Previous
Background:
This study aims to assess oral alpha lipoic acid’s (ALA’s) safety and effectiveness in managing diabetic neuropathy.
Methods:
A thorough search of the literature was conducted using PubMed, Google Scholar, and Embase databases, and the study was performed as per Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines.
Results:
Based on inclusion and exclusion criteria, nine randomized controlled trials (RCTs) comprising 1,345 subjects were selected. The results showed that ALA has shown significant reduction in glycated hemoglobin (HbA1C) [inverse variance (IV): –0.66, (–0.81 → –0.51) at 95% CI, p < 0.00001, I2 = 92%], neuropathy impairment score (NIS) [IV: –1.19, (–2.28 → –0.09) at 95% CI, p = 0.03, I2 = 58%], along with improving the neuropathy symptoms and change (NSC) number [IV: –0.18, (–0.35 → –0.01) at 95% CI, p = 0.04, I2 = 0%], NSC severity score [IV: –0.65, (–0.83 → –0.48) at 95% CI, p < 0.00001, I2 = 89%], total severity score (TSS) [IV: –0.43, (–0.59 → –0.27) at 95% CI, p < 0.00001, I2 = 98%], neurological disability score (NDS) [IV: –0.72, (–1.03 → –0.40) at 95% CI, p < 0.00001, I2 = 98%], vibration perception threshold (VPT) [IV: –0.35, (–0.50 → –0.19) at 95% CI, p < 0.0001, I2 = 96%] and global satisfaction [Mantel-Haenszel (M-H) odds ratio (OR): 3.51, (1.06 → 11.61) at 95% CI, p = 0.04, I2 = 72%] when compared to the control or placebo group. However, ALA has not shown significant changes in motor nerve conduction velocity (MNCV) score [IV: 0.26, (–0.44 → 0.96) at 95% CI, p = 0.47, I2 = 49%] and NIS-low limb (NIS-LL) [IV: –0.58, (–1.35 → 0.19) at 95% CI, p = 0.14, I2 = 0%] when compared to the placebo group.
Discussion:
Based on the available moderate to high-quality evidence, we can conclude that oral administration of ALA at doses of 600–1,800 mg may be beneficial in improving/alleviating the symptoms resulting from diabetic neuropathy.
Background:
This study aims to assess oral alpha lipoic acid’s (ALA’s) safety and effectiveness in managing diabetic neuropathy.
Methods:
A thorough search of the literature was conducted using PubMed, Google Scholar, and Embase databases, and the study was performed as per Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines.
Results:
Based on inclusion and exclusion criteria, nine randomized controlled trials (RCTs) comprising 1,345 subjects were selected. The results showed that ALA has shown significant reduction in glycated hemoglobin (HbA1C) [inverse variance (IV): –0.66, (–0.81 → –0.51) at 95% CI, p < 0.00001, I2 = 92%], neuropathy impairment score (NIS) [IV: –1.19, (–2.28 → –0.09) at 95% CI, p = 0.03, I2 = 58%], along with improving the neuropathy symptoms and change (NSC) number [IV: –0.18, (–0.35 → –0.01) at 95% CI, p = 0.04, I2 = 0%], NSC severity score [IV: –0.65, (–0.83 → –0.48) at 95% CI, p < 0.00001, I2 = 89%], total severity score (TSS) [IV: –0.43, (–0.59 → –0.27) at 95% CI, p < 0.00001, I2 = 98%], neurological disability score (NDS) [IV: –0.72, (–1.03 → –0.40) at 95% CI, p < 0.00001, I2 = 98%], vibration perception threshold (VPT) [IV: –0.35, (–0.50 → –0.19) at 95% CI, p < 0.0001, I2 = 96%] and global satisfaction [Mantel-Haenszel (M-H) odds ratio (OR): 3.51, (1.06 → 11.61) at 95% CI, p = 0.04, I2 = 72%] when compared to the control or placebo group. However, ALA has not shown significant changes in motor nerve conduction velocity (MNCV) score [IV: 0.26, (–0.44 → 0.96) at 95% CI, p = 0.47, I2 = 49%] and NIS-low limb (NIS-LL) [IV: –0.58, (–1.35 → 0.19) at 95% CI, p = 0.14, I2 = 0%] when compared to the placebo group.
Discussion:
Based on the available moderate to high-quality evidence, we can conclude that oral administration of ALA at doses of 600–1,800 mg may be beneficial in improving/alleviating the symptoms resulting from diabetic neuropathy.
DOI: https://doi.org/10.37349/ent.2025.1004125
This article belongs to the special issue Natural Products in Neurotherapeutic Applications
The glymphatic system (GS) consists of a paravascular fluid-exchange network that regulates cerebrospinal and interstitial fluid dynamics, clears metabolic waste, and modulates neuroinflammation. Aquaporin-4 (AQP-4), expressed in astrocytic end-feet, is central to GS function and blood-brain barrier integrity, but in cerebral ischemia (CI), GS disruption and AQP-4 mislocalization drive cytotoxic edema, inflammation, and vascular dysfunction, worsening outcomes. This review aimed to examine the role of the GS in CI, focusing on pathophysiology and potential therapeutic targets. A PubMed-based literature review was conducted, selecting 51 studies from 115 screened that addressed GS, AQP-4, and ischemic stroke. Evidence suggests that modulating GS flow, through strategies such as enhancing arterial pulsations or regulating AQP-4, may reduce edema and neuroinflammation, although selectively targeting AQP-4 without impairing waste clearance remains a key challenge. The GS represents a promising therapeutic target in ischemic stroke, and a deeper understanding of its physiology may guide the development of neuroprotective interventions; future research should refine pharmacological strategies to optimize glymphatic function and improve recovery in CI patients.
The glymphatic system (GS) consists of a paravascular fluid-exchange network that regulates cerebrospinal and interstitial fluid dynamics, clears metabolic waste, and modulates neuroinflammation. Aquaporin-4 (AQP-4), expressed in astrocytic end-feet, is central to GS function and blood-brain barrier integrity, but in cerebral ischemia (CI), GS disruption and AQP-4 mislocalization drive cytotoxic edema, inflammation, and vascular dysfunction, worsening outcomes. This review aimed to examine the role of the GS in CI, focusing on pathophysiology and potential therapeutic targets. A PubMed-based literature review was conducted, selecting 51 studies from 115 screened that addressed GS, AQP-4, and ischemic stroke. Evidence suggests that modulating GS flow, through strategies such as enhancing arterial pulsations or regulating AQP-4, may reduce edema and neuroinflammation, although selectively targeting AQP-4 without impairing waste clearance remains a key challenge. The GS represents a promising therapeutic target in ischemic stroke, and a deeper understanding of its physiology may guide the development of neuroprotective interventions; future research should refine pharmacological strategies to optimize glymphatic function and improve recovery in CI patients.
