Your search keyword '"sense organs"' showing total 283,198 results

1. Contributions of mirror-image hair cell orientation to mouse otolith organ and zebrafish neuromast function.

Author

Kazuya Ono, Jarysta, Amandine, Hughes, Natasha C., Jukic, Alma, Hui Ho Vanessa Chang, Deans, Michael R., Eatock, Ruth Anne, Cullen, Kathleen E., Kindt, Katie S., and Tarchini, Basile

Subjects

*OTOLITH organs, *ORGANS (Anatomy), *HAIR cells, *PHYSIOLOGY, *SENSE organs, *INNER ear, *OTOLITHS

Abstract

Otolith organs in the inner ear and neuromasts in the fish lateral-line harbor two populations of hair cells oriented to detect stimuli in opposing directions. The underlying mechanism is highly conserved: the transcription factor EMX2 is regionally expressed in just one hair cell population and acts through the receptor GPR156 to reverse cell orientation relative to the other population. In mouse and zebrafish, loss of Emx2 results in sensory organs that harbor only one hair cell orientation and are not innervated properly. In zebrafish, Emx2 also confers hair cells with reduced mechanosensory properties. Here, we leverage mouse and zebrafish models lacking GPR156 to determine how detecting stimuli of opposing directions serves vestibular function, and whether GPR156 has other roles besides orienting hair cells. We find that otolith organs in Gpr156 mouse mutants have normal zonal organization and normal type I-II hair cell distribution and mechano-electrical transduction properties. In contrast, gpr156 zebrafish mutants lack the smaller mechanically evoked signals that characterize Emx2-positive hair cells. Loss of GPR156 does not affect orientation-selectivity of afferents in mouse utricle or zebrafish neuromasts. Consistent with normal otolith organ anatomy and afferent selectivity, Gpr156 mutant mice do not show overt vestibular dysfunction. Instead, performance on two tests that engage otolith organs is significantly altered - swimming and off-vertical-axis rotation. We conclude that GPR156 relays hair cell orientation and transduction information downstream of EMX2, but not selectivity for direction-specific afferents. These results clarify how molecular mechanisms that confer bi-directionality to sensory organs contribute to function, from single hair cell physiology to animal behavior. [ABSTRACT FROM AUTHOR]

Published

2024

2. Expression of distal limb patterning genes in Hypsibius exemplaris indicate regionalization and suggest distal identity of tardigrade legs.

Author

Mapalo, Marc A., Game, Mandy, Smith, Frank W., and Ortega-Hernández, Javier

Subjects

SENSE organs, TARDIGRADA, GENES, CLAWS, ARTHROPODA

Abstract

Background: Panarthropods, a major group of invertebrate animals comprised of arthropods, onychophorans, and tardigrades, are the only limb-bearing members of Ecdysozoa. The complexity and versatility of panarthropod paired limbs has prompted great interest in their development to better understand the formation of these structures and the genes involved in this process. However, studies of limb patterning and development are overwhelmingly focused on arthropods, followed by select work on onychophorans but almost entirely lacking for tardigrades. This model organism bias is inherently limited and precludes a comparative analysis of how panarthropod legs originated, have evolved, and the likely limb patterning genes present in the earliest panarthropod ancestors. In this study, we investigated tardigrade homologs of seven arthropod distal limb patterning genes (apterous, aristaless, BarH1, clawless, Lim1, rotund, and spineless) to better characterize tardigrade limb development in a comparative context. Results: We detected homologs of all seven genes in the eutardigrade Hypsibius exemplaris and heterotardigrade Echiniscoides cf. sigismundi suggesting their conservation in both tardigrade lineages. Hybridization chain reaction experiments in H. exemplaris reveal a regionalized expression pattern for the genes aristaless, BarH1, clawless, rotund and spineless. Conclusion: The observed regionalized expression of the distal limb patterning genes in H. exemplaris might reflect the external morphological features of tardigrade legs, such as the distal claws, sensory organs in the proximal region, and specific muscle attachment sites. The comparison between the expression of these limb patterning genes in H. exemplaris relative to other panarthropods suggests their conserved role in the last common panarthropod ancestor, such as establishing the distal limb end and the distribution of sensory structures. Our results support the hypothesis that tardigrade legs are homologous to the distal region of other panarthropod limbs, as suggested by previous work on the expression of leg gap genes in H. exemplaris. [ABSTRACT FROM AUTHOR]

Published

2024

3. Age-related hearing loss in older adults: etiology and rehabilitation strategies.

Author

Qinzhi Zheng, Zhuo Xu, Nan Li, Yueying Wang, Ting Zhang, and Jiapeng Jing

Subjects

PRESBYCUSIS, OLDER people, SENSE organs, SENSORY disorders, ACTIVITIES of daily living

Abstract

Age-related hearing loss (ARHL) is a prevalent sensory organ disorder among elderly individuals that significantly impacts their cognitive function, psychological wellbeing, and ability to perform activities of daily living. As the population ages, the number of ARHL patients is increasing. However, the Audiological rehabilitation (AR) status of patients is not promising. In recent years, there has been an increasing focus on the health and rehabilitation of elderly individuals, and significant progress has been made in researching various age-related disorders. However, a unified definition of ARHL in terms of etiology and rehabilitation treatment is still lacking. This study aims to provide a reference for future research on ARHL and the development of AR strategies by reviewing the classification, etiology, and rehabilitation of ARHL. [ABSTRACT FROM AUTHOR]

Published

2024

4. Balance, Gait, Functionality and Fall Occurrence in Adults and Older Adults with Type 2 Diabetes Mellitus and Associated Peripheral Neuropathy.

Author

Tavares, Natália Maria Bezerra, Silva, Jonathânya Marques, Silva, Mayra Darlene Morato da, Silva, Letícia Danielly Tenório, Souza, Jackson Nascimento de, Ithamar, Lucas, Raposo, Maria Cristina Falcão, and Melo, Renato S.

Subjects

*TYPE 2 diabetes, *DIABETIC neuropathies, *POSTURAL balance, *PERCEPTUAL disorders, *URINARY organs, *BALANCE disorders

Abstract

Background: Body balance is regulated by sensory information from the vestibular, visual and somatosensory systems, and changes in one or more of these sensory systems can trigger balance disorders. Individuals with type 2 Diabetes Mellitus (DM2) often present peripheral neuropathy, a condition that alters foot sensory information and can negatively influence balance and gait performance of these subjects. Objective: To evaluate and compare balance, gait, functionality and the occurrence of falls between individuals with and without a clinical diagnosis of DM2 with associated peripheral neuropathy. Methods: Cross-sectional study, which evaluated seventy individuals, thirty-five with and thirty-five without a clinical diagnosis of DM2, of both sexes and age range between 50 and 85 years, who were recruited from Basic Health Units of Serra Talhada, Pernambuco state, Brazil. The volunteers' balance was analyzed using the Berg Balance Scale, gait-related functional tasks were measured using the Dynamic Gait Index, functional mobility was assessed using the Timed Up and Go test and functionality was assessed using the Katz Index. The occurrence of falls was recorded by the volunteers' self-report. Results: Individuals with DM2 demonstrated the worst performance in balance (p = 0.000) and in gait-related functional tasks (p = 0.000), slower functional mobility (p = 0.000) and worse functionality (p = 0.016) compared to the group without DM2, demonstrating significant differences for all analyzed outcomes. A greater occurrence of falls was observed in individuals with DM2, compared to those without the disease (p = 0.019). Conclusion: Individuals with DM2 demonstrated worse performance on balance, gait-related functional tasks, slower functional mobility and worse functionality compared to those without the disease. Individuals with DM2 had the highest occurrence of falls in this study. [ABSTRACT FROM AUTHOR]

Published

2024

5. Cellular Profile of Subfornical Organ Insulin Receptors in Mice.

Author

Kim, Han-Rae, Jeong, Jin-Kwon, and Young, Colin N.

Subjects

*SENSE organs, *METABOLIC regulation, *LABORATORY mice, *PHYSIOLOGY, *INSULIN, *INSULIN receptors

Abstract

Brain insulin receptor signaling is strongly implicated in cardiovascular and metabolic physiological regulation. In particular, we recently demonstrated that insulin receptors within the subfornical organ (SFO) play a tonic role in cardiovascular and metabolic regulation in mice. The SFO is a forebrain sensory circumventricular organ that regulates cardiometabolic homeostasis due to its direct exposure to the circulation and thus its ability to sense circulating factors, such as insulin. Previous work has demonstrated broad distribution of insulin receptor-expressing cells throughout the entire SFO, indirectly indicating insulin receptor expression in multiple cell types. Based on this, we sought to determine the cellular phenotypes that express insulin receptors within the SFO by combining immunohistochemistry with genetically modified reporter mouse models. Interestingly, SFO neurons, including both excitatory and inhibitory types, were the dominant cell site for insulin receptor expression, although a weak degree of insulin receptor expression was also detected in astrocytes. Moreover, SFO angiotensin type 1a receptor neurons also expressed insulin receptors. Collectively, these anatomical findings indicate the existence of potentially complex cellular networks within the SFO through which insulin signaling can influence physiology and further point to the SFO as a possible brain site for crosstalk between angiotensin-II and insulin. [ABSTRACT FROM AUTHOR]

Published

2024

6. Gender differences and correlates of visual evoked potential parameters with head circumference: A comparative analysis.

Author

Zala, Hetalben P. and Mehta, Anju S.

Subjects

VISUAL evoked potentials, EVOKED potentials (Electrophysiology), VISUAL pathways, SENSE organs, PEARSON correlation (Statistics)

Abstract

Background: Evoked potentials are electrical events recorded in the cerebral cortex after stimulation of a sense organ. They are non-invasive studies used to assess visual conduction pathways through optic nerves and the brain. Visual evoked potentials (VEPs) are affected by physiological factors such as age, sex, visual acuity, head circumference, and pupillary size. VEPs are used to diagnose and assess retinal pathology in ophthalmology, neurological pathology affecting the optic nerve and/or brain. Aims and Objectives: The aim of the study was to investigate gender-related alteration in parameters of VEP, to obtain relationship between head circumference with latency and amplitude values of VEP parameters. To investigate whether gender, head size, or both considered as an important factor influencing VEPs parameters. Materials and Methods: A cross-sectional study among 50 participants aged 19-29 with normal visual acuity and VEP recordings such as latencies and peak amplitude was performed using a RMS EMG EP Mark II machine. Results: The study examined the mean latencies for N75, P100, and N145 in the left and right eyes of 25 female and 25 male participants. No significant differences were found in N75, P100, and N145 latencies between genders. However, females showed slightly higher amplitude differences than males. In the right eye, females showed higher N75 latency and P100 latency, but no significant gender differences were found for P100 latency or N145 latency. The Pearson correlation coefficient showed weak correlations between head circumference and VEP parameters for females and males, while no significant correlations were observed for females. Conclusion: VEPs are sensitive tools for evaluating visual conduction pathways in eye disease patients. However, gender differences in VEP parameters were not significant in this study, and a negative correlation was found between head size and VEP amplitude. [ABSTRACT FROM AUTHOR]

Published

2024

7. PREDATORS OF THE AMAZON.

Subjects

*WILDLIFE conservation, *PREDATORY animals, *FOREST animals, *TOP predators, *SENSE organs

Abstract

The article focuses on the Amazon Basin's incredible biodiversity, highlighting its role as home to over 10 percent of the world's plant and animal species.

