The 2010s are coming to an end, and looking back there have been some pretty amazing advances and innovations in health and science.

Advances in prosthetic limbs

Prosthetic limbs have been around since ancient times. In Egypt, a prosthetic wooden toe was found on a mummy dating back 3,000 years. By the Dark Ages, inventors could incorporate hinges on prosthetic arms used by knights. In modern times, the field of prosthetics has turned to incorporating more technology into physical stand-ins for limbs. In the last several years, theres been a boom in advances that have led to the best and most useful prosthetics weve ever seen.

Reports from the early 2010s talked about the potential for new technology to allow people to control prosthetics with their minds and to receive sensory information from their devices. It may have been a reach in the early part of the decade, but now it is literally within grasp. There are new prosthetic hands being tested that give the user the ability to grab objects with their thoughts and even to sense the texture of what they are touching. New bionic hands allow the user to feel again by sending signals back to the brain about the things they are touching, like whether its hard or soft. Other research groups have been working on bionic arms that can move based on the users thoughts through a brain-computer interface. While these have demonstrated its possible to accomplish these goals in the lab, theres still more to be done before people can use these devices outside in the real world.

Many of these advanced prosthetics are still prototypes and may not reach the general population for a while. Luckily, cheaper 3D printers have made simple prosthetics more accessible. These are important because a prosthetic device can improve the quality of life for people. For example, this person has been printing prosthetic hands and arms for people in Africa after watching an online tutorial. New materials that go into 3D printers are cheaper than they used to be and are being used in prosthetics to provide a more affordable option for patients.

Although prosthetics have been around for ages in some form or another, they arent always used. One variable to consider is the social acceptance of having a prosthetic. Theres still a lot of stigma around disabilities and many people may reject prosthetics even if they are available. In 2012, an athlete with both feet amputated competed in the mens 400 meter race at the Olympics in London. There was some controversy over whether the runner with a prosthetic foot should be allowed to run in races with people who dont have prosthetics or if they should only be allowed in competitions specifically for people who have them. Prosthetics also need to be comfortable and usable in order to be successfully adopted. In one study, about 4.5 percent of people rejected prosthetics and 13.4 percent stopped using their prosthetics. As the new prosthetics that are more natural and intuitive to use come to market, hopefully more people will benefit, and the social barriers to acceptance will disappear.

CRISPR

The genome modification technique called Clustered Regularly Interspaced Short Palindromic Repeats, aka CRISPR, was a culmination of a few decades of work by scientists, and major studies explaining the method were published in 2013. The version of it called CRISPR-associated protein 9 or CRIPSR-Cas9 is what most researchers are specifically using in most cases. It involves a regular gene editing mechanism that happens in bacteria. The bacteria can take sections of DNA from attacking viruses and essentially use that to remember the viruses if they return. When the virus is back, the bacteria can target the matching sections of DNA in the virus, cut it and disable the virus.

Though 2013 was only six years ago, as far as science goes, CRISPR has been moving at lightning speed towards practical applications. Using CRISPR to edit a gene sequence, researchers can now add, delete or modify DNA segments more quickly and accurately than ever before. Since the technique was developed, researchers have used CRISPR to target diseases caused by a single gene like cystic fibrosis or sickle cell disease.

Probably the most infamous use of CRISPR are the CRISPR babies. In late 2018, a Chinese researcher, He Jiankui, claimed to have used CRISPR to modify the genomes of two babies to include a mutated version of a gene that protects against HIV. This case was and is highly controversial for the ethical concerns with genetically modifying a human genome at the embryo level, or germline, meaning it can be passed down to future generations and has not been done before in humans. Recently, MIT Technology Review obtained excerpts from Hes research, and experts say that the report and data may be untrustworthy. This means it is still unclear if He and collaborators actually successfully modified the babies genomes. The scientific community overall condemns this way of using CRISPR to edit a human germline genome and has called for an international moratorium on it until a framework can be agreed on.The researcher has been sentenced to three years in prison in Shenzhen, China.

As fraught with controversy as the CRISPR babies may be, CRISPR technology still holds a lot of promise and can be used responsibly, supporters say. For example, researchers are using it to target cancer cells by taking a patients immune cells, modifying them using CRISPR and then infusing the patient with the modified cells. For blood diseases, a patient with sickle cell disease is reported to be responding well to a CRISPR treatment that has allowed her body to produce a crucial protein.

Another area that has boomed this decade partly because of CRISPR technology is stem cell therapy, which well get into in the next section.

Stem cell therapy

Technically, the only Federal Drug Administration (FDA)-approved stem cell therapies are blood-forming stem cells derived from umbilical cord blood. Blood-forming stem cells are used to treat patients with cancer after chemotherapy has depleted blood cells, as well as patients with blood disorders like leukemia whose bone marrow tissues are damaged. These types of treatments have been around for about 30 years, but in the 2010s weve seen potential for more uses of stem cells in health care.

The main idea behind stem cell therapy is that because the cells are pluripotent meaning they can become many other types of cells they can be introduced into parts of the body that are damaged and need new cells. On top of that, researchers can now extract some types of stem cells from a persons body, so no need for umbilical cords. This opens up the possibilities for highly personalized treatment where one person can be treated with stem cells from their own body.

