The obesity pandemic continues to increase in prevalence in children and adolescents, with its increase outpacing the rate of adult obesity; the human developmental index, body mass index, and family Show more
The obesity pandemic continues to increase in prevalence in children and adolescents, with its increase outpacing the rate of adult obesity; the human developmental index, body mass index, and family income all display associations to childhood obesity. There are numerous adverse complications of childhood obesity, including cardiovascular, endocrine, and gastrointestinal manifestations. Obesity is thought to be an interaction of several different factors, such as leptin, proopiomelanocortin, glucose uptake in adipocytes, melanocortin receptor 4, protein convertase 1/3, brain-derived neurotrophic factor, fat-mass and obesity-associated gene, melanocortin receptor 4, tumor necrosis factor, interleukin-6, and long noncoding RNA. Epigenetic regulation, the unique gut microbiome role in contributing to obesity, environmental factors, and the social context of a child can precipitation of childhood obesity. In this review, we hope to explore the different medications for obesity, orlistat, glucagon-like peptide-1 agonists, liraglutide, semaglutide, exenatide, setmelanotide, metreleptin, naltrexone, lorcaserin, phentermine, metformin, fluoxetine, lisdexamfetamine, and zonisamide, while also reviewing surgeries such as the Roux-en-Y gastric bypass, laparoscopic or vertical sleeve gastrectomy, and adjustable gastric banding. Show less
To evaluate the effectiveness of personalized moderate-intensity aerobic brisk walking intervention based on real-time feedback from wrist-worn photoplethysmography (PPG) in improving mild-to-moderate Show more
To evaluate the effectiveness of personalized moderate-intensity aerobic brisk walking intervention based on real-time feedback from wrist-worn photoplethysmography (PPG) in improving mild-to-moderate depressive symptoms. Using an N-of-1 randomized crossover trial design, 33 patients with mild-to-moderate depression (PHQ-9 scores 10-19) completed a 6-week trial consisting of three personalized PPG feedback periods (Period A) and three standardized exercise prescription periods (Period B), each lasting 7 days with 2-day washout periods between phases. The personalized group dynamically adjusted exercise intensity based on real-time heart rate variability (HRV) monitoring (40-59% heart rate reserve), while the standardized group adopted fixed intensity parameters (walking speed 5-6 km/h). The primary outcome was change in PHQ-9 depression scale score, with secondary outcomes including heart rate variability, 6-minute walking distance, serum BDNF, and inflammatory cytokine levels. Compared to standardized prescription, personalized intervention additionally reduced PHQ-9 scores by 2.8 points (95% CI: 1.9-3.7, P < 0.001) with an effect size of 0.73; HRV RMSSD increased by 8.7 ms versus 4.3 ms (P < 0.001), and HRV improvement predicted subsequent symptom relief (β = -0.42); exercise adherence rate in the personalized group was 87.3% compared to 82.1% in the standardized group (P = 0.029); BDNF increased by 28.4% versus 18.7% (P = 0.018); participants with baseline HRV < 25 ms derived greater benefit from personalized intervention (additional improvement of 3.8 points versus 2.1 points, P = 0.008). Both intervention conditions produced clinically meaningful within-group PHQ-9 improvements, though the between-group difference of 2.8 points did not reach the minimal clinically important difference (MCID) threshold of 5 points. Both personalized and standardized moderate-intensity walking interventions substantially improved mild-to-moderate depressive symptoms. Personalized exercise intervention based on real-time PPG monitoring provided statistically significant additional benefits over standardized prescriptions, with advantages in physiological adaptation, exercise adherence, and biomarker improvement. The incremental benefit of personalized monitoring was most pronounced among individuals with impaired autonomic function, providing evidence for precision exercise medicine approaches in depression management. Show less
This chapter explores the diverse range of biomarkers associated with endurance exercise and their relevance for monitoring training adaptation, physiological stress, recovery, and long-term health. C Show more
