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The American Journal of Case Reports Jul 2024BACKGROUND Rhabdomyolysis, an uncommon but recognized adverse effect of selective serotonin reuptake inhibitor (SSRI) antidepressants, can precipitate acute renal injury...
BACKGROUND Rhabdomyolysis, an uncommon but recognized adverse effect of selective serotonin reuptake inhibitor (SSRI) antidepressants, can precipitate acute renal injury (AKI), especially when combined with risk factors such as alcohol consumption. This report describes a 68-year-old man with acute renal failure due to rhabdomyolysis associated with alcohol intoxication while taking low-dose escitalopram, an SSRI antidepressant. CASE REPORT The patient, with a history of bipolar affective disorder managed with escitalopram, presented with symptoms of general malaise, diarrhea, myalgias, and transient loss of consciousness following substantial ethanol consumption. Laboratory tests indicated severe rhabdomyolysis with a creatine kinase level of 37 672 U/L and myoglobin level >5710 ng/ml, leading to an AKI diagnosis. The discontinuation of escitalopram, along with hydration and renal replacement therapy, facilitated renal recovery. However, the reintroduction of escitalopram resulted in the recurrence of rhabdomyolysis, suggesting a probable causal link, confirmed using the Naranjo Adverse Drug Reaction Probability Scale. CONCLUSIONS This report highlights the importance of identifying the medication history in patients presenting with acute renal failure and rhabdomyolysis and the association with SSRIs, which can be exacerbated by alcohol. This case underscores the importance of vigilant medication history assessment in patients presenting with AKI and rhabdomyolysis, particularly concerning the use of SSRIs like escitalopram, which can pose heightened risks in the context of alcohol use. It highlights the need for clinical caution in managing patients on long-term SSRI therapy, especially when reintroducing such medications after an episode of rhabdomyolysis.
Topics: Humans; Male; Rhabdomyolysis; Acute Kidney Injury; Aged; Citalopram; Selective Serotonin Reuptake Inhibitors; Alcoholic Intoxication
PubMed: 38951999
DOI: 10.12659/AJCR.943422 -
Advanced Science (Weinheim,... Jul 2024The ultrafine cellular structure promotes the extraordinary mechanical performance of metals manufactured by laser powder-bed-fusion (L-PBF). An in-depth understanding...
The ultrafine cellular structure promotes the extraordinary mechanical performance of metals manufactured by laser powder-bed-fusion (L-PBF). An in-depth understanding of the mechanisms governing the thermal stability of such structures is crucial for designing reliable L-PBF components for high-temperature applications. Here, characterizations and 3D discrete dislocation dynamics simulations are performed to comprehensively understand the evolution of cellular structures in 316L stainless steel during annealing. The dominance of screw-type dislocation dipoles in the dislocation cells is reported. However, the majority of dislocations in sub-grain boundaries (SGBs) are geometrically necessary dislocations (GNDs) with varying types. The disparity in dislocation types can be attributed to the variation in local stacking fault energy (SFE) arising from chemical heterogeneity. The presence of screw-type dislocations facilitates the unpinning of dislocations from dislocation cells/SGBs, resulting in a high dislocation mobility. In contrast, the migration of SGBs with dominating edge-type GNDs requires collaborative motion of dislocations, leading to a sluggish migration rate and an enhanced thermal stability. This work emphasizes the significant role of dislocation type in the thermal stability of cellular structures. Furthermore, it sheds light on how to locally tune dislocation structures with desired dislocation types by adjusting local chemistry-dependent SFE and heat treatment.
PubMed: 38951958
DOI: 10.1002/advs.202402962 -
Skin Research and Technology : Official... Jul 2024
Topics: Hyaluronoglucosaminidase; Humans; Dermal Fillers; Hyaluronic Acid; Cosmetic Techniques; Skin Aging
PubMed: 38951943
DOI: 10.1111/srt.13839 -
Journal of Nanobiotechnology Jul 2024Metal-organic frameworks (MOFs) are metal-organic skeleton compounds composed of self-assembled metal ions or clusters and organic ligands. MOF materials often have... (Review)
Review
Metal-organic frameworks (MOFs) are metal-organic skeleton compounds composed of self-assembled metal ions or clusters and organic ligands. MOF materials often have porous structures, high specific surface areas, uniform and adjustable pores, high surface activity and easy modification and have a wide range of prospects for application. MOFs have been widely used. In recent years, with the continuous expansion of MOF materials, they have also achieved remarkable results in the field of antimicrobial agents. In this review, the structural composition and synthetic modification of MOF materials are introduced in detail, and the antimicrobial mechanisms and applications of these materials in the healing of infected wounds are described. Moreover, the opportunities and challenges encountered in the development of MOF materials are presented, and we expect that additional MOF materials with high biosafety and efficient antimicrobial capacity will be developed in the future.
