Why Portable Ultrasound Devices Will Revolutionize Medical Imaging?

The ultrasound is one of the important diagnostic tools obtainable in medical imaging. This has a lot to do with the fact that it is cheaper than further methods of medical imaging like the CT scan or MRI. It likewise has the benefit of being innocuous than both modalities, as it does not include the usage of ionizing radioactivity or magnetic fields. 

Despite these compensations, the ultrasound is still underused as a medical diagnostic tool. At the present time, the ultrasound medical device is used widely in three main clinical specialties, such as cardiology, radiology and obstetrics. Though, this is undergoing a change with the introduction of advanced portable ultrasound devices around the world.




Why Portable Ultrasound Devices Come in Handy?

With the initial introduction of the ultrasound systems, they were large devices and not easily transportable. Consequently, the departments using the ultrasound had to install a system of its own. 

This had a huge role to play in confining the usage of ultrasound as an imaging system. With portability, it is possible to make ultrasound a POC diagnostic test. This in a way means that the test can be done at the bedside of the patient, where medical care is really being administered, rather than at a laboratory or imaging room. 

The launch of the portable ultrasound device has numerous benefits, which include the following:

Diagnosis is Accurate 

There are many studies that have shown that in 1 out of every 3 patients, adding the portable ultrasound device for the routine clinical examination has altered, in addition, or confirmed a vital diagnosis. This uses ultrasound devices, which are crucial for diagnostic purposes.

Quicker Diagnosis and Treatment

An ultrasound device that is bedside really eases workflow. With the help of that device, not only can an analysis be made faster but also the treatment can be started immediately too. This has a lot to do in improving patient outcomes.

Reduced Need for Invasive Testing 

If we are able to confirm a diagnosis at the bedside of a patient itself, it is likely to evade any further investigations, which were before essential for getting to a concrete conclusion about the diagnosis.

Peripheral Usage 

The portable ultrasound devices are particularly valuable when one is away from the hospital, when there is a medical camp conducted in remote area or when treatments are being given at the low-income centers.

 All these advantages have a big role to play in increasing the demand for the portable ultrasound devices all around the globe. The total value of these devices will reach at a value of over $3,488 million by 2030.

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Importance of Operating Room Integration

The advancement of technology, which has led to operating room integration, is substantially aiding the healthcare industry. Hospitals are choosing to invest in technological advancements in operating rooms due to the growing complexity of sophisticated procedures.

As surgical equipment and technologies, including integrated surgical instruments and digital imaging diagnostics with surgical robots, robotic 3D imaging, and virtual reality, become more common, so does the use of integrated operating rooms equipped with these tools and technology.


New surgical technology helps surgeons increase safety and efficiency in the operating room by directing their movements and giving them unmatched access to information. In the upcoming years, it is anticipated that this trend will continue, with more hospitals putting an emphasis on integrated operating rooms.

The systems in the operating room are integrated when we use the phrase "operation room integration." With more cutting-edge imaging and diagnostic technologies for the operating room, including instruments for the operating room, medical displays, surgical lighting, picture-taking tools, and more, operating rooms are getting more complex.

The operating room is a demanding job that demands professionalism, communication, efficiency, and attention. Integration of the operating room with hospital systems can simplify them appropriately. The capacity for the surgeon to carry on operating while accessing real-time data is one of the most essential advantages of operating room integration.

Surgical teams must travel to the operating room due to the lack of operating room integration to do duties, including accessing a computer for patient records, writing this data on a board, and accessing the surgical field to show or modify the video they are seeing.

Therefore, operating room integration solutions are used to organize and aggregate all patient information for surgical personnel during a procedure, reducing traffic and simplifying data across several platforms.

Benefits of Operating Room Integration

Efficiency and Productivity Are at the Heart of the OR Integration System

Increased productivity is one of the critical advantages of operating room integration. An integrated operating room requires less time to prepare for every surgery than a typical operating room since it is linked to the information system, hospital, and all the devices.

Without transporting patients or spending any time, surgeons may consult with doctors outside the operating room and have immediate access to all patient diagnostic results, scans, and other information.

Lower Operating Costs

The idea that OR integration solutions cost a lot of money is widespread. Despite the initial investment being more, it is not incorrect to say that an OR integration system will ultimately cost less money.

Patient Protection

Patient security is ensured through an OR integration and management system before, during, and after the operation. Access to imaging and diagnostic tools and hospital information systems allows patients to remain in the OR rather than having to be moved for each stage.

Additionally, the system tags every piece of patient data, including diagnostic photos and reports. Those photos and videos are accessible to doctors, who may see them anytime necessary. This guarantees trackability and accessibility to the appropriate care at any time.

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Solar Control Glass Market Will Be Driven by Increasing Green Constructions

The global solar control glass market was valued at $5,625.98 million in 2021, and it is projected to propel at the rate of 9% in the coming years, to reach $12,219.04 million by 2030. This is mainly because governments and organizations are focusing more on reduction of carbon emissions. Many international organizations have laid out guidelines to control the emission of greenhouse gases.

