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Matexcel, a leading service and product provider in material science for worldwide customers from both academia and industry, now provides Sodium Hyaluronate for Eye Therapeutic Applications.

 

As a naturally occurring polysaccharide in the body, sodium hyaluronate effectively supports collagen production and helps maintain elasticity. This natural molecule is especially found in the hair, eyes, nerves, and the lubricating liquid substance between joints and tissues.

 

Sodium hyaluronate is an excellent moisturizer for dry skin. Sodium hyaluronate is an ideal natural moisturizing component since it can absorb moisture from the air, assist lock in moisture, and keep the skin hydrated without peeling. Sodium hyaluronate also aids in the repair and maintenance of the skin's healthy barrier. Sodium hyaluronate skin care solutions can heal the moisture and nutrients lost via the epidermis, as well as the damaged skin barrier, preventing inflammation.

 

Dry Eye Workshop affects nearly 3.23 million females and 1.68 million males, a total of 4.91 million Americans 50 years and older. Sodium hyaluronate is capable of improving both symptoms and signs in patients with dry eyes. In recent decades, sodium hyaluronate has emerged as an option in artificial tear therapy.

 

Matexcel’s featured product for eye drop

Cat. No.

NAT-178

Product Name

Sodium Hyaluronate

MW

7-250 kDa

Morphology & Appearance

White powder

Applications

Eye drops; Wound healing; Tissue engineering; Cell culture

Description

This product was created through the fermentation of the bacterium Streptococcus Zooepidemicus Equi, bacterial strain, and non-animal resources. It has been established that sodium hyaluronate is not harmful. This product was made in accordance with GMP standards and is appropriate for medical uses.

 

Moreover, Matexcel can now produce hyaluronic acid of different molecular weights, ranging from 7-250 kDa, to meet customers' diverse needs, covering research, cosmetic, food, injection, and eye-drop grade productions. For more information, please visit https://www.matexcel.com/category/products/natural-materials/naturally-extracted-materials/hyaluronic-acid/.

Microplastics, a "stealth killer" that threatens the Earth's environment and human health, are now ubiquitous.

 

In previous studies, scientists have found traces of microplastics in environments such as the deep sea, Everest roof, seafood, human placenta, and baby feces. Once such non-degradable particles with a particle size of less than 5 mm enter the human body, it may interfere with the human endocrine system and cause long-term effects on human health.

 

Furthermore, in addition to causing direct harm to the human body, microplastics can also affect the global climate—by reflecting sunlight radiation, it has a small cooling effect on the climate.

 

Recently, a new study on microplastics found that microplastics have entered human breast milk or adversely affected infant health.

 

The team says while they still cannot fully identify specific health effects, the findings are worrisome because infants are vulnerable to chemical toxins and chemical exposures.

 

The related research paper, entitled "Raman Microspectroscopy Detection and Characterisation of Microplastics in Human Breastmilk", has been published in Polymers (Basel).

 

Since the 1950s, global plastic production has been increasing year by year, and more than 40% of plastics are used as disposable packages, resulting in a large number of plastic wastes. Non-biodegradable plastic waste is degraded into plastic particles less than 5 mm in diameter by mechanical wear, photooxidation, etc.

 

In 2004, Richard C. Thompson et al., a professor at the University of Plymouth, UK, published an article entitled "Lost at Sea: Where Is All the Plastic?" in Science, where the concept of "microplastics" was first proposed. It is defined as plastic fragments and particles less than 5 mm in diameter.

 

In this study, the team tried to analyze breast milk samples from 34 healthy mothers for the presence of microplastics, all collected within a week after the delivery of the infant. Surprisingly, microplastics were present in 26 breast milk samples, accounting for 76%. Although this is a rather small sample size, the findings are compelling and cannot be ignored.

 

The team recorded how much food and beverages packaged in plastic were consumed by infant mothers and how they used plastic personal hygiene products, but found no link to the presence of microplastics in breast milk, suggesting that the widespread presence of microplastics in the environment "inevitably makes humans reach".

 

In this regard, the team said it is essential to evaluate ways to reduce exposure to these pollutants during pregnancy and lactation, and recommended that expectant mothers avoid food and beverages in plastic packages, clothing made of synthetic fibers, and cosmetics containing microplastics as much as possible during pregnancy.

 

However, they also stressed that this study is not expected to be a barrier to breastfeeding for mothers of infants, “the benefits of breastfeeding are much greater than the disadvantages posed by the presence of contaminated microplastics.”

 

We have to accept the fact that plastics are ubiquitous in modern life, and they release microplastics and nanoscale plastics in daily use. In order to protect the earth's environment and human health, microplastic pollution control is very important.

 

Currently, microplastics in the environment are mainly divided into primary microplastics and secondary microplastics.

 

Primary microplastics are small pieces of plastics manufactured by humans for a certain purpose, mainly from synthetic textile fiber shedding, synthetic rubber wear, road marking materials, ship coatings, daily chemical plastic beads and so on.

 

Secondary microplastics are small pieces of plastic formed by the decomposition of larger plastic rubbish. Among them, the land sources of microplastics are mainly poor management of landfills, sewage discharge, illegal dumping of rubbish, plastic processing, production and transportation, agricultural film, etc.; the marine sources are mainly waste fishing gear for fishery and aquaculture activities, ships, domestic rubbish and maintenance wastes on offshore operation platforms, etc.

 

Although we do not yet know the exact harm of these tiny plastic particles to human health, some actions, research into some technical solutions, and related strategies are necessary to mitigate the release of microplastics.

 

In addition, in life, we should also raise public awareness of environmental protection and try to avoid the use and contact of microplastics. For example, reduce the use of primary microplastics, disposable non-degradable plastic products, etc.

 

Collected by Matexcel, a biotechnology company that provides microplastic testing services. We use qualitative analysis equipment to determine the type of microplastics (MPs), quantitative analysis equipment to determine the quantity, content, etc., and also analyze the chemical substances adhering to the surface of the microplastics.

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