DOI: https://doi.org/10.37349/ent.2025.1004123
This article belongs to the special issue Therapeutic Targets for Neuroprotection in Ischemic Stroke
The increasing prevalence of neurodegenerative diseases (NDs), such as Alzheimer’s, Parkinson’s, Huntington’s, multiple sclerosis, and amyotrophic lateral sclerosis, represents a serious global public health issue. Consequently, the search for compounds with neuroprotective potential has intensified. In this context, resveratrol (RSV), a stilbene polyphenol found mainly in red grapes, exhibits important pharmacological properties, such as antioxidant and anti-inflammatory, and has been widely investigated in neuroscience due to its potential in the prevention and treatment of NDs. This narrative review was conducted using the PubMed® database, with the keywords “resveratrol”, “molecular mechanisms”, “mechanisms of action”, “neuroinflammation”, “oxidative stress”, “autophagy”, “gene regulation”, and “clinical studies”. This study discusses the molecular mechanisms of RSV on NDs, focusing on signaling pathways involved in neuroinflammation, oxidative stress, gene regulation, autophagy, and cell death. Intracellular pathways such as NF-κB, JAK/STAT, MAPK/ERK, PI3K/Akt, and Nrf2/Keap1 are associated with immune modulation mediated by RSV, leading to a decrease in oxidative stress, induction of autophagy, and inhibition of apoptosis. RSV has pharmacokinetic limitations, such as low bioavailability and stability, although RSV can cross the blood-brain barrier. Thus, researches involving nonencapsulated formulations aim to enhance their delivery to the central nervous system. Current in vitro and in vivo studies are promising, although further clinical trials are needed, as few have been conducted and available data remain preliminary. In conclusion, RSV presents multiple benefits to neurological health and shows therapeutic potential in NDs; however, additional clinical studies and translational research are essential to validate and optimize its application.
The increasing prevalence of neurodegenerative diseases (NDs), such as Alzheimer’s, Parkinson’s, Huntington’s, multiple sclerosis, and amyotrophic lateral sclerosis, represents a serious global public health issue. Consequently, the search for compounds with neuroprotective potential has intensified. In this context, resveratrol (RSV), a stilbene polyphenol found mainly in red grapes, exhibits important pharmacological properties, such as antioxidant and anti-inflammatory, and has been widely investigated in neuroscience due to its potential in the prevention and treatment of NDs. This narrative review was conducted using the PubMed® database, with the keywords “resveratrol”, “molecular mechanisms”, “mechanisms of action”, “neuroinflammation”, “oxidative stress”, “autophagy”, “gene regulation”, and “clinical studies”. This study discusses the molecular mechanisms of RSV on NDs, focusing on signaling pathways involved in neuroinflammation, oxidative stress, gene regulation, autophagy, and cell death. Intracellular pathways such as NF-κB, JAK/STAT, MAPK/ERK, PI3K/Akt, and Nrf2/Keap1 are associated with immune modulation mediated by RSV, leading to a decrease in oxidative stress, induction of autophagy, and inhibition of apoptosis. RSV has pharmacokinetic limitations, such as low bioavailability and stability, although RSV can cross the blood-brain barrier. Thus, researches involving nonencapsulated formulations aim to enhance their delivery to the central nervous system. Current in vitro and in vivo studies are promising, although further clinical trials are needed, as few have been conducted and available data remain preliminary. In conclusion, RSV presents multiple benefits to neurological health and shows therapeutic potential in NDs; however, additional clinical studies and translational research are essential to validate and optimize its application.
DOI: https://doi.org/10.37349/ent.2025.1004124
This article belongs to the special issue Neuro-Inflammation as a Target in the Design of Multifunctional Drug Candidates for Neurodegenerative Diseases
Aim:
Systemic inflammation is a key factor in cognitive decline and neurodegenerative diseases. Polyphenols, such as curcumin, resveratrol, and salidroside, exhibit neuroprotective effects, but their low bioavailability raises questions about their mechanism of action. The gut-brain axis, mediated by microbiome modulation, may play a critical role in their cognitive benefits. This study investigated whether polyphenols (curcumin, resveratrol, and salidroside) improve cognitive function in mice with lipopolysaccharide (LPS)-induced gut inflammation by modulating the gut microbiome and reducing neuroinflammation.
Methods:
C57BL/6 mice were divided into five groups: control, LPS, and LPS + polyphenol treatments (curcumin, resveratrol, or salidroside). LPS was administered intraperitoneally to induce inflammation, while polyphenols were given orally for three weeks. Cognitive performance was assessed using the Morris water maze. Gut microbiome composition (16S rRNA sequencing), mitochondrial DNA (mtDNA) damage, and gene expression in brain regions were analyzed.
Results:
LPS impaired spatial memory, but resveratrol and salidroside significantly mitigated these deficits. Polyphenols restored beneficial bacteria (e.g., Alloprevotella, Eubacterium) and suppressed pathogenic taxa (e.g., Peptostreptococcales). They also reduced pro-inflammatory markers in the cortex and hippocampus. Curcumin showed weaker effects. No significant mtDNA damage was detected.
Conclusions:
Polyphenols, particularly resveratrol and salidroside, improve cognition during systemic inflammation by remodeling the gut microbiome and attenuating neuroinflammation. These findings highlight the gut-brain axis as a therapeutic target for inflammation-driven cognitive disorders.
Aim:
Systemic inflammation is a key factor in cognitive decline and neurodegenerative diseases. Polyphenols, such as curcumin, resveratrol, and salidroside, exhibit neuroprotective effects, but their low bioavailability raises questions about their mechanism of action. The gut-brain axis, mediated by microbiome modulation, may play a critical role in their cognitive benefits. This study investigated whether polyphenols (curcumin, resveratrol, and salidroside) improve cognitive function in mice with lipopolysaccharide (LPS)-induced gut inflammation by modulating the gut microbiome and reducing neuroinflammation.
Methods:
C57BL/6 mice were divided into five groups: control, LPS, and LPS + polyphenol treatments (curcumin, resveratrol, or salidroside). LPS was administered intraperitoneally to induce inflammation, while polyphenols were given orally for three weeks. Cognitive performance was assessed using the Morris water maze. Gut microbiome composition (16S rRNA sequencing), mitochondrial DNA (mtDNA) damage, and gene expression in brain regions were analyzed.
Results:
LPS impaired spatial memory, but resveratrol and salidroside significantly mitigated these deficits. Polyphenols restored beneficial bacteria (e.g., Alloprevotella, Eubacterium) and suppressed pathogenic taxa (e.g., Peptostreptococcales). They also reduced pro-inflammatory markers in the cortex and hippocampus. Curcumin showed weaker effects. No significant mtDNA damage was detected.
Conclusions:
Polyphenols, particularly resveratrol and salidroside, improve cognition during systemic inflammation by remodeling the gut microbiome and attenuating neuroinflammation. These findings highlight the gut-brain axis as a therapeutic target for inflammation-driven cognitive disorders.
DOI: https://doi.org/10.37349/ent.2025.1004122
This article belongs to the special issue Natural Products in Neurotherapeutic Applications
The investigations pertaining to the effectiveness of natural products in novel drug development for the prevention of a myriad of neurodegenerative diseases are offering encouraging prospects in novel drug development. This review endeavors to offer a comprehensive insight into the neuroprotective effects of baicalein (BE) and baicalin (BI), bioactive flavonoids found in Scutellaria baicalensis, primarily from the perspective of Alzheimer’s disease (AD). It systematically encompasses the scientifically pertinent investigations on BE’s prospective benefits in AD models, highlighting its mechanistic approaches and impending therapeutic applications in the amelioration of AD. The multifaceted pharmacological interventions offered by these bioactives, including antioxidant, anti-inflammatory, and immunomodulation effects, reinforce the scientific evidence supporting them as promising candidates for anti-AD agents and for preventing and managing other allied neurodegenerative disorders. These findings suggest that BE and BI, along with other nutraceuticals, may offer a valuable therapeutic strategy for improving symptoms and slowing disease progression in neurodegenerative disorders. Thus, the review intends to offer comprehensive illustrations warranting further investigation to corroborate the safety and efficacy of these bioactives in clinical settings. The researchers are progressively entrusting nature’s own compounds for the treatment of neurodegeneration. Conclusively, this manuscript could aptly serve as an insight to embark upon the remarkable pharmacological actions of these bioactives, which might be harnessed to prevent and manage AD. Nevertheless, the findings so far are promising; still, further investigations are incumbent to establish their safety and efficacy in humans, as BE and BI may offer novel modalities to circumvent this devastating disease.