Researchers are exploring how stem cells can be used to treat liver disease, cerebral palsy, stroke, brain injury and others. There are many ongoing research-backed clinical trials for stem cell therapy. A quick search for stem cell therapy on the governments clinical trial database turns up 5,638 results. And because of the work necessary to even get to the clinical trial stage, theres likely an order of magnitude more stem cell therapy studies in the pre-clinical trial stages.

Stem cell therapy is also being offered in for-profit clinics around the U.S. In these cases, the clinics are typically taking fat tissue from a patient, isolating the stem cells and then administering the stem cells back to the patient. In some cases, the treatments may lead to health complications, like blindness in a few extreme cases, and the FDA warns that such treatments are unapproved and potentially harmful. The FDA is ramping up regulation of stem cell clinics and earlier this year took a specific clinic in Florida to court.

Although there are many stem cell clinics offering unproven stem cell therapies, its not all hype. Granted that its difficult to pass the clinical trial stage to get FDA approval, stem cell research may lead to new treatments for several health conditions that could completely change the health care landscape.

You can follow Chia-Yi Hou on Twitter.

Go here to see the original:
The 3 most important health innovations of the past decade - The Hill

A research team from the University of Houston has found a way to use the stem cells found in fat and guide it to become a pacemaker-like cell, according to a new study.

We are reprogramming the cardiac progenitor cell and guiding it to become a conducting cell of the heart to conduct electrical current, said study co-author Bradley McConnell, associate professor of pharmacology, in a press release

The team, publishing the study in the Journal of Molecular and Cellular Cardiology, worked on converting adipogenic mesenchymal stem cells, which reside within fat cells, into cardia progenitor cells. The ensuing cardiac progenitor cells can be programmed to aid heartbeats as a sinoatrial node (SAN), which is part of the electrical cardiac conduction system.

The researchers used what they called a standard screening strategy to test for reprogramming factors for converting human cardiac progenitor cells into pacemaker-like cells. According to their study results, the authors observed expressions of many pacemaker-specific genes, including CX30.2, KCNN4, HCN4, HCN3, HCN1, and SCN3b. The authors wrote that SHOX2, HCN2, and TBX5 (SHT5) combinations of transcription factors were much better candidate(s) in driving cardiac progenitor cells into pacemaker-like cells than other combinations and single transcription factors.

Results of this study show that the SHT5 combination of transcription factors can reprogram CPCs into Pacemaker-like cells, they wrote in their conclusion. SHT5 may be used as a potential stem cell therapy for sick sinus syndrome (SSS) and for other cardiac conduction diseases.

More:
The Next Generation of Biologic Pacemakers? New Discovery in Stem Cells from Fat Creates Another Alternative Treatment - DocWire News

NewsScienceIt's likely to be an eventful year for gene editing and stem cell research

Tuesday, 31st December 2019, 7:03 am

Gene editing

It was suggested that prime editing has the potential to mend about 89 per cent of the 75,000 harmful genetic mutations that lie behind hereditary diseases, such as cystic fibrosis and the blood disorder sickle cell disease.

3D rockets

Major strides were made in rocket science last year, with a number of 3D-printed engine prototypes being successfully tested.

This year, Relativity Space, a California startup, hopes to go one better. It plans to become the first company in the world to print almost an entire rocket 95 per cent of it which it hopes will be ready for launching at the end of the year.

Only a handful of components, such as electronics and circuit boards, will have to be made by hand for the craft, named Teran 1.

If successful, the launch will pave the way for numerous 3D-printed rockets to be sent into space much more quickly and cheaply than they are at the moment.

Stem cells

Scientists are working around the world on trials of promising stem-cell treatments for blindness, spinal cord injury, heart failure, diabetes, Parkinsons disease and lung cancer, and some of the first results should become available later in the year.

Embryonic, or pluripotent, stem cells have extraordinary medical potential because they can develop into any of the 220 or so mature, specialised cells of the body, from insulin-making pancreatic cells to the nerve cells of the brain.

Mars

The 2020 mission of the ExoMars programme, if all goes to plan, will deliver a European rover and a Russian platform to the surface of Mars.

ExoMars will be the first mission to combine the capability to move across the surface of the planet and to the ability study Mars at depth. Meanwhile, Nasa will launch a separate mission to study the habitability of Mars and prepare for future human missions.

Smart needle

They have demonstrated that the technique works in the laboratory, and are in the early stages of a three-year clinical trial to test it in living people.

The researchers have focused on lymphoma so far, but said that they are hopeful the technique could also be used further down the line to diagnose other forms of the disease, such as breast and prostate cancer.

At the moment, diagnosing lymphoma can be an invasive process that involves a surgical biopsy followed by a nerve-racking wait for the result, which can often take two weeks or more.

The smart needle uses light to pinpoint cancerous tissues almost instantaneously.

Using a technique called Raman spectroscopy, the optical biopsy measures the light scattered by tissues when a laser contained in the needle is shone on it.

The light scatters differently from healthy tissues than it does from diseased tissues, meaning that doctors can make their diagnosis straight away.

