DUBLIN--(BUSINESS WIRE)--The "Global Micromanipulators Market Size, Share & Industry Trends Analysis Report By Application, By Type, By Regional Outlook and Forecast, 2022 - 2028" report has been added to ResearchAndMarkets.com's offering.
The Global Micromanipulators Market size is expected to reach $12.8 million by 2028, rising at a market growth of 4.4% CAGR during the forecast period.
Micromanipulation by robots is a relatively new field. Fundamental physics, sensing, actuation, control approaches, toolsets and systems, and, most significantly, a community have all been developed and evolved over three decades. In addition, micromanipulators are also utilized in biological research and microelectronics to position test probes onto tiny to medium scale integrated circuits and hybrid devices.
Mechanical levers, hydraulic pistons connected by tubes containing non-compressible fluid, electronic stepper motors or linear actuators, or a combination of these approaches in one instrument can all be used to reduce movement. To provide coarse and fine placement, mechanisms with distinct ranges of movement or variable reduction ratios may be combined in one instrument.
Micromanipulators are frequently used alongside microscopes. One or more micromanipulators may be attached to a microscope stage or solidly mounted to a bench next to a microscope, relied on the application.
Human intracytoplasmic sperm injection is a common application of micromanipulation. Under the direct physical direction of an embryologist, a spermatozoon measuring 3 to 5 micrometers wide is injected into an oocyte of roughly 100 micrometers in diameter. A tool holder positioned on the manipulator's output holds a disposable glass micropipette and can be modified to accommodate various tool sizes along with the angle at which the tool is held.
When looking into micromanipulators, there are several types of movement details to examine. The micromanipulator's resolution is measured in micrometers per step, which is the smallest unit of movement it can achieve. The entire travel distance, also known as the working range, refers to the distance that the micromanipulator may move the instrument its holding. Users will undoubtedly notice differences in maximum travel speeds, which is the fastest the instrument handled by the micromanipulator can travel. As mentioned, the working range and maximum speed of travel may differ for different diameters or fine and coarse settings.
For regulating larger and smaller movements, certain micromanipulators intended for utilization with microscopes combine coarse and fine movements in one instrument. Under the low-power objective, the researcher can locate an instrument such as a micropipet in the microscope's field of vision, move the micropipet to the desired location of the specimen, center it under the field of view, and afterward switch to the high-power objective.
Fine movement control is required here for small, controlled motions like softly nearing a cell for patch-clamp recordings or inserting nuclear material into a cell.
Market Growth Factors:
Growth in the frequency of male infertility cases
Women and men who are unable to conceive after one year of intercourse without taking contraception or who have had two or more failed pregnancies are considered infertile. For instance, some couples are incapable to conceive post one year of unprotected sex, and some couples do not have a viable pregnancy after two years.
During the first three months, some couples younger than 30 who are typically healthy are ready to conceive. Intracytoplasmic sperm injection is a typical treatment for infertility in men and women.
The growing success rate of IVF Technology
An egg is fertilized with sperm outside the body during in vitro fertilization (IVF). IVF is a type of assisted reproductive technology (ART), which is a blanket term encompassing therapies that modify sperm or eggs to increase the likelihood of pregnancy. IVF success rates have risen in recent years, especially among older women, which is encouraging for people who want to establish a family through IVF. It is owing to IVF is both physically and mentally demanding, it's essential to safeguard mental health.
Marketing Restraining Factor:
The increased cost of sophisticated micromanipulators
A motorized micromanipulator may be expensive, but for research or medical laboratory operating a large number of micromanipulation tests, the precision and speed of a motorized micromanipulator may be worth the investment. The higher cost of sophisticated micromanipulators makes companies hesitant to adopt micromanipulators.
The significantly higher cost might not be a problem for large enterprises as such large scale firms do not have any financial budget constraints and can heavily invest in the latest technologies and equipment but when it is about small and medium enterprises, financial and budget restraints is an important issue.
Scope of the Study
Market Segments Covered in the Report:
By Application
- Cell
- Industrial
- Others
By Type
- Electric
- Hydraulic
- Manual
By Geography
- North America
- Europe
- Asia Pacific
- LAMEA
Key Market Players
- Narishige Group
- Nikon Healthcare (Nikon Corporation)
- Sutter Instruments
- The Micromanipulator Company
- Sensapex Oy
- Luigs and Neumann
- Scientifica (Judges Scientific plc)
- Siskiyou Corporation
- Leica Microsystems GmbH (Danaher corporation)
- Carl Zeiss AG
For more information about this report visit https://www.researchandmarkets.com/r/w1l81r
