Hu Femto Forceps for corneal incisions

Hu Femto Forceps Key Features: Mechanism: Cross-action mechanism for precise control Tip Design: Fine point tips for delicate incisions Usage: Specifically for femtosecond laser-constructed corneal incisions Product Highlights: Precision Opening: Fine point tips are expertly designed to open femtosecond laser-constructed corneal incisions, including arcuate and primary corneal incisions, with ease and precision. Complete Separation: The cross-action mechanism ensures thorough separation of incisions along their entire length, enhancing the accuracy and effectiveness of the procedure. Ergonomic Design: The handle's curved shape provides comfort and control, allowing for easy use at the slit lamp even with the patient in an upright position. Designed for Precision in Every Incision: Hu Femto Forceps provide the fine control needed to open delicate corneal incisions, ensuring accuracy and ease in every procedure.

Ever thought about how our feet are a masterpiece of evolution? Nature’s engineering at its best. Now, the SoftFoot Pro is taking prosthetics to the next level by mimicking this design. Its flexible structure and arch mechanism provide stability on any surface. This is proof that nature-inspired innovation can revolutionize industries. Could this be the future of prosthetics? #HealthTech #Healthcare #MedicalInnovation

There are some features that people consistently look for in their prosthetics: comfort, reliability, and safety. Suction-based artificial limbs, in particular, are subject to higher scrutiny because of how integral they are to the day-to-day functioning of users. For example, amputees need to feel confident that the prosthetic remains securely attached to their limb when they move in ways that might disrupt suction. This is why it's critical that the diaphragm pump inside the prosthetic can start under full vacuum. It guarantees that wearers don’t have to worry about whether they will have to deal with a potentially humiliating and dangerous situation. Dynaflo's 2000 Series micro pump was custom designed with this purpose in mind. It is also the highest-performing pump of its size. If you want to create prosthetics that stand out to a selective base of buyers, design them with a custom diaphragm pump that can ensure every aspect of your design is efficient and reliable. What other components are essential to the success of your prosthetic devices? #dynaflo #custom #diaphragmpumps #prosthetics #limb #MechanicalEngineers

Let’s Talk About Thermoplastics! Thermoplastic materials are revolutionizing orthopedic and rehabilitation devices with their innovative design and practical features: - Customizable Fit: Softens at temperatures above 80°C, allowing for a fully personalized fit. - Safe and Durable: Made from non-toxic polymer, combining strength with flexibility. - Lightweight Advantage: Weighs just 1/4 of traditional plaster casts, enhancing comfort and usability. - Breathable Design: The hexagonal mesh structure promotes airflow and wicks away excess moisture. Heating Methods: Oven, water bath, iron, or even a hairdryer—adaptability at its finest! Discover a smarter, lighter, and more versatile solution for orthopedic care. #bracoo #supportforlife

A motorless, flexible prosthetic foot inspired by the anatomy of the human foot! Ever wished your prosthetic foot felt more like... your actual foot? Well, the SoftFoot Pro is here to ditch the motors and embrace the genius of nature! Inspired by how our own feet work, the SoftFoot Pro is all about flexibility. It's got a special bendy design, just like the plantar fascia in your foot (that hidden band that helps you walk smoothly). This means your energy flows naturally with each step, and uneven ground becomes a breeze – just like for us lucky folks with two good feet. Think about it - our bodies are pretty amazing, right? Millions of years of fine-tuning by evolution! So why mess with a good thing? This proves that tech that copies nature just works better. It's not about fancy motors, it's about feeling more natural and moving with confidence. Follow me Diella Uka for more. Join my newsletter: diellauka.substack.com #tech#ai #technology #healthcare #health

