Why LED High Bay Lighting Systems are Beneficial for Industrial Owners

Today, majority of individuals have about 25 feet or above high ceiling in their properties prefer for high bay lights designed by using Light Emitting Diode. Best thing about these products is that people may use them in almost every type of facility, like industries, sports grounds, gyms, warehouses, apartments and various others.

Few years ago, many people own any of these aforementioned properties go for fluorescent lighting fixtures, which although give sufficient light to fulfil requirements but lead to very high cost in terms of electricity or utility bills.

Hence, with the objective to go for economic light fixtures, experts have introduced varieties of lighting systems including LED high bay lighting systems to place in ceilings of different properties and helped people to save money and energy.

How LED Lighting Systems are Beneficial

LED lighting systems give plenty of benefits to individuals, which experts have mentioned with the help of this article.

Save Big Amount of Money

Majority of high bay outdoor LED lights allow people to save big amount of money. If you compare and analyze the cost associated with any traditional fluorescent bulbs and LED fixtures, you will find LED lights save up to 80 percent on the already existing electricity or power bills.

Durable and Work for Long Time

Fixtures, bulbs and other types of lighting options designed by using Light Emitting Diodes come with relatively higher value of durability and may function for relatively more hours than other traditional bulbs. This feature would also help people to save a big amount on cooling process of LED lights. In fact, you may expect to save about 20 percent on air conditioning of lights designed with LEDs.

Sturdy Options

Another interesting fact about LED high bay lighting fixtures is that they are of sturdy, durable and handle damages smoothly. Unlike other types of lighting options available in the market, these do not tend to flick and do not require for any warm-up time. In addition, these spread lights in far better way with less possible distortions.

Serve as Eco-Friendly Systems

Lighting systems and fixtures designed by using LEDs do not cause or spread environmental pollution, as they never emit any poisonous gas.
These are few of the primary reasons, for which majority of residential property owners and industries opt for latest, economic and advanced LED technology. Therefore, if you own any industry or a sports venue, you should think about installation of LED systems as soon as possible.

Six Reasons Why You Should Bank Your Baby’s Cord Blood

Cord blood is rich in stem cells, which can be used to treat a variety of diseases and conditions. Cord blood banks are companies that collect and store umbilical cord blood for future use. Cord Blood Banking should not be taken lightly as it will have an impact on the health of your child’s future.

So, what is cord blood, and why should you bank it?

Cord blood is the blood that remains in your baby’s umbilical cord and placenta after they are born. This blood is rich in stem cells, which can be used to treat a variety of diseases and conditions. Cord blood banks are companies that collect and store umbilical cord blood for future use.

There are many reasons why you should bank your baby’s cord blood. Here are six of the most important ones:

1. Cord Blood Is a Valuable Resource

The stem cells found in cord blood can be employed to treat a range of diseases and disorders. Companies that collect and store umbilical cord blood for future use are known as cord blood banks. The process will affect your child’s future health and therefore it should be done correctly.

2. Cord Blood Can Be Used to Treat a Variety of Diseases and Conditions

Cord blood can be used to treat a number of diseases and conditions, including leukemia, sickle cell disease, and thalassemia. Cord blood is also being studied for its potential to treat a variety of other conditions, such as diabetes, heart disease, and cerebral palsy.

3. Cord Blood Is a Safe and Effective Treatment option

Cord blood is a safe and effective treatment option. Cord blood does not have the same ethical issues as stem cell research using embryonic stem cells.

4. There Is a Growing Number of Cord Blood Banks

There is a growing number of cord blood banks. Some cord blood banks are for-profit, while others are non-profit. Cord blood banks vary in size, operations, and fees.

5. Cord Blood Banking Is Not Covered by Insurance

Cord blood banking is not currently covered by insurance. However, some cord blood banks offer financial assistance programs to help families cover the cost of cord blood banking.

6. Cord Blood Banking May Be Right for Your Family

Cord blood banking may be right for your family if you have a family history of certain diseases or conditions that can be treated with stem cells. Cord blood banking may also be right for your family if you are of certain ethnicities. Cord blood banking may also be right for your family if you are willing to pay the upfront cost of cord blood banking.

Conclusion

When you bank your baby’s cord blood, you are giving yourself and your family a chance to fight back against diseases and conditions that may affect them in the future. Cord blood banking is a safe and easy process, and your baby’s cord blood will be stored in a state-of-the-art facility. So, what are you waiting for? Get your baby’s cord blood banked today!

A New Method for Sample Preparation to Accelerate Mass Spectrometric Analysis

Mass spectrometry is a widely used protein analysis method, but its sample preparation process is complex and time-consuming. Researchers at Ewon University in Japan have recently developed a new method to significantly shorten the preparation time by anion exchange solid phase extraction centrifugal columns.

The findings were recently published in Chemical Communications. The benefit of the new method is that it does not require highly specialized operating techniques to perform mass spectrometry analysis of trace amounts of cell and tissue samples with good reproducibility.

In recent years, with the popularity of proteomics research, researchers have used mass spectrometry to analyze protein components in biological samples. When detecting proteins, it is often necessary to extract protein components from cells and digest them with proteases to peptides suitable for mass spectrometry analysis. Digestion of proteins in this manner often takes 20 hours or more.

In addition, sodium dodecyl sulfate (SDS) is a surfactant commonly used in protein extraction processes. It interferes with mass spectrometry and protein digestion and must therefore be completely removed before analysis. However, removal of the SDS is at the cost of sample loss.

To overcome these challenges, researchers at Ewon University have developed a novel sample preparation method, AnExSP. It uses a microliter-sized spin column and an anion-exchange solid-phase extraction membrane installed in a pipette tip called a StageTip as a tool for protein digestion.

The researchers stated that by enriching the protein components on the surface of the diaphragm, they successfully completed the enzymatic digestion process within 60 minutes. At the same time, they established optimal conditions to elute digested peptides from the diaphragm alone, while retaining the SDS contained in the sample on the diaphragm, thereby minimizing sample loss.

They combined AnExSP with data-independent acquisition (DIA) of the Orbitrap mass spectrometer to successfully detect approximately 7,000 different protein components from 1 μg of cultured cell protein extracts. ” Using small volumes of StageTip to establish sample pretreatment conditions, AnExSP pretreatment can be used in single-cell proteomics research in the future, and the field has received increasing attention in recent years,” they said.

In addition, the AnExSP method can also be used for protein pretreatment in SDS-PAGE electrophoresis experiments. Compared with traditional pretreatment methods, AnExSP performs excellently, especially in detecting long-chain digested peptides. The researchers successfully achieved the purification of the target protein complex as well as the efficient detection of long-chain cross-linked peptides, which are difficult to detect with conventional methods.