Need for Precision Encourages Technology Advancement in Micromanipulators Market

24 Jun
2016

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In 2016 big brands, specializing in energy –based, medical equipment and serving the demands for aesthetic and surgical devices are observed introducing advanced micromanipulators. Ophthalmic use has not gone unnoticed, say research analysts at Allied Market Research, studying the demand, size and share and growth of the micromanipulators market. Today, many manufacturers are focusing on offering precision as well as serving the personalized requirements often demanded by companies active in microsurgical application, embryo reconstruction, intra-cytoplasmic sperm injection, Semiconductors and microelectronics, flat screens and others.

New micromanipulator offers surgeons high precision
In a recent incident UltraPulse made headlines by introducing UltraPulse DUO CO2, which is a highly advance platform for medical professionals. The company also launched LINK - one of its kind communication channels, built for ENT specialists. UltraPulse demonstrated the benefits of its platform at the much awaited European Laryngological Society ‘s 11th congress held between June 8th to 11th 2016, Genoa Italy. Past four years, the company has been a performer when it comes to precision as well as quality product particularly in laser microsurgery segment. Moreover, the Company’s new product that comes with an ultra-precise Digital AcuBlade has turned several heads for its scanning micromanipulator abilities.

In addition, the robust CO2 laser fiber property within the platform has brought UltraPulse fame. Echoing his sentiment about the platform Marc Remacle, M.D., Ph.D., at the Centre Hospitalier de Luxembourg said "Providing precise, individualized patient care can be challenging for ENT surgeons because of the broad spectrum of surgical situations that can arise during the procedure." Remacle further explained "With the combined modality of the CO2 laser and the easy shift between free beam and fiber deliveries I can delicately address any clinical challenge while preserving healthy tissue, which is very important for the patient's recovery and comfort." Industry experts are of the faith that such innovations in the micromanipulators market result in better quality products.

For more information visit at: https://www.alliedmarketresearch.com/micromanipulators-market

Micromanipulators help handle sensitive samples

Several leading science enterprises, developing and selling devices, consumables to the IVF labs are focusing on inventing micromanipulators that can handle sensitive samples. These enterprises aim at offering end –users’ premium products that can ensure highest quality standards as well as performance. One such company Eppendorf had made a bold move in 2015 by introducing TransferMan® 4m. Besides demonstrating its technical excellence, the equipment stunned medical professionals with its user friendly capabilities. Commenting on this innovation Dr. Rudolf Walczak, a Global Product Manager - Cell Handling at Eppendorf said “We are happy to make Eppendorf cell manipulation solutions available for IVF customers in the U.S.”. Walczak further explained “It makes us proud that in the future Eppendorf products will make a positive contribution to the work of embryologists and the life of patients alike.” The TransferMan® 4m has been classified under 21 CFR 884.6150., U.S as assisted reproduction microinjector as well as micromanipulator medical equipment. Many companies like Eppendorf are demonstrating excellent equipment for uses including ICSI, PGD and associated methods.

Educators introduce micromanipulator in curriculum
Today teachers are trying their best to match the local business with the school curriculum. Educators are of the faith that this would help in creating a dynamic environment where their students can easily develop an interest in different worksite and micromanipulator is one such discipline. Two teachers, who worked at “The Micromanipulator Company”, located in Carson City received a sum of $1,000 each for being a part of a program that links businesses and teachers to teach their pupils about career. These teachers also work with the company, which enabled them to show their student how to apply micromanipulator in industrial manufacturing. Such educational programs initiated by schools and other institutions can open new avenues for the micromanipulators market.

Demand for smaller micromanipulators continues
Micromanipulators are mainly used for different procedures that calls for precision, including cell manipulation and medical surgeries. These procedures require greater dexterity that human hand fails to achieve at times. Manipulators that form a part of the microscope or robots are expensive and are not user friendly. But a new technology aims at manufacturing handheld versions of the equipment, which will not only be cheaper but also easy to operate. This handled equipment takes into considerations important factors such as involuntary movements as well as vibrations, by hands to manipulate with great precision.

It all started when workers at the University of Electro-Communications based in Tokyo teamed up with scientists in Thailand to develop a strong 2D portable micromanipulator for applications such as cell manipulation. The group of researchers aimed at simplifying the design so that they can develop a finely – tuned and robust control. Care was taken to calibrate the manipulator so that it could compensate for the vibrations of the human hand.
Several scientists like the team discussed above have gained success in optimizing the performance of tracking with the handheld device over the past five to six years.

Robots cooperate for microscopic manipulation
For any robotic manipulation of samples that is measured in microns, researchers require both dexterity as well as precision. Several tests are being conducted to ensure sufficient flexibility in the manipulators and end-effectors. Scientists believe that these attributes will enable the manipulators to conveniently handle the difference in sample shape and size and safeguard it from damages including perforation. Hamlyn Center for Robotic Surgery of Imperial College London had performed a similar experiment and addressed all the challenges that remained unanswered so far.

Watch this interesting video that guides your understanding about the micromanipulators market: https://youtu.be/hOkCn_5WFn8

Akhilesh Prabhugaonkar

Author's Bio- Akhilesh Prabhugaonkar holds a bachelor’s degree in Electronics Engineering from the reputed Vishwakarma Institute of Technology. He has a special interest in the fields of forensics, world history, international relations and foreign policy, sports, agriculture, astronomy, security, and oceanography. An ardent bibliophile and melophile, Akhilesh loves to write on topics of his interest and various other societal issues. This love for writing made him enter the professional world of content writing and pursue his career in this direction.

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