INTRODUCTION
As a member of the editor board of the World Journal of Gastroenterology, I am honored to present this editorial, which captures the significant progress in inflammatory bowel disease (IBD) research and treatment observed from 2023 to early 2024. This period has been marked by significant advancements and innovations that promise to transform the IBD management landscape. The exploration of intestinal microecology, advancement of computational drug discovery, harnessing of the potential of dual biologic therapy, and integration of telemedicine and lifestyle modifications into patient care, represent key trends in IBD research. Moreover, recent research has focused on the implications of the coronavirus disease 2019 (COVID-19) pandemic, mental health in IBD patients, and global epidemiological shifts. These emerging topics reflect a growing recognition of the need for a more comprehensive and adaptable approach to IBD management. This editorial aim to navigate these new horizons, highlighting key areas of progress and their implications for a multidisciplinary approach to IBD treatment.
INTESTINAL MICROECOLOGY: A KEYSTONE IN IBD TREATMENT
The exploration of intestinal microecology has revealed promising therapeutic avenues aimed at restoring the gut microbiome balance and mitigating IBD-related inflammatory processes, such as probiotics, prebiotics, and fecal microbiota transplantation[1]. Moreover, the Helicobacter pylori (H. pylori)-IBD association implies that bacteria in the intestinal microecology affect IBD, including innate immune components, to improve IBD treatment[2]. Conversely, H. pylori eradication in 5219731 patients in Japan greatly reduced the incidence of peptic ulcers and gastritis, but was linked to an increase in the incidence of Barrett’s esophagus, IBD, allergic disease, and metabolic syndrome[3]. Additionally, Clostridioides difficile (C. difficile) is an opportunistic pathogen. IBD is susceptible to altered immunological status, and its associated therapies favor intestinal dysbiosis and colonization by C. difficile. The infection might be favored by the synergistic effects of C. difficile toxin B and proinflammatory cytokines. Therapeutic options are limited and rely on antibiotic therapy and fecal transplantation[4]. Further research is needed to establish standardized protocols and determine treatment efficacy across diverse patient populations[5,6].
The importance of the intestinal barrier in managing microecological dynamics is widely recognized. Recent studies have underscored the rapid development and extensive collaboration associated with this field, highlighting the intestinal barrier’s critical role in maintaining intestinal homeostasis and as a potential therapeutic target. Increasing the integrity of the intestinal barrier could improve current treatments, providing a new strategy for achieving mucosal healing and clinical remission in patients with IBD[7].
THE INTERSECTION OF COMPUTATIONAL METHODS: DRUG DISCOVERY AND ARTIFICIAL INTELLIGENCE
The role of computational methods in drug discovery has been transformative, enabling the identification of novel therapeutic targets and the optimization of drug designs. These advancements offer the potential for personalized IBD treatments that enhance patient outcomes while minimizing adverse effects[8]. The application of attenuated total reflectance Fourier transform infrared spectroscopy combined with machine learning for differential diagnosis between Crohn's disease and intestinal tuberculosis has highlighted the need for the integration of precise, AI-enhanced diagnostic methods that substantially increase diagnostic accuracy and efficiency in clinical settings[9].
The integration of artificial intelligence (AI) enhances computational methods in IBD management, spanning diagnosis, treatment selection, prognosis assessment, cancer surveillance, and data analysis[10]. Further research and refinement of AI, such as generative pre-trained transformer, are crucial for advancing IBD treatment. Aligning AI outputs with leading medical evidence from reliable databases is necessary for this progress[11].
DUAL BIOLOGIC THERAPY: ADDRESSING UNMET NEEDS
Dual biologic therapy, which targets multiple inflammatory pathways, has shown promise in increasing remission rates and improving the quality of life for patients with refractory IBD[12,13]. Recent literature has highlighted the challenges of primary and secondary nonresponse to TNF-α antagonists, noting that up to one-third of IBD patients may not respond initially, with others losing response over time[14]. Sphingosine-1-phosphate (S1P) receptor (S1PR) modulators in clinical development for IBD have shown promising effects. S1P/S1PR signaling and metabolism are linked to inflammatory responses in IBD[15]. Strategies for managing nonresponse include therapeutic drug monitoring, optimizing drug doses, switching between anti-TNF agents, or employing biologics with different mechanisms. Such approaches are crucial for personalized IBD care, emphasizing the need for vigilant management to adapt therapy based on individual response profiles.