As the construction of green non-residential and residential buildings is increasing, the industry is also growing as a result. This is credited to the benefits provided by the green constructions like the usage of renewable energy sources, decrease in the amount of waste produced, and improved design for the better fitting of solar control glass panels.

The commercial buildings category had over 50% share in the recent past. This is mainly because of the surge in industrialization in India, China and Japan. In these countries expansion of commercial spaces like shopping malls, corporate spaces, and industrial facilities is increasing rapidly.

Residential category held the second largest share. This is because of the massive construction of residential buildings around the globe. Solar glass have several advantages like preventing harmful UV rays from entering into the room, which helps to decrease the heat transmission and allows natural light to enter into the room.

Hard-coated solar control glass dominates the solar control glass market. This is mainly because of the fact that it helps to control the flow of light in the room for keeping it brighter and cooler. For absorbing the UV rays and for reflecting the infrared radiations, these panels are coated with superior materials. 

As people are becoming more aware of smart construction, the demand for solar control glass will grow in the future.

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Growing Need for Eco-Friendly Systems Will Drive HVAC Market

 The HVAC market captured $206.6 billion in 2021, and it will propel at a rate of 5% to reach a value of $319.9 billion by 2030.

The changing climatic conditions and growing need for a livable environment in a building are driving HVAC industry. The need for energy savings and smart features is some of the major reasons behind the growth of the HVAC industry.

HVAC Systems & Services Market Analysis and Demand Forecast Report

The rapid growth in the rates of industrialization and urbanization is leading to the rise in the demand for these products in residential buildings, manufacturing units, and offices

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To decrease energy consumption, the demand for smart HVAC systems is increasing. A large number of customers are leaning toward these systems because they provide a better experience, enhanced real-time performance monitoring and building automation, and low-GWP refrigerants. These systems also provide better temperature change and can be controlled through remotes.

Furthermore, such systems offer preventive maintenance and higher system efficiency. These systems also have low noise in comparison to others, due to which the need for them will increase in the future.

The major reasons behind the growth in the demand for HVAC systems is the increasing per capita income of India, China, Indonesia, Thailand, Brazil, and Mexico. Middle-class families are spending more on appliances such as refrigerators and air conditioners. Moreover, due to mass manufacturing and enhancements in technology, their costs are decreasing.

Major market players are focusing more upon reducing electricity consumption, product cost, and emission of harmful gases. In addition, to save the environment, people are leaning more toward eco-friendly temperature-control units.

It is predicted that the rising demand for energy-efficient temperature-control systems will propel the sales of VRF systems with a CAGR of around 10%. These systems can increase or reduce the temperature in different areas of an enclosed space at the same time. This can be done by controlling the amount of refrigerant delivered to the fan coil systems positioned in a building. Moreover, these systems are extremely cost efficient in the long run.

The weather conditions in Eastern Europe are harsh, and the temperature here can go as low as –6 degree Celsius in winters. This is one of the main reasons behind the growing demand for heating systems in the region. In these applications, VRF equipment is more eco-friendly for homes compared to furnaces and heat pumps, which often burn fossil fuels.

Contrarily, the increasing demand for cooling appliances in Japan, South Korea, Indonesia, India, and China due to the rising temperature is driving the HVAC market in the APAC region. It is expected that by 2030, the industry will reach $170 billion in the region, mainly because of the hot weather.

People from all verticals are leaning toward eco-friendly heating and cooling systems; therefore, the HVAC industry will observe a significant growth in the future.


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APAC Leading the Way for the Dyes and Pigments Market

The value of the dyes and pigments market was $37,549 million in 2021, and will reach $57,947 million by 2030, at a growth rate of 5% in the years to come. This is because of the rising income, rising construction activities, thriving industries like paints & coatings, automotive, packaging, and textile; growing government initiatives for the textile sector, and snowballing awareness toward eco-friendly products.

Organic pigments will grow faster in the years to come. The reason for this will be the increasing awareness of consumers concerning the ills of inorganic pigments, growing use of organic alternatives in printing inks, and budding F& B industry, where these pigments are used as coloring agents.

Inorganic pigments had the larger share in the past, and they are further will maintain their position in the near future. This is because of their cost- effectiveness, increasing industrial use because of their high opacity, lightfastness, fade confrontation, and insolvability; and increasing necessity for inorganic pigments in surface coatings.

The growth of construction, automotive, paints & coatings, printing, plastics packaging, and cosmetics & personal care industries is increasing the demand for dyes and pigments. The increasing income is allowing customers spend more on personal care products. Media penetration, advertising, and promotional offers played a crucial role in increasing the demand for such products.

APAC was the regional dominator of over 60% in the past, and will continue like this in the future as well. This is credited to the increasing economy, growing implication of product innovation, growing urbanization rate, and’ changing preference of consumers. The increasing use of pigments in paints & coatings, automotive industry, and inks & varnishes is fueling the affluence of the market players.

It is because of the increasing consumer awareness with regards to eco-friendly dyes and pigments, the demand for the same is om the rise all around the world.

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Rhinoplasty: Transformation of Nose

What is Rhinoplasty?

