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Detachable cardiac pacing lead may improve safety for cardiac patients
New Post has been published on https://thedigitalinsider.com/detachable-cardiac-pacing-lead-may-improve-safety-for-cardiac-patients/
Detachable cardiac pacing lead may improve safety for cardiac patients
In 2012, Neil Armstrong, the first man to walk on the moon, died of post-surgery complications at the age of 82 following what should have been a routine heart surgery. Armstrong had undergone bypass surgery, the most common open-heart operation in the United States, and a surgery where the overall chance of death has dropped to almost zero.
Armstrong’s death was caused by heart damage that occurred during the removal of temporary cardiac pacing leads. Pacing leads are routinely used to monitor patients and protect against the risk of postoperative arrhythmias, including complete blockages, during the recovery period after cardiac surgery. However, because current methods rely on surgical suturing or direct insertion of electrodes to the heart tissue, trauma can occur during implantation and removal, increasing the potential for damage, bleeding, and device failure.
A coffee chat in 2019 about Armstrong’s untimely death helped inspire new research, published in the journal Science Translational Medicine. The research demonstrates findings that may offer a promising new platform for adhesive bioelectronic devices for cardiac monitoring, diagnosis, and treatment, and offer inspiration for the future development of bioadhesive electronics.
“While discussing the story, our team had a eureka moment that we probably could do something to prevent such complications by realizing a completely atraumatic version of it based on our bioadhesive technologies,” says Hyunwoo Yuk SM ’16, PhD ’21, a former MIT research scientist who is now the chief technology officer at SanaHeal. “It was such an exciting idea, and the rest was just making it happen.”
The team, comprising researchers affiliated with the lab of Xuanhe Zhao, professor of mechanical engineering and of civil and environmental engineering, has introduced a 3D-printable bioadhesive pacing lead that can directly interface with cardiac tissue, supporting minimally invasive adhesive implantation and providing a detachment solution that allows for gentle removal. Yuk and Zhao are the corresponding authors of the study; former MIT researcher Jue Deng is the paper’s first author.
“This work introduces the first on-demand detachable bioadhesive version of temporary cardiac pacing lead that offers atraumatic application and removal of the device with enhanced safety while offering improved bioelectronic performance,” says Zhao.
The development of the bioadhesive pacing lead is a combination of technologies that the team has developed over the last several years in the field of bioadhesive, bioelectronics, and 3D printing. SanaHeal, a company born from the team’s ongoing work, is commercializing bioadhesive technologies for various clinical applications.
“We hope that our ongoing effort on commercialization of our bioadhesive technology might help faster clinical translation of our bioadhesive pacing lead as well,” says Yuk.
#3-D printing#3d#3D printing#applications#author#bioelectronics#Biomechanics#bleeding#Born#Civil and environmental engineering#coffee#development#devices#Diagnostic devices#electrodes#Electronics#engineering#Environmental#eureka#Future#Health sciences and technology#heart#Inspiration#Invention#it#Mechanical engineering#Medical devices#Medicine#mit#Moment
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3D Printing Medical Devices Market Size and Share Report
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#market research future#3d systems healthcare#medical 3d printing software#3d printing healthcare compani#3d printing medical device
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"Future of Healthcare: Innovations in the 3D Printing Medical Devices Market"
3D Printing Medical Devices Market Overview📊 :
The 3D Printing Medical Devices Market Report is a treasured source of insightful data for business strategists. It provides an in-depth assessment of numerous features of industries like market overview, present progress valuations, historical and future studies, current trends, SWOT valuations, and clients operating in several regions. The study provides valuable information to magnify the understanding, scope, and segments of this report. The report covers a comprehensive analysis of 3D Printing Medical Devices Market segmentation and regional and country breakdowns. This research will offer a clear and exact idea about the whole industry to the readers to make beneficial decisions.
According to Straits Research, the global 3D Printing Medical Devices Market size was valued at USD 2.55 Billion in 2022. It is projected to reach from USD XX Billion in 2023 to USD 9.79 Billion by 2031, growing at a CAGR of 16.1% during the forecast period (2023–2031).
This study pinpoints noteworthy trends influencing the trajectory of the Gesture Recognition market's expansion. Within this recently issued report, crucial dynamics encompassing drivers, limitations, and prospects are underscored. These aspects hold relevance for well-established market entities as well as emerging stakeholders engaged in the realms of production and supply.