This chapter explores the diverse range of biomarkers associated with endurance exercise and their relevance for monitoring training adaptation, physiological stress, recovery, and long-term health. Covering cardiovascular (CV), metabolic, hormonal, inflammatory, and neuromodulatory systems, these markers offer valuable insights into how physical activity (PA) affects systemic function. CV parameters such as resting heart rate, heart rate variability, blood pressure (BP), pulse wave velocity, and VO₂max are well-established indicators of fitness and autonomic regulation. Emerging indicators like oxidative stress markers, PGC-1α, and microRNAs provide a window into mitochondrial function and cellular adaptation. Neuromodulators including β-endorphins, endocannabinoids, dopamine, serotonin, and BDNF are discussed in relation to the phenomenon known as the Runner's High, illustrating how endurance exercise can influence mood, perception, and pain sensitivity. The chapter also addresses challenges such as interindividual variability, sampling timing, and practical application. Together, these biomarkers form an integrative framework for evaluating endurance training, optimizing performance, and supporting preventive health strategies across clinical and athletic populations. Show less
Post-cardiac surgery anxiety or depression (PCPAD) is a common neuropsychiatric complication following cardiovascular interventional procedures, which significantly increases the risk of adverse cardi Show more
Post-cardiac surgery anxiety or depression (PCPAD) is a common neuropsychiatric complication following cardiovascular interventional procedures, which significantly increases the risk of adverse cardiovascular events and long-term mortality. Existing treatment strategies have limitations, and clinical needs remain unmet. The gut-brain axis (GBA) serves as a core network regulating neuroimmune and endocrine responses, and its imbalance involves key links such as intestinal flora dysbiosis and neuroimmune crosstalk disorders. It is closely related to the pathogenesis of this complication, providing a novel perspective for targeted interventions. This review aims to systematically clarify the mechanism of GBA in PCPAD, comprehensively explore therapeutic strategies targeting this axis, and focus on the intervention value and application potential of natural products. The study was designed and conducted in strict accordance with the PRISMA 2020 guidelines. Relevant literatures were searched from PubMed, Web of Science Core Collection, ScienceDirect, Embase, Cochrane Library, and CNKI databases from their inception to December 2025. Literatures focusing on GBA-related mechanisms of PCPAD or investigating the mechanisms and clinical applications of natural products targeting GBA for PCPAD treatment were included. Conference abstracts, case reports, duplicate publications, and other ineligible literatures were excluded. Through quality control strategies including double independent screening and verification, priority inclusion of high-credibility evidence, and data cross-validation, 168 eligible literatures were finally included. The composition and functions of GBA, its imbalance mechanisms, and the basic and clinical evidence of natural product-based interventions were systematically analyzed. Studies have shown that GBA imbalance is the core pathogenesis of PCPAD, among which the inflammatory cascade initiated by intestinal flora dysbiosis, abnormal activation of the neuroendocrine axis, disorder of immune-nerve crosstalk, and abnormal gene and epigenetic regulation are key pathological links. In summary, GBA imbalance, especially gut microbiota dysbiosis and neuroimmune interactions, plays a critical role in the pathogenesis of PCPAD. Natural products (including traditional Chinese medicine (TCM) monomers, TCM compound prescriptions, patented TCM drugs, and natural products from other plant sources worldwide) can exert therapeutic effects by synergistically regulating GBA homeostasis through multiple targets. Specifically, they include increasing the abundance of beneficial bacteria such as Bifidobacterium and Lactobacillus, promoting the production of anti-inflammatory metabolites such as short-chain fatty acids, repairing intestinal barrier function, inhibiting pro-inflammatory pathways such as NF-κB and NLRP3 inflammasome, and regulating the levels of neurotransmitters and neurotrophic factors such as 5-HT and BDNF. Basic and clinical studies have confirmed that these natural products have high biocompatibility and low toxic side effects, and are compatible with the safe medication needs of patients during the organ function recovery period after cardiac surgery. Several natural products have been proven to modulate GBA dysfunction, with potential for clinical therapeutic application. This review systematically elucidates a new paradigm of precise intervention for PCPAD via natural products that regulate GBA through multiple targets, addressing the limitation of traditional single-target therapies and providing a low-cost, easily promotable solution for clinical translation. Additionally, natural product-based interventions offer a novel approach for treating post-cardiac surgery complications. In the future, it is necessary to further conduct large-sample, multicenter clinical trials to clarify their mechanisms of action and standardized dosage regimens, strengthen toxicological research, facilitate the translation from basic research to clinical practice, and provide more precise therapeutic strategies for patients. Show less