Rising Prevalence of the Chronic Diseases Boost Infusion Pump Industry

The infusion pump is a medical equipment utilized for delivering fluids such as nutrients and medications in controlled amounts into patient’s body. Infusion pumps are widely used in healthcare settings such as nursing homes, hospitals, and homes.

Infusion pumps are operated by the trained user, who programs the rate and fluid delivery duration with a built-in software interface. The major advantages of infusion pumps include the manual administration of fluids, along with the capability to deliver fluids in significantly small volumes and at precisely programmed rates. These pumps help in delivering medications, essential nutrients, antibiotics, pain relievers, chemotherapy drugs, insulin, or hormones.

Types of Infusion Pumps

Ambulatory Infusion Pumps: The ambulatory infusion pumps are light in weight, and often utilized for treatment of debilitating diseases. Several patients may require to move around with the medical infusions due to the requirement of medications throughout the day. The lightweight infusion pumps help patients who need to get transported while having the medications throughout the day.

Syringe Pumps: These pumps enable the delivery of medications in low volume to fulfill the small quantities requirement. These are mostly utilized for young children and babies. These infusion pumps are widely used for providing medication in small amounts such as hormones for delivery of controlled motor mechanism that requires a pumping system that functions like a plunger.

Large Volume Pumps: Large volume pumps are used for infusing large volumes of medication or nourishment fluids. The LVPs often include electronic peristaltic pumps. These are either controlled manually or by a computer-controller roller.

Implantable Infusion Pumps: The implantable infusion pumps are powered by batteries. These pumps are surgically implanted for providing continuous drug delivery for managing pain in patients with non-cancer pain. The pump equipped with the fluid reservoir is planted under the abdomen’s skin. The catheter is inserted into the epidural space of the intrathecal of the spine, connected to the pump, and under the skin.

Volumetric Infusion Pumps: These pumps are medical devices that are utilized for delivering continuous and specific amounts of fluids either at very slow or fast rates. These pumps are designed in such a way to alleviate the complications that can occur with fluid drop size, making them more precise compared to a traditional intravenous drip. These pumps also provide a series of alarms for addressing issues such as battery life or air bubbles in the tubing.

Insulin Pumps: These pumps help diabetes patients to manage their blood sugar levels. These small devices ensure the delivery of insulin at specific times. These pumps are highly preferred over insulin pen injections due to their higher flexibility. These pumps can be switched at any time with another insulin management method.

Therefore, the rising prevalence of chronic diseases boosts the demand for infusion pumps.

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What Is Key Trend in Europe Construction & Material Handling Machinery Market?

The European construction & material handling machinery market was sized at $48,411.6 million in 2021. Additionally, it is expected to propel at a CAGR of 5.1% in the forecast duration of 2021–2030 and reach $75,436.3 million. The increasing cost of labor, rising demand for modular buildings, and rapid development of smart cities are some of the important factors responsible for the growth of the industry. This is itself due to the rising population of the continent, which is pushing up the demand for residential, commercial, and industrial spaces.

The revenue share of the earthmoving machinery category was the largest in the European construction & material handling machinery market in 2021, under the type segment. There is rapid infrastructure growth in the developing countries of the continent, which is being seen in the construction of roads, railways, highways, and dams. As a result, there is a growth in the demand for earthmoving equipment, such as loaders and excavators. Earthmoving machinery is required in an array of projects, such as mining and ground excavation for construction work.

Europe Construction & Material Handling Machinery Market

The demand for construction and material handling equipment from rental companies will grow at the higher CAGR in the coming years. This is because customers now understand the perks of using rental equipment. A lot of money can be saved, and there is no need to stick with obsolete equipment. An important trend in the European construction & material handling machinery market is that manufacturers rent out construction equipment or invest in rental companies. For example, under the Hitachi Premium Rental initiative, the OEM’s excavators and wheel loaders are available for rent.

The demand for electric construction equipment is growing at a brisk pace in the market. The French Ministry of Ecological and Inclusive Transition stated that the construction industry accounts for approximately 44% of the energy consumption in France and 25% of the nation’s CO2 emissions. Electric construction equipment is also much more economical than its traditional counterparts, which is the main reason for the increase in the demand for the same. This is because of the fewer moving and vibrating parts in electric machines, which reduces the long-term maintenance expenses.

Hence, there is a rapid increase in the market value due to infra development growth and rising number of smart cities coming into existence.

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Why Electric ATVs and UTVs Are Famous?

 Electrical ATVs and UTVs are the vehicles that are made to meet the off-road demands of users in challenging terrains, such as sandy regions, meadows, and mountain routes. Recreational ATVs and UTVs, mostly used for camping, hunting, off-roading, and fishing, are growing in popularity for recreation, leisure, and tourist purposes.