Published

2024

8. Diagnostic and Prognostic Utilities of Pancreatic Stone Protein in Patients with Suspected Sepsis.

Author

Lee, Gun-Hyuk, Kim, Hanah, Moon, Hee-Won, Yun, Yeo-Min, Park, Mikyoung, Lee, Seungho, and Hur, Mina

Subjects

*RECEIVER operating characteristic curves, *RENAL replacement therapy, *REMOTE sensing, *SENSE organs, *HOSPITAL mortality

Abstract

Background/Objectives: Pancreatic stone protein (PSP) is an emerging biomarker of sepsis that is secreted from pancreas sensing remote organ damages. We explored the diagnostic and prognostic utilities of PSP in patients with suspected sepsis. Methods: In a total of 285 patients (suspected sepsis, n = 148; sepsis, n = 137), we compared PSP with procalcitonin (PCT) and sequential organ failure assessment (SOFA) score. Sepsis diagnoses were explored using receiver operating characteristic curve analyses with area under the curves (AUCs). Clinical outcomes (in-hospital mortality, 30-day mortality, and kidney replacement therapy [KRT]) were explored using the Kaplan–Meier method and a multivariate analysis with hazard ratio (HR). Results: PCT and PSP were comparable for sepsis diagnosis (AUC = 0.71–0.72, p < 0.001). The sepsis proportion was significantly higher when both biomarkers increased than when either one or both biomarkers did not increase (89.0% vs. 21.3–47.7%, p < 0.001). Each biomarker quartile (Q1–Q4) differed significantly according to their SOFA score (all p < 0.001). Compared with Q1, the Q2–Q4 groups showed worse clinical outcomes (p = 0.002–0.041). Both biomarkers added to the SOFA score showed higher HRs than the SOFA score alone (3.3–9.6 vs. 2.8–4.2, p < 0.001–0.011), with nearly 2.5-fold higher HR (9.6 vs. 4.2) for predicting KRT. Conclusions: Although PCT and PSP did not independently predict clinical outcomes in the multivariate analysis, PSP demonstrated diagnostic and prognostic utilities in patients with suspected sepsis, especially for predicting kidney dysfunction. PSP, alone or in combination with PCT, would be a valuable tool that can be added to clinical assessments. [ABSTRACT FROM AUTHOR]

Published

2024

9. A light in the dark: a mid-Cretaceous bioluminescent firefly with specialized antennal sensory organs.

Author

Cai, Chenyang, Tihelka, Erik, Ballantyne, Lesley, Li, Yan-Da, Huang, Diying, Engel, Michael S., and Kundrata, Robin

Subjects

*SENSE organs, *MESOZOIC Era, *FOSSILS, *FIREFLIES, *BIOLUMINESCENCE

Abstract

The beetle superfamily Elateroidea comprises the most biodiverse bioluminescent insects among terrestrial light-producing animals. Recent exceptional fossils from the Mesozoic era and phylogenomic studies have provided valuable insights into the origin and evolution of bioluminescence in elateroids. However, due to the fragmentary nature of the fossil record, the early evolution of bioluminescence in fireflies (Lampyridae), one of the most charismatic lineages of insects, remains elusive. Here, we report the discovery of the second Mesozoic bioluminescent firefly, Flammarionella hehaikuni Cai, Ballantyne & Kundrata gen. et sp. nov., from the Albian/Cenomanian of northern Myanmar (ca 99 Ma). Based on the available set of diagnostic characters, we interpret the specimen as a female of stem-group Luciolinae. The fossil possesses deeply impressed oval pits on the apices of antennomeres 3–11, representing specialized sensory organs likely involved in olfaction. The light organ near the abdominal apex of Flammarionella resembles that found in extant light-producing lucioline fireflies. The growing fossil record of lampyrids provides direct evidence that the stunning light displays of fireflies were already established by the late Mesozoic. [ABSTRACT FROM AUTHOR]

Published

2024

10. Advances in gut–brain organ chips.

Author

Zhang, Yu, Lu, Si‐Ming, Zhuang, Jian‐Jian, and Liang, Li‐Guo

Subjects

*MICROPHYSIOLOGICAL systems, *SENSE organs, *ANIMAL variation, *NEURAL development, *BRAIN research

Abstract

The brain and gut are sensory organs responsible for sensing, transmitting, integrating, and responding to signals from the internal and external environment. In‐depth analysis of brain–gut axis interactions is important for human health and disease prevention. Current research on the brain–gut axis primarily relies on animal models. However, animal models make it difficult to study disease mechanisms due to inherent species differences, and the reproducibility of experiments is poor because of individual animal variations, which leads to a significant limitation of real‐time sensory responses. Organ‐on‐a‐chip platforms provide an innovative approach for disease treatment and personalized research by replicating brain and gut ecosystems in vitro. This enables a precise understanding of their biological functions and physiological responses. In this article, we examine the history and most current developments in brain, gut, and gut–brain chips. The importance of these systems for understanding pathophysiology and developing new drugs is emphasized throughout the review. This article also addresses future directions and present issues with the advancement and application of gut–brain‐on‐a‐chip technologies. [ABSTRACT FROM AUTHOR]

Published

2024

11. The Ultramorphology and Sexual Dimorphism of Antennae and Sensilla in the Pale Grass Blue, Pseudozizeeria maha (Lepidoptera: Lycaenidae).

Author

Chen, Qing-Xiao, Han, Ying, and Li, Ya-Fei

Subjects

*LYCAENIDAE, *SENSE organs, *ANTENNAS (Electronics), *SEXUAL dimorphism, *SCANNING electron microscopy

Abstract

Simple Summary: Antennae are prominent sensory organs in insects, facilitating various behaviors such as navigation, foraging, and pheromone communication. Due to their exclusively diurnal lifestyle, butterflies are generally thought to rely primarily on vision rather than other sensory systems, such as antennae, which have therefore received little attention. This study examined the morphological characteristics and sensilla types of the antennae in the lycaenid butterfly Pseudozizeeria maha, known for its sexual dimorphism in wing coloration, to determine whether there are sex-specific variations in antennal traits. While the sexes of P. maha have uniform clavate antennae without significant sexual differences in the overall morphology and types of sensilla, the sensilla coeloconica display significant sex-specific differences, being more abundant in females. This suggests that female P. maha might rely on olfactory cues for certain sex-specific behaviors, such as oviposition site selection, highlighting the importance of non-visual sensory capabilities in the life of P. maha. The pale grass blue, Pseudozizeeria maha, is a small lycaenid butterfly widely distributed across Asia. Due to its exclusively diurnal lifestyle and conspicuous sexual dimorphism in wing coloration, vision has traditionally been regarded as the primary sensory system driving various behaviors. However, non-visual sensory systems related to sex-specific behavioral responses, such as antennae, have received far less attention. This study investigated the morphological characteristics and sensilla types of the antennae in adult P. maha using scanning electron microscopy, with a focus on potential sexual dimorphism. The antennae of adult P. maha are clavate, with no significant sexual differences in overall morphology. Six types of antennal sensilla were identified: Böhm bristles, sensilla squamiformia, sensilla trichodea, sensilla chaetica, sensilla basiconica, and sensilla coeloconica, with no sexual dimorphism observed in their morphological types or dimensions. Remarkably, the sensilla coeloconica exhibit significant sexual dimorphism, with a more prominent presence in females. This finding suggests that female P. maha may rely more on olfactory cues for some sex-specific behaviors, such as oviposition site selection. [ABSTRACT FROM AUTHOR]

Published

2024

12. Transcriptomic and Gene Expression Analysis of Chemosensory Genes from White Grubs of Hylamorpha elegans (Coleoptera: Scarabaeidae), a Subterranean Pest in South America.

Author

Lizana, Paula, Mutis, Ana, Palma-Millanao, Rubén, Larama, Giovanni, Antony, Binu, Quiroz, Andrés, and Venthur, Herbert

Subjects

*SENSE organs, *SCARABAEIDAE, *INDIGENOUS peoples of South America, *LIFE cycles (Biology), *INSECT pests

Abstract

Simple Summary: Hylamorpha elegans, a native Chilean scarab beetle regarded as a significant pest, feeds on economically important crops, such as red clover, ryegrass, and wheat, in its larval stage (i.e., white grubs). Traditionally, chemical control through insecticides has been used against H. elegans without success, and alternative control strategies based on ethology and the use of semiochemicals have remained elusive. Thus, chemical communication through chemosensory genes in H. elegans could represent an advance towards integrated pest management. In this study, the repertoire of chemosensory gene candidates from white grubs of H. elegans, their phylogenetic relationships, and relative gene expression have been reported for the first time. Olfaction and gustation processes play key roles in the life cycle of insects, such as finding and accepting food sources, oviposition sites, and mates, among other fundamental aspects of insect development. In this context, chemosensory genes found in sensory organs (e.g., antennae and maxillary palps) are crucial for understanding insect behaviour, particularly the phytophagous behaviour of insect pests that attack economically important crops. An example is the scarab beetle Hylamorpha elegans, which feeds on the roots of several crops important for livestock in its larval stage. In this study, chemosensory gene candidates of H. elegans white grubs identified through the head transcriptome and phylogenetic and tissue-biased gene expression (antennae, head without antennae, and legs) have been reported. Overall, 47 chemosensory genes were identified (2 ORs, 1 GR, 11 IRs, 9 CSPs, and 24 OBPs). Gene expression analysis revealed the predominant presence of IRs in the legs, whereas ORs and the GR were present in the heads and/or antennae. Particularly, HeleOBP9 and HeleCSP2 were significantly expressed in the head but not in the antennae or legs; these and other genes are discussed as potential targets in the context of H. elegans management. [ABSTRACT FROM AUTHOR]

Published

2024

13. Characterization of Immune Cell Populations and Acid-Sensing Receptors in the Human Esophagus.

Author

Fortea, Marina, Hacour, Leen, Sancho, Francesc, Boada, Carlos, Sevillano-Aguilera, Cesar, González-Castro, Ana María., Salvo-Romero, Eloisa, Lobo, Beatriz, Guagnozzi, Danila, Ceulemans, Laurens J., Pirenne, Jacques, Alonso-Cotoner, Carmen, Santos, Javier, Farré, Ricard, and Vicario, Maria

