Diverse Scope Research Articles

Interrogation of Enantioselectivity in the Photomediated Ring Contractions of Saturated Heterocycles.

We recently reported a chiral phosphoric acid (CPA) catalyzed enantioselective photomediated ring contraction of piperidines and other saturated heterocycles. By extruding a single heteroatom from a ring, this transformation builds desirable C(sp3)-C(sp3) bonds in the ring contracted products; however, the origins of enantioselectivity remain poorly understood. In this work, enantioselectivity of the ring contraction has been explored across an expanded structurally diverse substrate scope, revealing a wide range of enantioselectivities (0-99%) using two distinct CPA catalysts. Mechanistic investigations support rate-determining excitation that generates short-lived achiral intermediates that are intercepted by the CPA in an enantiodetermining ring closure. The effects of competitive uncatalyzed reactivity and light-driven reversibility of the enantiodetermining ring closure on enantioselectivity have been elucidated. Statistical models were built by regressing the range of enantioselectivities from the substrate scope against key structural features of the products for both CPA catalysts. The resultant models suggested distinct factors that influence the enantioselectivity response for each catalyst and enabled rational modification of a pharmaceutically relevant target molecule to improve enantioselectivity. Finally, density functional theory (DFT)-based transition state analysis identified distinct noncovalent interactions with each catalyst that correlated with the unique selectivity-relevant features uncovered through statistical modeling. Our findings not only offer comprehensive insight into the origins of enantioselectivity in this system but should also aid future development of related photomediated CPA-catalyzed reactions.

Prunus Movement Across the Silk Road: An Integrated Evolutionary and Breeding Analysis

In the past, the Silk Road was a vital trade route that spanned Eurasia, connecting East Asia to the Mediterranean Sea. The genus Prunus, belonging to the Rosaceae family and encompassing plums, peaches, apricots, cherries, and almonds, thrived as human travel along the Silk Road increased. The majority of fruits within this genus, whether wild or cultivated, are naturally sweet and easily preserved by drying for storage and transport. The interaction along the Silk Road between wild populations and diverse varieties of Prunus fruits led to the development of various hybrids. This article provides a summary of archaeological findings related to prominent Prunus fruits such as peaches, apricots, plums, cherries, and almonds, shedding light on their evolutionary history, genetic diversity, population structure, and historical dynamics crucial for species conservation. The origins of biodiversity may involve factors like migration of pre-adapted lineages, in situ variation, or the persistence of ancestral lineages. Furthermore, climate change is affecting spatial genetic patterns and potentially further threatening rare Prunus species. Evaluating the scope and composition of genetic diversity within germplasm collections is essential for enhancing plant breeding initiatives and preserving genetic resources in this changing context. From a molecular point of view, techniques such as genome-wide association studies (GWASs) and the identification of quantitative trait loci (QTLs) and genes responsible for phenotypic changes in cultivars and germplasm collections should be of great interest in these breeding programs, while genomic estimated breeding values (GEBVs) derived from genome-wide DNA polymorphism information can facilitate the selection of superior genotypes.

FON: An Innovative Fluorinated Group via Hydroetherification-Type Reactivity.

An efficient strategy for preparing the novel O-difluoroalkylhydroxylamine fluorinated functional group, coined FON, is reported. This analogue of medicinally important β-phenethyl ether scaffolds in uniting gem-difluoro and N-O moieties is synthesized in one step via chemo- and regioselectivity metal-free hydroetherification-type additions. As shown, this unique mode of reactivity is realized for a diverse substrate scope and applied to gram-scale synthesis and site-selective deuterium incorporation. Lastly, a mechanistic understanding with implications in Brønsted acid catalysis is offered.