In accordance with several interviews conducted, a prosthetic device or prosthesis plays a significant role in rehabilitation when an arm or other extremity is amputated or lost. For many people, an artificial limb improves mobility and the ability to manage daily activities, as well as provides the means to stay independent. A number of factors that are involved in choosing a prosthesis include the location and level of the amputation, the condition of the remaining limb, and the activity level, particularly for a prosthetic leg or foot. Asia-Pacific is expected to witness the highest CAGR during the analysis period, owing to the increase in the research and development expenditure for the development of innovative and advanced products that increases the demand for the advanced prosthetic devices packed with enhanced benefits, increase in awareness about the prosthetic amputation procedures and increase in government support for amputation procedures among the amputees and other related trends adopted by the market players. Explore More: https://lnkd.in/dvjAWGxi #prosthetic #prostheticdevice #healthcare #healthtech https://lnkd.in/dvjAWGxi

Designing Bionic Limbs: Superhero Inspiration or Realism? 🦾 If you were in the business of creating prosthetics, you might assume that most amputees prefer a realistic look that blends in. But that’s a big assumption—and challenging assumptions is key in design. Open Bionics has turned this idea on its head by offering amputees a choice. They've reimagined prosthetics, moving away from the traditional skin-tone look to bold, eye-catching designs that empower wearers to stand out with pride. I appreciate how they have understood something about their audience and offered the ability for individuals to express themselves — a shift that challenges old biases and celebrates uniqueness. Tilly Lockey is a great ambassador for the company. Follow Tilly for more inspiration and to see how she’s turning her bionics into a statement of strength and creativity: https://lnkd.in/eAd_ZREG and see OpenBionics.com for more information on their products. Image © Open Bionics #innovation #prosthetics #design

There are three ways to adjust the mechanical properties (such as elasticity and stiffness) of a lattice structure: Changing the material Adjusting the density of the pattern Modifying the design of the lattice Today, I want to talk about density. When the pattern density is low, the structure becomes softer and more flexible, with increased shock absorption capability. Lower density creates more empty space, resulting in a lighter and more flexible structure. This is ideal for absorbing impact and dispersing energy. For example, if you look inside a helmet, you’ll find foam designed to absorb impact. Similarly, a low-density lattice structure disperses the force when your head hits the ground, protecting your brain. Shoes designed for travel are also lightweight and flexible for comfort. These lattice structures absorb the impact and reduce the strain on your feet, making walking less tiring! Now, what happens when the density is high? With a denser pattern, the structure becomes stiffer and more durable. This can be applied to artificial joints or bone implants, providing strength similar to real bones. Therefore, If shock absorption is required, reduce the density. If high strength is needed, increase the density. Flexible materials work better with low-density patterns, while rigid materials are more suitable for high-density patterns. Where have you seen lattice structures being used? Feel free to share in the comments below! 😘 visit us 👉 carima.com #LatticeStructure #3DPrinting #DensityControl #AdditiveManufacturing #EngineeringDesign  #MaterialScience #LightweightDesign #MedicalImplants #ProductDesign #FlexibleMaterials  #MechanicalEngineering #ImpactAbsorption

*MINUS LENTICULAR LENS* A minus lenticular lens is a specialized type of eyeglass lens designed to correct high levels of myopia (nearsightedness). It has a central area with the prescribed minus power surrounded by a peripheral zone of lesser power or thickness. This design helps reduce the overall thickness and weight of the lens, making it more comfortable and cosmetically appealing for the wearer. The peripheral zone in a minus lenticular lens helps to minimize the edge thickness, which is particularly beneficial in high minus prescriptions where lenses can become quite thick and heavy. These lenses are often used when conventional minus lenses would be too thick or heavy for the patient. #Optometry #optometrist #Opticals *T&C*

Lenticular lenses are specialized optical lenses designed to reduce the weight and thickness of corrective lenses for individuals with high myopia (nearsightedness) or hyperopia (farsightedness). These lenses feature a central optical zone that provides the necessary prescription strength, while the surrounding peripheral area is thinned out, making the overall lens lighter and more comfortable to wear. The design minimizes the bulky appearance that is often associated with high-prescription lenses, enhancing both the aesthetic appeal and the practicality for the wearer. This makes lenticular lenses an excellent choice for those requiring strong vision correction without the added burden of heavy, thick eyewear. #PSNVision #myopia #hyperopia