TELEMEDICINE: BRIDGING GAPS IN IBD CARE
Telemedicine has proven to be a valuable tool in IBD management, facilitating continuous care, timely treatment adjustments, and potentially preventing disease flares. The integration of telemedicine into patient care underscores the shift toward more accessible and efficient health care solutions[16]. Furthermore, intestinal ultrasound is a noninvasive, real-time, imaging tool that significantly enhances IBD monitoring. Enhanced monitoring allows for the immediate assessment of inflammation and facilitates quick clinical decision-making. The versatility of telemedicine in tracking disease progression and treatment responses exemplifies how this technology can improve diagnostics and optimize patient management strategies[17].
THERAPEUTIC ADVANCES IN IBD MANAGEMENT
Recent research has demonstrated the significant expression of melanocortin 3 and 5 receptors in the colonic mucosa of IBD patients, linking them to disease activity and suggesting their role in modulating inflammation[18]. Rodrigo Quera and Paulina Núñez F introduced the Toronto IBD Global Endoscopic Reporting score, an advanced tool for assessing ulcerative colitis that offers a comprehensive view across colon segments. This tool can enhance IBD management by providing detailed mucosal insights[19]. Anti-tumor necrosis factor (TNF) monoclonal antibodies have emerged as effective treatments for spondyloarthritis (SpA) and IBD, and have become the treatment of choice for SpA-associated IBD patients. Moreover, understanding the global trends and predictors of IBD, such as variations in age-standardized rates and correlations with human development indices, is critical for devising region-specific management strategies that address epidemiological disparities[20]. Concurrently, Janus kinase inhibitors have been approved for SpA and ulcerative colitis, and show promise as therapeutics for conditions where these conditions coexist[21]. Additionally, curcumin derived from the turmeric rhizome, can treat IBD by reducing proinflammatory cytokine activity and interacting with transcription factors and signaling molecules[22]. Lafoensia pacari extracts may also be effective therapeutic agents for IBD[23].
TNF receptors, particularly TNF receptors 1 and 2, play crucial roles in IBD pathophysiology. Targeted biologics, such as infliximab and adalimumab, neutralize TNF-α and have transformed IBD treatment. These therapies induce remission, maintain health, and enhance quality of life by modulating TNF-mediated inflammatory responses[24].
The importance of mucosal healing in treating IBD underscores the vital role of cytokines and growth factors in wound repair. Research in this area is critical because of the link between chronic inflammation and the development of colorectal cancer. By targeting these therapeutic approaches and comprehending the mechanisms of inflammation and tissue repair, the potential exists to improve patient outcomes and prevent disease progression[25]. Additionally, exploring the interaction between exosomes and the NLRP3 inflammasome is promising for innovative ulcerative colitis treatments[26]. Improving lymphatic function may also open avenues for novel therapeutic strategies in Crohn's disease[27].
Clinicians receive practical guidance on implementing the treat-to-target approach for managing Crohn's disease in routine clinical practice through an analysis of the current literature[28]. Before developing guidelines for IBD management, it is vital to identify the optimal training paradigm for preserving health-related physical fitness in IBD patients[29].
OBESITY AND IBD MANAGEMENT: NAVIGATING THE DUAL CHALLENGE
The interplay between obesity and IBD presents unique challenges for disease outcomes and treatment responses. Integrated obesity management strategies are crucial for improving IBD outcomes[30,31]. Recent studies have shown that diabetes exacerbates IBD outcomes in obese mice, worsening both the clinical and histopathological aspects of colitis. This is attributed to diabetes impairing key intestinal barrier functions, such as the mucin layer and tight junction proteins[31]. These findings stress the importance of addressing metabolic conditions in conjunction with IBD management to reduce their negative impact on disease severity and improve patient quality of life.
PRECISION MEDICINE IN IBD: TAILORING TREATMENT TO THE INDIVIDUAL
Advancements in precision medicine through the use of biologics and small-molecule therapies have been particularly important in IBD treatment. These treatments aim to achieve deep remission in patients, underscoring the importance of individualized treatment approaches[32-34]. Furthermore, recent research has illuminated the potential role of bile acids and their receptors as novel therapeutic targets in IBD. The exploration of these novel therapeutic targets suggests expanding precision medicine options for IBD patients. This evolution underscores the necessity of individualized treatment plans based on the unique genetic and molecular characteristics of each patient's condition[35].