Abstract IA011: Strategies to close the translational gap for nanoscale drug delivery systems

Abstract Nanoscale drug delivery systems have enormous potential to leverage innovative chemistry and encapsulate a wide range of cargo. However, compared to the large number and diverse scope of nanoscale systems described in preclinical manuscripts, there are relatively few approved drug products representing a narrow range of chemistries. There are many reasons for this translational gap, ranging from manufacturing and regulatory challenges to clinical relevance and safety. This presentation outlines key strategies to address the multifaceted challenges that hinder the clinical adoption of nanoscale drug delivery systems. One of the first barriers is the difficulty of scaling up the production of nanoscale systems while maintaining quality and consistency. An illustrative case study will be shared of an approved nanotherapeutic becoming unavailable due to manufacturing concerns, and the resultant change in clinical practice. For a new investigational agent, the work required to optimize a promising nanoformulation is time-consuming and may not result in immediate, publishable findings, creating tension between essential translational work and projects more likely to yield high-profile publications and contribute to academic promotion. In the industry setting, successfully navigating this hurdle is likely to require significant capital, again without a guarantee of success. Without a stable and robust formulation that can be scaled for good manufacturing practice, the benefits of an innovative formulation cannot be fully realized. Another key principle underlying successful translation is identifying a clear clinical indication, which will guide clinical trial design and improve the likelihood of regulatory approval. Recent data suggest that national research funding trends heavily influence the focus of nanotechnology studies, resulting in a misalignment between clinical needs and the investigational agents being developed. In the future, a funding re-alignment may open additional opportunities for basket trials in patient populations lacking a standard of care, or in diseases where the current treatment options are highly toxic. Expanding the clinical indications for nanotherapeutics will likely require academic-industry partnerships to bring together a robust drug product and a strong clinical rationale. The regulatory process for nanoscale therapeutics is evolving, making early communication between investigators and regulators crucial for successfully transitioning nanoscale drug delivery systems from the lab to clinical use for cancer patients. Citation Format: Joelle P. Straehla. Strategies to close the translational gap for nanoscale drug delivery systems [abstract]. In: Proceedings of the AACR Special Conference in Cancer Research: Optimizing Therapeutic Efficacy and Tolerability through Cancer Chemistry; 2024 Dec 9-11; Toronto, Ontario, Canada. Philadelphia (PA): AACR; Mol Cancer Ther 2024;23(12_Suppl):Abstract nr IA011.

KOtBu-Promoted [4+2] Annulation-Dehydration Cascade Enabling the Construction of Diverse 2-Pyridone-Fused Uracils.

A KOtBu-promoted [4+2] annulation-dehydration cascade reaction has been developed, enabling the efficient synthesis of diverse 2-pyridone-fused uracils through a vinylogous enolization strategy involving o-quinodimethane (oQDM) dienolate intermediates. This method provides a simple yet robust approach for constructing structurally interesting fused N-heterocycles that incorporate two privileged scaffolds, both of which are widely recognized in drug discovery. Consequently, these compounds hold significant potential for biological and pharmacological applications. Moreover, further transformations of the products obtained from this process allow access to highly functionalized and structurally diverse uracil derivatives, expanding the scope of accessible chemical diversity.

Corporate innovation and performance: a textual measure based on securities analysts’ research reports

ABSTRACT The relationship between innovation investment and firm performance has been a central focus of academic research. Traditional metrics, such as patent counts and R&D expenditures, are often criticised for their limited scope and lack of diversity. In contrast, analyst reports offer a richer source of information on innovation activities. This study employs textual analysis to assess firms’ innovation efforts by examining research reports on publicly listed companies. Using methods such as word segmentation, the research constructs corporate innovation indicators based on the LDA (Latent Dirichlet Allocation) topic model. Analyzing data from 2010 to 2021, the study empirically validates these new innovation indicators and investigates their impact on firm performance. The findings indicate that corporate innovation significantly enhances firm performance. Compared to traditional metrics like patents, the indicators developed here are more comprehensive, offering a broader measure of innovation and addressing the limitations of conventional metrics. These results are consistent across various robustness checks. Additionally, the study finds that corporate innovation improves performance primarily by increasing total factor productivity. Furthermore, strong corporate governance amplifies the positive impact of innovation on firm performance.

Novel isolates expand the physiological diversity of Prochlorococcus and illuminate its macroevolution.