The investigations pertaining to the effectiveness of natural products in novel drug development for the prevention of a myriad of neurodegenerative diseases are offering encouraging prospects in novel drug development. This review endeavors to offer a comprehensive insight into the neuroprotective effects of baicalein (BE) and baicalin (BI), bioactive flavonoids found in Scutellaria baicalensis, primarily from the perspective of Alzheimer’s disease (AD). It systematically encompasses the scientifically pertinent investigations on BE’s prospective benefits in AD models, highlighting its mechanistic approaches and impending therapeutic applications in the amelioration of AD. The multifaceted pharmacological interventions offered by these bioactives, including antioxidant, anti-inflammatory, and immunomodulation effects, reinforce the scientific evidence supporting them as promising candidates for anti-AD agents and for preventing and managing other allied neurodegenerative disorders. These findings suggest that BE and BI, along with other nutraceuticals, may offer a valuable therapeutic strategy for improving symptoms and slowing disease progression in neurodegenerative disorders. Thus, the review intends to offer comprehensive illustrations warranting further investigation to corroborate the safety and efficacy of these bioactives in clinical settings. The researchers are progressively entrusting nature’s own compounds for the treatment of neurodegeneration. Conclusively, this manuscript could aptly serve as an insight to embark upon the remarkable pharmacological actions of these bioactives, which might be harnessed to prevent and manage AD. Nevertheless, the findings so far are promising; still, further investigations are incumbent to establish their safety and efficacy in humans, as BE and BI may offer novel modalities to circumvent this devastating disease.
DOI: https://doi.org/10.37349/ent.2025.1004121
This article belongs to the special issue Natural Products in Neurotherapeutic Applications
Alzheimer’s disease (AD) is a progressive neurodegenerative disorder characterized by cognitive decline, neuroinflammation, and accumulation of amyloid-beta plaques and tau tangles. Emerging research emphasizes the gut-brain axis as a key modulator of AD pathogenesis, with gut microbiota influencing neuroimmune, neurochemical, and metabolic pathways. This review examines the therapeutic and preventive potential of probiotics, live beneficial microorganisms, in modulating the gut-brain axis to mitigate AD progression. Modifying gut microbiota presents a novel, potentially modifiable approach to influence AD pathophysiology and improve cognitive outcomes, offering insights for adjunctive clinical strategies. A systematic literature search was conducted across PubMed, Scopus, Web of Science, Google Scholar, and Cochrane Library for studies published up to July 2025. Studies were classified by design, sample size, follow-up duration, cognitive and biomarker outcomes, and risk of bias, following Preferred Reporting Items for Systematic reviews and Meta-Analyses (PRISMA) guidelines to ensure transparency and reproducibility. Preclinical studies indicate that probiotics can regulate gut microbiota, reduce oxidative stress, suppress neuroinflammation, and enhance synaptic plasticity, improving cognition in animal models. Clinical trials suggest potential benefits in humans, including improved memory scores and reduced inflammatory biomarkers, though limited sample sizes, trial duration, and strain variability constrain conclusions. Overall, probiotics demonstrate promise as an adjunctive intervention in AD. Further long-term, strain-specific, and large-scale clinical studies are needed to confirm efficacy, establish causality, and optimize therapeutic strategies.
Alzheimer’s disease (AD) is a progressive neurodegenerative disorder characterized by cognitive decline, neuroinflammation, and accumulation of amyloid-beta plaques and tau tangles. Emerging research emphasizes the gut-brain axis as a key modulator of AD pathogenesis, with gut microbiota influencing neuroimmune, neurochemical, and metabolic pathways. This review examines the therapeutic and preventive potential of probiotics, live beneficial microorganisms, in modulating the gut-brain axis to mitigate AD progression. Modifying gut microbiota presents a novel, potentially modifiable approach to influence AD pathophysiology and improve cognitive outcomes, offering insights for adjunctive clinical strategies. A systematic literature search was conducted across PubMed, Scopus, Web of Science, Google Scholar, and Cochrane Library for studies published up to July 2025. Studies were classified by design, sample size, follow-up duration, cognitive and biomarker outcomes, and risk of bias, following Preferred Reporting Items for Systematic reviews and Meta-Analyses (PRISMA) guidelines to ensure transparency and reproducibility. Preclinical studies indicate that probiotics can regulate gut microbiota, reduce oxidative stress, suppress neuroinflammation, and enhance synaptic plasticity, improving cognition in animal models. Clinical trials suggest potential benefits in humans, including improved memory scores and reduced inflammatory biomarkers, though limited sample sizes, trial duration, and strain variability constrain conclusions. Overall, probiotics demonstrate promise as an adjunctive intervention in AD. Further long-term, strain-specific, and large-scale clinical studies are needed to confirm efficacy, establish causality, and optimize therapeutic strategies.
DOI: https://doi.org/10.37349/ent.2025.1004120
This article belongs to the special issue Role of Microbiota in Neurological Diseases
Parkinson’s disease (PD) is a devastating neurodegenerative condition characterized primarily by the degeneration of the dopaminergic neurons in the substantia nigra, causing motor dysfunction and many non-motor symptoms. Available pharmacological treatments and therapies provide symptomatic relief but do not halt the progression of PD. Gene therapy has been recognized as a valuable therapeutic frontier, providing the possibility of disease modification by targeting the underlying molecular and cellular mechanisms of PD. The parts of the methodology used for gene therapy entail the delivery of genetic material into particular regions of the brain with the aid of viral vectors to improve the synthesis of dopamine, maintain the integrity of neurons, or control pathological pathways. Recent clinical trials have shown promising efficacy and safety profiles for many gene therapy methods, consisting of those targeting enzymes in the biosynthesis of dopamine [e.g., L-amino acid decarboxylase (AADC)], synuclein alpha pathology, and neurotrophic factors [e.g., growth-derived neurotrophic factor (GDNF)]. However, in spite of these developments, there are limitations in vector delivery and prolonged expression of genes, as well as patient-specific responses. This review highlights the present landscape of gene therapy in PD, discussing the latest successes, ongoing clinical trials, and future perspectives that could shape therapeutic paradigms for PD.
Parkinson’s disease (PD) is a devastating neurodegenerative condition characterized primarily by the degeneration of the dopaminergic neurons in the substantia nigra, causing motor dysfunction and many non-motor symptoms. Available pharmacological treatments and therapies provide symptomatic relief but do not halt the progression of PD. Gene therapy has been recognized as a valuable therapeutic frontier, providing the possibility of disease modification by targeting the underlying molecular and cellular mechanisms of PD. The parts of the methodology used for gene therapy entail the delivery of genetic material into particular regions of the brain with the aid of viral vectors to improve the synthesis of dopamine, maintain the integrity of neurons, or control pathological pathways. Recent clinical trials have shown promising efficacy and safety profiles for many gene therapy methods, consisting of those targeting enzymes in the biosynthesis of dopamine [e.g., L-amino acid decarboxylase (AADC)], synuclein alpha pathology, and neurotrophic factors [e.g., growth-derived neurotrophic factor (GDNF)]. However, in spite of these developments, there are limitations in vector delivery and prolonged expression of genes, as well as patient-specific responses. This review highlights the present landscape of gene therapy in PD, discussing the latest successes, ongoing clinical trials, and future perspectives that could shape therapeutic paradigms for PD.