Different ATVs and UTVs with internal combustion engines are used in these places. However, adoption of electric ATVs and UTVs would rise as battery technology developed and EV load and range capacity improved.

Benefits of Electric ATVs and UTVs

Powerful Electric ATVs and UTVs

The power of electric ATVs and UTVs is uncompromised, and in certain circumstances, they outperform traditional off-road vehicles powered by petroleum. For example, some versions have a peak speed of around 60 mph and have more than 350 horsepower, while others can travel up to 100 km on a single charge.

A responsive vehicle is another benefit of the electric motor, along with instantaneous torque, quick acceleration, and visible towing ability.

Your riding experience will be better on your quad with more flexibility, allowing you to take in the scenery as you ride.

Less noise is produced by electric ATVs and UTVs

Electric UTVs and ATVs don't have significant engine noise since a battery powers the motor instead. Less noise enhances the riding experience and enables you to forget your worries as you ride. Now you may drive off in your car and enjoy the scenery, listening to the wind strike your helmet and the mud on your tires.

Electric ATVs and UTVs Require Less Upkeep

Going electric will result in less intricate mechanical components, less frequent repairs and maintenance, and fewer headaches. Controllers, batteries, and a motor power electric ATVs and UTVs; that's about as complex. You'll have more time to enjoy riding because there won't be oil, engine, or fluids to maintain.

It's Easier to Charge Electric ATV or UTV

You won't need to bother about taking an electric ATV or UTV to the gas station to replenish. Instead, plug in and start up from the convenience of your garage at home. You'll be prepared to ride once your battery is completely charged.

Browse detailed report on Electric ATV and UTV Market Size, and Business Strategies


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How Does Utility and Power Sector Expand Indian High-Capacity Inverters Industry?

In 2021, the Indian non-solar high-capacity inverter market generates $391.3 million, advancing at a rate of 7.7% from 2021 to 2030, to capture $760.1 million in revenue in 2030. It is ascribed to the growing demand for power backup solutions across residential, commercial, and industrial sectors, along with the growing requirement for inverters in tier II and tier III cities of the country. 

In addition, the sales of solar high-capacity inverters in India generate revenue, amounting to $426.0 million in 2021, and it is projected to reach $1199.0 million, rising at a rate of 12.2% in the coming future. It is led by the rising use of solar power for various applications, government initiatives for encouraging the adoption of renewable power sources, more specifically solar energy, and the geographical location of the country garnering benefits of massive solar energy sources. 


The advancements in the solar energy sector concerning power generation and usage contribute to the rise in the number of solar PV installations for numerous applications in India. Moreover, the growing adoption of renewable energy in the country results in increasing sales of renewable power inverters in the country.

The substantial utility & power sector application of the solar high-capacity inverters contributes the largest revenue to the industry, accounting for 91.7%, and it is projected to follow the same trend in the near future, growing at a rate of 12.3%. It is ascribed to the massive usage of these inverters in solar power plants. In addition, Govt. of India focuses on expanding the solar power capacity from 288 GW to 50 GW by 2030. 

Presently, 20% of the everyday power demand of Karnataka is catered by solar power the country, accounting for 7,346 MW. Moreover, the biggest solar plant is established in Pavagada, Tumakuru. 

In addition, the geographical location of Karnataka suits solar energy generation with the presence of a massive number of players. In addition, the earth's movements with respect to the sun, resulting in an appropriate tilt of the rotational axis of the earth with favorable attenuation results in high solar energy intensity. Moreover, Karnataka is the largest high-capacity inverters market in the country. 

Therefore, the geographical location of the country favors power generation by solar energy resources, and thus results in industry propulsion.

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Bead-Based Flow Cytometry Will Lead Flow Cytometry Market in Future

Flow cytometry is a method that measures and then analyses several physical properties of single particles, often cells. The relative size, granularity, and fluorescence intensity of a particle are among the characteristics that are assessed.

This is primarily due to increasing medication development, new flow cytometry technologies research, and greater use of analytical tools in clinical diagnostics. Additionally, in-vitro molecular studies and cancer research both extensively use flow cytometry.

How Does Flow Cytometry Function?

The first phase in the flow cytometry procedure is planning the sample for analysis. Suspend any cells derived from blood, disintegrated tissues, or cell culture. The addition of antibodies tagged with fluorescent probes, or dyes that stain cellular components, allows the other samples to be spoiled. 

Cells must first be frozen and permeabilized for antibodies and dyes to penetrate the cell during intracellular protein analysis. After incubating with the antigens or stains, the cells are rinsed in buffers and then reconstituted in a saline-based solution for analysis. The flow cytometer is then fed with this processed sample.