Japan's robotic Olympics

Japan has pledged to make the 2020 Tokyo Olympics and Paralympics the most innovative in history by deploying robots to assist spectators and staff during the games.

The Human Support Robot (HSR) and Delivery Support Robot (DSR), developed by Toyota, will be used in tandem.

HSR, a one-armed robot about 3ft (1m) tall, can hold objects, pick things up off the ground and reach up high. It can move by itself, or can be controlled remotely as it attends to people in wheelchairs, guiding them to their seats and helping to carry items.

When people order food or drinks using a tablet computer, DSR will transport the items in a basket and HSR will then deliver them directly to guests.

Waste to Energy

The worlds largest waste-to-energy plant is set to open on the outskirts of Shenzhen, China. The new plant is made to handle 5000 tons of waste per day, burning the waste to generate electricity.

Continue reading here:
Predicting shifts in technology and science can be tricky, but here's what could happen in 2020 - inews

An Aberdeen man who saved a life by donating his stem cells has urged others to do the same.

Paul Flecher-Herd, from Kingswells, signed up to the Anthony Nolan register in memory of his friend Cammy Smith, who passed away from leukaemia in 2014, aged just 26.

This year, Paul found he was a match with someone battling the same condition, and donated his cells during a procedure in London.

He has since heard from the recipient, thanking him for saving his life.

Now Paul, 28, has appealed for more people to join the register.

He said: I think having that first-hand experience makes it easier for people to come to me and ask what its like. A lot of people have said they wouldnt have thought of doing it because they either didnt know what it was for or because they were scared of the procedure.

But once I explained it to them, and how it can impact on the recipients life, they soon changed their mind.

Its four hours. Although there is medical prep before it, time like that is nothing if you get the result you could possibly get. You could save someones life, and if thats the case, it doesnt matter how long it takes.

Paul wants to put peoples minds at ease if they have any concerns over the procedure and he said the results of donating cells make it worthwhile.

He said: I would tell anyone to just go for it. You could save someones life and thats something you cant beat.

It may sound daunting but once you realise what the outcome may be you should definitely go for it and pass on the message to anyone.

It has potentially amazing consequences at the end of it. You could give someone a second chance at life.

This year Paul also launched a petition aimed at bringing in laws requiring employers to give staff time off to donate.

And although it was cancelled by the government as a result of dissolution of Parliament for the general election, he was thrilled with the response.

Paul added: With what we have done so far in terms of raising awareness, so many people have asked me about it.

A lot of employers have said they are keen to adapt their processes for the sake of the people who need these procedures.

They want to make sure they are not restricting their workers by not giving them time off. Its great to see the response its had.

There have been so many messages asking about it and Ive even been stopped in the street.

Its raised a lot of awareness about the issue of stem cell donation.

See the rest here:
North-east man urges stem cell donation to save lives - Aberdeen Evening Express

Global Hematopoietic Stem Cells Transplantation (HSCT) Market research Report 2019 may be a comprehensive business study on this state of business that analyses innovative ways for business growth and describes necessary factors like prime manufacturers, production worth, key regions and rate of growth. with growth trends, numerous stakeholders like investors, CEOs, traders, suppliers, analysis & media, international Manager, Director, President, SWOT analysis i.e. Strength, Weakness, Opportunities and Threat to the organization and others. This report focuses on Professional Global Hematopoietic Stem Cells Transplantation (HSCT) Market 2019-2025 volume and value at Global level, regional level and company level.

Global Hematopoietic Stem Cells Transplantation (HSCT) Market 2019 report provides key statistics on the market status of the Hematopoietic Stem Cells Transplantation (HSCT) Manufacturers and is a valuable source of guidance and direction for companies and individuals interested in the Hematopoietic Stem Cells Transplantation (HSCT) Industry. The Hematopoietic Stem Cells Transplantation (HSCT) industry report firstly announced the Hematopoietic Stem Cells Transplantation (HSCT) Market fundamentals: type applications and market overview; product specifications; manufacturing processes; cost structures, raw materials and so on.

Request Exclusive Free Sample PDF Of This Report At https://dataintelo.com/request-sample/?reportId=80906

Hematopoietic Stem Cells Transplantation (HSCT) market competition by top manufacturers/ Key player Profiled:Kite PharmaThermo Fisher ScientificCellGenix Technologie TransferCesca TherapeuticsR&D SystemsAnd More

Hematopoietic Stem Cells Transplantation (HSCT) Market is expected to grow at a CAGR of roughly xx% over the next five years, will reach xx million US$ in 2025, from xx million US$ in 2019, according to a new study.

Hematopoietic Stem Cells Transplantation (HSCT) Market Segment by Type covers:Autologous TransplantAllogenic Transplant

Hematopoietic Stem Cells Transplantation (HSCT) Market Segment by Applications can be divided into:LeukemiaLymphoproliferative DisordersSolid TumorsNon-Malignant DisordersOthers

Regional analysis covers:North America (USA, Canada and Mexico)Europe (Germany, France, UK, Russia and Italy)Asia-Pacific (China, Japan, Korea, India and Southeast Asia)South America (Brazil, Argentina, Columbia etc.)Middle East and Africa (Saudi Arabia, UAE, Egypt, Nigeria and South Africa)

This report focuses on the Hematopoietic Stem Cells Transplantation (HSCT) in Global market, especially in North America, Europe and Asia-Pacific, South America, Middle East and Africa. This report categorizes the market based on manufacturers, regions, type and application.