DOI: https://doi.org/10.37349/ent.2025.1004119
This article belongs to the special issue Parkinson's Disease: Principal Targets and Interventional Mechanisms
Tau phosphorylated at threonine 217 (p-tau217) has moved from research novelty to clinical reality, but its greatest value lies in dynamic monitoring, not static stratification. The pace of adoption of the plasma measurement of p-tau217 now demands clear guidance on optimal use. Two complementary evidence strands inform this perspective. First, a multi-cohort evaluation of a commercial assay shows high concordance with amyloid and tau reference standards and supports a pragmatic three-zone interpretation, rule-out, indeterminate, and rule-in, that can streamline diagnostic pathways while preserving accuracy. Second, longitudinal analyses in amyloid-positive individuals reveal that the most informative property of p-tau217 is dynamic: steeper rises occur in those who decline faster, whereas baseline values substantially overlap across outcome groups. These findings show that plasma p-tau217 levels can be a complementary tool for triage, enrichment, and longitudinal monitoring, but not as a time-stable baseline stratifier for defining trial cohorts or assessing therapeutic efficacy. Stratification should instead anchor to independent, stable measures such as tau burden measured by positron emission tomography (PET), structural magnetic resonance imaging (MRI), and cognitive history, reducing misclassification and avoiding circular validation. Comparable scrutiny should be applied to other p-tau biomarkers and to composite measures, such as the p-tau217/Aβ1–42 ratio, to rigorously define their risk-benefit profile, guide therapeutic evaluation, and maximize translational impact.
Tau phosphorylated at threonine 217 (p-tau217) has moved from research novelty to clinical reality, but its greatest value lies in dynamic monitoring, not static stratification. The pace of adoption of the plasma measurement of p-tau217 now demands clear guidance on optimal use. Two complementary evidence strands inform this perspective. First, a multi-cohort evaluation of a commercial assay shows high concordance with amyloid and tau reference standards and supports a pragmatic three-zone interpretation, rule-out, indeterminate, and rule-in, that can streamline diagnostic pathways while preserving accuracy. Second, longitudinal analyses in amyloid-positive individuals reveal that the most informative property of p-tau217 is dynamic: steeper rises occur in those who decline faster, whereas baseline values substantially overlap across outcome groups. These findings show that plasma p-tau217 levels can be a complementary tool for triage, enrichment, and longitudinal monitoring, but not as a time-stable baseline stratifier for defining trial cohorts or assessing therapeutic efficacy. Stratification should instead anchor to independent, stable measures such as tau burden measured by positron emission tomography (PET), structural magnetic resonance imaging (MRI), and cognitive history, reducing misclassification and avoiding circular validation. Comparable scrutiny should be applied to other p-tau biomarkers and to composite measures, such as the p-tau217/Aβ1–42 ratio, to rigorously define their risk-benefit profile, guide therapeutic evaluation, and maximize translational impact.
DOI: https://doi.org/10.37349/ent.2025.1004118
Healthcare professionals, especially those in rehabilitation, are increasingly vulnerable to occupational burnout, particularly in the post-pandemic landscape. This review synthesizes existing literature on the prevalence of burnout, possible contributing factors, resilience mechanisms, and interventions tailored to physiotherapists and related disciplines. A narrative review was carried out by combing through databases including PubMed, Scopus, and Web of Science for literature published between 2020 and 2025. The studies focused on burnout, mental health, and resilience among rehabilitation professionals were included in the review. Burnout remains prevalent, with emotional exhaustion and reduced personal growth commonly reported. Risk factors include lack of support, excessive workload, and exposure to workplace bullying. Protective mechanisms entail individual resilience behaviors, social support, and institutional strategies such as regulated supervision and workload management. Addressing burnout in rehabilitation settings requires a dual approach—strengthening individual factors and directing systemic organizational reforms. Embedding resilience education into the training core curriculum and workplace code of conduct may boost mental well-being.
Healthcare professionals, especially those in rehabilitation, are increasingly vulnerable to occupational burnout, particularly in the post-pandemic landscape. This review synthesizes existing literature on the prevalence of burnout, possible contributing factors, resilience mechanisms, and interventions tailored to physiotherapists and related disciplines. A narrative review was carried out by combing through databases including PubMed, Scopus, and Web of Science for literature published between 2020 and 2025. The studies focused on burnout, mental health, and resilience among rehabilitation professionals were included in the review. Burnout remains prevalent, with emotional exhaustion and reduced personal growth commonly reported. Risk factors include lack of support, excessive workload, and exposure to workplace bullying. Protective mechanisms entail individual resilience behaviors, social support, and institutional strategies such as regulated supervision and workload management. Addressing burnout in rehabilitation settings requires a dual approach—strengthening individual factors and directing systemic organizational reforms. Embedding resilience education into the training core curriculum and workplace code of conduct may boost mental well-being.
DOI: https://doi.org/10.37349/ent.2025.1004117
Aim:
Post-exertional malaise (PEM) has been a challenging construct to measure, particularly with self-report instruments, which have the benefits of being less expensive and less invasive than cardiopulmonary exercise tests. Existing PEM questionnaires have often been used for diagnostic purposes and less frequently as outcome measures. Few self-report PEM measures address comprehensive PEM domains, including types of triggers, duration of symptoms, delayed symptom onset, number of symptoms, frequency and severity of symptoms, as well as whether pacing or other strategies reduce or eliminate PEM. Without characterizing these features, salient aspects of PEM would be overlooked. However, efforts to assess all these domains can be time-consuming and potentially burdensome.
Methods:
The current study offers investigators a brief but comprehensive instrument of critical PEM domains, called the DePaul Symptom Questionnaire (DSQ)-PEM-2, to assess PEM. Validation data were derived from a large sample of individuals with myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS).
Results:
The DSQ-PEM-2 was developed using an existing dataset of individuals with ME, CFS, or both ME and CFS, allowing comprehensive coverage of key PEM domains.
Conclusions:
The DSQ-PEM-2 can be used either for diagnostic purposes or as an outcome measure. The instrument’s time frames for symptom manifestation can be adapted to suit a variety of research or clinical contexts. Future validation studies need to include a healthy control group.
Aim:
Post-exertional malaise (PEM) has been a challenging construct to measure, particularly with self-report instruments, which have the benefits of being less expensive and less invasive than cardiopulmonary exercise tests. Existing PEM questionnaires have often been used for diagnostic purposes and less frequently as outcome measures. Few self-report PEM measures address comprehensive PEM domains, including types of triggers, duration of symptoms, delayed symptom onset, number of symptoms, frequency and severity of symptoms, as well as whether pacing or other strategies reduce or eliminate PEM. Without characterizing these features, salient aspects of PEM would be overlooked. However, efforts to assess all these domains can be time-consuming and potentially burdensome.
Methods:
The current study offers investigators a brief but comprehensive instrument of critical PEM domains, called the DePaul Symptom Questionnaire (DSQ)-PEM-2, to assess PEM. Validation data were derived from a large sample of individuals with myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS).
Results:
The DSQ-PEM-2 was developed using an existing dataset of individuals with ME, CFS, or both ME and CFS, allowing comprehensive coverage of key PEM domains.
Conclusions:
The DSQ-PEM-2 can be used either for diagnostic purposes or as an outcome measure. The instrument’s time frames for symptom manifestation can be adapted to suit a variety of research or clinical contexts. Future validation studies need to include a healthy control group.
