The lack of pipette tips has many implications for the field of biomedical research. A shortage in this essential instrument can hinder the ability to test diseases or identify a new drug. The shortage has led to a rush to replace existing pipettes with new ones. Many labs are unable to obtain the tips they need due to the shortage. While this has slowed some work, many scientists are willing to take temporary measures to make their experiments more efficient.
Regardless of the source, pipettes are crucial to researchers and biotechnology companies. The shortage has slowed some research projects, causing them to be delayed months instead of weeks. Researchers are spending hours tracking inventory rather than researching, and this has reduced the amount of time they can spend on research. Unfortunately, the shortage doesn't end with the Covid-19 pandemic. Another factor in the shortage is the winter storm that knocked out power to several polypropylene resin manufacturing plants, leaving labs without enough plastic pipettes to complete their projects.
Scientists are already using hundreds of pipette tips daily. But this shortage is threatening the ability to conduct newborn screening programs or test stem cell genetics. A shortage in pipette tips forces biotech companies to prioritize their experiments. As the shortage continues, some scientists may end up abandoning parts of their work. But they shouldn't. They're trying to solve this critical shortage of pipette tips.
With the global shortage of disposable pipette tips, scientists have developed innovative solutions. Some of them have begun reusing pipette tips to extend the life of disposable laboratory tools. Rationing the supply of pipette tips has become standard practice. However, the most effective and efficient pipetting techniques need to be adhered to. Lee Moir, a representative of the internationally recognized MRC Harwell Institute, discusses these techniques.
When will the pipette tip shortage end? The pipette tip shortage is affecting more than just the medical field. A shortage of pipette tips affects all aspects of lab work. Pipette tips, which are used for RT-PCR and saliva testing, are in short supply. This shortage is putting a huge strain on the field, requiring urgent national attention. For now, it's unclear what will happen next. In the meantime, laboratory supplies must be found, and the process of onshoring is still in its infancy.
A solution to the pipette tips shortage is to use sterile tips. These tips are produced in strict accordance with ISO 9001 and ISO 13485 standards. They are made of high grade polypropylene and low retention and come packaged in autoclavable racks. Some even have robotic tips for the Hamilton, Tecan, and Beckman pipettors. And if the lab is using a 3D printer, sterile pipette tips are a viable solution.
As a result, the global market for disposable pipette tips would experience a steady growth over the next few years. The growing pharmaceutical industry would also drive the market. In fact, the global R&D spending for healthcare industries is expected to reach $32.8 billion by 2020, with a further rise expected in the future. This in turn would lead to better-quality pipetting materials, such as high-grade plastics and glass.
The theory behind the use of disposable pipette tips is similar to the principles of solid-phase extraction. During this extraction process, sorbents are activated by multiple solvents, allowing quick contact between the sample and the solid phase. The sorbent then is removed from the solution through organic or combination of solvents. In addition, the suction that is applied during the extraction process facilitates mixing and contact between the sorbent and sample, thus enabling the extraction to occur at an equilibrium.
The environmental impact of discarded disposable pipette tips has been documented. The recycling of the tips is costly, but it is possible to send them back to manufacturers for reuse. Recycling means fewer plastic waste, fewer emissions from shipping plastic, and less energy consumption. Similarly, a single pipette tip can be reused up to 10 times. This means that every laboratory can reap the benefits of this technology.
As the demand for disposable pipette tips continues to grow, many companies have been increasing their production capacity. Tecan Group, for example, recently won a US$32.9 million contract with the US Department of Health and Human Services and Department of Defense to support its pipette tip production for COVID-19 testing. Further, disposable pipette tips are essential for SARS-CoV-2 molecular tests as well as other assays performed on fully automated high-throughput systems.
The global disposable pipette tips market is segmented by region. It is divided into North America, Europe, Asia Pacific, Middle East, and South and Central America. The market for disposable pipette tips is expected to grow at a CAGR of around 6.7% during the forecast period. To address the increasing need, many players have adopted organic strategies such as new product launches, expansion of footprint, and diversification of product portfolios.
The first factor in choosing the ideal disposable pipette tip is the quality of the pipette. This component is crucial for the precision of measurements. However, you should be aware of the limitations of the universal tips as they may not fit all pipette barrels. While they may work well for some, they can affect the results of your study. This may lead to waste of time and money. The right one can save you a lot of frustration.
The most common type of disposable pipette tip is the non-sterile one. This type of tip is typically used in laboratory applications and are cheaper than their sterile counterparts. They are also a good choice if you are running a lab where sterility is important. The non-filter variety is highly affordable, and can be purchased in large quantities. Moreover, it is often pre-sterile, which means that it does not contain DNA, RNase, or ATP.