Subjects

*CELL populations, *SENSE organs, *B cells, *T cells, *MAST cells

Abstract

Introduction: Esophageal inflammatory diseases are frequent diagnoses in clinical practice and have diverse etiologies, the most common being those associated with the exposure to gastric content, drugs and allergens. In diseases, the immunological component is well identified in endoscopic biopsies, which mainly contain the epithelium and the lamina propria; however, deeper layers are less studied. Moreover, the esophageal capacity of sensing luminal compounds is poorly understood. Methods: In transmural sections from proximal, middle and distal esophagus obtained from deceased patients, we performed a phenotypic analysis of the main immune cell populations and acid-sensing receptors by immunohistochemistry and immunofluorescence methods. Results: A total of nine donors were studied (absence of pathology, optimal tissue preservation and orientation). We found the following: (1) the vascular papillae and the lamina propria are the most infiltrated layers by the lymphoid lineage (T and B lymphocytes), followed by the epithelium, while the smooth muscular layers are mainly populated by the myeloid lineage (macrophages and mast cells); (2) intraepithelial macrophages are consistently found along the esophagus; and (3) eosinophils are absent in all the esophageal layers. The acid-sensing receptors ASIC-1, ASIC-2 and δENAC are expressed in the esophageal epithelium and in the lamina propria, yet only ASIC-2 is expressed in the muscularis mucosae. Conclusions: The human esophagus contains a differential distribution of immune cells and acid-sensing receptors across its layers. This study extends the esophageal histological knowledge previously described and reinforces its role as a defensive and sensing organ. [ABSTRACT FROM AUTHOR]

Published

2024

14. Pharmacognostic Evaluation and Antioxidant Activities of Tetracera indica (Christm. and Panz.) Merr.

Author

Ladeska, Vera, Elya, Berna, Hanafi, Muhammad, Kusmardi, and Rohmat, Siti Saudah

Subjects

*PHYTOCHEMICALS, *SENSE organs, *ETHYL acetate, *CHEMICAL reagents, *RAW materials, *FLAVONOIDS, *DISTILLED water

Abstract

The community uses Tetracera indica (Christm. and Panz.) Merr extensively as a traditional medicine. This plant was the main source of raw materials for herbal medicinal products, so identification was needed to ensure its authenticity through pharmacognosy evaluation. The present study evaluated macros- and microscopic characteristics, performed phytochemical analysis, and performed total phenolic (TPC) and flavonoid content (TFC) analysis. The organoleptic and macroscopic studies were carried out through sensory organs. The microscopic characteristics of leaf powder and twigs identification using chloral hydrate and distilled water. Numerous chemical reagents, TLC methods and LC-MS/MS analysis were employed in the phytochemical study. Research employed DPPH and FRAP tests to assess the antioxidant activity. Furthermore, quercetin was used as a marker of antioxidant activity. The morphological marker of the leaf T. indica showed the surface of the leaves is rough bristles, shape elliptic-oblong, margin serratus and phyllotaxy alternate. The stem is lignosus, and the rough stem surface is slightly peeling. The lower leaf surface had paracytic stomata and uniseriate trichomes with tapering ends. Raphide crystals and cork cells were detected in the powder analysis of the twigs. The ethyl acetate extract's twig had the highest TPC and TFC values. Ethyl acetate extract from Tetracera indica twigs has potent antioxidant activity with IC50 = 99.84±0.011 µg/ml (DPPH) and 4296.67±0.024 mol/g (FRAP). The study showed that Tetracera indica contains possible active components that could be developed as novel antioxidants. The result of this study might provide early verification and identification to obtain quality medicinal raw materials. [ABSTRACT FROM AUTHOR]

Published

2024

15. Semaphorin7A patterns neural circuitry in the lateral line of the zebrafish.

Author

Dasgupta, Agnik, Reagor, Caleb C., Paik, Sang Peter, Snow, Lauren M., Jacobo, Adrian, and Hudspeth, A. J.

Subjects

*NEURAL circuitry, *NEURAL development, *HAIR cells, *AXONS, *BRACHYDANIO, *MORPHOGENESIS, *SENSE organs

Abstract

In a developing nervous system, axonal arbors often undergo complex rearrangements before neural circuits attain their final innervation topology. In the lateral line sensory system of the zebrafish, developing sensory axons reorganize their terminal arborization patterns to establish precise neural microcircuits around the mechanosensory hair cells. However, a quantitative understanding of the changes in the sensory arbor morphology and the regulators behind the microcircuit assembly remain enigmatic. Here, we report that Semaphorin7A (Sema7A) acts as an important mediator of these processes. Utilizing a semi-automated three-dimensional neurite tracing methodology and computational techniques, we have identified and quantitatively analyzed distinct topological features that shape the network in wild-type and Sema7A loss-of-function mutants. In contrast to those of wild-type animals, the sensory axons in Sema7A mutants display aberrant arborizations with disorganized network topology and diminished contacts to hair cells. Moreover, ectopic expression of a secreted form of Sema7A by non-hair cells induces chemotropic guidance of sensory axons. Our findings propose that Sema7A likely functions both as a juxtracrine and as a secreted cue to pattern neural circuitry during sensory organ development. [ABSTRACT FROM AUTHOR]

Published

2024

16. Collective predictive coding hypothesis: symbol emergence as decentralized Bayesian inference.

Author

Taniguchi, Tadahiro and Hieida, Chie

Subjects

LANGUAGE models, PROBABILISTIC generative models, SENSE organs, MULTIAGENT systems, BAYESIAN field theory

Abstract

Understanding the emergence of symbol systems, especially language, requires the construction of a computational model that reproduces both the developmental learning process in everyday life and the evolutionary dynamics of symbol emergence throughout history. This study introduces the collective predictive coding (CPC) hypothesis, which emphasizes and models the interdependence between forming internal representations through physical interactions with the environment and sharing and utilizing meanings through social semiotic interactions within a symbol emergence system. The total system dynamics is theorized from the perspective of predictive coding. The hypothesis draws inspiration from computational studies grounded in probabilistic generative models and language games, including the Metropolis-Hastings naming game. Thus, playing such games among agents in a distributed manner can be interpreted as a decentralized Bayesian inference of representations shared by a multi-agent system. Moreover, this study explores the potential link between the CPC hypothesis and the free-energy principle, positing that symbol emergence adheres to the society-wide free-energy principle. Furthermore, this paper provides a new explanation for why large language models appear to possess knowledge about the world based on experience, even though they have neither sensory organs nor bodies. This paper reviews past approaches to symbol emergence systems, offers a comprehensive survey of related prior studies, and presents a discussion on CPC-based generalizations. Future challenges and potential cross-disciplinary research avenues are highlighted. [ABSTRACT FROM AUTHOR]

Published

2024

17. A review of Meniere’s disease – reflection of published MRI, ECochG and newer otoconial theory from Aotearoa New Zealand.

Author

Quick, Mark E. and Bird, Philip A.

Subjects

*ORGANS (Anatomy), *SENSE organs, *MENIERE'S disease, *OTOLITHS, *HEARING disorders, *INNER ear

Abstract

Vertigo, or the symptom of an hallucination of motion, is usually caused by disorders of the inner ear. Buried in the bone of the otic capsule, the inner ear is the most difficult human sensory organ to image and investigate. As an inner ear disorder, Meniere’s disease (MD) is characterised as recurrent vertiginous attacks, fluctuating hearing loss which can be progressive, tinnitus and aural fullness. Post-mortem studies, and now MRI inner ear imaging, show an excess of endolymph or endolymphatic hydrops (ELH) which has been assumed to usually commence in the cochlea. However, the cause of the initial hydrops is still debated. This paper reflects on the research published in Ōtautahi Christchurch, Aotearoa New Zealand. There is evidence from post-mortem studies, electrophysiological test, and some inner ear imaging that endolymphatic obstruction from clumps of detached saccular otoconia may be a cause of MD. [ABSTRACT FROM AUTHOR]

Published

2024

18. Caenorhabditis elegans Hedgehog-related proteins are tissue- and substructure-specific components of the cuticle and precuticle.

Author

Serra, Nicholas D, Darwin, Chelsea B, and Sundaram, Meera V

Subjects

*PROTEIN metabolism, *BIOLOGICAL models, *SENSE organs, *EPITHELIAL cells, *HEDGEHOG signaling proteins, *RESEARCH funding, *CELLULAR signal transduction, *DESCRIPTIVE statistics, *GENE expression, *ANIMAL experimentation, *CAENORHABDITIS elegans, *GENETIC mutation, *EXTRACELLULAR matrix, *IMMUNITY, *CELL receptors, *GENOMES

Abstract

In Caenorhabditis elegans , expanded families of divergent Hedgehog-related and patched-related proteins promote numerous processes ranging from epithelial and sense organ development to pathogen responses to cuticle shedding during the molt cycle. The molecular functions of these proteins have been mysterious since nematodes lack a canonical Hedgehog signaling pathway. Here we show that Hedgehog-related proteins are components of the cuticle and precuticle apical extracellular matrices that coat, shape, and protect external epithelia. Of four Hedgehog-related proteins imaged, two (GRL-2 and GRL-18) stably associated with the cuticles of specific tubes and two (GRL-7 and WRT-10) labeled precuticle substructures such as furrows or alae. We found that wrt-10 mutations disrupt cuticle alae ridges, consistent with a structural role in matrix organization. We hypothesize that most nematode Hedgehog-related proteins are apical extracellular matrix components, a model that could explain many of the reported functions for this family. These results highlight ancient connections between Hedgehog proteins and the extracellular matrix and suggest that any signaling roles of C. elegans Hedgehog-related proteins will be intimately related to their matrix association. [ABSTRACT FROM AUTHOR]

Published

2024

19. Perceptual effect of color use in patient rooms.

Author

Noraslı, Mehmet

Subjects

SPACE perception, DIGITAL technology, SENSE organs, PATIENTS' attitudes, HOSPITAL patients

