Search Results (323)

Background: Gastric cancer (GC) is a malignant tumor of the gastrointestinal tract, characterized by high mortality rates and responsible for about one million new cases each year globally. Surgery is the main treatment, but achieving radical resection remains a relevant intraoperative challenge. Fluorescence-guided surgery offers clinicians greater capabilities for real-time detection of tumor nodules and visualization of tumor margins. In this field, the main challenge remains the development of fluorescent dyes that can selectively target tumor tissues. Methods: we examined the expression of the most suitable GC markers, including carcinoembryonic antigen cell adhesion molecule-5 (CEACAM5) and Claudin-4 (CLDN4), in GC cell lines. To further evaluate their expression, we performed immunohistochemistry (IHC) on tumor and healthy tissue samples from 30 GC patients who underwent partial gastrectomy at the Digestive System Surgery Unit, AOU Careggi, Florence. Additionally, we validated anti-CEACAM5 expression on patient-derived organoids. Furthermore, we developed a fluorescent molecule targeting CEACAM5 on the surface of GC cells and assessed its binding properties on patient tissue slices and fragments. Results: in this work, we first identified CEACAM5 as an optimal GC biomarker, and then we developed a fluorescent antibody specific for CEACAM5. We also evaluated its binding specificity for GC cell lines and patient-derived tumor tissue, achieving an optimal ability to discriminate tumor tissue from healthy mucosa. Conclusions: Overall, our results support the development of our fluorescent antibody as a promising tumor-specific imaging agent that, after further in vivo validation, could improve the accuracy of complete tumor resection. Full article

Gastrointestinal stromal tumors (GISTs) are rare mesenchymal tumors primarily located in the stomach and small intestine; their occurrence in the terminal ileum is particularly rare. Although GISTs can develop throughout the gastrointestinal tract, cases of perforation in elderly individuals are even less common, posing significant diagnostic and therapeutic challenges. This case report describes an 86-year-old male patient with an acute abdomen caused by a terminal ileum perforated GIST requiring urgent surgical intervention. An immunohistochemical examination of the tumor confirmed a GIST with a GILT (gastrointestinal leiomyogenic tumor) immunophenotype. The rarity of this condition makes it diagnostically challenging, as its symptoms are often nonspecific, and GISTs are frequently overlooked, particularly in older patients. This case supplements the existing literature by emphasizing the importance of considering GIST perforation in the differential diagnosis of an acute abdomen, even in elderly patients and in rare anatomical locations. Full article

The beneficial effect of consuming fruits and vegetables in the prevention of chronic non-communicable diseases and healthy aging is well known. This is attributed to food and vegetable antioxidant and fiber content. The aim of this publication is to communicate the results of recent research on pectin in humans, to propose an increased consumption of fruits and vegetables, or their possible use as a food supplement. A comprehensive narrative review was conducted considering recent publications on pectin. The description of starch, pectin, the physicochemical changes caused by pectin, and the effect of pectin on the activity of amylase are reported. Dietary fiber and gut microbiota in human health are also described, with the production of saturated fatty acids with fewer than six carbon atoms. Finally, health effects such as anti-hyperglycemic and anti-hyperlipidemic activities, preventing and controlling obesity and heart disease, are analyzed, as well as other health effects in tumors, the gastrointestinal tract, and immunity. Considering the beneficial effects of pectin in health and the low consumption throughout the world, it is recommended to promote the consumption of fruits and vegetables to increase pectin intake in the human diet. Full article