Prochlorococcus is a diverse picocyanobacterial genus and the most abundant phototroph on Earth. Its photosynthetic diversity divides it into high-light (HL)- or low-light (LL)-adapted groups representing broad phylogenetic grades-each composed of several monophyletic clades. Here, we physiologically characterize four new Prochlorococcus strains isolated from below the deep chlorophyll maximum in the North Pacific Ocean. We combine these physiological properties with genomic analyses to explore the evolution of photosynthetic antennae and discuss potential macroevolutionary implications. The isolates belong to deeply branching low-light-adapted clades that have no other cultivated representatives and display some unusual characteristics. For example, despite its otherwise low-light-adapted physiological characteristics, strain MIT1223 has low chl b2 content similar to high-light-adapted strains. Isolate genomes revealed that each strain contains a unique arsenal of pigment biosynthesis and binding alleles that have been horizontally acquired, contributing to the observed physiological diversity. Comparative genomic analysis of all picocyanobacteria reveals that Pcb, the major pigment carrying protein in Prochlorococcus, greatly increased in copy number and diversity per genome along a branch that coincides with the loss of facultative particle attachment. Collectively, these observations support a recently developed macroevolutionary model, in which niche-constructing radiations allowed ancestral lineages of picocyanobacteria to transition from a particle-attached to planktonic lifestyle and broadly colonize the euphotic zone.IMPORTANCEThe marine cyanobacterium, Prochlorococcus, is among the Earth's most abundant organisms, and much of its genetic and physiological diversity remains uncharacterized. Although field studies help reveal the scope of diversity, cultured isolates allow us to link genomic potential to physiological processes, illuminate eco-evolutionary feedbacks, and test theories arising from comparative genomics of wild cells. Here, we report the isolation and characterization of novel low-light (LL)-adapted Prochlorococcus strains that fill in multiple evolutionary gaps. These new strains are the first cultivated representatives of the LLVII and LLVIII paraphyletic grades of Prochlorococcus, which are broadly distributed in the lower regions of the ocean euphotic zone. Each of these grades is a unique, highly diverse section of the Prochlorococcus tree that separates distinct ecological groups: the LLVII grade branches between monophyletic clades that have facultatively particle-associated and constitutively planktonic lifestyles, whereas the LLVIII grade lies along the branch that leads to all high-light (HL)-adapted clades. Characterizing strains and genomes from these grades yields insights into the large-scale evolution of Prochlorococcus. The new LLVII and LLVIII strains are adapted to growth at very low irradiance levels and possess unique light-harvesting gene signatures and pigmentation. The LLVII strains represent the most basal Prochlorococcus group with a major expansion in photosynthetic antenna genes. Furthermore, a strain from the LLVIII grade challenges the paradigm that all LL-adapted Prochlorococcus exhibit high ratios of chl b:a2. These findings provide insights into the photophysiological evolution of Prochlorococcus and redefine what it means to be a low- vs high-light-adapted Prochlorococcus cell.

Photocatalytic Tricyclization of Enediynes for the Synthesis of Chromenoquinolines in Continuous Flow.

A photocatalyzed radical-initiated tricyclization of enediynes was developed to synthesize a range of hitherto unknown sulfonated chromenoquinolines with moderate to excellent yields under continuous operational conditions. The reaction mechanism involves a complex series of steps including alkyl radical capture by sulfur dioxide (SO2), radical addition, 6-exo-dig/6-exo-dig/6-endo-trig tricyclization, and single electron transfer (SET). This cascade of reactions results in the direct formation of a pentacyclic framework structure, along with the creation of up to three new rings and five chemical bonds in a single step. This photocatalytic protocol exhibits a diverse substrate scope, remarkable tolerance to functional groups, and scalable adaptability.