DOI: https://doi.org/10.37349/ent.2025.1004116
Exercise may be one of the most potent tools for protecting the brain—but only through active participation can its benefits be realized. This perspective provides a brief overview of current research avenues and key insights into the role of physical activity and exercise in preventing and mitigating chronic and neurodegenerative diseases and promoting optimal health across the population. The perspective opens with a summary of key findings on how exercise supports brain health and cognitive well-being. It then draws on rodent model studies which shed light on the molecular mechanisms behind these benefits. The paper addresses challenges in translating this research into effective, real-world exercise programs and introduces a new framework aimed at fostering global, inclusive initiatives. This transformative approach is designed to reach individuals across all ages, backgrounds, and health statuses. A central theme throughout is the critical role of psychological factors in exercise adherence—highlighting the need to tackle these barriers if scientific advances are to translate into meaningful benefits for diverse populations.
Exercise may be one of the most potent tools for protecting the brain—but only through active participation can its benefits be realized. This perspective provides a brief overview of current research avenues and key insights into the role of physical activity and exercise in preventing and mitigating chronic and neurodegenerative diseases and promoting optimal health across the population. The perspective opens with a summary of key findings on how exercise supports brain health and cognitive well-being. It then draws on rodent model studies which shed light on the molecular mechanisms behind these benefits. The paper addresses challenges in translating this research into effective, real-world exercise programs and introduces a new framework aimed at fostering global, inclusive initiatives. This transformative approach is designed to reach individuals across all ages, backgrounds, and health statuses. A central theme throughout is the critical role of psychological factors in exercise adherence—highlighting the need to tackle these barriers if scientific advances are to translate into meaningful benefits for diverse populations.
DOI: https://doi.org/10.37349/ent.2025.1004115
This article belongs to the special issue Empower Yourself - Physical Activity as Prevention and Rehabilitation of Neurological and Psychiatric Diseases
Aim:
Pain and overuse syndromes are common problems among musicians. The prevalence of musculoskeletal complaints in professional musicians ranges from 62% to 93%. Excessive muscle tension, rigidity, weakness, and stiffness in various anatomical regions such as the arm, neck, and lower back are common complaints. This study investigates the prevalence and severity of musculoskeletal symptoms, such as the amount and distribution of pain in the cranio-cervical-mandibular complex, the presence of bruxism and temporomandibular noises in conservatory clarinet students.
Methods:
A 36-item questionnaire regarding the presence of musculoskeletal symptoms was sent to all clarinet students at Italian conservatories.
Results:
From the analysis of the responses of 100 students, the occurrence of pain was not related to experience and was higher during non-musical activities (70%) than during performance (38%) (P = 0.001). Female players reported higher levels of pain using a 0–10 numeric rating scale: 4 during performance, 5 during non-musical activities, while males scored 3 in both conditions. A slight positive correlation emerged between pain and years of study (P = 0.03). The most painful regions were those of the posterior neck (29–45%) and the masseter muscle (28–31%). Temporomandibular noises were prevalent in female students (female 43%, male 22%, P = 0.005) and were often associated with bruxism (P = 0.015).
Conclusions:
Clarinet students should be informed about the symptoms they may experience, but also about the prevention of these symptoms and the techniques to improve clarinet performance.
Aim:
Pain and overuse syndromes are common problems among musicians. The prevalence of musculoskeletal complaints in professional musicians ranges from 62% to 93%. Excessive muscle tension, rigidity, weakness, and stiffness in various anatomical regions such as the arm, neck, and lower back are common complaints. This study investigates the prevalence and severity of musculoskeletal symptoms, such as the amount and distribution of pain in the cranio-cervical-mandibular complex, the presence of bruxism and temporomandibular noises in conservatory clarinet students.
Methods:
A 36-item questionnaire regarding the presence of musculoskeletal symptoms was sent to all clarinet students at Italian conservatories.
Results:
From the analysis of the responses of 100 students, the occurrence of pain was not related to experience and was higher during non-musical activities (70%) than during performance (38%) (P = 0.001). Female players reported higher levels of pain using a 0–10 numeric rating scale: 4 during performance, 5 during non-musical activities, while males scored 3 in both conditions. A slight positive correlation emerged between pain and years of study (P = 0.03). The most painful regions were those of the posterior neck (29–45%) and the masseter muscle (28–31%). Temporomandibular noises were prevalent in female students (female 43%, male 22%, P = 0.005) and were often associated with bruxism (P = 0.015).
Conclusions:
Clarinet students should be informed about the symptoms they may experience, but also about the prevention of these symptoms and the techniques to improve clarinet performance.
DOI: https://doi.org/10.37349/ent.2025.1004114
Aim:
Epilepsy is associated with cognitive and neuropsychiatric impairments, affecting attention, memory, executive functions, and emotional well-being. While these impairments are well-documented in general epilepsy populations, limited research focuses on economically active young adults who face unique cognitive demands in competitive academic and professional environments. The objective of this research was to evaluate the cognitive and neuropsychiatric outcomes in economically active young adults with epilepsy compared to matched controls.
Methods:
An observational, analytical, case-control study was conducted at a secondary medical center in Mexico. Participants included 25 patients with well-controlled epilepsy and 25 matched controls. Cognitive function was assessed using the Montreal Cognitive Assessment (MoCA) and Addenbrooke’s Cognitive Examination III (ACE-III). Anxiety and depression were evaluated using the Beck Anxiety Inventory and Patient Health Questionnaire-9 (PHQ-9). Statistical analysis included Student’s T-test and Chi-square for cognitive scores and Wilcoxon rank-sum tests for non-parametric data.
Results:
Cognitive impairments were significantly more frequent in patients with epilepsy than in controls, particularly in attention (p = 0.041), episodic memory (p = 0.048), clock drawing (p = 0.004), and cube copying (p < 0.001). Verbal (p = 0.011) and semantic fluency (p = 0.027) were also affected. No significant differences were observed in anxiety (p = 0.221) or depression (p = 0.800) between groups.
Conclusions:
Economically active young adults with well-controlled epilepsy showed significant cognitive impairments, particularly in attention, memory, visuospatial, and executive functions, independent of anxiety and depression levels. This study underscores the need for comprehensive cognitive and neuropsychiatric evaluations in epilepsy treatment, regardless of seizure control. It advocates for targeted cognitive rehabilitation and a holistic approach to epilepsy care beyond seizure frequency control.
Aim:
Epilepsy is associated with cognitive and neuropsychiatric impairments, affecting attention, memory, executive functions, and emotional well-being. While these impairments are well-documented in general epilepsy populations, limited research focuses on economically active young adults who face unique cognitive demands in competitive academic and professional environments. The objective of this research was to evaluate the cognitive and neuropsychiatric outcomes in economically active young adults with epilepsy compared to matched controls.
Methods:
An observational, analytical, case-control study was conducted at a secondary medical center in Mexico. Participants included 25 patients with well-controlled epilepsy and 25 matched controls. Cognitive function was assessed using the Montreal Cognitive Assessment (MoCA) and Addenbrooke’s Cognitive Examination III (ACE-III). Anxiety and depression were evaluated using the Beck Anxiety Inventory and Patient Health Questionnaire-9 (PHQ-9). Statistical analysis included Student’s T-test and Chi-square for cognitive scores and Wilcoxon rank-sum tests for non-parametric data.
Results:
Cognitive impairments were significantly more frequent in patients with epilepsy than in controls, particularly in attention (p = 0.041), episodic memory (p = 0.048), clock drawing (p = 0.004), and cube copying (p < 0.001). Verbal (p = 0.011) and semantic fluency (p = 0.027) were also affected. No significant differences were observed in anxiety (p = 0.221) or depression (p = 0.800) between groups.
Conclusions:
Economically active young adults with well-controlled epilepsy showed significant cognitive impairments, particularly in attention, memory, visuospatial, and executive functions, independent of anxiety and depression levels. This study underscores the need for comprehensive cognitive and neuropsychiatric evaluations in epilepsy treatment, regardless of seizure control. It advocates for targeted cognitive rehabilitation and a holistic approach to epilepsy care beyond seizure frequency control.
