-supported clades: south-eastern South Africa, south-western South Africa, north-eastern South Africa and western South Africa. Although not variable enough to warrant taxonomic re-evaluation, the clades are phylogenetically distinguishable, with relatively high intraspecific genetic divergence values separating them, irrespective of the small geographic distances separating populations. This is likely a product of the taxon’s habitat-generalist lifestyle, enabling them to bypass vicariant barriers that might otherwise cause speciation in less versatile species. The clades are also geographically distinct, with little overlap, indicating previous vicariance, a finding that is supported by the split of P. rhombeatus from P. ocellatus in the mid-Pliocene, followed by the diversification of P. rhombeatus into four clades throughout the Pleistocene. The genetic structuring observed in P. rhombeatus may be a product of population expansion following ancient refugial isolation (potentially Last Glacial Maximum). The morphological groupings highlighted in previous studies are loosely attributable to the molecular clades identified in the phylogenetic reconstruction, highlighting the complex interplay of genetic and morphological characteristics in the process of speciation, and their representation in systematic accounts.

A Linguistic Analysis of two Versatile Verbs "qaťa'a" and "šarf" in the Glorious Qur'an with Reference to Their Realizations in English

This study investigates the different morphological patterns, syntactic structures and meanings of the versatile verbs "قطع" and "صرف ". This study analyses these verbs linguistically, providing a holistic view of their usage and versatility within Qur'anic texts. A qualitative approach is used to analyze data. This study aims to investigate the influence of the context on the morphological forms, the syntactic patterns and different meanings of these verbs. Furthermore, it aims to investigate how the translators transfer the linguistic characteristics of these verbs into English. To achieve the aims of the study, the researcher adopts an eclectic model. Accordingly, two verbs are chosen as the study sample. The main findings of this are as follows: firstly, the verb "قطع" is considered versatile due to its meanings only; it has different meanings with fixed syntactic structure (it is transitive in all the selected' Ayahs). The verb "صرف" is considered versatile in accordance with its meanings and syntactic structures; that is, it has different meanings and syntactic structures. Secondly, all the different meanings are considered polysemous senses of the same selected roots. Thirdly, the context is the most influential factor that makes these verbs versatile. Finally, concerning the renderings of the selected Arabic verbs into the TL, it is concluded that sometimes translators have taken the context into account and have rendered some of these verbs into the equivalently TL. Some other times, they do not render these verbs equally.

Epidemiological survey of two morphotypes of Demodex folliculorum (Prostigmata: Demodicidade) in young people from southern Spain

Different morphotypes of Demodex from humans have been described. Among them, molecular studies have made it possible to discern between the Demodex folliculorum and Demodex brevis. Further studies showed two morphotypes of D. folliculorum harboured two different habits (human skin and human eyelashes), both of them with finger-shaped terminal opisthosoma difficult to differentiate and that can be assigned to D. folliculorum,Thus, a complete morphometric study of the species, which in this study are referred to as Demodex folliculorum species complex, was carried out. From this morphometric and meristic study two distinct morphological forms (short and long) could be identified within the Demodex folliculorum species complex. These forms differ significantly in four out of the six biometric parameters we analysed: gnathosomal length and width, podosomal width, and opisthosomal length. Moreover, a comprehensive survey of the two morphotypes from different habitats (skin and eyelashes), was carried out in young people of Southern Spain. Therefore, an analysis of 104 asymptomatic students, which were contact lens wearers, and the presence of D. folliculorum was carried out. A statistical analysis based on Bayesian zero inflated Poisson GLM has been applied to our sample data. For the age group considered (18–24 years old), the overall D. folliculorum prevalence for skin face or eye infections (at least one of them) was 19.31 % (51 people), with a statistically significant higher prevalence in males men. Furthermore, there is a slight statistical correlation between the presence of Demodex in silicone hydrogel soft contact lens wearers. This study confirms: i) the existence of two morphotypes of D. folliculorum that appear segregated due to the parasitization microhabitats,ii) a higher prevalence of mites in men than in women, iii) the existence of a high number of statistically supported double infections (skin-eyelashes). It also provides epidemiological data on the prevalence of long and short forms of D. folliculorum in a healthy young population.