Demographics and scope of Australian emergency department physiotherapists

QuestionsTo provide workforce data on the status of Australian Emergency Department (ED) physiotherapy practice, including physiotherapist demographic data, staffing levels and funding sources. Evaluate the scope of practice currently undertaken by ED physiotherapists and alignment of ED physiotherapy service provision with demand levels.DesignCross sectional survey.ParticipantsAustralian physiotherapists working within an Australian ED.Outcome measuresWorkforce data, scope of practice and alignment of physiotherapy service provision to ED presentations and demand.Results94 Australian ED physiotherapists completed the survey, 76.9% were working as primary contact clinicians. They had a diverse scope of practice, 100% perform mobility assessments, 89.9% provide care for paediatric patients and 10.1% were involved in administration of medications. 86.2% of participants (75/87) reported working within a service model that provided seven-day per week physiotherapy coverage to ED.ConclusionThe sample of ED physiotherapists were found to be experienced and highly trained clinicians with a diverse scope of practice, who are well placed to meet the unpredictable and highly variable patient caseload of Australian EDs.

Using Extensive Core‐Reflected Phases to Constrain Sharp Inner Core Boundary Beneath East Asia

AbstractThe physical properties of the Earth's inner core boundary (ICB) are crucial for understanding inner core growth and geodynamo generation. In this study, we analyze the differential travel time residuals (DTTRs) and waveform similarities of the core‐reflected phases (PKiKP and PcP) to investigate fine‐scale seismic structures of the ICB. To study the ICB beneath East Asia, we collect a total of 4,272 PKiKP and PcP phase pairs from 37 earthquakes occurring from January 2009 to December 2018 recorded by permanent stations in the Chinese Digital Seismic Network (CDSN). This extensive PKiKP dataset allows for a geographically continuous depiction of the ICB beneath East Asia, revealing a diverse scope on its topography and sharpness. There are three main findings in our study. First, we collect a comprehensive PKiKP and PcP dataset with extensive ray coverage across East Asia. Numerous weak precritical PKiKP signals are detected, enabling robust constraints on the ICB across wide regions. Second, the PKiKP‐PcP DTTRs exhibit an average offset of −0.25 s (ranging from −1.5 to 1.0 s) relative to the PREM model, suggesting the outer core is approximately 1.3 km thinner than predicted by the PREM model, although it remains largely consistent with it. Third, the bin‐stacked PKiKP and PcP waveforms show high similarity across most sampled areas, indicating that the ICB thickness is no more than 2 km mostly beneath East Asia, which aligns with the hypothesis of a rapid transition from the solid inner core to the liquid outer core in our study region.

Evaluating ExpandED: Evaluating the effectiveness of a serious game expansion pack in teaching health professional students about interprofessional care.

The emergency department (ED) is a challenging fast-paced environment with high-acuity, undifferentiated patients who often require extensive interdisciplinary care. This paper introduces ExpandED, an expansion pack to the serious board game GridlockED, designed to enhance players' understanding of interprofessional collaboration in the ED and the diverse scope of practice of different ED professionals including physicians, residents, registered nurses, registered practical nurses, social workers, occupational therapists, and physiotherapists. This investigation evaluates the effectiveness of ExpandED as a teaching tool for medical and allied health professions students about interprofessional collaboration in the ED. A program evaluation harnessing a playtest framework was employed. Participants completed pre- and postgame surveys including quantitative measures (e.g., Likert scales) and qualitative free-text feedback that focused on participant familiarity with ED functioning, valuation of interprofessional collaboration before and after playing, and feedback on game usability and effectiveness. Recruitment was open to students in all health care and allied health professional programs at the institution. Forty-five participants were recruited from medical doctor, nursing, physiotherapy, and speech language pathology programs. ExpandED enhances participants' understanding of ED workflow (p < 0.001) and provides an enjoyable playing experience. However, participants' valuation of interdisciplinary teamwork did not change significantly before and after game play (p = 0.17). Participants expressed satisfaction with the game's accuracy in simulating the ED environment and appreciated the opportunity to collaborate with peers from different disciplines. Challenges reported included some tension among players, potential biases, and limitations of fidelity to a real-life ED. While this study has limitations regarding participant sampling and duration of gameplay sessions, it highlights the potential of ExpandED for teaching interprofessional collaboration in the ED. These findings will guide further development to optimize the expansion pack's effectiveness and its implementation into health care curricula.