In the rapidly evolving field of omics technology, IBD management is being transformed via genomic, transcriptomic, proteomic, and metabolomic approaches. These methods provide detailed insights related to individual patient pathophysiology, thereby enhancing predictions about disease progression, treatment responses, and side effects. The use of AI further refines complex data analysis and improves the precision and personalization of IBD management[32].
DIET AND EPIGENETICS IN IBD: THE POTENTIAL FOR EPIGENETIC MODULATION
A western-style diet correlates with Crohn's disease onset. Evidence suggests that diet influences bile acid and gut microbiota composition, thus, affecting ileum inflammation susceptibility. This interaction with environmental factors and ileum characteristics likely explains the Crohn's disease ileitis transcriptome profile[36]. Dietary factors have the potential to modulate gene expression and affect disease severity in individuals with IBD. This modulation indicates that dietary interventions could serve as a complement to traditional treatments. Consequently, these interventions have the potential to improve patient outcomes[37].
EMERGING CONSIDERATIONS IN IBD MANAGEMENT: COLONOSCOPY PREPARATION, THE IMPACT OF COVID-19, AND THE MENTAL HEALTH NEXUS
Several emerging factors play crucial roles in patient care in the evolving landscape of IBD management. For example, adequate bowel cleansing is paramount for conducting high-quality colonoscopies, as it directly impacts diagnostic accuracy and adenoma detection[38]. Tailored bowel preparation strategies are essential for optimizing both diagnostic and therapeutic outcomes in IBD patients, ensuring effective disease monitoring[39].
The COVID-19 pandemic has introduced additional complexities in IBD management, potentially intensifying disease activity and necessitating a reevaluation of current treatment strategies. Integrating COVID-19 considerations into IBD care is particularly important for the comprehensive and effective treatment of vulnerable populations, such as elderly individuals[40]. The unpredictability of the pandemic highlighted the need for adaptable, patient-centered IBD care.
Another emerging focus in IBD research is the genetic nexus between IBD and mental health, such as the recently discovered link between ulcerative colitis and anxiety. These findings support proactive mental health screenings in ulcerative colitis patients[41]. These findings emphasize that effective IBD management warrants a holistic approach that also includes mental health support.
Together, these considerations illustrate the multifaceted nature of IBD management and the need for ongoing research to address these interconnected challenges. By understanding and integrating these emerging factors involved in optimal patient care, health care providers can adopt a more comprehensive and adaptive approach to improve outcomes for individuals with IBD.
GLOBAL TRENDS IN IBD: SHIFTING EPIDEMIOLOGY
IBD has traditionally been perceived as a disease that primarily affects Western population. However, the incidence of IBD is increasing in Asia, especially in South Korea. A comprehensive study highlighted changes in IBD incidence and demographics, revealing a shift in peak age groups, increasing prevalence, evolving medication trends, and improved clinical outcomes[42]. Additionally, the Global Burden of Disease study from 1990-2019 revealed significant regional variations in IBD rates. North America had the highest rate and Oceania had the lowest. The Global Burden of Disease study also revealed that higher IBD rates are correlated with higher socioeconomic status, as indicated by the human development index and sociodemographic index. Projections until 2039 suggest a decline in IBD rates, but an increase in total cases. This contrast is attributed to an aging global population. Thus, a need exists for early monitoring and targeted public health strategies in regions with high IBD rates to reduce the future burden of this disease[43].
CONCLUSION
The years 2023 and 2024 have seen transformative advancements in research and treatment involving IBD, signaling a significant shift toward more integrative and personalized patient care strategies. This editorial highlight key advancements in several critical areas of IBD management, including intestinal microecology, computational drug discovery, dual biologic therapy, telemedicine, and lifestyle modifications. Discussion of the impact of COVID-19, mental health connections, and shifting epidemiological patterns, was crucial for fostering a comprehensive understanding of contemporary IBD management. As we continue to explore these new frontiers, it is crucial to maintain a strong commitment to collaboration and innovation within IBD research and medical communities. By doing so, we aim to improve patient outcomes, significantly enhance the quality of life for individuals living with IBD, and pave the way for future research and technology breakthroughs.
Provenance and peer review: Invited article; Externally peer reviewed.
Peer-review model: Single blind
Specialty type: Gastroenterology and hepatology
Country of origin: China
Peer-review report’s classification
Scientific Quality: Grade C
Novelty: Grade B
Creativity or Innovation: Grade B
Scientific Significance: Grade B
P-Reviewer: Yang G S-Editor: Liu H L-Editor: A P-Editor: Wang WB