Impact of olive oil and potassium carbonate pretreatment on physico-chemical properties of sun-dried Sundar Khani raisins (Vitis vinifera L.)

Sundar Khani is native grape variety of Pakistan which has long berry length and significantly rich in taste and sweetness. There is limited literature on pretreatment and drying data for this valuable variety of Grapes. Current study was conducted to investigate the physio-chemical indices of potassium carbonate (K2CO3) and olive oil combined treatments followed by natural sun drying method. The effects of 2 % K2CO3 pretreatments alone and in combination with various amounts of pure olive oil (1 %, 2 %, and 3 %) were studied. The results showed that, physical attributes like raisin length, width, volume, weight and total replication weight increased under distilled water treatment, while, combination of 2 % K2CO3 + 3 % Olive oil significantly reduced the drying time, 2 % K2CO3 + 1 % Olive oil gave higher final yield, rehydration ratio was highest under dH2O treatment and greater decay loss was observed at 2 %K2CO3 + 2 % olive oil. Further, 2 % K2CO3 displayed higher ratios of total soluble solids, sugars and peroxidase enzyme activity as well as titratable acidity, anthocyanins, total phenols, flavonoids were maximum at 2 % K2CO3 + 2 % Olive oil pretreatment. In addition, 2 % K2CO3 + 3 % Olive oil increased the Catalase enzyme activity as well as achieved higher scores in the evaluation of sensory attributes particularly morphological form, color and overall acceptance. This study aimed to investigate the physicochemical indices of Sundar Khani grapes under different pretreatment and sun-drying conditions using K2CO3 and olive oil and it could be suggested that raisin production of Sundar Khani by using above mentioned treatments along with sun drying could have future scope both in export and industrial markets due to its incredible reduction in drying and processing time.

A novel hypothesis about mechanism of thalidomide action on pattern formation

Morphogenesis, the complex process governing the formation of functional living structures, is regulated by a multitude of molecular mechanisms at various levels. While research in recent decades has shed light on many pathways involved in morphogenesis, none singularly accounts for the precise geometric shapes of organisms and their components in space. To bridge this conceptual gap between specific molecular mechanisms and the creation of definitive morphological forms, we have proposed the "epigenetic code hypothesis" in our previous work. In this framework, "epigenetic" means any inheritable cellular information beyond the genetic code that regulates cell fate alongside genetic information. In this study, we conduct a comprehensive analysis of thalidomide's teratogenic effects through the lens of our proposed "epigenetic code" theory, revealing significant indirect support for our hypothesis. We also explore the structural and functional parallels between thalidomide and auxin.

Extinct or Not? Confirming the “Extinct” Status of Hieracium tolstoii (Asteraceae) with Integrated Taxonomic Investigation

Hieracium is one of the largest flowering plant genera that has recently experienced a rapid evolutionary radiation. Due to the massive morphological variation among species, frequent hybridization, and polyploidization events, combined with apomictic reproduction in polyploids, the concept of species in Hieracium is widely debated, and species identification is incredibly challenging. Taxonomic investigation can lead to changes in conservation status or, in some cases, to de-extinctions of species. Taxa with doubtful classification are particularly sensitive to this kind of problem. Hieracium tolstoii was a narrow Italian endemic species that is nowadays considered extinct. Described as a morphological intermediate form between two other species, no further investigations were conducted after its first description. To clarify H. tolstoii’s origin and ensure the validity of its current conservation status, we conducted a taxonomic investigation on herbaria specimens of the early XX century. Specimens were studied using a morphometric analysis that compared H. tolstoii with other closely related taxa. Moreover, we performed phylogenetic investigations using three plastid intergenic spacers to evaluate the relationship between species. Plastid markers revealed the presence of indels and SNPs in H. tolstoii sequences that differ from sequences of the supposed parental species. Morphometry revealed differences among species that led us to confirm the validity of H. tolstoii as an independent apomictic species and, therefore, unfortunately, its extinction.