Synthesis of Highly Substituted Oxaboroles from Oxaboranes via a Selective Petasis Borono-Mannich Reaction.

We present a novel and efficient method for the synthesis of highly substituted non-benzofused oxaboroles. Reactions of oxaboranes, morpholine, and salicylaldehyde in toluene heated to 85 °C for 4 h produce the corresponding oxaborole products in yields up to 93%. The process is effective across a diverse substrate scope and can be scaled to produce gram quantities of densely functionalized oxaboroles in excellent yield. Exclusive aryl transfer over vinyl transfer is observed. Computational insights further elucidate the inherent selectivity of this process.

Akulturasi Budaya Masyarakat Etnis India-Minang di Kampung Pondok Kota Padang

This study discusses pluralism in the scope of cultural diversity in the Pondok village of Padang city. This study aims, first, to explain the efforts of the Indian ethnic community to be accepted in the environment, and second, to describe the Geniun culture of the Indian ethnic group that is accepted by the local culture. This study uses a qualitative descriptive research method that focuses on the data that is described until it becomes complete data in completing this study. The results of this study found that the original culture brought from India can be well accepted by the local community, this can be seen from the involvement of people outside the Indian ethnic group in the celebration procession called the Serak Gulo event.

Mononuclear Aluminum Complexes as Precursors for Cyanosilylation of Carbonyl Compounds

AbstractThe synthesis, structural characterization, and catalytic application of two novel aluminum complexes, [κ3ENSe−{Ph2P(E)N−C6H4−SePh}AlMe2] [E=S (1) and Se (2)] supported by new pincer‐type phenylselenium‐phosphanamidinate chalcogenide ligands are described. The molecular structures of both complexes in their solid states reveal a distorted trigonal bipyramidal geometry around the Al(III) ion, involving monoanionic ligand {Ph2P(E)N−C6H4−SePh}− bonded to the AlMe2‐motif in a tridentate manner. Complex 1 was found to be an effective pre‐catalyst for the cyanosilyation of aldehydes and ketones with TMSCN under solvent‐free conditions. The reaction protocol is simple, efficient, and has a diverse substrate scope of aldehydes and ketones, showing superior functional group tolerance. The kinetic study revealed that ketone reduction proceeded with first‐order dependence on ketone concentrations, TMSCN, and catalyst 1.

Natural convective Cu-water nanofluid flow in isosceles triangular cavity with forced free stream cooled sides and localized heated base

The present paper aims to conduct a numerical investigation of the natural convective flow of Cu-water nanofluid in an isosceles triangular-shaped cavity, where an air stream cools the lateral walls while its base is subjected to discrete heating. The governing equations are numerically solved using the finite volume method (FVM) employing ANSYS FLUENT. The results are presented with diverse scopes of pertinent parameters, including non-dimensional heater length (L/H = 0.25, 0.5, and 1), Rayleigh Number (Ra = 104, 105, and 106), nanoparticles volume fraction (φ = 0, 0.03, 0.06 and 0.09), and free stream Reynolds number (Re∞ = 102, 103, 104 and 105). The impact of each of these parameters is depicted on the isotherms (θ) lines, stream function (ψ) contours, and the average Nusselt number (Nuavg) plots on the heated lower wall. The findings showed the subsequent enlargements in Nuavg with an increase in Ra by 515 %, L/H by 130 %, Re∞ by 43 %, and φ by 137 %, indicating an enhancement in the heat transfer rate with these parameters. Besides, extra secondary eddies will be generated inside the cavity when Ra becomes more extensive, while the flow configuration is not influenced by the enlargement of φ, Re∞, and L/H. The present model findings have been compared with other work from the literature and showed an acceptable agreement with a maximum error of less than 1 %.

De Novo Synthesis of α-Ketoamides via Pd/TBD Synergistic Catalysis.