For More Information on this report, Request Inquiry At https://dataintelo.com/enquiry-before-buying/?reportId=80906

Key questions answered in the report:What will the market growth rate of Hematopoietic Stem Cells Transplantation (HSCT) market?What are the key factors driving the Global Hematopoietic Stem Cells Transplantation (HSCT) market?Who are the key manufacturers in Hematopoietic Stem Cells Transplantation (HSCT) market space?What are the market opportunities, market risk and market overview of the Hematopoietic Stem Cells Transplantation (HSCT) market?What are sales, revenue, and price analysis of top manufacturers of Hematopoietic Stem Cells Transplantation (HSCT) market?Who are the distributors, traders and dealers of Hematopoietic Stem Cells Transplantation (HSCT) market?What are the Hematopoietic Stem Cells Transplantation (HSCT) market opportunities and threats faced by the vendors in the Global Hematopoietic Stem Cells Transplantation (HSCT) industries?What are sales, revenue, and price analysis by types and applications of Hematopoietic Stem Cells Transplantation (HSCT) market?What are sales, revenue, and price analysis by regions of Hematopoietic Stem Cells Transplantation (HSCT) industries?

Key Benefits Major countries in each region are mapped according to individual market revenue. Comprehensive analysis of factors that drive and restrict the market growth is provided. The report includes an in-depth analysis of current research and clinical developments within the market. Key players and their key developments in the recent years are listed.And More.

The next part also sheds light on the gap between supply and consumption. Apart from the mentioned information, growth rate of Hematopoietic Stem Cells Transplantation (HSCT) market in 2025 is also explained. Additionally, type wise and application wise consumption tables and figures of Hematopoietic Stem Cells Transplantation (HSCT) market are also given.

To Buy this Report, Visit https://dataintelo.com/checkout/?reportId=80906

Objective of Studies: To provide strategic profiling of key players in the market, comprehensively analysing their core competencies, and drawing a competitive landscape for the market. To provide insights about factors affecting the market growth. To analyse the Hematopoietic Stem Cells Transplantation (HSCT) market based on various factors- price analysis, supply chain analysis, porter five force analysis etc. To provide detailed analysis of the market structure along with forecast of the various segments and sub-segments of the Global Hematopoietic Stem Cells Transplantation (HSCT) market. To provide country level analysis of the market with respect to the current market size and future prospective. To provide country level analysis of the market for segment by application, product type and sub-segments. To provide historical and forecast revenue of the market segments and sub-segments with respect to four main geographies and their countries- North America, Europe, Asia, and Rest of the World. To track and analyse competitive developments such as joint ventures, strategic alliances, new product developments, and research and developments in the Global Hematopoietic Stem Cells Transplantation (HSCT) market.

For Best Discount on purchasing this report, Visit https://dataintelo.com/ask-for-discount/?reportId=80906

About DataIntelo:DATAINTELO has set its benchmark in the market research industry by providing syndicated and customized research report to the clients. The database of the company is updated on a daily basis to prompt the clients with the latest trends and in-depth analysis of the industry. Our pool of database contains various industry verticals that include: IT & Telecom, Food Beverage, Automotive, Healthcare, Chemicals and Energy, Consumer foods, Food and beverages, and many more. Each and every report goes through the proper research methodology, validated from the professionals and analysts to ensure the eminent quality reports.

Contact Info DataInteloName Alex MathewsEmail [emailprotected]Website https://dataintelo.comAddress 500 East E Street, Ontario, CA 91764, United States.

This post was originally published on Market Research Sheets

See more here:
Hematopoietic Stem Cells Transplantation (HSCT) Market Report Global Industry Trends, Share, Size, Growth, Opportunity and Forecast 2019 2025 -...

Stem Cell Assay Market: Snapshot

Stem cell assay refers to the procedure of measuring the potency of antineoplastic drugs, on the basis of their capability of retarding the growth of human tumor cells. The assay consists of qualitative or quantitative analysis or testing of affected tissues and tumors, wherein their toxicity, impurity, and other aspects are studied.

Download Brochure of This Market Report at https://www.tmrresearch.com/sample/sample?flag=B&rep_id=40

With the growing number of successful stem cell therapy treatment cases, the global market for stem cell assays will gain substantial momentum. A number of research and development projects are lending a hand to the growth of the market. For instance, the University of Washingtons Institute for Stem Cell and Regenerative Medicine (ISCRM) has attempted to manipulate stem cells to heal eye, kidney, and heart injuries. A number of diseases such as Alzheimers, spinal cord injury, Parkinsons, diabetes, stroke, retinal disease, cancer, rheumatoid arthritis, and neurological diseases can be successfully treated via stem cell therapy. Therefore, stem cell assays will exhibit growing demand.