Near-stop in spermatogonia progression and reduced sperm motility in two testis forms of captive North African catfish in Kalasin, Thailand

North African catfish (Clarias gariepinus) is integral to aquaculture, particularly in hybrid production with bighead catfish (Clarias macrocephalus). Recent declines in their production output have been linked to the quality of the parental sperm. This study aimed to evaluate the state of spermatogenesis in two morphological testis forms, normal white testes (CGA_A) and black-brown testes (CGA_B), in captive populations to understand their differences in the cytological processes of spermatogenesis and impact on sperm quality and fertility. We performed computer-assisted sperm analysis (CASA), meiotic chromosome analysis, gene expression profiling, histological examination, and identification of apoptotic cells using the terminal deoxynucleotidyl transferase dUTP nick-end labeling (TUNEL). Additionally, microsatellite genotyping was conducted to assess genetic diversity of the populations, showing that similar gene pool patterns were observed between the two populations with the CGA_A and the CGA_B testes. The average sperm motility was 11.15 %. Histologically, the CGA_A testes predominantly contained spermatozoa. By contrast, the CGA_B testes, characterized by black-brown color and harder texture, were composed mainly of spermatocytes and exhibited a higher incidence of apoptotic spermatogonia. Additionally, the CGA_B testes displayed reduced expression of genes essential for normal testicular development. Notably, the CGA_A testes showed significantly higher expression of GtH I, GtH II, Dazl, and Cxcr4b genes and lower levels of Caspase-3 and p53 (p < 0.05). The selective removal of deficient spermatogonia through early apoptosis in CGA_B testes suggest a mechanism contributing to male infertility due to imbalances between the number of germ cells and Sertoli cells. Despite the use of CGA_A testis for fertilization, a hatching rate in the captive populations was 36.43 % over the last three years (2021−2023), substantially lower than that previously reported, indicating the presence of genetic and environmental factors that influence reproductive success in North African catfish. Differences in spermatogenesis between testis forms highlight the need for genetic and environmental strategies to enhance reproductive outcomes in aquaculture.

The Most Beautiful Names of Allah “Ghafir, Ghaffar, and Ghafoor” in the Holy Qur’an (Morphological and Semantic Study)

Morphological forms are used to refer to the root of a word and its material with which its letters are built, and to its functions, derivations, and morphological structures that characterize it in addition to its semantic and lexical functions. The Arabic language includes many morphological structures with a single root, such as (the Most Merciful and the Most Merciful) and (Hafez and Hafeez). and (Shakour and Shaker) (Ghafara, Ghafer, and Ghafoor). These morphological connotations of the same root, despite the closeness in their meanings, differ in their semantic contexts depending on the root of the word, its structure, and its derivation. Hence, the study of the beautiful names according to the meter (Ghafoor, Ghafir, and Ghafar) came to determine their morphological functions, their linguistic connotations, and the contexts in which they appeared in the Qur’anic text.

MYCOFLORAL ANALYSIS OF AGARICS AND MEDICINAL MUSHROOMS DISTRIBUTED IN THE BOROVOE AND KOKSHETAU NATIONAL PARKS

The article provides a literature review of mycofloral analysis of agarics and medicinal mushrooms distributed in the Borovoe and Kokshetau national parks. As a result of the literature review, 15 species of fungi belonging to 4 genera and 9 genera of the genus Agaricales were identified. Of these, edible -5, inedible – 3, poisonous – 1 species. Collection of Macromycetes during the expedition was collected by route method from Borovoe and Kokshetau national parks. The collection, sorting, drying, packaging and transportation of the collected material was carried out in accordance with the methods of mycology and Botany. 30-40 min at 45-50° t for the purpose of disinfection of the collected samples. in between, a heating cabinet (water heater) was used. Each processed sample is stored in a specially designed box with the date, place, time of collection and herbarium number. The external morphological description of the fruiting body of the fungus was made by visual observation, and for determining the microscopic structure, features of spores, we used the Mikmed-1 microscope and cameras connected to it Exilim-S880, SAMSUNG-ES65, Canon-PC1474. To separate the tissue particle from the fruit body of the fungi, a fertile, non-darkening, young specimen was obtained. A cube-shaped or triangular pyramidal "tissue" particle was cut out of the pre-cleaned fruit bodies through a scalpel and planted in a nutrient medium (oblique agar) through an inoculation needle. Isolation was carried out from different parts of the fruit body: caps, legs, places of transition of the cap to the stem. The growth and development of the selected clean crop will depend on the composition of the nutrient medium. The cortical medium we used was diverse, including "Chapeka–Doxa", "Murashige Skuga" and potato-glucose agar. As a result of the study, more than 25 mushroom samples were collected. As a result, 15 species from 9 relatives from 4 genera belonging to the family of cap mushrooms Agaricales were identified. 4 genera have been identified in the agaricales series: Agaricaceae, Russulaceae, Tricholomataceae, Strophariaceae. As a result of summing up the results of the conducted research, we came to the following conclusions: During the study, the characteristics of morphological forms of fungi were developed. Based on the obtained morphometric characteristics, the species of fungi were determined using special determinants. As a result of studying all the collected mushrooms in the Kokshetau and Borovoe National parks, 15 species of fungi from 9 genera belonging to the genus Agaricales were identified. Of these, 1 is poisonous, 5 is edible, and 3 are inedible. A species synopsis of Agaricales fungi in the Kokshetau and Borovoe National parks has been compiled. All the results and data obtained are of great importance for the effective use of natural resources and their protection.