DOI: https://doi.org/10.37349/ent.2025.1004113
Myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) is a debilitating multisystem disorder affecting an estimated 0.4% to 2.5% of community populations. Dysregulation of the hypothalamic-pituitary-adrenal (HPA) axis and marked metabolic heterogeneity underscore its complex pathophysiology. The hypothalamic peptides hypocretin-1 and -2 (also known as orexin-A and orexin-B), synthesized by neurons in the lateral hypothalamus, regulate sleep-wake cycles, arousal, autonomic function, and energy homeostasis. This integrative review aimed to synthesize current evidence on hypothalamic orexinergic dysfunction in ME/CFS and assess its potential as a biomarker framework for stratification in precision medicine. The review followed Whittemore and Knafl’s five-stage methodology. Comprehensive searches were conducted across PubMed, Scopus, Web of Science, and OpenAlex up to April 2025, supplemented by manual screening of reference lists. Data extraction and synthesis were performed using constant comparison techniques to integrate quantitative outcomes with theoretical insights. Twenty-seven studies met the inclusion criteria, consistently reporting reduced orexin-A levels in individuals with ME/CFS and variable orexin-B responses indicative of biomarker potential. Neuroendocrine findings, including alterations in cortisol and adrenocorticotropic hormone levels, along with inflammatory profiles, confirmed the involvement of neuroimmune interactions. Multi-omics analyses further delineated distinct patient subtypes characterized by unique molecular signatures. Hypothalamic orexinergic dysfunction emerges as a central feature of ME/CFS, with orexin-B representing a promising candidate biomarker. The integration of orexin profiling with multi-omics data and machine learning strategies provides a viable pathway towards precision-medicine interventions for this heterogeneous condition.
Myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) is a debilitating multisystem disorder affecting an estimated 0.4% to 2.5% of community populations. Dysregulation of the hypothalamic-pituitary-adrenal (HPA) axis and marked metabolic heterogeneity underscore its complex pathophysiology. The hypothalamic peptides hypocretin-1 and -2 (also known as orexin-A and orexin-B), synthesized by neurons in the lateral hypothalamus, regulate sleep-wake cycles, arousal, autonomic function, and energy homeostasis. This integrative review aimed to synthesize current evidence on hypothalamic orexinergic dysfunction in ME/CFS and assess its potential as a biomarker framework for stratification in precision medicine. The review followed Whittemore and Knafl’s five-stage methodology. Comprehensive searches were conducted across PubMed, Scopus, Web of Science, and OpenAlex up to April 2025, supplemented by manual screening of reference lists. Data extraction and synthesis were performed using constant comparison techniques to integrate quantitative outcomes with theoretical insights. Twenty-seven studies met the inclusion criteria, consistently reporting reduced orexin-A levels in individuals with ME/CFS and variable orexin-B responses indicative of biomarker potential. Neuroendocrine findings, including alterations in cortisol and adrenocorticotropic hormone levels, along with inflammatory profiles, confirmed the involvement of neuroimmune interactions. Multi-omics analyses further delineated distinct patient subtypes characterized by unique molecular signatures. Hypothalamic orexinergic dysfunction emerges as a central feature of ME/CFS, with orexin-B representing a promising candidate biomarker. The integration of orexin profiling with multi-omics data and machine learning strategies provides a viable pathway towards precision-medicine interventions for this heterogeneous condition.
DOI: https://doi.org/10.37349/ent.2025.1004112
MicroRNAs (miRNAs) are small, non-coding RNA molecules that play a pivotal role in post-transcriptional gene regulation, influencing various biological processes such as cell division, proliferation, and apoptosis. Recent research has illuminated the significant involvement of miRNAs in neurological disorders, which encompass a wide range of conditions affecting both the central and peripheral nervous systems. These disorders, including neurodegenerative diseases like Alzheimer’s and Parkinson’s, as well as psychiatric conditions such as depression and schizophrenia, impose a substantial burden on global health. Dysregulated miRNAs contribute to disease pathogenesis by modulating neuronal differentiation and related signaling cascades. This review explores the biogenesis of miRNAs and their dysregulation in neurological disorders, highlighting specific miRNAs that serve as potential biomarkers and therapeutic targets. For instance, decreased levels of miR-125b-5p and miR-26b-5p in cerebrospinal fluid have been associated with Alzheimer’s disease progression. In Parkinson’s disease, distinct profiles of dysregulated miRNAs have been identified, including miR-7-5p and miR-153-3p, which target α-synuclein. Furthermore, studies have demonstrated the potential of miRNA-based therapies to modulate disease processes and improve clinical outcomes. This review critically evaluates current therapeutic strategies for miRNA delivery in neurological disorders, focusing on advanced platforms such as nanocarriers, exosomes, viral vectors, and ligand-mediated systems designed to overcome the blood-brain barrier. We also explore the future of miRNA research in the context of precision medicine, highlighting the importance of targeted delivery, safety optimization, and integration of patient-specific molecular profiles. A comprehensive understanding of miRNA-regulated networks will be essential for developing innovative diagnostics and personalized treatments for neurodegenerative and neuroinflammatory diseases.
MicroRNAs (miRNAs) are small, non-coding RNA molecules that play a pivotal role in post-transcriptional gene regulation, influencing various biological processes such as cell division, proliferation, and apoptosis. Recent research has illuminated the significant involvement of miRNAs in neurological disorders, which encompass a wide range of conditions affecting both the central and peripheral nervous systems. These disorders, including neurodegenerative diseases like Alzheimer’s and Parkinson’s, as well as psychiatric conditions such as depression and schizophrenia, impose a substantial burden on global health. Dysregulated miRNAs contribute to disease pathogenesis by modulating neuronal differentiation and related signaling cascades. This review explores the biogenesis of miRNAs and their dysregulation in neurological disorders, highlighting specific miRNAs that serve as potential biomarkers and therapeutic targets. For instance, decreased levels of miR-125b-5p and miR-26b-5p in cerebrospinal fluid have been associated with Alzheimer’s disease progression. In Parkinson’s disease, distinct profiles of dysregulated miRNAs have been identified, including miR-7-5p and miR-153-3p, which target α-synuclein. Furthermore, studies have demonstrated the potential of miRNA-based therapies to modulate disease processes and improve clinical outcomes. This review critically evaluates current therapeutic strategies for miRNA delivery in neurological disorders, focusing on advanced platforms such as nanocarriers, exosomes, viral vectors, and ligand-mediated systems designed to overcome the blood-brain barrier. We also explore the future of miRNA research in the context of precision medicine, highlighting the importance of targeted delivery, safety optimization, and integration of patient-specific molecular profiles. A comprehensive understanding of miRNA-regulated networks will be essential for developing innovative diagnostics and personalized treatments for neurodegenerative and neuroinflammatory diseases.
DOI: https://doi.org/10.37349/ent.2025.1004111
Aim:
Our previous research (Abstract, J Vessels Circ. 2021;2) suggested an increased risk of thrombotic events, including ischemic strokes, in patients with COVID-19. This study aims to determine the mortality rate and its predictors in patients with stroke and concurrent COVID-19 infection.
Methods:
A retrospective analysis was conducted on stroke patients admitted to three Iranian referral hospitals within a 3-month period during the COVID-19 pandemic (COV-pos and COV-neg groups). The mortality rate was compared to a similar period one year before the pandemic (non-COV group). The Cox proportional hazards model was used to assess the independent and interactive effects of various variables on mortality.