Another key development in the stem cell assay market is the development of innovative stem cell therapies. In April 2017, for instance, the first participant in an innovative clinical trial at the University of Wisconsin School of Medicine and Public Health was successfully treated with stem cell therapy. CardiAMP, the investigational therapy, has been designed to direct a large dose of the patients own bone-marrow cells to the point of cardiac injury, stimulating the natural healing response of the body.

Newer areas of application in medicine are being explored constantly. Consequently, stem cell assays are likely to play a key role in the formulation of treatments of a number of diseases.

Global Stem Cell Assay Market: Overview

The increasing investment in research and development of novel therapeutics owing to the rising incidence of chronic diseases has led to immense growth in the global stem cell assay market. In the next couple of years, the market is expected to spawn into a multi-billion dollar industry as healthcare sector and governments around the world increase their research spending.

The report analyzes the prevalent opportunities for the markets growth and those that companies should capitalize in the near future to strengthen their position in the market. It presents insights into the growth drivers and lists down the major restraints. Additionally, the report gauges the effect of Porters five forces on the overall stem cell assay market.

Global Stem Cell Assay Market: Key Market Segments

For the purpose of the study, the report segments the global stem cell assay market based on various parameters. For instance, in terms of assay type, the market can be segmented into isolation and purification, viability, cell identification, differentiation, proliferation, apoptosis, and function. By kit, the market can be bifurcated into human embryonic stem cell kits and adult stem cell kits. Based on instruments, flow cytometer, cell imaging systems, automated cell counter, and micro electrode arrays could be the key market segments.

In terms of application, the market can be segmented into drug discovery and development, clinical research, and regenerative medicine and therapy. The growth witnessed across the aforementioned application segments will be influenced by the increasing incidence of chronic ailments which will translate into the rising demand for regenerative medicines. Finally, based on end users, research institutes and industry research constitute the key market segments.

The report includes a detailed assessment of the various factors influencing the markets expansion across its key segments. The ones holding the most lucrative prospects are analyzed, and the factors restraining its trajectory across key segments are also discussed at length.

Global Stem Cell Assay Market: Regional Analysis

Regionally, the market is expected to witness heightened demand in the developed countries across Europe and North America. The increasing incidence of chronic ailments and the subsequently expanding patient population are the chief drivers of the stem cell assay market in North America. Besides this, the market is also expected to witness lucrative opportunities in Asia Pacific and Rest of the World.

Global Stem Cell Assay Market: Vendor Landscape

A major inclusion in the report is the detailed assessment of the markets vendor landscape. For the purpose of the study the report therefore profiles some of the leading players having influence on the overall market dynamics. It also conducts SWOT analysis to study the strengths and weaknesses of the companies profiled and identify threats and opportunities that these enterprises are forecast to witness over the course of the reports forecast period.

Some of the most prominent enterprises operating in the global stem cell assay market are Bio-Rad Laboratories, Inc (U.S.), Thermo Fisher Scientific Inc. (U.S.), GE Healthcare (U.K.), Hemogenix Inc. (U.S.), Promega Corporation (U.S.), Bio-Techne Corporation (U.S.), Merck KGaA (Germany), STEMCELL Technologies Inc. (CA), Cell Biolabs, Inc. (U.S.), and Cellular Dynamics International, Inc. (U.S.).

Request TOC of the Report @https://www.tmrresearch.com/sample/sample?flag=T&rep_id=40

About TMR Research:

TMR Research is a premier provider of customized market research and consulting services to business entities keen on succeeding in todays supercharged economic climate. Armed with an experienced, dedicated, and dynamic team of analysts, we are redefining the way our clients conduct business by providing them with authoritative and trusted research studies in tune with the latest methodologies and market trends.

Contact:

TMR Research,3739 Balboa St # 1097,San Francisco, CA 94121United StatesTel: +1-415-520-1050

Read the rest here:
Stem Cell Assay Market Expected to Witness a Sustainable Growth over 2025 - Filmi Baba

(Photo : pexels)

It is scary to think about losing your teeth, especially if you are an adult, but it is an issue that a lot of people face. Around aquarter of adultslose their teeth by the age of 74.

Although there are dental implants that can help, they can be very uncomfortable, especially since they do not adapt to the mouth as it ages. However, a new technique might help people to grow new teeth in just 2 months by using the patient's adult stem cells.

Regrow your teeth in 2 months

This discovery was published in August of 2019. Theresearchersfrom Columbia University Medical Center in New York City hope that they can get a patient's stem cells to grow an anatomically correct tooth.

Additionally, the new tooth will grow in a person's empty socket, even allowing it to merge with the surrounding gum tissue. They have already proven the ability to grow the teeth, however, after months of research and experiments, it is not available for humans yet.

The researchers conducted an experiment using 22 rats, according to theJournal of Dental Research. After the growth factors were implanted in the mouths of the rats, new bone material regenerated and integrated within 2 months. According to the researchers of the study, this is the first time that teeth-like structures have been regenerated in a living organism.

There can be a lot of benefits that come along with the new procedure if this treatment proves successful in humans. Since the tooth is grown in the socket where it will stay, there is also no need to harvest outside stem cells or make an outside environment for the tooth as it grows.

