Assessment of pre-, peri-, and post-surgical practices for elective colorectal patients in a model 4 hospital in Ireland.

INTRODUCTION: The ERAS protocol is a set of international guidelines established to expedite patients' discharge after colorectal surgery. It does this by aiming to prevent postoperative complications early, and return the patient to normal function allowing earlier discharge. Complications such as PONV, DVT, ileus and pain are common after surgery to name a few, and delay discharge. Early treatment and prevention of these complications however is suggested to aid a patients' return to home at earlier rates than traditional practice. METHODS: A prospective chart review and questionnaire was performed on patients undergoing colorectal surgery in UHL in a 6-month period from February to September 2023. Patients were approached on the 3rd day postoperatively and informed about the project. Exclusion criteria included patients who went to HDU or ICU postoperatively. RESULTS: In total, 33 patients were recruited. A target of greater than 70% compliance was reached for a variety of the elements of the ERAS protocol such as laparoscopic surgery, preoperative assessments, nutritional drinks, LMWH, oral intake within 24 h of surgery, and intraoperative antiemetics. Unsatisfactory compliance was found with documentation of postoperative antibiotics use of preoperative gabapentin. CONCLUSION: UHL has a satisfactory compliance of over 70% with a large variety of elements of the ERAS protocol. Areas of improvement required include postoperative antibiotic and preoperative gabapentin usage. With the collective effort of the multidisciplinary team, along with education, the ERAS protocol can successfully be applied and implemented in a model 4 hospital in Ireland.

Artificial intelligence in digital histopathology for predicting patient prognosis and treatment efficacy in breast cancer.

INTRODUCTION: Histological images contain phenotypic information predictive of patient outcomes. Due to the heavy workload of pathologists, the time-consuming nature of quantitatively assessing histological features, and human eye limitations to recognize spatial patterns, manually extracting prognostic information in routine pathological workflows remains challenging. Digital pathology has facilitated the mining and quantification of these features utilizing whole-slide image (WSI) scanners and artificial intelligence (AI) algorithms. AI algorithms to identify image-based biomarkers from the tumor microenvironment (TME) have the potential to revolutionize the field of oncology, reducing delays between diagnosis and prognosis determination, allowing for rapid stratification of patients and prescription of optimal treatment regimes, thereby improving patient outcomes. AREAS COVERED: In this review, the authors discuss how AI algorithms and digital pathology can predict breast cancer patient prognosis and treatment outcomes using image-based biomarkers, along with the challenges of adopting this technology in clinical settings. EXPERT OPINION: The integration of AI and digital pathology presents significant potential for analyzing the TME and its diagnostic, prognostic, and predictive value in breast cancer patients. Widespread clinical adoption of AI faces ethical, regulatory, and technical challenges, although prospective trials may offer reassurance and promote uptake, ultimately improving patient outcomes by reducing diagnosis-to-prognosis delivery delays.

Image-based multiplex immune profiling of cancer tissues: translational implications. A report of the International Immuno-oncology Biomarker Working Group on Breast Cancer.

Recent advances in the field of immuno-oncology have brought transformative changes in the management of cancer patients. The immune profile of tumours has been found to have key value in predicting disease prognosis and treatment response in various cancers. Multiplex immunohistochemistry and immunofluorescence have emerged as potent tools for the simultaneous detection of multiple protein biomarkers in a single tissue section, thereby expanding opportunities for molecular and immune profiling while preserving tissue samples. By establishing the phenotype of individual tumour cells when distributed within a mixed cell population, the identification of clinically relevant biomarkers with high-throughput multiplex immunophenotyping of tumour samples has great potential to guide appropriate treatment choices. Moreover, the emergence of novel multi-marker imaging approaches can now provide unprecedented insights into the tumour microenvironment, including the potential interplay between various cell types. However, there are significant challenges to widespread integration of these technologies in daily research and clinical practice. This review addresses the challenges and potential solutions within a structured framework of action from a regulatory and clinical trial perspective. New developments within the field of immunophenotyping using multiplexed tissue imaging platforms and associated digital pathology are also described, with a specific focus on translational implications across different subtypes of cancer. © 2024 The Authors. The Journal of Pathology published by John Wiley & Sons Ltd on behalf of The Pathological Society of Great Britain and Ireland.