Placental Evolution: Innovating how to Feed Babies.

The evolution of the placenta was transformative. It changed how offspring are fed during gestation from depositing all the resources into an egg to continually supplying resources throughout gestation. Placental evolution is infinitely complex, with many moving parts, but at the core it is driven by a conflict over resources between the mother and the baby, which sets up a Red Queen race, fueling rapid diversification of morphological, cellular, and genetic forms. Placentas from even closely related species are highly divergent in form and function, and many cellular processes are distinct. If we could extract the entirety of genomic information for placentas across all species, including the many hundreds that have evolved in fish and reptiles, we could find their shared commonality, and that would tell us which of the many pieces really matter. We do not have this information, but we do have clues. Convergent evolution mechanisms were repeatedly used in the placenta, including the intense selective pressure to co-opt an envelope protein to build a multinucleated syncytium, the use of the same hormones and structural proteins in placentas derived from separate embryonic origins that arose hundreds of millions of years apart, and the co-option of endogenous retroviruses to form capsids as a way of transport and as mutagens to form new enhancers. As a result, the placental genome is the Wild West of biology, set up to rapidly change, adapt, and innovate. This ability to adapt facilitated the evolution of big babies with big brains and will continue to support offspring and their mothers in our ever-changing global environment.

Biomarkers for hypertrophic chondrocyte differentiation are associated with spatial cellular organisation and suggest endochondral ossification-like processes in osteoarthritic cartilage: An exploratory study

BackgroundIn healthy articular cartilage, chondrocytes are found along arcades of collagen fibers as Single Strings. With onset of cartilage degeneration this pattern changes to Double Strings. In the course of osteoarthritis Small Clusters, and finally Big Clusters form. In highly degenerated articular cartilage, another poorly understood pattern is found where chondrocyte morphology differs considerably, and the distribution of cells is diffuse. Progression of osteoarthritis is accompanied by key processes such as chondrocyte proliferation, apoptosis, hypertrophic differentiation, inflammation, and angiogenesis. The aim of this exploratory study was to identify biomarkers for these processes in the context of spatial cellular organizational changes in articular cartilage. MethodsCartilage explants (n = 166 patients) were sorted according to their predominant cellular pattern. Quantitative or semi-quantitative analysis of 39 biomarkers were performed by multiplex assay (31) or ELISA (8), and qualitative analysis on 12 immunohistochemical markers. ResultsHypertrophic differentiation (e.g. type-X collagen, osteopontin, osteocalcin and interleukin-6) and angiogenesis were associated with changes in chondrocyte organisation. First changes take place already at the transition from Single Strings to Double Strings. Drastic changes in the appearance of numerous biomarkers are found at the transition from Big Clusters to Diffuse. ConclusionKey processes in osteoarthritis and their biomarkers seem to depend on the spatial distribution of chondrocytes in articular cartilage. Abrupt changes in biomarker occurrence were observed between Big Clusters and Diffuse insinuating that the Diffuse pattern is composed of a different cell population or at least a different form of chondrocyte morphology. The Translational Potential of this ArticleIn situ identification of the different spatial chondrocyte patterns by fluorescence microscopy has already been established in the recent past. Analysing human in-situ cartilage explants rather than isolated OA chondrocytes closes the gap between in vitro and in vivo studies and as such, stretches a big step towards translation of the observed findings. The direct association between tissue biomarker profile and cellular arrangements representing different states of OA sheds new light on the molecular and cellular physiopathology, especially in the context of larger processes such as angiogenesis, cellular proliferation, differentiation, and apoptosis. This also opens an interesting perspective for future investigation of such biomarkers and processes in clinical studies.