Rhinoplasty is a surgical procedure that transforms the shape of the nose. The motivation behind the rhinoplasty could be improving nose appearance, breathing, or both. Rhinoplasty alters the size, shape, and nose proportions. It is done to repair injury deformities, and correct the birth defect. 

Rhinoplasty industry garners $4,881.2 million revenue in 2021, and it is projected to generate $8,989 million revenue in 2030, advancing at a rate of 7% in the coming future. There are several facial features considered by surgeons while planning the rhinoplasty. It includes the skin of the nose, and what the client would prefer to change. 

Anaesthesia During Rhinoplasty

Rhinoplasty requires local anesthesia or general anesthesia, relying on the complexities of the surgery, and the preference of the surgeons. 

Local Anesthesia with Sedation:  It is utilized in the outpatient setting. It is limited to a specific part of the body. It involves injecting the pain-numbing medication into the nasal tissues through an intravenous line and causes sedation.

General Anesthesia: General anesthesia can be given through inhalation or a small tube positioned in a vein located at the hand, chest, or neck. This anesthesia impacts the entire body, making it unconscious during the surgery. It involves a breathing tube. 

Rhinoplasty could be performed from inside the nose, or through the small external cut at the nose base between nostrils. The surgeon requires to readjust the bone and cartilage underneath the skin. 

A surgeon can modify the cartilage or nasal bones’ shape, depending on how much it is needed to add or remove, including nose structure and availability of materials. For smaller changes, a surgeon needs to take out cartilage from the ear, or deep inside the nose. 

For significant changes, surgeons can use cartilage from ribs, implants, or bone from other body parts. After making such changes, surgeon positions the skin and tissue back to the nose and stitch incisions in the nose. 

After Surgery Procedures 

In several cases, the internal dressings stay for one to seven days in the same place after surgery or removal of the dressing. Little bleeding, mucus, and old blood drainage are quite common for a few days after surgery or the removal of the dressing. The doctor may require a drip pad, a small gauze piece kept in place for around one week for absorption of drainage. 

Therefore, the rising incidences of rhinoplasty are led by growing awareness of appearance enhancement, and rising cases of accidents that cause nose injuries. 

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Increasing Healthcare Application of RNA Analysis

RNA sequencing revolutionizes the transcriptome study. It involves a highly sensitive and accurate tool for measuring transcriptome expression. It provides scientists to visualize the previously undetected changes in disease formation, concerning therapeutics in various environmental conditions and a wide range of study designs. 

RNA sequencing facilitates the researchers to detect novel and known features in a single assay, facilitating the detection of gene fusions, transcript isoforms, single nucleotide variants, and other features. 

RNA expression reflects the effects exerted by DNA on the cell. The mature mRNA consists of coding sequences of all expressed genes. RNA also serves as a principal DNA substitute in numerous diagnostic applications. 

As DNA is more stable, DNA-based diagnosis is highly preferred. RNA analysis is crucial in various applications of molecular diagnostics. Moreover, RNA analysis is widely used in RNA virus detection and quantification, including hepatitis C virus, and HIV. It holds great prominence in the detection of cancer. As it serves as a crucial tool for the tumor’s molecular stratification. 

The RNA analysis industry has garnered $14,909.8 million revenue in 2021, and it is projected to advance at the rate of 13.3% from 2021 to 2030, to generate $14,909.8 million revenue in 2030. 

RNA sequencing utilizes the capability of high-throughput sequencing methods to offer insight into cell transcriptome. Moreover, RNA sequencing provides closer analysis and greater transcriptome resolution. The RNA-sequencing data enables novel transcripts discovery, identifies alternatively spliced genes, and detects the allele-specific expression. 

The RNA-sequencing workflow advancements from sample preparation to library construction, and data analysis facilitate the sample preparation to data analysis and library construction. It helps researchers to elucidate the transcription’s functional complexity. 

The RNA-sequencing can be applied to identifying the various RNA populations, such as pre-mRNA, total RNA, and noncoding RNA, including long ncRNA and microRNA in polyadenylated messenger mRNA transcripts. 

In several instances, cancer cells with specific chromosomal translocations can be detected with higher sensitivity with mRNA analysis. 

The development of advanced technologies such as SMaRT technology, antisense technology, and RNA interference technology is projected to provide opportunities to companies providing RNA-based therapies and vaccines in the coming years. 

Advantages of RNA Sequencing

The next generation RNA-sequencing is a preferred method of choice for scientists to study the transcriptome. 

It facilitates precise and sensitive gene expression measurement.

RNA sequencing captures both novel and known features, without any need for required predesigned probes.

It reflects the whole transcriptome, not only a few selected transcripts.

RNA sequencing can be applied to any species, even in the absence of a reference sequence. 

The major players operating in the industry are, Merck KGaA, Agilent Technologies Inc., Eurofins Scientific SE, Fluidigm Corporation, Danaher Corporation, F.Hoffmann-La Roche Ltd., and Illumina Inc. 

Therefore, the rising prominence of RNA analysis in healthcare boosts its demand. 

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