Precisely controlling the product selectivity of a reaction is an important objective in organic synthesis. α-Ketoamides are vital intermediates in chemical transformations and privileged motifs in numerous drugs, natural products, and biologically active molecules. The selective synthesis of α-ketoamides from feedstock chemicals in a safe and operationally simple manner under mild conditions is a long-standing catalysis challenge. Herein, an unprecedented TBD-switched Pd-catalyzed double isocyanide insertion reaction for assembling ketoamides in aqueous DMSO from (hetero)aryl halides and pseudohalides under mild conditions is reported. The effectiveness and utility of this protocol are demonstrated by its diverse substrate scope (93 examples), the ability to late-stage modify pharmaceuticals, scalability to large-scale synthesis, and the synthesis of pharmaceutically active molecules. Mechanistic studies indicate that TBD is a key ligand that modulates the Pd-catalyzed double isocyanide insertion process, thereby selectively providing the desired α-ketoamides in a unique manner. In addition, the imidoylpalladium(II) complex and α-ketoimine amide are successfully isolated and determined by X-ray analysis, confirming that they are probable intermediates in the catalytic pathway.

Trichinella: Becoming a parasite

Phylogenetic evidence indicates that free-living nematodes gave rise to parasitic nematodes where parasitism evolved independently at least 15 times. The high level of genetic and biological diversity among parasites dictates an equally high level of diversity in the transition to parasitism. We previously hypothesized that horizontal gene transfer (HGT) played an important role in the evolution of parasitism among early ancestors of Trichinella, mediated by an interplay of ecological and evolutionary pathways that contributed to persistence and diversification. We propose that host selection may have been associated with the metabolism of ammonia and engender a new paradigm whereby the reprogrammed nurse cell is capable of generating cyanate thereby enabling the importance of the Trichinella cyanase in the longevity of the cell. Parasites and parasitism have revealed considerable resilience against a backdrop of climate change and environmental perturbation. Here we provide a putative link between key periods in the evolution of Trichinella and major geological and climatological events dating back 500 million years. A useful lens for exploring such ideas, the Stockholm Paradigm, integrates Ecological Fitting (a foundation for host colonization and diversification), the Oscillation Hypothesis (recurring shifts between trends in generalization and specialization relative to host range), the Geographic Mosaic Theory of Coevolution (microevolutionary co-adaptive processes), and the Taxon Pulse Hypothesis (alternating events of biotic expansion i.e., exploitation in evolutionary and ecological time). Here we examine how one or more of these interactive theories, in a phylogenetic-historical context and in conjunction with HGT, may help explain the scope and depth of diversity among Trichinella genotypes.

Direct Organocatalytic Chemoselective Synthesis of Pharmaceutically Active 1,2,3-Triazoles and 4,5'-Bitriazoles.

Carbonyl-containing 1,4,5-trisubstituted- and 1,4-disubstituted-1,2,3-triazoles are well-known for their wide range of applications in pharmaceutical and medicinal chemistry, but their high-yielding metal-free synthesis has always remained challenging, as no comprehensive protocol has been outlined to date. Owing to their structural and medicinal importance, herein, we synthesized various carbonyl-containing 1,4,5-trisubstituted- and 1,4-disubstituted-1,2,3-triazoles and unsymmetrical 4,5'-bitriazoles with high yields and chemo-/regioselectivity from the library of 2,4-diketoesters and azides in a sequential one-pot manner through the combination of organocatalytic enolization, in situ [3 + 2]-cycloaddition, and hydrolysis reactions. The commercial availability of the starting materials/catalysts, diverse substrate scope, performance in a one-pot manner, chemo-/regioselectivity of organo-click reaction, quick synthesis of unsymmetrical 4,5'-bitriazoles, a large number of synthetic applications, and numerous medicinal applications of carbonyl-containing 1,2,3-triazoles are the key attractions of this metal-free organo-click work.

β-Triketones as Reactive Handles for Polymer Diversification via Dynamic Catalyst-Free Diketoenamine Click Chemistry.