Abstract

Messages are conveyed to users through every element within the space. People receive these messages through sense organs. People and space interact constantly because of the way that they perceive and transmit space. People also establish their action boundaries, identify their motivational criteria, and feel a sense of belonging to the place they experience as a result of this interaction. In this way, the location, with all of its characteristics, influences the mental health of those who inhabit it. The colors chosen for patient rooms have a significant impact on the emotional and mental health of the patients, given the medical procedures and rehabilitation programs that they undergo. Patients' healing processes may vary based on the physical characteristics of the environment in which they are situated. Hospitals are intricate functional structures, so specific design requirements should be established by assessing every department independently. The purpose of this study is to determine how people's perception of spatial quality in general patient rooms where two adults stay during treatment is affected by the use of color. In the research method, adjective pairs were determined in line with spatial quality in order to reveal the perceptual effect of color variables in patient rooms. The survey technique was applied according to this experimental design. By simulating the patient room- which was proposed as the study area- in a digital environment with a one-to-one scale, the colors identified as the dependent variable in the study's methodology were visualized independently. The survey technique was employed to ask questions about the perceptual effect of colors on people who have experienced patient rooms by using adjective pairs based on the spatial quality level. The orange color used in patient room interior design was found to be eye-catching, communication facilitator, inviting, pleasing, encouraging, and sincere, while the blue color was found to be comforting and refreshing, based on data acquired from the survey, which was administered to 168 people in total. Many spaces in hospital buildings serve a variety of purposes, and the patients who use these spaces have a range of needs. For this very reason, it is advised that these hospital units be included in the interior design process utilizing information supported by empirical research, with each space being specially designed to meet its unique requirements and functions. [ABSTRACT FROM AUTHOR]

Published

2024

20. Sensory perception of humidity in the built environment for wellness: a scoping review.

Author

Priyadarshani, Suchi and Mani, Monto

Subjects

*SENSORY perception, *BUILT environment, *WATER vapor, *SENSE organs, *ORGANS (Anatomy), *PHYSICAL contact, *SMELL

Abstract

Water vapour in the air is an essential element that directly affects all animate and inanimate constituents of the planet. It is a fundamental constituent in all interactions that characterize life and planetary systems. Water vapour in the air is distinctly associated with the functioning of the human sense organs. All five senses, i.e. smell, touch, sight, sound and taste respond to water vapour in the air. The sensory mechanisms determine a human being's physiological and psychological balance, which is the foundation of wellness, relevant on a planetary scale. However, the sensory mechanisms associated with water vapour in the built environment have not been discerned holistically, particularly its role in human wellness. The present article reviews sensory perceptions and responses attributed to humidity/water vapour in the built environment and examines its role in promoting human wellness, drawing insights from diverse interdisciplinary disciplines. [ABSTRACT FROM AUTHOR]

Published

2024

21. Challenges In Developing The Academic Writing Abilities Of Adults Learning English.

Author

Apzhaparovna, Ysmailova Raikan, Kutbyby, Keldibek kyzy, Zarina, Torobai kyzy, Mukhtorovna, Isroilova Dildora, and kizi, Kazakbayeva Dilfuzakhon Ilkhomjon

Subjects

SENSE organs, SENSORY perception, ACADEMIC discourse, ENGLISH language, DOCTORAL students

Abstract

The article is devoted to an overview of the problematic aspects of teaching academic writing in a foreign (English) language. The identified problems are illustrated by the results of an analysis of English-language scientific works of master and doctoral students. The work highlights the causes of difficulties and possible ways to resolve them. One of the most important elements of cognitive cycle is perception. Sensory perception polymodal: there are five modes of perception, but they are used to varying degrees. A person learns about the richness of the surrounding world thanks to five external sense organs: sight, hearing, taste, touch and smell. Through the organs feelings, we receive, select and accumulate information that enters brain. This article proves information about cognitive and linguopragmatic problems of perception verbs in English and Uzbek languages. [ABSTRACT FROM AUTHOR]

Published

2024

22. Precise tactile localization on the human fingernail.

Author

Longo, Matthew R.

Subjects

*SENSE organs, *MOTOR ability, *FINGERS, *PRIMATES, *MICE

Abstract

Fingernails are specialized features of the primate hand, which are believed to contribute to manual dexterity. The sensorimotor functions of fingernails, however, remain poorly understood. This study investigates the ability of humans to precisely localize touches applied to the fingernail plate. Nine different locations on the fingernail were touched and participants judged the location by clicking a mouse cursor on a photograph of their finger. Performance in this condition was compared with stimuli applied to the skin of the fingertip. The results showed that participants are able to localize touch on the fingernails at substantially higher than chance levels. Moreover, the precision of this ability is not appreciably lower than that of the fingertips. These results show that the fingernail is a highly sensitive sensory organ, which is capable of providing rich spatial information about tactile stimuli. [ABSTRACT FROM AUTHOR]

Published

2024

23. Clustered synapses develop in distinct dendritic domains in visual cortex before eye opening.

Author

Leighton, Alexandra H., Cheyne, Juliette E., and Lohmann, Christian

Subjects

*SYNAPSES, *VISUAL cortex, *SENSE organs, *SENSORIMOTOR integration, *SIGNAL processing, *DENDRITES, *NEURONS

Abstract

Synaptic inputs to cortical neurons are highly structured in adult sensory systems, such that neighboring synapses along dendrites are activated by similar stimuli. This organization of synaptic inputs, called synaptic clustering, is required for high-fidelity signal processing, and clustered synapses can already be observed before eye opening. However, how clustered inputs emerge during development is unknown. Here, we employed concurrent in vivo whole-cell patchclamp and dendritic calcium imaging to map spontaneous synaptic inputs to dendrites of layer 2/3 neurons in the mouse primary visual cortex during the second postnatal week until eye opening. We found that the number of functional synapses and the frequency of transmission events increase several fold during this developmental period. At the beginning of the second postnatal week, synapses assemble specifically in confined dendritic segments, whereas other segments are devoid of synapses. By the end of the second postnatal week, just before eye opening, dendrites are almost entirely covered by domains of co-active synapses. Finally, co-activity with their neighbor synapses correlates with synaptic stabilization and potentiation. Thus, clustered synapses form in distinct functional domains presumably to equip dendrites with computational modules for high-capacity sensory processing when the eyes open. [ABSTRACT FROM AUTHOR]

Published

2024

24. Prescription medication use in the 10 years prior to diagnosis of young onset Alzheimer's disease: a nationwide nested case-control study.

Author

Damsgaard, Line, Janbek, Janet, Laursen, Thomas Munk, Vestergaard, Karsten, Gottrup, Hanne, Jensen-Dahm, Christina, and Waldemar, Gunhild

Subjects

*ALZHEIMER'S disease, *SENSE organs, *DIAGNOSIS, *DELAYED diagnosis, *NERVOUS system, *APOLIPOPROTEIN E4

Abstract

Background: Patients with young onset Alzheimer's disease (YOAD) face long diagnostic delays. Prescription medication use may provide insights into early signs and symptoms, which may help facilitate timely diagnosis. Methods: In a register-based nested case-control study, we examined medication use for everyone diagnosed with YOAD in a Danish memory clinic during 2016–2020 compared to cognitively healthy controls. Prescription medication use were grouped into 13 overall categories (alimentary tract and metabolism, blood and blood forming organs, cardiovascular system, dermatologicals, genitourinary system and sex hormones, systemic hormonal preparations, antiinfectives for systemic use, antineoplastic and immunomodulating agents, musculo-skeletal system, nervous system, antiparasitic products, respiratory system, and sensory organs). Further stratifications were done for predetermined subcategories with a use-prevalence of at least 5% in the study population. Conditional logistic regression produced odds ratios, which given the use of incidence-density matching is interpretable as incidence rate ratios (IRRs). The association between prescription medication use and subsequent YOAD diagnosis was examined in the entire 10-year study period and in three time-intervals. Results: The study included 1745 YOAD cases and 5235 controls. In the main analysis, several overall categories showed significant associations with YOAD in one or more time-intervals, namely blood and blood forming organs and nervous system. Prescription medication use in the nervous system category was increased for YOAD cases compared to controls already 10->5 years prior to diagnosis (IRR 1.17, 95% CI 1.05–1.31), increasing to 1.57 (95% CI 1.39–1.78) in the year preceding diagnosis. This was largely driven by antidepressant and antipsychotic use, and especially prominent for first-time users. Conclusions: In this study, medication use in several categories was associated with YOAD. Onset of treatment-requiring psychiatric symptoms such as depression or psychosis in mid-life may serve as potential early indicators of YOAD. [ABSTRACT FROM AUTHOR]

Published

2024

25. Immunosuppression in stem cell clinical trials of neural and retinal cell types: A systematic review.

Author

Gowrishankar, Shravan, Smith, Matthew E., Creber, Nathan, Muzaffar, Jameel, and Borsetto, Daniele

Subjects

*EAR, *STEM cells, *IMMUNOSUPPRESSION, *SENSE organs, *CLINICAL trials, *AMYOTROPHIC lateral sclerosis, *STEM cell treatment

Abstract

Background: Pharmacologic immunosuppression regimes are commonly employed in stem cell clinical trials to mitigate host immune rejection and promote survival and viability of transplanted cells. Immunosuppression and cell survival has been extensively studied in retinal and spinal tissues. The applicability of stem cell therapy is rapidly expanding to other sensory organs such as the ear and hearing. As regenerative therapy is directed to new areas, a greater understanding of immunosuppression strategies and their efficacy is required to facilitate translation to organ-specific biologic microenvironments. Objective: This systematic review appraises the current literature regarding immunosuppression strategies employed in stem cell trials of retinal and neural cells. Methods: This systematic review was performed in line with Preferred Reporting Items for Systematic Reviews and Meta-Analyses guidelines. Inclusion criteria included studies presenting data on neural or retinal cells as part of an in-human clinical trial that detailed the immunosuppression regime used. Exclusion criteria included non-English language studies, animal studies, review articles, case reports, editorials, and letters. The databases Medline, Embase, Scopus, Web of Science, and the Cochrane Library were searched from inception to February 2024. Risk of bias was evaluated using the ROBINS-I tool. Results: Eighteen articles fit the inclusion criteria. Nine articles concerned retinal cells, 5 concerned spinal cord injury, and 4 concerned amyotrophic lateral sclerosis. A multi-drug and short-term immunosuppression regime were commonly employed in the identified studies. Detected immune responses in treated patients were rare. Common immunosuppression paradigms included tacrolimus, mycophenolate mofetil and tapering doses of steroids. Local immunosuppression with steroids was employed in some studies concerning retinal diseases. Discussion: A short-term course of systemic immunosuppression seemed efficacious for most included studies, with some showing grafted cells viable months to years after immunosuppression had stopped. Longer-term follow-up is required to see if this remains the case. Side effects related to immunosuppression were uncommon. [ABSTRACT FROM AUTHOR]

Published

2024

26. Redefining the ontogeny of hyalocytes as yolk sac-derived tissue-resident macrophages of the vitreous body.

Author

Rosmus, Dennis-Dominik, Koch, Jana, Hausmann, Annika, Chiot, Aude, Arnhold, Franz, Masuda, Takahiro, Kierdorf, Katrin, Hansen, Stefanie Marie, Kuhrt, Heidrun, Fröba, Janine, Wolf, Julian, Boneva, Stefaniya, Gericke, Martin, Ajami, Bahareh, Prinz, Marco, Lange, Clemens, and Wieghofer, Peter

