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1.
Artículo | IMSEAR | ID: sea-227817

RESUMEN

Automated sample processing systems, such as handlers, have played a role in expediting specimen handling, especially during emergencies. Additionally, automated analyzers have contributed to increased testing efficiency by enabling high throughput screening and quicker access to information. This article explores how the use of automated technology in laboratories has greatly improved efficiency and accuracy in healthcare settings. By examining the integration of automated systems for processing samples and conducting tests this review highlights the impact automation has had on outcomes. One notable benefit is reduced turnaround times, streamlined workflows, and enhanced precision in diagnostic testing. The incorporation of laboratory information management systems (LIMS) has further improved efficiency through data integration and real-time monitoring. Accuracy is an aspect of processes, and automated systems meticulously adhere to predefined protocols, resulting in reduced error rates and consistently reliable results. The introduction of intelligence (AI) has enhanced accuracy, particularly in image analysis within the pathology and radiology fields. Effective clinical management of laboratory automation entails technology selection planning for implementation and ongoing monitoring. Interoperability between systems, continuous education on advancements, and efficient workforce management are all crucial components for successful implementation. Despite challenges faced along the way, adopting laboratory automation is essential for optimizing laboratories' workflows while delivering timely information. The review consistently affirms laboratory automation's valid influence in improving efficiency and accuracy within healthcare environments.

2.
Artículo | IMSEAR | ID: sea-227588

RESUMEN

A hernia is a condition characterized by the protrusion of an internal organ, often part of the intestine, through a weakened area in the surrounding muscle and tissue. Surgical intervention is the primary treatment option for most hernias, with procedures known as herniorrhaphy or hernioplasty. Traditional open surgery involves a sizable abdominal incision, granting direct access to the herniated tissue. Alternatively, minimally invasive laparoscopic surgery utilizes small incisions and specialized instruments, including a camera, for repair. Synthetic or biological mesh is frequently employed to reinforce weakened muscle or tissue, reducing hernia recurrence risk. Mesh is integral to hernia treatment, providing critical reinforcement and enabling tension-free closure. This article's rationale lies in the necessity for a comprehensive comparative analysis of hernia repair techniques, with a particular focus on the influence of different mesh types in abdominal hernia surgery. This research, initiated on 17 October 2023, involved an exhaustive review of existing literature via databases like PubMed, Web of Science, and Cochrane, employing a broad range of medical terminology combinations. The management of hernias has evolved significantly, and open hernia repair, especially using the Shouldice technique, remains valuable when the mesh is unavailable or undesired. Modern tension-free repair techniques, such as Lichtenstein and plug and patch, provide similar outcomes. Laparoscopic hernia repair, despite the longer surgery duration, offers advantages in terms of recurrence, recovery, and postoperative discomfort. Mesh selection is vital, with options like polypropylene, polyester, composite, biological, and 3D offering tailored attributes. The choice should consider patient history, hernia type, and surgeon expertise, necessitating awareness of evolving techniques and materials for optimal outcomes in hernia repair.

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