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The use of Disposable biopsy punches has become routine in a variety of industries, from healthcare to forensic science and manufacturing. These small but crucial instruments offer many benefits, ranging from convenience and sterility to cost-effectiveness and reliability.
Disposable biopsy punches are often preferred over reusable biopsy punches because of their convenience and cost-effectiveness. Reusable punches require sterilization between uses, which takes time and resources. Disposable punches streamline your workflow efficiency and enable you to focus your efforts on your results. For high-volume procedures, this can be critical...more
Protect the investment you have made in surgical instruments and improve the outcomes of your surgeries by regularly inspecting your surgical scissors. Regular inspections ensure that your surgical scissors are in optimal working condition, allowing you to promptly identify and address common issues like dullness, misalignment, or damage. Inspections also help mitigate risks associated with the use of defective or damaged surgical scissors and promotes surgical safety, reducing the likelihood of adverse outcomes. By addressing minor issues early on and following regular cleaning, sterilization, and storage protocols, you can extend the usable lifespan of your surgical instruments, reducing the need for frequent replacements and the associated costs...more
Cell therapies have emerged as a promising approach for treating various medical conditions, offering the potential for regenerating damaged tissues, restoring normal cellular function, or even acting as cytotoxic cells that target and destroy diseased cells such as cancer cells. As the field of cell-based therapeutics and regenerative medicine continues to advance, ensuring the quality and safety of cell-based therapies is of paramount importance. Quality control measures play a critical role in the manufacturing process of cell therapies, with trans-epithelial electrical resistance (TEER) emerging as a valuable tool for assessing the integrity and functionality of cells used in these therapies. Here, we highlight the use of TEER for quality control of Retinal Pigment Epithelial (RPE) cells, a promising cell therapy for degenerative retinal diseases1...more
Cell therapies have revolutionized the field of regenerative medicine, offering promising treatments for a variety of medical conditions. Maintaining the safety, efficacy, and consistency of cell-based therapies is paramount for their successful application in clinical settings. Quality control measures play a vital role in evaluating the quality of these therapies, from development to administration. This article explores the current approaches to quality control in cell therapies, including the utilization of functional measurement techniques such as transepithelial electrical resistance (TEER), to ensure the quality and safety of these promising treatments...more
Transepithelial electrical resistance (TEER) has emerged as a powerful tool in ophthalmology research and has become a standard method for study of retinal pigment epithelial (RPE) cell biology and the development of these cells as a therapeutic for retinal diseases such as Age-Related Macular Degeneration (AMD). The application of TEER in assessing the barrier function and integrity of RPE cell layers has significantly advanced our understanding of retinal diseases and paved the way for innovative therapeutic interventions including some of the most promising cell therapies to date. This article explores the use of TEER in ophthalmology research, with a focus on studies utilizing RPE cells for both research and clinical applications...more
Join WPI May 5 - 9 in Seattle, Wash., for a showcase of new research and the opportunity to network with colleagues and industry thought-leaders...more
It has been found that transgenesis of vectors using Tol2 or other transposon-based systems promote stable expression. A standard pressure-based microinjection approach presents greater reliability, precision, and overall control when delivering material to embryos, often preferred over electroporation in zebrafish studies...more
World Precision Instruments (WPI) is pleased to announce their strategic partnership with TotalLab, paving the way for the integration of 21 CFR Part 11 compliance into its esteemed EVOM family of products...more
For over 55 years, World Precision Instruments (WPI) has been a leading global manufacturer and provider of innovative research equipment and laboratory supplies to the life sciences, pharmaceutical, health care, and industrial markets.
Our proven technology supports complex model development, including animal models and organ-on-a-chip systems, providing researchers with the tools to identify and validate drugs pre-clinically to understand mechanism of action, dosage, administration, drug-drug interactions, patient-specific reactions, pharmacokinetics, pharmacodynamics, safety and efficacy. Our areas of innovation focus on tissue and cell biology, fluidics, animal physiology and electrophysiology. With an extensive global network and a passion for innovation, WPI provides novel solutions to customer’s daily challenges.
Browse our collection of premium lab equipment and supplies today to outfit your facility for success.