Subjects

*VITREOUS body, *MACROPHAGE colony-stimulating factor, *SENSE organs, *MYELOID cells, *MACROPHAGES

Abstract

Background: The eye is a highly specialized sensory organ which encompasses the retina as a part of the central nervous system, but also non-neural compartments such as the transparent vitreous body ensuring stability of the eye globe and a clear optical axis. Hyalocytes are the tissue-resident macrophages of the vitreous body and are considered to play pivotal roles in health and diseases of the vitreoretinal interface, such as proliferative vitreoretinopathy or diabetic retinopathy. However, in contrast to other ocular macrophages, their embryonic origin as well as the extent to which these myeloid cells might be replenished by circulating monocytes remains elusive. Results: In this study, we combine transgenic reporter mice, embryonic and adult fate mapping approaches as well as parabiosis experiments with multicolor immunofluorescence labeling and confocal laser-scanning microscopy to comprehensively characterize the murine hyalocyte population throughout development and in adulthood. We found that murine hyalocytes express numerous well-known myeloid cell markers, but concomitantly display a distinct immunophenotype that sets them apart from retinal microglia. Embryonic pulse labeling revealed a yolk sac-derived origin of murine hyalocytes, whose precursors seed the developing eye prenatally. Finally, postnatal labeling and parabiosis established the longevity of hyalocytes which rely on Colony Stimulating Factor 1 Receptor (CSF1R) signaling for their maintenance, independent of blood-derived monocytes. Conclusion: Our study identifies hyalocytes as long-living progeny of the yolk sac hematopoiesis and highlights their role as integral members of the innate immune system of the eye. As a consequence of their longevity, immunosenescence processes may culminate in hyalocyte dysfunction, thereby contributing to the development of vitreoretinal diseases. Therefore, myeloid cell-targeted therapies that convey their effects through the modification of hyalocyte properties may represent an interesting approach to alleviate the burden imposed by diseases of the vitreoretinal interface. [ABSTRACT FROM AUTHOR]

Published

2024

27. Force Control of a Haptic Flexible-Link Antenna Based on a Lumped-Mass Model.

Author

Haro-Olmo, María Isabel, Mérida-Calvo, Luis, Feliu-Talegón, Daniel, and Feliu-Batlle, Vicente

Subjects

*ANTENNAS (Electronics), *SENSE organs, *STABILITY criterion, *CLOSED loop systems, *TORQUE

Abstract

Haptic organs are common in nature and help animals to navigate environments where vision is not possible. Insects often use slender, lightweight, and flexible links as sensing antennae. These antennae have a muscle-endowed base that changes their orientation and an organ that senses the applied force and moment, enabling active sensing. Sensing antennae detect obstacles through contact during motion and even recognize objects. They can also push obstacles. In all these tasks, force control of the antenna is crucial. The objective of our research is to develop a haptic robotic system based on a sensing antenna, consisting of a very lightweight and slender flexible rod. In this context, the work presented here focuses on the force control of this device. To achieve this, (a) we develop a dynamic model of the antenna that moves under gravity and maintains point contact with an object, based on lumped-mass discretization of the rod; (b) we prove the robust stability property of the closed-loop system using the Routh stability criterion; and (c) based on this property, we design a robust force control system that performs efficiently regardless of the contact point with the object. We built a mechanical device replicating this sensing organ. It is a flexible link connected at one end to a 3D force–torque sensor, which is attached to a mechanical structure with two DC motors, providing azimuthal and elevation movements to the antenna. Our experiments in contact situations demonstrate the effectiveness of our control method. [ABSTRACT FROM AUTHOR]

Published

2024

28. Spatio-Temporal Regulation of Notch Activation in Asymmetrically Dividing Sensory Organ Precursor Cells in Drosophila melanogaster Epithelium.

Author

Pinot, Mathieu and Le Borgne, Roland

Subjects

*CELL polarity, *DROSOPHILA melanogaster, *CELL cycle, *CELL division, *SENSE organs, *NOTCH genes

Abstract

The Notch communication pathway, discovered in Drosophila over 100 years ago, regulates a wide range of intra-lineage decisions in metazoans. The division of the Drosophila mechanosensory organ precursor is the archetype of asymmetric cell division in which differential Notch activation takes place at cytokinesis. Here, we review the molecular mechanisms by which epithelial cell polarity, cell cycle and intracellular trafficking participate in controlling the directionality, subcellular localization and temporality of mechanosensitive Notch receptor activation in cytokinesis. [ABSTRACT FROM AUTHOR]

Published

2024

29. Selection drives divergence of eye morphology in sympatric Heliconius butterflies.

Author

Wright, Daniel Shane, Rodriguez-Fuentes, Juliana, Ammer, Lisa, Darragh, Kathy, Kuo, Chi-Yun, McMillan, W Owen, Jiggins, Chris D, Montgomery, Stephen H, and Merrill, Richard M

Subjects

*BUTTERFLIES, *NEURAL pathways, *MORPHOLOGY, *ADAPTIVE testing, *NATURAL selection, *SENSE organs

Abstract

When populations experience different sensory conditions, natural selection may favor sensory system divergence, affecting peripheral structures and/or downstream neural pathways. We characterized the outer eye morphology of sympatric Heliconius butterflies from different forest types and their first-generation reciprocal hybrids to test for adaptive visual system divergence and hybrid disruption. In Panama, Heliconius cydno occurs in closed forests, whereas Heliconius melpomene resides at the forest edge. Among wild individuals, H. cydno has larger eyes than H. melpomene , and there are heritable, habitat-associated differences in the visual brain structures that exceed neutral divergence expectations. Notably, hybrids have intermediate neural phenotypes, suggesting disruption. To test for similar effects in the visual periphery, we reared both species and their hybrids in common garden conditions. We confirm that H. cydno has larger eyes and provide new evidence that this is driven by selection. Hybrid eye morphology is more H. melpomene -like despite body size being intermediate, contrasting with neural trait intermediacy. Overall, our results suggest that eye morphology differences between H. cydno and H. melpomene are adaptive and that hybrids may suffer fitness costs due to a mismatch between the peripheral visual structures and previously described neural traits that could affect visual performance. [ABSTRACT FROM AUTHOR]

Published

2024

30. Light conditions and the evolution of the visual system in birds.

Author

Fröhlich, Arkadiusz, Ducatez, Simon, Neˇmec, Pavel, and Sol, Daniel

Subjects

*PROCESS capability, *VISUAL acuity, *SENSE organs, *FOCAL length, *VISION, *AVIAN anatomy

Abstract

Despite vision being an essential sense for many animals, the intuitively appealing notion that the visual system has been shaped by environmental light conditions is backed by insufficient evidence. Based on a comprehensive phylogenetic comparative analysis of birds, we investigate if exposure to different light conditions might have triggered evolutionary divergence in the visual system through pressures on light sensitivity, visual acuity, and neural processing capacity. Our analyses suggest that birds that have adopted nocturnal habits evolved eyes with larger corneal diameters and, to a lesser extent, longer axial length than diurnal species. However, we found no evidence that sensing and processing organs were selected together, as observed in diurnal birds. Rather than enlarging the processing centers, we found a tendency among nocturnal species to either reduce or maintain the size of the two main brain centers involved in vision—the optic tectum and the wulst. These results suggest a mosaic pattern of evolution, wherein optimization of the eye optics for efficient light capture in nocturnal species may have compromised visual acuity and central processing capacity. [ABSTRACT FROM AUTHOR]

Published

2024

31. Evolution and Future of Serious Game Technology for Older Adults.

Author

Huang, Xin, Ali, Nazlena Mohamad, and Sahrani, Shafrida

Subjects

*ROLEPLAYING games, *OLDER people, *SENSE organs, *BIBLIOMETRICS, *TECHNOLOGICAL innovations

Abstract

Serious games play a key role in the medical field, particularly in enhancing cognitive abilities in the elderly. However, the sensory organs of the elderly decline over time, and the intervention effect of traditional serious games for older adults. The objective of this study is to identify the evolution and current problems of serious game technology for the elderly by using bibliometric analysis. We selected 319 relevant documents from 2013 to 2024 from the Web of Science (WOS) database. This study uses Publish or Perish (Windows GUl Edition) and VOSviewer (1.6.20) for performance analysis and scientific charting. We deeply analyze the early trends, emerging technologies, and publication trends, including citations and journals, subject areas, and regional and institutional. Here, we identified serious games for older adults rely heavily on visual presentation, often utilizing screens for screening, rehabilitation, and therapeutic interventions. This may cause further visual impairment in older adults who are experiencing visual decline. In addition, we proposed the combination of rich tactile feedback and external devices as one of the effective solutions to the current problems for future research. [ABSTRACT FROM AUTHOR]

Published

2024

32. "Kiss of death" an Unusual case Encountered in ENT Emergency.

Author

Gargava, Aditya, Tiwari, Nishta, Nigam, Manish, and Raghuwanshi, Shiv Kumar

Subjects

*SENSE organs, *APPLICABLE laws, *SYMPTOMS, *TONGUE, *MEDICAL schools, *PSYCHOGENIC nonepileptic seizures, *TONGUE cancer

Abstract

This article discusses an unusual case of a severe tongue laceration that occurred during an intimate act. The patient, a 22-year-old male, was under the influence of alcohol at the time of the incident. The anterior 1/3rd of his tongue was lacerated, leaving only a small part of the right lateral border intact. The patient underwent emergency surgery to repair the laceration and was subsequently admitted for further management. The article emphasizes the importance of early repair in order to preserve the blood supply and physiological functions of the tongue. [Extracted from the article]

Published

2024

33. Ear care: Knowledge, behavior, and attitudes among healthcare practitioners in Najran City, Saudi Arabia.

Author

Almagribi, Ahmad Zaker M.