Topics: Metal-Organic Frameworks; Wound Healing; Humans; Animals; Anti-Infective Agents; Anti-Bacterial Agents; Porosity; Wound Infection
PubMed: 38951841
DOI: 10.1186/s12951-024-02637-8 -
Alzheimer's Research & Therapy Jun 2024The Amyloid precursor protein (APP) is a transmembrane glycoprotein from which amyloid-β (Aβ) peptides are generated after proteolytic cleavage. Aβ peptides are the... (Review)
Review
The Amyloid precursor protein (APP) is a transmembrane glycoprotein from which amyloid-β (Aβ) peptides are generated after proteolytic cleavage. Aβ peptides are the main constituent of amyloid plaques in Alzheimer's Disease (AD). The physiological functions of APP in the human adult brain are very diverse including intracellular signaling, synaptic and neuronal plasticity, and cell adhesion, among others. There is growing evidence that APP becomes dysfunctional in AD and that this dyshomeostasis may impact several APP functions beyond Aβ generation. The vast majority of current anti-amyloid approaches in AD have focused on reducing the synthesis of Aβ or increasing the clearance of brain Aβ aggregates following a paradigm in which Aβ plays a solo in APP dyshomeostasis. A wider view places APP at the center stage in which Aβ is an important, but not the only, factor involved in APP dyshomeostasis. Under this paradigm, APP dysfunction is universal in AD, but with some differences across different subtypes. Little is known about how to approach APP dysfunction therapeutically beyond anti-Aβ strategies. In this review, we will describe the role of APP dyshomeostasis in AD beyond Aβ and the potential therapeutic strategies targeting APP.
Topics: Humans; Alzheimer Disease; Amyloid beta-Protein Precursor; Animals; Amyloid beta-Peptides; Brain
PubMed: 38951839
DOI: 10.1186/s13195-024-01504-w -
Microbial Cell Factories Jul 2024Plastic is widely utilized in packaging, frameworks, and as coverings material. Its overconsumption and slow degradation, pose threats to ecosystems due to its toxic... (Review)
Review
BACKGROUND
Plastic is widely utilized in packaging, frameworks, and as coverings material. Its overconsumption and slow degradation, pose threats to ecosystems due to its toxic effects. While polyhydroxyalkanoates (PHA) offer a sustainable alternative to petroleum-based plastics, their production costs present significant obstacles to global adoption. On the other side, a multitude of household and industrial activities generate substantial volumes of wastewater containing both organic and inorganic contaminants. This not only poses a threat to ecosystems but also presents opportunities to get benefits from the circular economy. Production of bioplastics may be improved by using the nutrients and minerals in wastewater as a feedstock for microbial fermentation. Strategies like feast-famine culture, mixed-consortia culture, and integrated processes have been developed for PHA production from highly polluted wastewater with high organic loads. Various process parameters like organic loading rate, organic content (volatile fatty acids), dissolved oxygen, operating pH, and temperature also have critical roles in PHA accumulation in microbial biomass. Research advances are also going on in downstream and recovery of PHA utilizing a combination of physical and chemical (halogenated solvents, surfactants, green solvents) methods. This review highlights recent developments in upcycling wastewater resources into PHA, encompassing various production strategies, downstream processing methodologies, and techno-economic analyses.
SHORT CONCLUSION
Organic carbon and nitrogen present in wastewater offer a promising, cost-effective source for producing bioplastic. Previous attempts have focused on enhancing productivity through optimizing culture systems and growth conditions. However, despite technological progress, significant challenges persist, such as low productivity, intricate downstream processing, scalability issues, and the properties of resulting PHA.
Topics: Polyhydroxyalkanoates; Wastewater; Fermentation; Bacteria; Biodegradation, Environmental
PubMed: 38951813
DOI: 10.1186/s12934-024-02430-0 -
BMC Ecology and Evolution Jul 2024Parent-offspring conflict represents the sensitive balance of resource allocation between self-maintenance and reproduction. Two strategies have been proposed to better...
BACKGROUND
Parent-offspring conflict represents the sensitive balance of resource allocation between self-maintenance and reproduction. Two strategies have been proposed to better understand how species manage this conflict. In fixed-level feeding behavior, parents feed offspring consistent quantities of food; while flexible feeding shows plasticity in parental allocation based on offspring need. Life-history theory predicts that parents of long-lived species prioritize their survival and may favor the fixed-level hypothesis to maximize lifetime reproductive success. In this study, we highlight the natural variation of parent-offspring allocation strategies within a unique population of Leach's storm-petrels (Hydrobates leucorhous), and through month-long food supplementation and restriction manipulations, we investigate how chick condition affects parental provisioning during the chick-rearing period of reproduction.