Gastrointestinal stromal tumors (GISTs) are the most common mesenchymal tumors of the gastrointestinal tract, primarily driven by activating mutations in KIT (CD117) and platelet-derived growth factor receptor alpha (PDGFRA). The introduction of tyrosine kinase inhibitors (TKIs), especially imatinib, has significantly transformed GIST treatment. However, the emergence of both primary and secondary resistance to imatinib presents ongoing therapeutic challenges. This review comprehensively explores the mechanisms underlying imatinib resistance and evaluates subsequent TKI therapies. Sunitinib, regorafenib, and ripretinib are currently approved as standard second-, third-, and fourth-line therapies, each demonstrating efficacy against distinct mutational profiles. Avapritinib, notably effective against PDGFRA D842V mutations, represents a milestone for previously untreatable subgroups. Several alternative agents—such as nilotinib, masitinib, sorafenib, dovitinib, pazopanib, and ponatinib—have shown varying degrees of success in refractory cases or specific genotypes. Investigational compounds, including crenolanib, bezuclastinib, famitinib, motesanib, midostaurin, IDRX-42, and olverembatinib, are under development to address resistant or wild-type GISTs. Despite progress, long-term efficacy remains limited due to evolving resistance. Future strategies include precision medicine approaches such as ctDNA-guided therapy, rational drug combinations, and novel drug delivery systems to optimize bioavailability and reduce toxicity. Ongoing research will be crucial for refining treatment sequencing and expanding therapeutic options, especially for rare GIST subtypes. Full article

Immunotherapy has emerged as a transformative approach in gastrointestinal (GI) cancers, addressing historically poor survival rates in advanced-stage disease. Immune checkpoint inhibitors (ICIs) targeting the PD-1/PD-L1 axis demonstrate remarkable efficacy in colorectal cancer with deficient mismatch repair (dMMR) or high microsatellite instability (MSI-H), exemplified by trials like NICHE-2 achieving exceptional pathological response rates. However, significant limitations persist, including resistance in some dMMR/MSI-H tumors, minimal efficacy in proficient mismatch repair (pMMR) tumors, and low overall response rates across most GI malignancies due to tumor heterogeneity and immune evasion mechanisms. Predictive biomarkers such as tumor mutational burden (TMB) and PD-L1 expression are crucial for optimizing patient selection, while hypermutated pMMR tumors with POLE mutations represent emerging therapeutic opportunities. In pancreatic adenocarcinoma, where survival remains dismal, combination strategies with chemotherapy and novel approaches like cancer vaccines show promise but lack transformative breakthroughs. Esophagogastric cancers benefit from ICIs combined with chemotherapy, particularly in MSI-H and HER2-positive tumors, while hepatocellular carcinoma has achieved significant progress with combinations like atezolizumab–bevacizumab and durvalumab–tremelimumab surpassing traditional therapies. Biliary tract cancers show modest improvements with durvalumab–chemotherapy combinations. Despite these advances, immunotherapy faces substantial challenges including immune-related adverse events, acquired resistance through cancer immunoediting, and the need for biomarker-driven approaches to overcome tumor microenvironment barriers. This review discusses key clinical trials, therapeutic progress, and emerging modalities including CAR T-cell therapies and combination strategies, emphasizing the critical need to address resistance mechanisms and refine precision medicine approaches to fully realize immunotherapy’s potential in GI malignancies. Full article

Colorectal cancer (CRC) remains one of the most prevalent malignancies of the gastrointestinal tract worldwide, with chronic inflammation recognized as a key factor in its progression. Among pro-inflammatory cytokines, interleukin 8 (IL-8) plays a pivotal role in promoting angiogenesis, tumor cell migration, and metastasis. Elevated IL-8 expression is frequently associated with advanced CRC stages. This study investigated the effects of betulin and its semi-synthetic derivatives, EB5 and ECH147, on IL-8 expression in CRC cell lines characterized by differing malignancy grades. IL-8 transcript and protein levels were quantified using real-time RT-qPCR and a proximity ligation assay, respectively, following compound exposure at 2, 8, and 24 h. Basal IL-8 levels were significantly higher in low-grade CRC cell lines. Among the compounds tested, ECH147 exerted the most pronounced, time-dependent inhibitory effect on CXCL8 expression. Furthermore, molecular docking analyses revealed that ECH147 exhibits stronger binding affinity toward the IL-8 protein compared to conventional chemotherapeutics. These findings suggest that the modification of the betulin structure via the incorporation of a propynoyl moiety enhances both its molecular interaction with CXCL8 and its anti-inflammatory potential. ECH147 and EB5 thus emerge as promising candidates for further development as immunomodulatory agents targeting the IL-8-associated pathway in CRC. Full article