Digital bead modeling for wire-arc directed energy deposition

Prediction of 2D cross-section and full 3D geometry for stacked weld beads is critical for the outcome of wire-arc directed energy deposition (DED) parts; however, most additive path planning software packages model beads as extrusions of a rectangle. Weld beads are not rectangular, and the resulting shape is dependent upon physics effects at the moment of deposition. Physics phenomena such as the geometry of the underlying surface, the heat input of the welding mode, and the direction of gravity contribute to bead shape. This paper presents a novel implicit modeling method that discretizes a 2D area or 3D volume of space into pixels or voxels and constructs fields based on these physics phenomena. The fields are combined using a weighting scheme trained on 3D scan measurements of welds and wire-arc DED prints. Pixels or voxels are added until the known amount of deposited volume has been achieved. Thereby, a strong conservation of mass principle is applied to the process. Utilizing machine learning techniques, the present model can be trained on a database of scans allowing for the representation of a wide variety of prints. Results show that this method can produce predictions with realistic bead morphology and sub-millimeter form error.

Surface transformed magnesium alloy: Investigating the in-vitro degradation consequences of rare-earth bioactive coatings

Rare-earth elements dominate both the industrial and the medical fields. Recent advancements in assisted bone healing implant research have sparked a revolution emphasising the exploration of new materials and customized applications with simplified methodology. In line with this trend, our study introduces an approach by applying a rare-earth element, terbium, as a coating on magnesium alloy implants. The in-vitro behaviour of the coated implants was systematically evaluated based on the duration of the coating formation and optimised. The TCC-30 coating started to degrade beyond the optimised duration of conversion. The resulting coating exhibited a distinctive nanolamellar structure on the surface, which transformed into a flower-like morphology as it matured. The chemical profiling of the coating with XPS confirmed the presence of elements including Tb, O and Mg. The mineralizing ability was examined with simulated body fluid (SBF) and Dulbecco's Modified Eagle Medium (DMEM) was found to possess nano-agglomerate structure in the form of clusters and coral-like morphology with nano petals structure, respectively. Further exploration of the biological behaviour including monitoring cell attachment and proliferation demonstrated enhancement. This innovative approach holds promise for enhancing the performance and biocompatibility of magnesium alloy implants, marking a significant stride in the ongoing evolution of assisted bone healing technologies.

Shape-Specific Gold Nanoparticles for Multiplex Biosensing Applications.

The biosensing field faces a significant challenge in efficiently detecting multiple analytes in a single diagnostic sample in order to compete with other established multiplex molecular diagnostic technologies such as PCR and ELISA. In response, we have developed a colorimetric nanobiosensor based on multiple morphological forms of functionalized gold nanoparticles (AuNPs) for the simultaneous detection of the influenza virus and SARS-CoV-2 virus. Gold nanospheres (GNSp) were modified with oligonucleotides specific for the influenza A virus, while gold nanoshells (GNSh) were modified with oligonucleotides specific for the SARS-CoV-2 virus. In the presence of their respective targets, AuNPs remain stable due to DNA-DNA interactions; conversely, in the absence of targets, AuNPs aggregate. Consequently, the hybrid system exhibits an indigo color with the SARS-CoV-2 target, a blue color with the Influenza A target, and a purple color with both targets, visible to the naked eye. Analytical sensitivity was 100 nM, and no cross-reactivity was observed with potentially confounding pathogens. This approach holds great promise for the simultaneous identification of multiple pathogens in a rapid manner without the need for equipment or trained personnel.