RESULTS
We show that the parents upregulated chick feeding frequency of nutritionally deprived chicks, resulting in a larger total amount of food delivered during the study period. Additionally, the proportion of nights when both parents fed was highest in restricted chicks, and the proportion of nights when neither parents fed was lowest in restricted chicks, suggesting that storm-petrel parents shorten their foraging bouts to deliver food more often when their chicks are in relatively poor condition.
CONCLUSIONS
Our results support that Leach's storm-petrels use a flexible-level feeding strategy, suggesting that parents can assess offspring condition, and respond by feeding chicks at higher frequencies. These data provide insight on how a long-lived seabird balances its own energetic demands with that of their offspring during the reproductive period.
Topics: Animals; Feeding Behavior; Birds; Female; Male; Reproduction; Longevity
PubMed: 38951762
DOI: 10.1186/s12862-024-02273-8 -
Scientific Reports Jul 2024Climate change is known to affect the distribution and composition of species, but concomitant alterations to functionally important aspects of behaviour and...
Climate change is known to affect the distribution and composition of species, but concomitant alterations to functionally important aspects of behaviour and species-environment relations are poorly constrained. Here, we examine the ecosystem ramifications of changes in sediment-dwelling invertebrate bioturbation behaviour-a key process mediating nutrient cycling-associated with near-future environmental conditions (+ 1.5 °C, 550 ppm [pCO]) for species from polar regions experiencing rapid rates of climate change. We find that responses to warming and acidification vary between species and lead to a reduction in intra-specific variability in behavioural trait expression that adjusts the magnitude and direction of nutrient concentrations. Our analyses also indicate that species behaviour is not predetermined, but can be dependent on local variations in environmental history that set population capacities for phenotypic plasticity. We provide evidence that certain, but subtle, aspects of inter- and intra-specific variation in behavioural trait expression, rather than the presence or proportional representation of species per se, is an important and under-appreciated determinant of benthic biogeochemical responses to climate change. Such changes in species behaviour may act as an early warning for impending ecological transitions associated with progressive climate forcing.
Topics: Animals; Invertebrates; Climate Change; Oceans and Seas; Ecosystem; Seawater; Hydrogen-Ion Concentration; Global Warming; Carbon Dioxide
PubMed: 38951669
DOI: 10.1038/s41598-024-65808-5 -
Nature Medicine Jul 2024For centuries scientists and technologists have sought artificial leg replacements that fully capture the versatility of their intact biological counterparts. However,...
For centuries scientists and technologists have sought artificial leg replacements that fully capture the versatility of their intact biological counterparts. However, biological gait requires coordinated volitional and reflexive motor control by complex afferent and efferent neural interplay, making its neuroprosthetic emulation challenging after limb amputation. Here we hypothesize that continuous neural control of a bionic limb can restore biomimetic gait after below-knee amputation when residual muscle afferents are augmented. To test this hypothesis, we present a neuroprosthetic interface consisting of surgically connected, agonist-antagonist muscles including muscle-sensing electrodes. In a cohort of seven leg amputees, the interface is shown to augment residual muscle afferents by 18% of biologically intact values. Compared with a matched amputee cohort without the afferent augmentation, the maximum neuroprosthetic walking speed is increased by 41%, enabling equivalent peak speeds to persons without leg amputation. Further, this level of afferent augmentation enables biomimetic adaptation to various walking speeds and real-world environments, including slopes, stairs and obstructed pathways. Our results suggest that even a small augmentation of residual muscle afferents restores biomimetic gait under continuous neuromodulation in individuals with leg amputation.
PubMed: 38951635
DOI: 10.1038/s41591-024-02994-9 -
The EMBO Journal Jul 2024Transposable elements (TEs) are mobile genetic modules of viral derivation that have been co-opted to become modulators of mammalian gene expression. TEs are a major...
Transposable elements (TEs) are mobile genetic modules of viral derivation that have been co-opted to become modulators of mammalian gene expression. TEs are a major source of endogenous dsRNAs, signaling molecules able to coordinate inflammatory responses in various physiological processes. Here, we provide evidence for a positive involvement of TEs in inflammation-driven bone repair and mineralization. In newly fractured mice bone, we observed an early transient upregulation of repeats occurring concurrently with the initiation of the inflammatory stage. In human bone biopsies, analysis revealed a significant correlation between repeats expression, mechanical stress and bone mineral density. We investigated a potential link between LINE-1 (L1) expression and bone mineralization by delivering a synthetic L1 RNA to osteoporotic patient-derived mesenchymal stem cells and observed a dsRNA-triggered protein kinase (PKR)-mediated stress response that led to strongly increased mineralization. This response was associated with a strong and transient inflammation, accompanied by a global translation attenuation induced by eIF2α phosphorylation. We demonstrated that L1 transfection reshaped the secretory profile of osteoblasts, triggering a paracrine activity that stimulated the mineralization of recipient cells.
PubMed: 38951609
DOI: 10.1038/s44318-024-00143-z