Obesity is a global health crisis with profound implications for cancer risk, particularly within the gastrointestinal (GI) tract. Mounting evidence demonstrates that excess adiposity contributes to the initiation, progression, and poor outcomes of GI malignancies through a constellation of interrelated mechanisms. This review comprehensively examines the biologic pathways linking obesity to cancers of the esophagus, stomach, colon, liver, pancreas, and gallbladder. Chronic low-grade inflammation, driven by adipose tissue-derived cytokines and immune cell infiltration, plays a central role in tumorigenesis via the activation of NF-κB, STAT3, and other pro-oncogenic signaling cascades. Hyperinsulinemia and insulin resistance increase mitogenic IGF-1 signaling, while dysregulated adipokines, particularly elevated leptin and reduced adiponectin, promote cellular proliferation and impair tumor suppression. Dysbiosis of the gut microbiome and alterations in bile acid metabolism generate carcinogenic metabolites that contribute to DNA damage and immune evasion. Additionally, obesity-induced tissue hypoxia fosters tumor growth through HIF-1α-mediated pathways. We further highlight organ-specific associations, such as visceral adiposity’s role in Barrett’s esophagus and hepatocellular carcinoma emerging from metabolic dysfunction-associated steatotic liver disease (MASLD). Importantly, emerging data suggest that weight loss, achieved via lifestyle, pharmacologic, or surgical interventions, may mitigate these carcinogenic pathways and improve tumor biology. As obesity prevalence continues to rise globally, elucidating its mechanistic ties to GI malignancies is essential for risk stratification, prevention strategies, and personalized care. By integrating epidemiologic and molecular insights, this review underscores the need for multidisciplinary approaches to curb the oncogenic burden of obesity and improve outcomes in GI oncology. Full article

Gastroenteropancreatic neuroendocrine neoplasms (GEP-NENs) are a varied group of tumors that originate from neuroendocrine cells found throughout the gastrointestinal tract. These tumors encompass a broad spectrum of biological behaviors, ranging from slow-growing, well-differentiated neuroendocrine tumors (GEP-NETs) to aggressive and poorly differentiated neuroendocrine carcinomas (GEP-NECs), complicating their accurate classification and effective treatment. While advances in molecular research have refined our understanding of these tumors, their complexity, unpredictable progression, and differential response to therapies remain major clinical hurdles. A significant clinical challenge is the accurate grading and diagnosis of GEP-NENs, which is traditionally reliant on subjective methods. However, innovative technologies, such as artificial intelligence-based diagnostics, multi-omics approaches, and precision oncology, are now offering solutions for more precise and reliable classification. Meanwhile, emerging therapies aiming to activate the immune response or modify the tumor environment present promising avenues for improved outcomes. Realizing the full potential of these advances will require a thoughtful integration of molecular insights with standardized diagnostic practices and evolving therapeutic strategies, ensuring that progress in research meaningfully informs and enhances patient care across diverse clinical settings. This review discusses new advancements and explores future directions toward personalized and effective treatments for GEP-NENs. Full article

Ionizing radiation (IR) poses a dual challenge in medicine; while essential for cancer therapy, it inflicts collateral damage to normal tissues, particularly the gastrointestinal (GI) tract. High-dose IR triggers acute radiation syndrome (ARS), characterized by crypt stem cell depletion, mucosal barrier disruption, inflammation, and potential progression to fibrosis and secondary malignancy. Emerging evidence identifies the epithelial kinase doublecortin-like kinase 1 (DCLK1)—highly expressed in GI tuft cells and cancer stem-like cells—as a master regulator of post-IR responses. DCLK1 integrates DNA repair (via p53/ATM), and survival signaling (via NF-κB, TGF-β, and MAPK) to promote epithelial regeneration, yet these same mechanisms contribute to therapy resistance and oncogenesis. DCLK1 further modulates the immune microenvironment by skewing macrophages toward an immunosuppressive M2 phenotype, enhancing tissue remodeling, angiogenesis, and immune evasion. Preclinical studies demonstrate that DCLK1 inhibition sensitizes tumors to radiotherapy while preserving mucosal repair. Therapeutic strategies targeting DCLK1, alongside radioprotective agents, immunomodulators, and senolytics, may enhance regeneration, limit fibrosis, and eradicate therapy-resistant cancer stem cells. This review highlights DCLK1’s dual role in regeneration and tumorigenesis and evaluates its potential as a therapeutic target and biomarker in IR-induced GI damage. Full article

