Monthly Archives: May 2019

Current Trends Transforming the Medical Implant Industry

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Medical implants include a variety of materials for different parts on the body. Newest innovations are transforming the medical implant industry using the latest technology. The latest advancements are challenging the industry to create innovative products using new and traditional materials. Here are some of the latest trends taking hold of the industry.

Stainless Steel

Stainless steel has been used for bone implants such as hip replacements for years. The metal is highly regulated with under the ASTM F138 guidelines. The metal has used in dental implants as well as creating fine wire and bars for various other purposes. Stainless steel has been in use since the mid-1990s and continues to be a viable material for medical implants.

Surgical Mesh

Surgical mesh is a sheet used to permanently or temporarily support various tissues and organs in the body during surgery. Biological and inorganic materials weave together to create the sheets. The material has been in the news regarding the potential side effects and safety of use.

3D-Printed Bio-Materials

The creation of 3D printers has created a new wave of medical implants created by scientists. A microfluidic approach helps them engineer tissues using implantable materials to create exact human tissue replications. The potential for this new technology is only barely being discovered.

Silicone Gel

Silicone gel features a texture that is rubber-like or liquid and generally heat resistant. The inert polymer has no known reactions or allergies in humans. The material is most commonly used in breast implants. Currently, the tracheal stent market is growing. If leaked into the body, the silicone may cause problems for the patient.

Research into new materials and technologies in the medical implant industry is changing the face of medicine. As new technologies are developed, patients can expect to receive better care with materials designed to work with their bodies. The long-term solutions can only be expected to continue to grow as researchers learn more about how to use the available materials in the body.

Chaos Engineering

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When you are browsing your favorite sites, it is highly unlikely that they will experience downtime during your experience. For all of the complexity behind computer networks and user devices, technology is probably more reliable than it should be. With this said, there is always the possibility of technology going haywire, and your favorite website could be down indefinitely. Even worse, the site that you host could go down, and you end up in an IT disaster recovery frenzy. In either case, consumers will flock to social media to express displeasure and directly inquire as to when the site(s) will function again. You surely do not wish to endure this experience, and chaos engineering may be able to help with that.

Simulating Chaotic Environments

For most personal and professional websites, user traffic follows specific trends, and hosting receives a boost for increased traffic. Activity on the infrastructure of website factors into the daily routine of business and is usually a second thought. However, unexpected events are apart of business and disaster may strike at a moment’s notice. Website owners prepare for these circumstances; many companies turn to chaos engineering to similar strenuous environments on sites. For the uninitiated, chaos engineering involves introducing the undesired activity to a stable climate to simulate disaster scenarios.

Creating Stress Tests

Chaos engineering was popularized by Netflix roughly one decade ago, and these tests have proven fruitful. Netflix is one of the most frequented platforms in history and having a stable environment is pivotal to that type of business model. According to technology experts, chaos engineering is most beneficial when changes begin small and gradually increase over time. Performing these types of tests will allow web administrators to gain a more thorough understanding of the platform at hand. Chaos engineering will inevitably become more common as the performance of websites and virtual platforms becomes more important.