Because of this experiment, the researchers hope that this will be a better and more cost-effective solution for patients who can't afford dental implants. Also, since the tooth grows right in the mouth, there will likely be less recovery time and it will be less likely for teeth to fail.

However, for the time being, dental implants are the closest thing that we have to help replace lost teeth, Unfortunately, implants can be painful and it requires a long healing process, also it does not usually adapt to aging mouths which can cause the implant to fail.

Disadvantages of dental implants

The first disadvantage ofdental implantsis that they are expensive. Dental implants are not covered by dental insurance, if anything, they might help cover the restoration that will be attached to the dental implant such as the dental bridge, dental crown, and partial or full denture.

Another disadvantage of dental implants is that they need surgery to be placed. This may not be a big deal for some but keep in mind that surgery always has a health risk. The complication rate is just an average of 5 to 10%. The complications and risks of dental implants include damage to other teeth, infection, nerve damage, delayed bone healing, jaw fractures, prolonged bleeding and more.

With that said, this new alternative may become available soon. Even now, researchers at Columbia University have filedpatent applicationsfor this discovery and they are also looking at ways to make the process available commercially.

ALSO READ: Scientists Likely Found Way To Grow New Teeth For Patients

The rest is here:
Scientists are Working on a Way to Regrow Teeth in 2 Months - Science Times

Share this Article

You are free to share this article under the Attribution 4.0 International license.

Researchers have established a baseline set of injectable hydrogels that show promise to help heal wounds, deliver drugs, and treat cancer.

Critically, theyve analyzed how the chemically distinct hydrogels provoke the bodys inflammatory responseor not.

The researchers designed the hydrogels to be injectable and create a mimic of cellular scaffolds in a desired location. They serve as placeholders while the body naturally feeds new blood vessels and cells into the scaffold, which degrades over time to leave natural tissue in its place. Hydrogels can also carry chemical or biological prompts that determine the scaffolds structure or affinity to the surrounding tissue.

We dont want zero inflammation; we want appropriate inflammation.

The study demonstrates it should be possible to tune multidomain peptide hydrogels to produce appropriate inflammatory response for what theyre treating.

Weve been working on peptide-based hydrogels for a number of years and have produced about 100 different types, says Jeffrey Hartgerink, a chemist and bioengineer at Rice University. In this paper, we wanted to back up a bit and understand some of the fundamental ways in which they modify biological environments.

The researchers wanted to know specifically how synthetic hydrogels influence the environments inflammatory response. The two-year study offered the first opportunity to test a variety of biocompatible hydrogels for the levels of inflammatory response they trigger.

Usually, we think of inflammation as bad, Hartgerink says. Thats because inflammation is sometimes associated with pain, and nobody likes pain. But the inflammatory response is also extremely important for wound healing and in clearing infection.

We dont want zero inflammation; we want appropriate inflammation, he says. If we want to heal wounds, inflammation is good because it starts the process of rebuilding vasculature. It recruits all kinds of cells that are regenerative to that site.

The labs tested four basic hydrogel typestwo with positive charge and two negativeto see what kind of inflammation they would trigger. They discovered that positively charged hydrogels triggered a much stronger inflammatory response than negatively charged ones.

Among the positive materials, depending on the chemistry generating that charge, we can either generate a strong or a moderate inflammatory response, Hartgerink says. If youre going for wound-healing, you really want a moderate response, and we saw that in one of the four materials.

But if you want to go for a cancer treatment, the higher inflammatory response might be more effective, he says. For something like drug delivery, where inflammation is not helpful, one of the negatively charged materials might be better.

Basically, were laying the groundwork to understand how to develop materials around the inflammatory responses these materials provoke. That will give us our best chance of success.

Researchers at Texas Heart Institute (THI) helped analyze the cellular response to the hydrogels through multidimensional flow cytometry.

The results of this work lay the groundwork for specifically tailoring delivery of a therapeutic by a delivery vehicle that is functionally relevant and predictable, says Darren Woodside, vice president for research and director of the flow cytometry and imaging core at THI. Aside from delivering drugs, these hydrogels are also compatible with a variety of cell types.

One of the problems with stem cell therapies at present is that adoptively transferred cells dont necessarily stay in high numbers at the site of injection, he says. Mixing these relatively inert, negatively charged hydrogels with stem cells before injection may overcome this limitation.

Hartgerink says the work is foundational, rather than geared toward a specific application, but is important to the long-term goal of bringing synthetic hydrogels to the clinic.

We have been speculating about a lot of the things we think are good and true about this material, and we now have more of a sound mechanistic understanding of why they are, in fact, true, Hartgerink says.

The research appears in Biomaterials.

Additional coauthors are from Rice and the Texas Heart Institute. The National Institutes of Health, the Welch Foundation, the Mexican National Council for Science and Technology, the National Science Foundation, and a Stauffer-Rothrock Fellowship supported the research.

Source: Rice University

Continue reading here:
Hydrogel controls inflammation to speed healing - Futurity: Research News

New York City, NY: December 2019 Published via (Wired Release) If you are involved in the Stem Cell Cartilage Regeneration industry or intend to be, then this examine will offer you a comprehensive outlook. Its vital statistics to preserve your market expertise as much as date.