Why Need for Bead-Based Flow Cytometry Is Growing

The bead-based flow cytometry is predicted to grow rapidly in the coming years. Bead-based flow cytometric analyses have grown in popularity recently and are employed in several laboratory analytical techniques.

The industry-standard assay uses beads as a solid matrix for various molecular laboratory research. Additionally, bead-based flow cytometry executes multi-analyte flow immunoassays, giving it an advantage over cell-based flow cytometry by enabling simultaneous and quantitative measurement in a small number of biological fluids.


Who Are Biggest Users of Flow Cytometry Analytical Tools?

The primary end consumers of flow cytometry analytical instruments are hospitals and clinics. Due to the rising incidence of illnesses, hospitals and clinics are often crowded with patients. Flow cytometry is frequently employed for the characterization of diseases.

In industrialized nations like the U.S. and Japan, several hospital networks are establishing facilities for people and doing various actions to assist patients looking for high-quality healthcare. Hospitals and businesses are working together to obtain large quantities of reagents and flow cytometers. Additionally, the growth of multispecialty hospitals globally fuels the need for flow cytometers.

Get More Details Flow Cytometry Market Opportunities Analysis


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Biggest Benefits of Tangential Flow Filtration for Laboratory Processes

Tangential flow filtration (TFF), also called cross-flow filtration, is a separation process widely used in the bio-pharmaceutical and food industries. In this filtration system, the fluid is passed parallel to the filter instead of being pushed against the membrane perpendicularly, which may result in clogging the filtration media. TFF is highly preferred as it allows for continuous filtration and regenerative functioning. The particles passed through the membrane and permeate are put off, while the rest of the elements are recycled back to the feed.

Hence, with the growing pharmaceutical industry, in 2021, $1,237.6 million revenue was generated by the sale of the associated filtration systems, media, and accessories, which is predicted to grow at a rate of 12.8%, to reach $3,667.2 million.


What Can Be Achieved with TFF?

Primarily, TFF is utilized to facilitate an increase in the concentration of a solution, by keeping the solute molecules and removing the solvent. It is done by a specific filter that is smaller than the solute molecules, thus enabling a higher retention of solute molecules than those of the solvent. 

Another application of the technology is diafiltration, which involves the separation of small and large particles without modifying the whole concentration, by washing out the salt and remaining buffer and leaving the small particles.

What Is TFF Used for?

TFF is prominently used for larger-scale lab separation processes, such as protein isolation and cell harvesting from culture supernatants. It can filter larger volumes and manage large surface areas, without clogging. This technique recovers and purifies plasmid DNA, antibodies, and recombinant proteins.

Additionally, it is used to harvest cells and prepare samples for chromatography. Moreover, TFF concentrates and desalts proteins, nucleic acids, or peptides. Besides this, it removes endotoxins from media solutions, buffers, and water and also clarifies fermentation broths.

What Are Advantages of TFF?

TFF devices are easy to set up and use, easily connecting with the pump and pressure gauge. Moreover, the process is faster than dialysis and also enables a higher concentration in much-less time than processes that utilize stirred cells and centrifugal devices. It also facilitates concentration augmentation and sample diafiltration on the same system, thus preventing the loss of product and saving time. 

Get More Details Tangential Flow Filtration Market Strategic Market Growth Analysis


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Needle-Free Injection Systems Market To Reach $466 Million by 2030

The name trypanophobia is a combination of the Greek word trypano, which means piercing or puncturing, with a phobia. This common condition is marked by extreme fear or aversion to blood or needles. It’s projected almost 25% of adults have this phobia which might lead 16% of the US population to skip vaccinations. Numerous people who ear needle sticks may evade doctors and medicinal care, so it’s possible that the extent of this problem is undervalued.


The needle-free injection systems market was sized at $151 million in 2021 and will grow at a rate of about 13% by the end of this decade, to generate $466 million by 2030. This is due to the global increasing diabetic population, generating high demand for self-injection instruments; snowballing prevalence of needlestick injuries; and the people fearing needles.

The technology, which is jet-based has the highest demand in the needle-free injection systems market, and this will expand with a growth rate of approximately 14% during the forecast period. This is due to the numerous benefits including a smaller amount of time spent on preparation and administering the medication, fewer needlestick injuries, ease in usage and esthetics, and a less chance of a disease spread.

Needle-free injection systems are exceedingly used for the delivery of insulin. This is because of the huge diabetic population using a large count of insulin delivery devices and the fear of syringes or needles among people. Additionally, with no risk of a needlestick injury, it is a feasible option for home use and also in healthcare settings. Accordingly, the demand for needle-free injectors is increasing for insulin delivery, and so is the revenue of the needle-free injection systems market in the current scenario.

 The increasing demand for needle-free injections is mainly due to a large number of people fearing needles and an increasing count of patients suffering from diabetes.


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