Subjects

*EAR, *HYGIENE, *SENSE organs, *ORGANS (Anatomy), *EARACHE, *ATTITUDE (Psychology)

Abstract

Background: Personal care for body organs is a well-known practice of human beings, especially those organs that need regular care to improve function or hygiene. The ear is a unique sense organ with a specific anatomical shape to perform the function of hearing and balance. Objectives: To determine healthcare practitioners' current knowledge, behavior, and attitude regarding ear care. Subjects and methods: This cross-sectional study was conducted among healthcare practitioners at different hospitals in Najran City, Saudi Arabia, from 25th June to 30th August 2022. A self-administered questionnaire was distributed among healthcare practitioners using an online survey. The questionnaire includes basic demographic characteristics (i.e. gender, speciality, and religion). It assesses the knowledge, behavior, and attitude toward ear care, and the use of mobile headphones and earrings that affect ear health. All statistical data were analyzed using SPSS version 26. Results: Of the 209 healthcare practitioners involved, 60.8% were females, and 46.9% were physicians. The prevalence of self-ear cleaning was 97.6%. Of them, 33% were cleaning their ears every week. Cotton buds were the most preferred method for self-ear cleaning. The proportion of participants who injured their ears while cleaning was 8.6%. The most common treatment method to relieve ear pain was visiting a doctor (44.4%) and utilizing a painkiller (29.7%). Interestingly, respondents who injured their ears during cleaning and those who experienced wax accumulation were significantly more common among physicians. Conclusion: Self-ear cleaning practices are widely prevalent in this study which could be related to the lack of knowledge about ear care among healthcare practitioners. Physicians who experienced wax accumulation tend to use other methods for self-ear cleaning rather than cotton buds. Further research is needed to determine the knowledge, attitude, and practices of the population who are working in healthcare institutions. [ABSTRACT FROM AUTHOR]

Published

2024

34. Human parasitic infections of the class Adenophorea: global epidemiology, pathogenesis, prevention and control.

Author

Intirach, Jitrawadee, Shu, Chang, Lv, Xin, Gao, Suzhen, Sutthanont, Nataya, Chen, Tao, and Lv, Zhiyue

Subjects

*PARASITIC diseases, *LIFE cycles (Biology), *SENSE organs, *FISH larvae, *BLOOD circulation, *ORGAN donors

Abstract

Background: Human parasitic infections caused by Adenophorean nematodes encompass a range of diseases, including dioctophymiasis, trichuriasis, capillariasis, trichinellosis, and myositis. These infection can result in adverse impacts on human health and cause societal and economic concerns in tropical and subtropical regions. Methods: This review conducted searches in PubMed, Embase and Google Scholar for relevant studies that published in established databases up to April 26, 2024. Studies that focused on the common morphology, life cycle, disease distribution, clinical manifestations, and prevention and control strategies for Adenophorean parasitic diseases in humans were included. Results: Adenophorean nematodes exhibit shared morphological characteristics with a four-layered cuticle; uninucleate epidermal cells; pseudocoelom with six or more coelomocytes; generally three caudal glands; five esophageal glands; two testes in males with median-ventral supplementary glands in a single row; tail in males rarely possessing caudal alae; amphids always postlabial; presence of cephalic sensory organs; absence of phasmids; and a secretory-excretory system consisting of a single ventral gland cell, usually with a non-cuticularized terminal duct. Humans play two important roles in the life cycle of the nematode class, Adenophorea: 1) as a definitive host infected by ingesting undercooked paratenic hosts, embryonated eggs, infective larvae in fish tissue and meat contaminated with encysted or non-encysted larvae, and 2) as an accidental host infected by ingesting parasitic eggs in undercooked meat. Many organs are targeted by the Adenophorean nematode in humans such as the intestines, lungs, liver, kidneys, lymphatic circulation and blood vessels, resulting in gastrointestinal problems, excessive immunological responses, cell disruption, and even death. Most of these infections have significant incidence rates in the developing countries of Africa, Asia and Latin America; however, some parasitic diseases have restricted dissemination in outbreaks. To prevent these diseases, interventions together with education, sanitation, hygiene and animal control measures have been introduced in order to reduce and control parasite populations. Conclusions: The common morphology, life cycle, global epidemiology and pathology of human Adenophorean nematode-borne parasitic diseases were highlighted, as well as their prevention and control. The findings of this review will contribute to improvement of monitoring and predicting human-parasitic infections, understanding the relationship between animals, humans and parasites, and preventing and controlling parasitic diseases. [ABSTRACT FROM AUTHOR]

Published

2024

35. Postural Sway Velocity of Deaf Children with and without Vestibular Dysfunction.

Author

Melo, Renato S., Lemos, Andrea, Wiesiolek, Carine Carolina, Soares, Lucas Gallindo Martins, Raposo, Maria Cristina Falcão, Lambertz, Daniel, Belian, Rosalie Barreto, and Ferraz, Karla Mônica

Subjects

*DEAF children, *POSTURAL muscles, *SENSE organs, *SENSORINEURAL hearing loss, *VELOCITY

Abstract

Background: Sensory information obtained from the visual, somatosensory, and vestibular systems is responsible for regulating postural control, and if damage occurs in one or more of these sensory systems, postural control may be altered. Objective: To evaluate and compare the postural sway velocity between children with normal hearing and with sensorineural hearing loss (SNHL), matched by sex and age group, and to compare the postural sway velocity between children with normal hearing and with SNHL, with and without vestibular dysfunction. Methods: Cross-sectional study that evaluated 130 children (65 with normal hearing and 65 with SNHL), of both sexes and aged between 7 and 11 years, from public schools of the city of Caruaru, Pernambuco state, Brazil. The postural sway velocity of the center of pressure (COP) was assessed by a force platform, in two directions, anteroposterior (AP) and mediolateral (ML)), in three positions, namely bipedal support with feet together and parallel (parallel feet (PF)), bipedal support with one foot in front of the other (tandem foot (TF)), and single-leg support (one foot (OF)), evaluated with the eyes open and closed. Results: Children with SNHL demonstrated greater postural sway velocity compared to children with normal hearing in all the positions evaluated, with significant differences in the AP direction, with the eyes open (PF: p = 0.001; TF: p = 0.000; OF: p = 0.003) and closed (PF: p = 0.050; TF: p = 0.005). The same occurred in the ML direction, with the eyes open (PF: p = 0.001; TF: p = 0.000; OF: p = 0.001) and closed (PF: p = 0.002; TF: p = 0.000). The same occurred in relation to vestibular function, where the children with SNHL with an associated vestibular dysfunction demonstrated greater postural sway velocity compared to children with normal hearing in all the positions evaluated, demonstrating significant differences in the AP direction, with the eyes open (TF: p = 0.001; OF: p = 0.029) and eyes closed (PF: p = 0.036; TF: p = 0.033). The same occurred in the ML direction, with the eyes open (TF: p = 0.000) and with the eyes closed (PF: p = 0.008; TF: p = 0.009). Conclusions: Children with SNHL demonstrated greater instability of postural control than children with normal hearing in all the directions assessed. Children with SNHL and an associated vestibular dysfunction demonstrated the greatest instability of postural control in this study. [ABSTRACT FROM AUTHOR]

Published

2024

36. 3D atlas of the human fetal chondrocranium in the middle trimester.

Author

Kaiser, Markéta, Zikmund, Tomáš, Vora, Siddharth, Metscher, Brian, Adameyko, Igor, Richman, Joy M., and Kaiser, Jozef

Subjects

ENDOCHONDRAL ossification, SENSE organs, SKULL base, FETAL brain, NEURAL development, FETUS, HUMAN evolution

Abstract

The chondrocranium provides the key initial support for the fetal brain, jaws and cranial sensory organs in all vertebrates. The patterns of shaping and growth of the chondrocranium set up species-specific development of the entire craniofacial complex. The 3D development of chondrocranium have been studied primarily in animal model organisms, such as mice or zebrafish. In comparison, very little is known about the full 3D human chondrocranium, except from drawings made by anatomists many decades ago. The knowledge of human-specific aspects of chondrocranial development are essential for understanding congenital craniofacial defects and human evolution. Here advanced microCT scanning was used that includes contrast enhancement to generate the first 3D atlas of the human fetal chondrocranium during the middle trimester (13 to 19 weeks). In addition, since cartilage and bone are both visible with the techniques used, the endochondral ossification of cranial base was mapped since this region is so critical for brain and jaw growth. The human 3D models are published as a scientific resource for human development. [ABSTRACT FROM AUTHOR]

Published

2024

37. Displacement-pressure biparametrically regulated softness sensory system for intraocular pressure monitoring.

Author

Cheng, Yu, Zhan, Yifei, Guan, Fangyi, Shi, Junli, Wang, Jingxiao, Sun, Yi, Zubair, Muhammad, Yu, Cunjiang, and Guo, Chuan Fei

Subjects

*GLAUCOMA, *INTRAOCULAR pressure, *SENSE organs, *PRESSURE sensors, *CONTACT lenses, *TONOMETERS

Abstract

High intraocular pressure (IOP) is one of the high-risk pathogenic factors of glaucoma. Existing methods of IOP measurement are based on the direct interaction with the cornea. Commercial ophthalmic tonometers based on snapshot measurements are expensive, bulky, and their operation requires trained personnel. Theranostic contact lenses are easy to use, but they may block vision and cause infection. Here, we report a sensory system for IOP assessment that uses a soft indentor with two asymmetrically deployed iontronic flexible pressure sensors to interact with the eyelid-eyeball in an eye-closed situation. Inspired by human fingertip assessment of softness, the sensory system extracts displacement-pressure information for soft evaluation, achieving high accuracy IOP monitoring (>96%). We further design and custom-make a portable and wearable ophthalmic tonometer based on the sensory system and demonstrate its high efficacy in IOP screening. This sensory system paves a way towards cost-effective, robust, and reliable IOP monitoring. [ABSTRACT FROM AUTHOR]

Published

2024

38. Functional Morphology of Leg Mechanosensory Organs in Early Postembryonic Development in the Stick Insect (Sipyloidea chlorotica).

Author

Strauß, Johannes

Subjects

*PHASMIDA, *INSECT development, *ANIMAL morphology, *MORPHOLOGY, *SENSE organs, *SENSORY neurons, *SOMATIC embryogenesis

Abstract

Simple Summary: Stick insects and their mechanoreceptors are important models for neurobiology and physiology. Mechanoreceptors are sensory systems that detect mechanical stimuli like wind, airborne sound, substrate vibration, or gravity. They are present in insects in highly diverse forms. Here, the morphology of a mechanosensory complex (the subgenual organ complex) with two distinct organs in the legs of a stick insect (Sipyloidea chlorotica) is described for animals that were newly hatched. The overall organisation of this sensory complex is unique in stick insects, and the present study extends the current knowledge from adult insects to the early juvenile instars. The morphological results show a connection between the two sensory organs (subgenual organ and distal organ) by a thin membrane, which had already been documented in adult stick insects. By the time of hatching, both the sensory neurons activated by mechanical stimuli as well as further tissues in the sensory complex are present, and they likely develop during embryogenesis. The sensory organs could also be functional at hatching. This report discusses the implications of a connection between the subgenual organ and the distal organ, suggesting that the membrane would influence the displacements of the two organs. The subgenual organ complex of stick insects has a unique neuroanatomical organisation with two elaborate chordotonal organs, the subgenual organ and the distal organ. These organs are present in all leg pairs and are already developed in newly hatched stick insects. The present study analyses for the first time the morphology of sensory organs in the subgenual organ complex for a membrane connecting the two sensory organs in newly hatched insects (Sipyloidea chlorotica (Audinet-Serville 1838)). The stick insect legs were analysed following hatching by axonal tracing and light microscopy. The subgenual organ complex in first juvenile instars shows the sensory organs and a thin membrane connecting the sensory organs resembling the morphology of adult animals. Rarely was this membrane not detected, where it is assumed as not developed during embryogenesis. The connection appears to influence the shape of the subgenual organ, with one end extending towards the distal organ as under tension. These findings are discussed for the following functional implications: (1) the physiological responses of the subgenual organ complex to mechanical stimuli after hatching, (2) the influence of the membrane on the displacement of the sensory organs, and (3) the connection between the subgenual organ and distal organ as a possible functional coupling. [ABSTRACT FROM AUTHOR]

Published

2024

39. A morphological comparative study of proboscis sensilla between Pierinae and Coliadinae (Lepidoptera: Pieridae).

Author

Mengi, Yağmur and Çalışkan, 、Selma Seven

Subjects

LEPIDOPTERA, SCANNING electron microscopy, BUTTERFLIES, SURFACE structure, COMPARATIVE studies, SENSE organs

Abstract

Copyright of SHILAP Revista de Lepidopterologia is the property of Sociedad Hispano-Luso-Americana de Lepidopterologia and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

40. Emx2 lineage tracing reveals antecedent patterns of planar polarity in the mouse inner ear.

Author

Goodrich, Ellison J. and Deans, Michael R.