The global Stem Cell Cartilage Regeneration Market Research Report 2019-2028 accommodates a treasured bunch of data that light up the most critical sectors of the Stem Cell Cartilage Regeneration market. The statistics available in the file delivers all-inclusive facts approximately the Stem Cell Cartilage Regeneration marketplace, which is understandable for an expert. The global Stem Cell Cartilage Regeneration marketplace file provides data concerning all of the aspects associated with the marketplace, which incorporates opinions of the very last product, and the key factors hampering the market growth. It suggests how distinctive gamers are competing within the global Stem Cell Cartilage Regeneration market and discusses strategies theyre using to distinguish themselves from other participants.

To Comprehend The Complete Report Through TOC, Figures, and Tables, Get Free Sample Copy (Download PDF) @https://marketresearch.biz/report/stem-cell-cartilage-regeneration-market/request-sample

The geographical division offers statistics that offer you a concept of the revenue of the groups and sales figures of the Stem Cell Cartilage Regeneration For boom business. Here are highlights of the Geographical Divisions: Asia-Pacific (China, Japan, Korea, India, and Southeast Asia and more), North America (United States, Canada, and Mexico), Middle East and Africa (Saudi Arabia, UAE, Egypt, Nigeria, and South Africa), South America (Brazil, Argentina, Colombia), Europe (Germany, Spain, France, UK, Russia and Italy and more) and ROW (Rest-of-the-World).

Global Stem Cell Cartilage Regeneration Market 2019-2028 Competitive Landscape:-

A variety of leading gamers mention inside the Global Stem Cell Cartilage Regeneration Market research document are focusing on increasing operations in regions, as they exhibit ability business opportunities. The Global Stem Cell Cartilage Regeneration Market record classifies the marketplace dynamics and trends in the international and regional markets considering several aspects together with technology, supplies, capacity, production, profit, and price.

The document reviews the aggressive landscape scenario seen amongst top Stem Cell Cartilage Regeneration Sales players, their employer profile, revenue, sales, business tactics, and forecast Stem Cell Cartilage Regeneration Sales industry situations. According to the research, Stem Cell Cartilage Regeneration Sales marketplace is rather competing and disparate because of worldwide and neighborhood vendors. The global Stem Cell Cartilage Regeneration Sales marketplace record chiefly includes following players- Companies

Segmentation of Global Stem Cell Cartilage Regeneration Market:

Segmentation by stem cell type:

Hematopoietic Stem Cells (HSCs)Pluripotent Stem Cells (iPSC/ESCs)Mesenchymal Stem Cells (MSCs)Segmentation by treatment:

MicrofractureOsteochondral TransplantAutologous Chondrocyte ImplantationStem Cell InjectionsSegmentation by end user:

Hospitals & ClinicsAmbulatory Surgical Centers

Have Any Query? Ask Our Expert @https://marketresearch.biz/report/stem-cell-cartilage-regeneration-market/#inquiry

Global Stem Cell Cartilage Regeneration Market 2019-2028 : Research Methodology

A Detailed Study of Stem Cell Cartilage Regeneration Market includes the assessment of PORTERS Five Forces Analysis, PESTLE Analysis, Product Life Cycle Analysis, with Opportunity Maps. These analysis strategies can permit you to establish the highest competitive forces to form your business and to work out organization strategy. In this research study, we gathered, analyzed and interpreted records approximately Stem Cell Cartilage Regeneration market, approximately a product and its services, about the beyond and present commercial enterprise targets. This Market research includes two forms of data: Primary data which includes An institution survey and The in-depth interviews, Secondary Research Information assembled by means of media sources, exchange associations, government agencies, chambers of commerce, exertions unions, and so on. Secondary studies normally published in newsletters, pamphlets, magazines, alternate publications, and newspapers.

Highlights of Report:

1. Distribution Channel Assessment

2. Latest and Future Innovation Trends

3. Competitive Strategies

4. Niche Market Trends

5. Market Entry Analysis

6. Market Size and Forecasts

How is this Report On Stem Cell Cartilage Regeneration Market Useful?

In order to realize the understanding and insights acquired from this report, a few figures and presentations are also included other than the data. These are in the shape of charts, graphs, tables, etc. Rather than studying the raw data, studying through the equipment is less complicated and greater conclusions can be drawn looking at these explaining diagrams.

This report also offers hands-on ready-to-get right of entry to analytical facts furnished by enterprise professionals. They can recognize various essential trends, drivers, and demanding situations in the Stem Cell Cartilage Regeneration industry. This report will provide a detailed assessment of majorly the fundamental players, areas considered, and applications.

Contact Us:

Mr. Benni Johnson

MarketResearch.Biz (Powered By Prudour Pvt. Ltd.)