Results:
Among 124 stroke admissions, 59 (47.6%) had confirmed COVID-19 infection. The COV-pos group had a significantly higher initial NIHSS score (P = 0.001) compared to other groups. Mortality rates were 49.2%, 24.2%, and 17.3% in the COV-pos, COV-neg, and non-COV groups, respectively (P < 0.001). Posterior cerebral artery (PCA) stroke (HR = 65.099), internal carotid artery (ICA) stroke (HR = 19.102), and a history of diabetes mellitus (HR = 3.824) were identified as the most significant predictors of mortality in patients with stroke and COVID-19 infection.
Conclusions:
Stroke patients with COVID-19 infection exhibited a significantly higher mortality rate compared to patients without COVID-19. The type of stroke involving the PCA or ICA and a history of diabetes emerged as the strongest predictors of mortality in the studied population.
Aim:
Our previous research (Abstract, J Vessels Circ. 2021;2) suggested an increased risk of thrombotic events, including ischemic strokes, in patients with COVID-19. This study aims to determine the mortality rate and its predictors in patients with stroke and concurrent COVID-19 infection.
Methods:
A retrospective analysis was conducted on stroke patients admitted to three Iranian referral hospitals within a 3-month period during the COVID-19 pandemic (COV-pos and COV-neg groups). The mortality rate was compared to a similar period one year before the pandemic (non-COV group). The Cox proportional hazards model was used to assess the independent and interactive effects of various variables on mortality.
Results:
Among 124 stroke admissions, 59 (47.6%) had confirmed COVID-19 infection. The COV-pos group had a significantly higher initial NIHSS score (P = 0.001) compared to other groups. Mortality rates were 49.2%, 24.2%, and 17.3% in the COV-pos, COV-neg, and non-COV groups, respectively (P < 0.001). Posterior cerebral artery (PCA) stroke (HR = 65.099), internal carotid artery (ICA) stroke (HR = 19.102), and a history of diabetes mellitus (HR = 3.824) were identified as the most significant predictors of mortality in patients with stroke and COVID-19 infection.
Conclusions:
Stroke patients with COVID-19 infection exhibited a significantly higher mortality rate compared to patients without COVID-19. The type of stroke involving the PCA or ICA and a history of diabetes emerged as the strongest predictors of mortality in the studied population.
DOI: https://doi.org/10.37349/ent.2025.1004109
Neurodevelopmental disorders form a considerable group in the DSM-5, the diagnostic mental disorders manual employed in numerous regions. Some disorders are identified with biomedical tests while those from unknown sources are verified with behavioural scales. They are ubiquitous in youths, significantly impacting their behaviours and lives. They begin in early development and persist mostly throughout their lifespan with chronogeneity, i.e., changes over time. They often form comorbidities, adding to the complexity by creating “new” phenotypes at the intersection. The article aims to provide clinically critical views of ADHD and the added burden of alexithymia comorbidities with profound effects on developmental language disorder (DLD) and autism. The noted problem is the DSM-5’s mental health categorical measure of disease identification of the disorders’ symptoms, but the neglect of comorbidity. The article’s guiding theory is the adoption of the dimensional approach in addressing the target disorders, and the Vygotskian social interactional and linguistic-cognitive learning theory in proposing dimensional treatments. The ADHD including alexithymia in these disorders exhibit commonalities: 1. all are dimensional conditions rather than categorical ones requiring dimensional approaches as these include the entire continuum; 2. all show accompanying developmental language and learning limitations, and 3. all have histories of literacy acquisition problems that impact their academic trajectory while sabotaging their executive functions (EFs) development and undermining the affected individuals and the clinicians’ treatment efforts. The suggested interventions target multiple ages based on the Vygotskian social-interactional learning theory acknowledging cognitive development as language and knowledge transmitted via psychosocial interactions facilitating the internalization of education that actively forges learners’ character, psychology, and behaviours. They are meant to address their conditions’ dimensionality, remediate cognitive linguistic lags, alleviate symptoms, and substitute ineffective learning and thinking habits with more functional ones. Issues to be addressed in developing a clinical plan complete the review.
Neurodevelopmental disorders form a considerable group in the DSM-5, the diagnostic mental disorders manual employed in numerous regions. Some disorders are identified with biomedical tests while those from unknown sources are verified with behavioural scales. They are ubiquitous in youths, significantly impacting their behaviours and lives. They begin in early development and persist mostly throughout their lifespan with chronogeneity, i.e., changes over time. They often form comorbidities, adding to the complexity by creating “new” phenotypes at the intersection. The article aims to provide clinically critical views of ADHD and the added burden of alexithymia comorbidities with profound effects on developmental language disorder (DLD) and autism. The noted problem is the DSM-5’s mental health categorical measure of disease identification of the disorders’ symptoms, but the neglect of comorbidity. The article’s guiding theory is the adoption of the dimensional approach in addressing the target disorders, and the Vygotskian social interactional and linguistic-cognitive learning theory in proposing dimensional treatments. The ADHD including alexithymia in these disorders exhibit commonalities: 1. all are dimensional conditions rather than categorical ones requiring dimensional approaches as these include the entire continuum; 2. all show accompanying developmental language and learning limitations, and 3. all have histories of literacy acquisition problems that impact their academic trajectory while sabotaging their executive functions (EFs) development and undermining the affected individuals and the clinicians’ treatment efforts. The suggested interventions target multiple ages based on the Vygotskian social-interactional learning theory acknowledging cognitive development as language and knowledge transmitted via psychosocial interactions facilitating the internalization of education that actively forges learners’ character, psychology, and behaviours. They are meant to address their conditions’ dimensionality, remediate cognitive linguistic lags, alleviate symptoms, and substitute ineffective learning and thinking habits with more functional ones. Issues to be addressed in developing a clinical plan complete the review.
DOI: https://doi.org/10.37349/ent.2025.1004110
This article belongs to the special issue Advances in the Pathogenesis, Diagnosis and Treatment of Attention Deficit Hyperactivity Disorder
Aim:
Aging and early Alzheimer’s disease (AD) affect pattern separation (PS) based mnemonic discrimination in humans. PS function involves the dentate gyrus (DG), a brain region producing new neurons during adulthood. Aging and AD presumably affect PS and DG function through different mechanisms, although it has never been clearly shown within the same study. Passive immunotherapy targeting β-amyloid peptides (Aβ) was used to determine the relative contribution of abnormal levels of Aβ to early PS deficits in two mouse models of aging and amyloid pathology, and potential involvement of adult neurogenesis.
Methods:
Female Tg2576 mice were tested in a spatial PS task from the age of three months to determine the age of onset of PS deficits. A cohort of five-month-old female Tg2576 mice and a cohort of 20-month-old male C57BL/6J mice were treated with passive immunization for four weeks, and then tested for PS performance. ELISA assays were used to quantify Aβ levels in CA3/DG regions of these mouse models. DG recruitment during PS testing was assessed with an Egr-1 ex vivo imagery. The contribution of adult-born neurons to a potential rescue of PS performances was evaluated using bromodeoxyuridine and doublecortin co-immunostainings.
Results:
Spatial PS deficits appeared first in four-month-old female Tg2576 mice, an early pre-plaque stage of Alzheimer pathology. Aβ immunotherapy restored PS performance in Tg2576 mice, but not in aged male C57BL/6J mice. PS impairments were associated with an overactivation of the DG in both models and a potentially abnormal level of immature adult-born neurons in Tg2576 mice.
Conclusions:
Alleviation of PS deficits following Aβ immunotherapy in Tg2576 mice is associated with reduced DG activation and improved adult-born neurons maturation. The absence of beneficial effects in aged mice suggests that PS deficits in aging and AD may be related to different underlying mechanisms.