Subjects

*INNER ear, *HAIR cells, *TRANSCRIPTION factors, *SENSE organs, *CELL differentiation, *TRANSGENIC mice

Abstract

The planar polarized organization of hair cells in the vestibular maculae is unique because these sensory organs contain two groups of cells with oppositely oriented stereociliary bundles that meet at a line of polarity reversal (LPR). EMX2 is a transcription factor expressed by one hair cell group that reverses the orientation of their bundles, thereby forming the LPR. We generated Emx2-CreERt2 transgenic mice for genetic lineage tracing and demonstrate Emx2 expression before hair cell specification when the nascent utricle and saccule constitute a continuous prosensory domain. Precursors labeled by Emx2-CreERt2 at this stage give rise to hair cells located along one side of the LPR in the mature utricle or saccule, indicating that this boundary is first established in the prosensory domain. Consistent with this, Emx2-CreERt2 lineage tracing in Dreher mutants, where the utricle and saccule fail to segregate, labels a continuous field of cells along one side of a fused utriculo-saccular-cochlear organ. These observations reveal that LPR positioning is pre-determined in the developing prosensory domain, and that EMX2 expression defines lineages of hair cells with oppositely oriented stereociliary bundles. [ABSTRACT FROM AUTHOR]

Published

2024

41. Unfolding the ventral nerve center of chaetognaths.

Author

Ordoñez, June F. and Wollesen, Tim

Subjects

*FLUORESCENCE in situ hybridization, *SENSE organs, *GENE expression, *NERVOUS system, *NERVES

Abstract

Background: Chaetognaths are a clade of marine worm-like invertebrates with a heavily debated phylogenetic position. Their nervous system superficially resembles the protostome type, however, knowledge regarding the molecular processes involved in neurogenesis is lacking. To better understand these processes, we examined the expression profiles of marker genes involved in bilaterian neurogenesis during post-embryonic stages of Spadella cephaloptera. We also investigated whether the transcription factor encoding genes involved in neural patterning are regionally expressed in a staggered fashion along the mediolateral axis of the nerve cord as it has been previously demonstrated in selected vertebrate, insect, and annelid models. Methods: The expression patterns of genes involved in neural differentiation (elav), neural patterning (foxA, nkx2.2, pax6, pax3/7, and msx), and neuronal function (ChAT and VAChT) were examined in S. cephaloptera hatchlings and early juveniles using whole-mount fluorescent in situ hybridization and confocal microscopy. Results: The Sce-elav+ profile of S. cephaloptera hatchlings reveals that, within 24 h of post-embryonic development, the developing neural territories are not limited to the regions previously ascribed to the cerebral ganglion, the ventral nerve center (VNC), and the sensory organs, but also extend to previously unreported CNS domains that likely contribute to the ventral cephalic ganglia. In general, the neural patterning genes are expressed in distinct neural subpopulations of the cerebral ganglion and the VNC in hatchlings, eventually becoming broadly expressed with reduced intensity throughout the CNS in early juveniles. Neural patterning gene expression domains are also present outside the CNS, including the digestive tract and sensory organs. ChAT and VAChT domains within the CNS are predominantly observed in specific subpopulations of the VNC territory adjacent to the ventral longitudinal muscles in hatchlings. Conclusions: The observed spatial expression domains of bilaterian neural marker gene homologs in S. cephaloptera suggest evolutionarily conserved roles in neurogenesis for these genes among bilaterians. Patterning genes expressed in distinct regions of the VNC do not show a staggered medial-to-lateral expression profile directly superimposable to other bilaterian models. Only when the VNC is conceptually laterally unfolded from the longitudinal muscle into a flat structure, an expression pattern bearing resemblance to the proposed conserved bilaterian mediolateral regionalization becomes noticeable. This finding supports the idea of an ancestral mediolateral patterning of the trunk nervous system in bilaterians. [ABSTRACT FROM AUTHOR]

Published

2024

42. Subtle morphological changes in the visual and antennal sensory system of bees and wasps across an urbanisation gradient.

Author

Ferrari, Andrea, Tacconi, Greta, and Polidori, Carlo

Subjects

*BEES, *WASPS, *URBANIZATION, *CITIES & towns, *BODY size, *SENSE organs

Abstract

Increased temperature and fragmentation of green spaces in urban areas could drive variations in functional traits of insects. Such morphological shifts may occur for sensory systems, which were previously reported to be prone to change with habitat characteristics in non-urban contexts. Here, we measured traits related to the visual and antennal sensory systems in the bees Halictus scabiosae and Osmia cornuta and the wasp Polistes dominula along an urbanisation gradient within Milan (Italy). We hypothesised that fragmentation could filter for better visual properties, and that higher temperature could filter for fewer thermoreceptors and more olfactory hairs. While controlling for body size, results show subtle but appreciable responses to urbanisation in one or more traits in all species, though not always supporting our hypotheses. O. cornuta shows marginally higher ommatidia density and smaller ommatidia diameter (associated with better visual resolution) in more fragmented sites, as well as marginally fewer thermoreceptors in hotter sites, in agreement with our two predictions. On the other hand, H. scabiosae has marginally smaller antennae and P. dominula has smaller eyes at warmer locations, and the wasp also has smaller antennae and 9th flagellomeres in more fragmented areas. Perhaps higher temperatures accelerate development of sensory system at higher speed than the rest of body in these two species. Our results represent the first evidence of urbanisation effects on the visual and antennal sensory systems of bees and wasps and underline how such effects may involve a much broader bouquet of traits then previously observed. [ABSTRACT FROM AUTHOR]

Published

2024

43. Predictive coding networks for temporal prediction.

Author

Millidge, Beren, Tang, Mufeng, Osanlouy, Mahyar, Harper, Nicol S., and Bogacz, Rafal

Subjects

*LINEAR network coding, *TIME-varying networks, *KALMAN filtering, *LINEAR systems, *BIOLOGICAL networks, *SENSE organs, *NEURAL circuitry

Abstract

One of the key problems the brain faces is inferring the state of the world from a sequence of dynamically changing stimuli, and it is not yet clear how the sensory system achieves this task. A well-established computational framework for describing perceptual processes in the brain is provided by the theory of predictive coding. Although the original proposals of predictive coding have discussed temporal prediction, later work developing this theory mostly focused on static stimuli, and key questions on neural implementation and computational properties of temporal predictive coding networks remain open. Here, we address these questions and present a formulation of the temporal predictive coding model that can be naturally implemented in recurrent networks, in which activity dynamics rely only on local inputs to the neurons, and learning only utilises local Hebbian plasticity. Additionally, we show that temporal predictive coding networks can approximate the performance of the Kalman filter in predicting behaviour of linear systems, and behave as a variant of a Kalman filter which does not track its own subjective posterior variance. Importantly, temporal predictive coding networks can achieve similar accuracy as the Kalman filter without performing complex mathematical operations, but just employing simple computations that can be implemented by biological networks. Moreover, when trained with natural dynamic inputs, we found that temporal predictive coding can produce Gabor-like, motion-sensitive receptive fields resembling those observed in real neurons in visual areas. In addition, we demonstrate how the model can be effectively generalized to nonlinear systems. Overall, models presented in this paper show how biologically plausible circuits can predict future stimuli and may guide research on understanding specific neural circuits in brain areas involved in temporal prediction. Author summary: While significant advances have been made in the neuroscience of how the brain processes static stimuli, the time dimension has often been relatively neglected. However, time is crucial since the stimuli perceived by our senses typically dynamically vary in time, and the cortex needs to make sense of these changing inputs. This paper describes a computational model of cortical networks processing temporal stimuli. This model is able to infer and track the state of the environment based on noisy inputs, and predict future sensory stimuli. By ensuring that these predictions match the incoming stimuli, the model is able to learn the structure and statistics of its temporal inputs and produces responses of neurons resembling those in the brain. The model may help in further understanding neural circuits in sensory cortical areas. [ABSTRACT FROM AUTHOR]

Published

2024

44. The Axes of Divergence for the Evolutionary Radiation of Notothenioid Fishes in Antarctica.

Author

Eastman, Joseph T.