420 Lexington Avenue, Suite 300

New York City, NY 10170,

United States

Tel: +1 347 826 1876

Website:https://marketresearch.biz

Email ID:inquiry@marketresearch.biz

Read the original here:
Stem Cell Cartilage Regeneration Market Key players, Geographical Regions and Growth Analysis Outlook Up To 2028 - Sound On Sound Fest

Growth of Global Stem Cell Therapy Market Size is favored by cumulative factors like development of advanced genome-based cell analysis techniques, soaring awareness of the therapeutic potency of stem cells, detection of novel stem cell lines, and developments in infrastructure related to stem cell banking and processing, and increasing public-private investments for development of stem cell therapies.

In the upcoming years, North America is likely to dominate the global stem cell therapy market share. The U.S. dominates the market which is followed by Canada. Stem cell therapy is powered to cure diseases like diabetes and cancer. There is an increase in occurence of such diseases and higher awareness for the treatment of such diseases is propelling stem cell therapy market. New product innovation & launching, increase in a number of clinical trials for evaluation of the therapeutic potential and higher adoption of these therapies & procedures is fueling market growth. Presence of numerous centers and organization that are engaged in R&D related to new stem cell therapy is likely to led lucrative market growth.

Get more insights at:Global Stem Cell Therapy Market 2020-2025

Europe holds second position in the lucrative market of stem cell therapy. This is attributed to development of efficient & advanced technologies and growing investment in healthcare industry.

The Asia Pacific is projected to exhibit the highest growth in the market. The key countries that are expected to experience fastest development are India and China. The higher adoption of grants by several funding agencies and government for scientific researches is anticipated to stimulate the regional market growth. Investment of leading players for launch and development of newer technologies and increase in healthcare expenditure are also anticipated to up surge the Asia-Pacific market growth of stem cell therapy.

The Middle East & Africa and Latin America regions are expected to show slow growth in the forecast period. Rising awareness about the SC therapies, growing expenditure in the healthcare sector, rapid development in the infrastructure of healthcare and adoption of western technologies and lifestyle is expected to fuel the growth of the stem cell therapy market.

In terms of types of global stem cell therapy market is bifurcated into autologous stem cell therapy and allogeneic stem cell therapy. The segment of allogeneic stem cell therapy is likely to command largest global stem cell therapy market share. This is attributed to easy production scale-up process, escalating commercialization of allogeneic stem cell therapy products, the extensive therapeutic applications of allogeneic stem cells and mounting number of clinical trials related to allogeneic stem cell therapies.

Based on therapeutic application, the global stem cell therapy industry has wide range of categories which includes musculoskeletal disorders, cardiovascular diseases, gastrointestinal diseases, wounds and injuries, surgeries, and other applications. The musculoskeletal disorders sector is anticipated to dominate the global stem cell therapy market by holding largest share. This is attributed to the high prevalence of bone & joint diseases, musculoskeletal disorders, escalating availability of stem cell-based products for the treatment of musculoskeletal disorders and higher patient preference for effective & early treatment strategies.

Get more details about Global Stem Cell Therapy Market:

https://www.adroitmarketresearch.com/industry-reports/stem-cell-therapy-market

The global stem cell therapy market is niche industry with soaring global and local companies involved in the commercialization and development of stem cell therapy products. Anterogen Co., Ltd. (South Korea), MEDIPOST Co., Ltd. (South Korea), Osiris Therapeutics, Inc. (U.S.) and Pharmicell Co., Ltd. (South Korea) are the prominent market players of the global stem cell therapy market. The major strategies adopted by leading market players include expansions, partnerships, new product launches and approvals, and agreements to achieve growth in the global stem cell therapy market.

Key segments of Global Stem Cell Therapy Market

Based on cell source, the market has been segmented into,

Based on therapeutic application, the market has been segmented into,

Based on region, the market has been segmented into,

What to expect from the upcoming report on Global Stem Cell Therapy Market:

Future prospects and current trends of the global stem cell therapy market by the end of forecast period (2018-2025)

Information regarding technological progressions as well as innovations taking place in developing economies

Supportive initiatives by government likely to influence the market dynamics

Trends, drivers, opportunities, restraints, challenges and key developments in the market

In-depth analysis of different market segmentations including regional segmentations, and product types

Deep analysis about the competitive landscape of the market and the initiatives by them to improve this market

For Any Query on the Stem Cell Therapy Market:

https://www.adroitmarketresearch.com/contacts/enquiry-before-buying/691

About US:

Adroit Market Research is an India-based business analytics and consulting company. Our target audience is a wide range of corporations, manufacturing companies, product/technology development institutions and industry associations that require understanding of a markets size, key trends, participants and future outlook of an industry. We intend to become our clients knowledge partner and provide them with valuable market insights to help create opportunities that increase their revenues. We follow a code Explore, Learn and Transform. At our core, we are curious people who love to identify and understand industry patterns, create an insightful study around our findings and churn out money-making roadmaps.

Contact Information:

Ryan Johnson

Account Manager Global

3131 McKinney Ave Ste 600, Dallas,

TX 75204, U.S.A

Phone No.: USA: +1 972-362 -8199 / +91 9665341414

This post was originally published on The Picayune Current

Visit link:
Stem Cell Therapy Market 2020 Analysis by Treatment, Application, Technology, Therapy With Regional Outlook & Forecast To 2025 - The Picayune...