The spontaneous condensation of amines with β-triketones (TK), forming β,β'-diketoenamines (DKE) and releasing water as the sole byproduct, exhibits many of the hallmarks of "click" reactions. Such characteristics render TKs as a highly advantageous platform for efficient polymer diversification, even in biological contexts. Leveraging reversible addition-fragmentation chain transfer (RAFT) and photoiniferter polymerization of novel TK-containing vinylic monomers, we synthesized polymers containing pendent TKs with excellent control of molecular weights, even in excess of 106 g mol-1. Under mild, catalyst-free conditions, poly(β-triketone methacrylate) could be modified with a diverse scope of amines containing a plethora of functional groups. The high efficiency of this functionalization approach was further emphasized when grafting-to with poly(ethylene glycol)-amine resulting in bottlebrushes with molecular weights reaching 2.0 × 107 g mol-1. Critically, while the formed DKE linkages are stable under ambient conditions, they undergo catalyst-free, dynamic transamination at elevated temperatures, paving the way for associative covalent adaptable networks. Overall, we introduce pendent triketone moieties into methacrylate and acrylamide polymers, establishing a novel postpolymerization modification technique that facilitates catalyst-free ligation of amines under highly permissible conditions.

Exploration of the mechanism of Traditional Chinese Medicine for anxiety and depression in patients with diarrheal irritable bowel syndrome based on network pharmacology and meta-analysis.

The efficacy of Chinese herbal medicine (CHM) in managing irritable bowel syndrome with diarrhea (IBS-D) accompanied by anxiety and depression remains uncertain. Thus, a systematic review was carried out employing meta-analysis and network pharmacology to ascertain the efficacy and underlying mechanisms of CHM therapy. By conducting a systematic review, including literature search, screening, and data extraction, we identified 25 randomized controlled trials to assess CHM's effectiveness in treating irritable bowel syndrome alongside anxiety and depression. Network pharmacology was utilized to scrutinize the metabolite utility of CHM in addressing this condition. Potential primary mechanisms were synthesized using information sourced from the PubMed database. Twenty-five studies, including 2055 patients, were analyzed, revealing significant treatment efficacy for IBS-D in the trial group compared to controls [OR = 4.01, 95% CI (2.99, 5.36), I2 = 0%] Additionally, treatment for depression [SMD = -1.08, 95% CI (-1.30, -0.86), p < 0.00001, I2 = 68%; SDS: SMD = -1.69, 95% CI (-2.48, -0.90), p < 0.0001, I2 = 96%] and anxiety [HAMA: SMD = -1.29, 95% CI (-1.68, -0.91), p < 0.00001, I2 = 89%; SAS: SMD = -1.75, 95% CI (-2.55, -0.95), p < 0.00001, I2 = 96%] significantly improved in the trial group. Furthermore, the trial group exhibited a significantly lower disease relapse rate [OR = 0.30, 95% CI (0.20, 0.44), p < 0.00001, I2 = 0%]. CHM treatment consistently improved IBS severity (IBS-SSS) and symptom scores. Network pharmacology analysis identified key chemical metabolites in traditional Chinese medicine formulations, including Beta-sitosterol, Stigmasterol, Quercetin, Naringenin, Luteolin, Kaempferol, Nobiletin, Wogonin, Formononetin, and Isorhamnetin. Utilizing the STRING database and Cytoscape v3.9.0 software, a protein-protein interaction (PPI) network revealed the top eight key targets: IL-6, TNF, PPARG, PTGS2, ESR1, NOS3, MAPK8, and AKT1, implicated in anti-inflammatory responses, antioxidant stress modulation, and neurotransmitter homeostasis maintenance. Chinese Herbal Medicine (CHM) offers a promising and safe treatment approach for patients dealing with Diarrheal Irritable Bowel Syndrome (IBS-D) accompanied by anxiety and depression; thus, indicating its potential for practical implementation. The most active metabolites of CHM could simultaneously act on the pathological targets of IBS-D, anxiety, and depression.The diverse scope of CHM's therapeutic role includes various aspects and objectives, underscoring its potential for broad utilization.