Inflammatory bowel diseases (IBDs), including Crohn’s disease (CD), ulcerative colitis (UC), and IBD-unclassified (IBD-U), are chronic inflammatory disorders of the gastrointestinal tract. Chronic inflammation in the course of IBD is an important initiating factor of fibrosis of the intestinal wall. Intestinal fibrosis is one of the most common and important complications of IBD and, due to the irreversibility of the process and the need for surgical treatment, currently poses a major clinical challenge. In this review, we presented in detail the process of intestinal wall fibrosis at the molecular, immunological, and clinical levels. We characterized the mediators, including transforming growth factor β (TGF-β), tumor necrosis factor-α (TNF-α), and others participating in this process. We also described the type 2 epithelial–mesenchymal transition (EMT) process closely associated with chronic inflammation, leading to excessive development of connective tissue in the intestinal wall in the course of IBD. Full article

Gastroenteropancreatic neuroendocrine tumors (GEP-NETs) are a family of tumors that arise throughout the gastrointestinal tract. These tumors are heterogeneous, with complex clinical symptoms and tumor behaviors, and demonstrate rising incidence rates worldwide. In addition to their nature, GEP-NETs possess limited diagnostic and therapeutic options, which results in poor survival rates for patients with metastatic tumors. Given these findings, a further analysis of these tumors’ biology is needed to determine new therapeutic strategies. The tumor microenvironment (TME) consists of several residual cell populations and non-cellular components whose altered behavior creates a tumor-supportive niche. Studies from other cancers demonstrate the TME’s significance in tumor initiation, progression, and spread. In this review, we discuss efforts to characterize the TME in GEP-NETs. Preliminary studies of the immune system in GEP-NETs have led to several major clinical trials, with limited success. Efforts to target signaling crosstalk between cancer-associated fibroblasts, vascular endothelial cells, and tumor cells has led to major discoveries and multiple approved therapies. Finally, alterations to the extracellular matrix may lead towards an improved understanding of GEP-NET development, behavior, and improved detection methods. While research has rapidly expanded our knowledge within the last decade, further work is needed to bring our understanding of the GEP-NET TME in line with other rare cancers. Full article

Gastrointestinal metastases of malignant melanoma are relatively common and pose significant challenges to clinical management due to their complex presentation and resistance to therapy. Early detection and a multidisciplinary treatment approach are critical to improve outcomes. This review highlights targeted treatment strategies for gastrointestinal melanoma metastases, focusing on current therapeutic options and the mechanisms underlying drug resistance. Advances in immune checkpoint inhibitors (ICIs) and targeted therapies, such as BRAF and MEK inhibitors, have revolutionized melanoma treatment, yet their efficacy is often limited by the emergence of resistance mechanisms, including genetic mutations, tumor microenvironment factors, and immune escape. Herein, we explore potential resistance biomarkers for resistance and emerging targeting treatments targeting these pathways. Understanding the molecular and cellular mechanisms driving drug resistance remains critical to overcoming therapeutic limitations, emphasizing the importance of collaborative efforts in research and clinical practice to refine therapeutic approaches and improve survival rates for patients with metastatic melanoma involving the gastrointestinal tract. Future directions include optimizing combination therapies and leveraging precision medicine to address resistance and disease progression. Full article