Subjects

*ADAPTIVE radiation, *FISH diversity, *RADIATION, *BIOMASS, *BODY size, *SENSE organs, *ADIPOSE tissues

Abstract

Notothenioid fishes, a perciform group, radiated in the cold shelf waters around the Antarctic continent and the 110 species dominate fish diversity, abundance, and biomass at levels of ≈77%, 92%, and 91%, respectively. This occurred in a locality with frequent glaciomarine cycles that fragmented and obliterated habitats, disrupted ecosystems, and made parts of the high latitude shelves periodically uninhabitable. The notothenioid radiation encompasses three stages and 10 axes: for the habitat stage, divergence in (1) depth and (2) biotope, meaning subdivisions within the pelagic and benthic realms; for the morphology stage, divergence in (3) body size, (4) body density based on proportions of skeletal and adipose tissues, (5) body shape, (6) trophic morphology, specifically head morphology related to feeding (jaws, teeth, head size, and pharyngeal gape), and (7) neuromorphology (brain and sensory systems); and for the communication stage, divergence in (8) fecundity and egg size, (9) sexual dichromatism and dimorphism in body and fins, and (10) parental care behavior associated with nesting. There was an antecedent Eocene fossil fauna that did not include notothenioids and that has minimal taxonomic representation in the modern fauna. Liparids (snailfishes) and zoarcids (eelpouts) also diversified in Antarctic waters but with minimal divergence. Hypotheses are offered as to why these radiations played out the way they did and why notothenioids are dominant. [ABSTRACT FROM AUTHOR]

Published

2024

45. Postembryonic development and male paedomorphosis in Osedax (Siboglinidae, Annelida).

Author

Worsaae, Katrine, Rouan, Alice, Seaver, Elaine, Miyamoto, Norio, and Tilic, Ekin

Subjects

SENSE organs, ANNELIDA, SEXUAL dimorphism, CARDIOVASCULAR system, NEURAL development, OOGENESIS, ESOPHAGEAL motility

Abstract

Most species of the bone-devouring marine annelid, Osedax, display distinct sexual dimorphism with macroscopic sedentary females rooted in bones and free-living microscopic dwarf males. The paedomorphic male resembles the non-feeding metatrochophore larva in size, presence of eight pairs of chaetae, and a head ciliation potentially representing a residual prototroch. The male development may thus uniquely reiterate and validate the theoretical heterochrony process "progenesis", which suggests that an accelerated sexual maturation and early arrest of somatic growth can lead to a miniaturized and paedomorphic adult. In this study, we describe the postembryonic larval and juvenile organogenesis of Osedax japonicus to test for a potential synchronous arrest of somatic growth during male development. Five postembryonic stages could be distinguished, resembling day one to five in the larval development at 10°C: (0D) first cleavage of fertilized eggs (embryos undergo unequal spiral cleavage), (1D) pre-trochophore, with apical organ, (2D) early trochophore, + prototroch, brain, circumesophageal connectives and subesophageal commissure, (3D) trochophore, + telotroch, four ventral nerves, (4D) early metatrochophore, + protonephridia, dorsal and terminal sensory organs, (5D) metatrochophore, + two ventral paratrochs, mid-ventral nerve, posterior trunk commissure, two dorsal nerves; competent for metamorphosis. The larval development largely mirrors that of other lecithotrophic annelid larvae but does not show continuous chaetogenesis or full gut development. Additionally, O. japonicus larvae exhibit an unpaired, mid-dorsal, sensory organ. Female individuals shed their larval traits during metamorphosis and continue organogenesis (including circulatory system) and extensive growth for 2-3 weeks before developing oocytes. In contrast, males develop sperm within a day of metamorphosis and display a synchronous metamorphic arrest in neural and muscular development, retaining a large portion of larval features post metamorphosis. Our findings hereby substantiate male miniaturization in Osedax to be the outcome of an early and synchronous offset of somatic development, fitting the theoretical process "progenesis". This may be the first compelling morpho-developmental exemplification of a progenetic origin of a microscopic body plan. The presented morphological staging system will further serve as a framework for future examination of molecular patterns and pathways determining Osedax development. [ABSTRACT FROM AUTHOR]

Published

2024

46. Predicting Thermal Comfort Levels Using Facial Thermal Imaging and Skin Temperature: A Data-Driven Approach.

Author

Vasudevan, Joshua and Eftekhari, Mahroo

Subjects

*SKIN temperature, *ECOPHYSIOLOGY, *THERMAL comfort, *ENERGY consumption of buildings, *SENSE organs, *OFFICE chairs, *BREAST

Published

2024

47. Characterization of the expression of gastrin‐releasing peptide and its receptor in the trigeminal and spinal somatosensory systems of Japanese macaque monkeys: Insight into humans

Author

Takanami, Keiko, Oti, Takumi, Kobayashi, Yasuhisa, Hasegawa, Koki, Ito, Takashi, Tsutsui, Naoaki, Ueda, Yasumasa, Carstens, Earl, Sakamoto, Tatsuya, and Sakamoto, Hirotaka

Subjects

Biomedical and Clinical Sciences, Neurosciences, Clinical Sciences, Biotechnology, Neurodegenerative, Underpinning research, 1.1 Normal biological development and functioning, Animals, DNA, Complementary, Gastrin-Releasing Peptide, Humans, Ligands, Macaca fuscata, Pruritus, Receptors, Bombesin, Sense Organs, gastrin-releasing peptide, gastrin-releasing peptide receptor, itch, ligand derivative stain, macaque monkey, primates, trigeminal sensory system, Zoology, Medical Physiology, Neurology & Neurosurgery

Abstract

Gastrin-releasing peptide (GRP) and its receptor (GRPR) have been identified as itch mediators in the spinal and trigeminal somatosensory systems in rodents. In primates, there are few reports of GRP/GRPR expression or function in the spinal sensory system and virtually nothing is known in the trigeminal system. The aim of the present study was to characterize GRP and GRPR in the trigeminal and spinal somatosensory system of Japanese macaque monkeys (Macaca fuscata). cDNA encoding GRP was isolated from the macaque dorsal root ganglion (DRG) and exhibited an amino acid sequence that was highly conserved among mammals and especially in primates. Immunohistochemical analysis demonstrated that GRP was expressed mainly in the small-sized trigeminal ganglion and DRG in adult macaque monkeys. Densely stained GRP-immunoreactive (ir) fibers were observed in superficial layers of the spinal trigeminal nucleus caudalis (Sp5C) and the spinal cord. In contrast, GRP-ir fibers were rarely observed in the principal sensory trigeminal nucleus and oral and interpolar divisions of the spinal trigeminal nucleus. cDNA cloning, in situ hybridization, and Western blot revealed substantial expression of GRPR mRNA and GRPR protein in the macaque spinal dorsal horn and Sp5C. Our Western ligand blot and ligand derivative stain for GRPR revealed that GRP directly bound in the macaque Sp5C and spinal dorsal horn as reported in rodents. Finally, GRP-ir fibers were also detected in the human spinal dorsal horn. The spinal and trigeminal itch neural circuits labeled with GRP and GRPR appear to function also in primates.

Published

2022

48. Sensory cells in tunicates: insights into mechanoreceptor evolution.

Author

Anselmi, Chiara, Fuller, Gwynna K., Stolfi, Alberto, Groves, Andrew K., and Manni, Lucia

Subjects

TUNICATA, WATER filtration, HAIR cells, INNER ear, SENSE organs

Abstract

Tunicates, the sister group of vertebrates, offer a unique perspective for evolutionary developmental studies (Evo-Devo) due to their simple anatomical organization. Moreover, the separation of tunicates from vertebrates predated the vertebrate-specific genome duplications. As adults, they include both sessile and pelagic species, with very limited mobility requirements related mainly to water filtration. In sessile species, larvae exhibit simple swimming behaviors that are required for the selection of a suitable substrate on which to metamorphose. Despite their apparent simplicity, tunicates display a variety of mechanoreceptor structures involving both primary and secondary sensory cells (i.e., coronal sensory cells). This review encapsulates two decades of research on tunicate mechanoreception focusing on the coronal organ's sensory cells as prime candidates for understanding the evolution of vertebrate hair cells of the inner ear and the lateral line organ. The review spans anatomical, cellular and molecular levels emphasizing both similarity and differences between tunicate and vertebrate mechanoreception strategies. The evolutionary significance of mechanoreception is discussed within the broader context of Evo-Devo studies, shedding light on the intricate pathways that have shaped the sensory system in chordates. [ABSTRACT FROM AUTHOR]

Published

2024

49. Characterization of sensory and motor dysfunction and morphological alterations in late stages of type 2 diabetic mice.

Author

Ting Tian, Haofeng Li, Sensen Zhang, and Maojun Yang

Subjects

NEUROMUSCULAR transmission, AFFERENT pathways, SENSE organs, MUSCULAR atrophy, DIABETES complications, DIABETIC neuropathies, CHOLINERGIC receptors

Abstract

Diabetic neuropathy is the most common complication of diabetes and lacks effective treatments. Although sensory dysfunction during the early stages of diabetes has been extensively studied in various animal models, the functional and morphological alterations in sensory and motor systems during late stages of diabetes remain largely unexplored. In the current work, we examined the influence of diabetes on sensory and motor function as well as morphological changes in late stages of diabetes. The obese diabetic Leprdb/db mice (db/db) were used for behavioral assessments and subsequent morphological examinations. The db/db mice exhibited severe sensory and motor behavioral defects at the age of 32 weeks, including significantly higher mechanical withdrawal threshold and thermal latency of hindpaws compared with agematched nondiabetic control animals. The impaired response to noxious stimuli was mainly associated with the remarkable loss of epidermal sensory fibers, particularly CGRP-positive nociceptive fibers. Unexpectedly, the area of CGRPpositive terminals in the spinal dorsal horn was dramatically increased in diabetic mice, which was presumably associated with microglial activation. In addition, the db/db mice showed significantly more foot slips and took longer time during the beam-walking examination compared with controls. Meanwhile, the running duration in the rotarod test was markedly reduced in db/db mice. The observed sensorimotor deficits and motor dysfunction were largely attributed to abnormal sensory feedback and muscle atrophy as well as attenuated neuromuscular transmission in aged diabetic mice. Morphological analysis of neuromuscular junctions (NMJs) demonstrated partial denervation of NMJs and obvious fragmentation of acetylcholine receptors (AChRs). Intrafusal muscle atrophy and abnormal muscle spindle innervation were also detected in db/db mice. Additionally, the number of VGLUT1-positive excitatory boutons on motor neurons was profoundly increased in aged diabetic mice as compared to controls. Nevertheless, inhibitory synaptic inputs onto motor neurons were similar between the two groups. This excitation-inhibition imbalance in synaptic transmission might be implicated in the disturbed locomotion. Collectively, these results suggest that severe sensory and motor deficits are present in late stages of diabetes. This study contributes to our understanding of mechanisms underlying neurological dysfunction during diabetes progression and helps to identify novel therapeutic interventions for patients with diabetic neuropathy. [ABSTRACT FROM AUTHOR]

Published

2024

50. Cancer and Non-Cancer Effects Following Ionizing Irradiation.

Author

Hamada, Nobuyuki

Subjects

*SENSE organs, *TISSUES, *RADIATION, *RADIATION injuries, *TUMOR markers, *GENITALIA, *CARCINOGENS, *OCCUPATIONAL exposure, *ENVIRONMENTAL exposure, *RESPIRATORY organs, *TUMORS, *RADIATION doses, *CARDIOVASCULAR system

Abstract

On the one hand, ionizing radiation has been used to treat not only cancer, but also non-cancer diseases. On the other hand, associations with radiation exposure have increasingly been reported not only for cancer, but also non-cancer diseases, both at doses or dose rates much lower than previously suggested or considered. This underscores the need for considering both cancer and non-cancer effects of medical (diagnostic or therapeutic), occupational or environmental exposure to radiation. As such, this Special Issue aims to serve as a forum to gather the latest developments and discuss future prospects in the field of normal tissue responses to radiation exposure. The Special Issue is composed of 18 articles outlining the radiation effects arising in various tissues (e.g., those in the circulatory, sensory, nervous, respiratory, and reproductive systems). [ABSTRACT FROM AUTHOR]

Published

2024