Aim:
Aging and early Alzheimer’s disease (AD) affect pattern separation (PS) based mnemonic discrimination in humans. PS function involves the dentate gyrus (DG), a brain region producing new neurons during adulthood. Aging and AD presumably affect PS and DG function through different mechanisms, although it has never been clearly shown within the same study. Passive immunotherapy targeting β-amyloid peptides (Aβ) was used to determine the relative contribution of abnormal levels of Aβ to early PS deficits in two mouse models of aging and amyloid pathology, and potential involvement of adult neurogenesis.
Methods:
Female Tg2576 mice were tested in a spatial PS task from the age of three months to determine the age of onset of PS deficits. A cohort of five-month-old female Tg2576 mice and a cohort of 20-month-old male C57BL/6J mice were treated with passive immunization for four weeks, and then tested for PS performance. ELISA assays were used to quantify Aβ levels in CA3/DG regions of these mouse models. DG recruitment during PS testing was assessed with an Egr-1 ex vivo imagery. The contribution of adult-born neurons to a potential rescue of PS performances was evaluated using bromodeoxyuridine and doublecortin co-immunostainings.
Results:
Spatial PS deficits appeared first in four-month-old female Tg2576 mice, an early pre-plaque stage of Alzheimer pathology. Aβ immunotherapy restored PS performance in Tg2576 mice, but not in aged male C57BL/6J mice. PS impairments were associated with an overactivation of the DG in both models and a potentially abnormal level of immature adult-born neurons in Tg2576 mice.
Conclusions:
Alleviation of PS deficits following Aβ immunotherapy in Tg2576 mice is associated with reduced DG activation and improved adult-born neurons maturation. The absence of beneficial effects in aged mice suggests that PS deficits in aging and AD may be related to different underlying mechanisms.
DOI: https://doi.org/10.37349/ent.2025.1004108
Polyunsaturated fatty acids (PUFAs) are critical for human health, serving as key components of cellular membranes and regulators of various physiological functions. Since the body can endogenously synthesize only a small amount of these fatty acids from precursors, adequate dietary intake is essential. This article discusses the vital role of omega-3 fatty acids, particularly docosahexaenoic acid (DHA), in fetal brain development, with maternal omega-3 intake during pregnancy linked to improved neurodevelopment and long-term cognitive outcomes. However, variability in study findings highlights the need for further research to clarify DHA’s mechanisms of action. This article explores recent findings indicating that insufficient omega-3 levels during pregnancy disrupt key neurodevelopmental processes, particularly microglial function, potentially elevating the risk of cognitive impairments and neurodevelopmental disorders, highlighting the need for further research to confirm these effects and elucidate underlying mechanisms and long-term consequences. Ensuring adequate maternal omega-3 intake is vital for supporting healthy brain development and reducing these risks. Additionally, DHA and eicosapentaenoic acid (EPA) show promise in treating pediatric depression by modulating the gut-brain axis, reducing neuroinflammation, and restoring autonomic nervous system function—mechanisms implicated in depression. While omega-3 supplementation holds potential as an adjunctive treatment for pediatric major depressive disorder (MDD), further research is necessary to refine dosing strategies and explore underlying mechanisms, ultimately advancing neuropsychiatric care.
Polyunsaturated fatty acids (PUFAs) are critical for human health, serving as key components of cellular membranes and regulators of various physiological functions. Since the body can endogenously synthesize only a small amount of these fatty acids from precursors, adequate dietary intake is essential. This article discusses the vital role of omega-3 fatty acids, particularly docosahexaenoic acid (DHA), in fetal brain development, with maternal omega-3 intake during pregnancy linked to improved neurodevelopment and long-term cognitive outcomes. However, variability in study findings highlights the need for further research to clarify DHA’s mechanisms of action. This article explores recent findings indicating that insufficient omega-3 levels during pregnancy disrupt key neurodevelopmental processes, particularly microglial function, potentially elevating the risk of cognitive impairments and neurodevelopmental disorders, highlighting the need for further research to confirm these effects and elucidate underlying mechanisms and long-term consequences. Ensuring adequate maternal omega-3 intake is vital for supporting healthy brain development and reducing these risks. Additionally, DHA and eicosapentaenoic acid (EPA) show promise in treating pediatric depression by modulating the gut-brain axis, reducing neuroinflammation, and restoring autonomic nervous system function—mechanisms implicated in depression. While omega-3 supplementation holds potential as an adjunctive treatment for pediatric major depressive disorder (MDD), further research is necessary to refine dosing strategies and explore underlying mechanisms, ultimately advancing neuropsychiatric care.
DOI: https://doi.org/10.37349/ent.2025.1004107
Background:
High-intensity training (HIT) increases walking speed for individuals with chronic stroke. Several recent studies have examined its application for those in the subacute phase following a stroke. This systematic review examines the application of HIT in the subacute phase following a stroke.
Methods:
A systematic search for studies that compared HIT (defined as 60–84% heart rate reserve or 77–93% heart rate maximum) to lower-intensity training, conventional physical therapy, placebo, or no intervention in adults 0–6 months post stroke. Randomized or quasi-randomized controlled trials, cohort studies, and case-controlled studies published in peer-reviewed journals in English were included. The primary outcome of interest was walking speed; the secondary outcome was walking endurance. Two independent evaluators performed literature selection, data extraction, and assessed study quality using the revised Cochrane risk-of-bias tool. Reporting followed PRISMA guidelines.
Results:
Of 1,642 studies initially retrieved, 10 studies with a total of 677 participants were included. All experimental groups showed an average positive change in self-selected walking speed (range: 0.20–0.56 m/s). HIT resulted in statistically significant improvements in walking speed versus comparison interventions in 4 studies. Eight studies that measured walking endurance found an average increase of 60 to 197 m following HIT.
Discussion:
HIT demonstrated superior outcomes in self-selected walking speed and walking endurance for individuals in the subacute phase post stroke, both immediately following intervention and at follow-up. These findings align with the clinical practice guideline (CPG) for chronic stroke patients. Further randomized clinical trials are needed to strengthen the evidence.
Background:
High-intensity training (HIT) increases walking speed for individuals with chronic stroke. Several recent studies have examined its application for those in the subacute phase following a stroke. This systematic review examines the application of HIT in the subacute phase following a stroke.
Methods:
A systematic search for studies that compared HIT (defined as 60–84% heart rate reserve or 77–93% heart rate maximum) to lower-intensity training, conventional physical therapy, placebo, or no intervention in adults 0–6 months post stroke. Randomized or quasi-randomized controlled trials, cohort studies, and case-controlled studies published in peer-reviewed journals in English were included. The primary outcome of interest was walking speed; the secondary outcome was walking endurance. Two independent evaluators performed literature selection, data extraction, and assessed study quality using the revised Cochrane risk-of-bias tool. Reporting followed PRISMA guidelines.
Results:
Of 1,642 studies initially retrieved, 10 studies with a total of 677 participants were included. All experimental groups showed an average positive change in self-selected walking speed (range: 0.20–0.56 m/s). HIT resulted in statistically significant improvements in walking speed versus comparison interventions in 4 studies. Eight studies that measured walking endurance found an average increase of 60 to 197 m following HIT.
Discussion:
HIT demonstrated superior outcomes in self-selected walking speed and walking endurance for individuals in the subacute phase post stroke, both immediately following intervention and at follow-up. These findings align with the clinical practice guideline (CPG) for chronic stroke patients. Further randomized clinical trials are needed to strengthen the evidence.
DOI: https://doi.org/10.37349/ent.2025.1004106