Colorectal cancer (CRC) remains the leading cause of morbidity and mortality for both men and women worldwide. Tumor-associated macrophages (TAMs) are the most abundant immune cells in the tumor microenvironment (TME) of solid tumors, including CRC. These macrophages are found in the pro-inflammatory M1 and anti-inflammatory M2 forms, with the latter increasingly recognized for its tumor-promoting phenotypes. Many signaling molecules and pathways, including AMPK, EGFR, STAT3/6, mTOR, NF-κB, MAPK/ERK, and HIFs, are involved in regulating TAM polarization. Consequently, researchers are investigating several potential predictive and prognostic markers, and novel TAM-based therapeutic targets, especially in combination therapies for CRC. Macrophages of the gastrointestinal tract, including the normal colon and rectum, produce growth hormone-releasing inhibitory peptide/somatostatin (SRIF/SST) and five SST receptors (SSTRs, SST1-5). While the immunosuppressive function of the SRIF system is primarily known for various tissues, its role within CRC-associated TAMs remains underexplored. This review focuses on the following three aspects of TAMs: first, the role of macrophages in the normal colon and rectum within the broader context of macrophage biology; second, the various bioactive factors and signaling pathways associated with TAM function, along with potential strategies targeting TAMs in CRC; and third, the interaction between the SRIF system and macrophages in both normal tissues and the CRC microenvironment. Full article

Background/Objectives: Mesenchymal tumors of the gastrointestinal tract are rare and can pose significant diagnostic challenges, particularly when located in atypical sites such as the sigmoid colon. Gastrointestinal stromal tumors (GISTs) are often the primary consideration based on imaging findings; however, other spindle cell neoplasms, such as schwannomas, must also be considered. We present a case of a sigmoid colon schwannoma initially suspected to be a GIST and provide a literature review on the diagnostic and therapeutic challenges associated with these tumors. Methods: A literature review based on articles from 2015 to 2024 was conducted to identify cases of mesenchymal tumors of the colon misdiagnosed as GISTs. The review focused on the role of imaging, endoscopic biopsy, and immunohistochemistry in differentiating these neoplasms. Additionally, treatment approaches, including surgical resection versus targeted therapy, were assessed. Results: The literature review revealed that GISTs and schwannomas share overlapping imaging characteristics, including submucosal location, hyperintensity on T2-weighted MRI, and contrast enhancement. However, immunohistochemical markers remain the gold standard for differentiation. Studies also highlighted the increasing role of minimally invasive diagnostic techniques, such as fine-needle aspiration and molecular profiling, in achieving a definitive preoperative diagnosis. Unlike GISTs, which often require adjuvant therapy with tyrosine kinase inhibitors, schwannomas are typically treated with surgical excision alone, with a low risk of recurrence. Conclusions: Current evidence supports a multimodal diagnostic approach combining imaging, biopsy, and immunohistochemistry to accurately classify mesenchymal tumors of the colon. While imaging can suggest a probable diagnosis, histopathological confirmation is essential before initiating targeted therapy. Full article

Gastrointestinal (GI) tract diseases are among the most common diseases in the world, resulting in more than 8 million deaths. The majority of these deaths occur due to cancer or tumors. Early detection of these tumors can greatly lower the mortality rate. In this work, an implantable multiple-input-multiple-output (MIMO) antenna sensor is constructed for GI tract devices to detect the tumor. The implantable MIMO antenna sensor has two embedded antennas, each operating at 915 MHz. Both elements of the system are placed 0.6 mm apart from each other (edge-to-edge). The volume consumed by this design is measured to be 7 × 7 × 0.25 = 12.25 mm³. It occupies a very small volume due to miniaturization achieved using meandered resonating structures and a high-permittivity substrate. It maintains stable radiation performance (gain = −26.2 dBi at resonance). The antenna units are decoupled by maintaining a proper gap between them and adding a slot on the bottom side. An isolation level greater than 28.7 dB is achieved using these approaches. Since the MIMO system utilizes two antenna elements, its effectiveness is verified using MIMO parameters. At SNR = 20 dB, the channel capacity reaches 8.75 bps/Hz. The proposed antenna ensures high channel capacity and enables seamless communication while simultaneously acting as a sensor to monitor internal changes in the observed region. The frequency response change with variations in the permittivity of human tissue, enabling its sensing capability. Moreover, the antenna sensor maintains stable radiation and S-parameter performance throughout the sensing mechanism. Thus, the proposed solution is suitable for biomedical implants requiring both high-data-rate communication and sensing. Full article