Request a Sample Report @ https://straitsresearch.com/report/3d-printing-medical-devices-market/request-sample
Who are the 🏆leading players in 3D Printing Medical Devices Market?
3D Systems Corporations,
Bio3D Technologies,
Cyfuse Medical K.K.,
EnvisionTEC,
Materialise NV,
Organovo Holdings Inc.,
Oxford Performance Materials Inc.,
SLM Solutions Group AG,
Stratasys Ltd.
Moreover, the competitive analysis of the 3D Printing Medical Devices Market brings insight into the product usability profiles of the leading players. Additionally, the analysis highlights features & pricing, and informant reviews of the key products in the market.
Which segments are covered in 3D Printing Medical Devices Market?
By Component
Printers
Materials
Software & Services
Hardware
By Technology
Electron Beam Melting (EBM)
Laser Beam Melting (LBM)
Direct Metal Laser Sintering (DMLS)
Stereolithography (SLA)
Fused Deposition Modeling (FDM)
Selective Laser Melting (SLM)
Selective Laser Sintering (SLS)
Others (Photopolymerization, Digital Light Processing [DLP], etc.)
By Application
Orthopedic & Cranial Implant
Dental Restorations
Surgical Instruments
Tissue Fabrication
Custom Prosthetics
Prosthetics Implant
Wearable Medical Devices
Dentistry and Orthodontics
Others (Tissue-engineered Products, Plastic and Reconstructive Surgeries, etc.)
By Material
Plastics
Biomaterial Inks
Metals and Alloys
By End User
Hospitals and Surgical Centers
Dental and Orthopedic Clinics
Academic Institutions and Research Laboratories
Pharma-Biotech and Medical Device Companies
Clinical Research Organizations
The market is largely fragmented and the vast majority of the players functioning in the global 3D Printing Medical Devices Market are taking steps to raise their market footprint, by concentrating on product diversification and development, therefore making them seize a larger share of the market. The study highlights current market trends and provides a forecast. We also have highlighted future trends in the 3D Printing Medical Devices Market that will impact the demand during the forecast period. Overall, this report is an important resource for businesses seeking to stay ahead of the competition in the 3D Printing Medical Devices Market industry. With its complete analysis of recent developments and the latest emerging trends, it offers valuable insights into the market that can be used to grow effective growth strategies and enhance market positioning.
Access Detailed Segmentation @ https://straitsresearch.com/3d-printing-medical-devices-market/segmentation
Regional Analysis
Largest Market: The 3D Printing Medical Devices Market is dominated by North America, which holds the largest share due to factors such as advanced infrastructure, high consumer awareness, and significant investment in related industries. The region's well-established specific sectors further bolster its leading position in the market.
Fastest Growing Market: The fastest-growing market for 3D Printing Medical Devices Market is Europe. This growth is driven by a combination of rising disposable incomes, increasing adoption of specific products or services, and supportive government initiatives. Additionally, the expanding related industries in this region contribute to its rapid market expansion.
Our Report Offers:
– Market share assessments for the regional and country-level segments.
– Strategic recommendations for the new entrants.
– Competitive landscaping mapping the key common trends.
– Company profiling with detailed strategies, financials, and recent developments.
– Supply chain trends mapping the latest technological advancements.
Buy Now full 3D Printing Medical Devices Market report @ https://straitsresearch.com/buy-now/3d-printing-medical-devices-market/
An international 3D Printing Medical Devices Market research report delves into the competitive landscape of global markets, scrutinizing companies and manufacturers. The report's competitive analysis spotlights the strategic actions undertaken by key players across diverse industries. These actions encompass a spectrum of activities including new product introductions, expansions, agreements, joint ventures, partnerships, and recent acquisitions. This comprehensive market report sheds light on a myriad of facets within marketing research, spanning crucial industry trends, market size, estimated market share, sales volume, emerging patterns, product consumption, customer inclinations, historical data, forward-looking forecasts, and meticulous analysis of key players.
Global 3D Printing Medical Devices Market Research Report Forecast 2031
Chapter 1:- 3D Printing Medical Devices Market Overview
Chapter 2:- Economic Impact on Industry
Chapter 3:- Production, Business Opportunities with Potential Analysis
Chapter 4:- Rising Trends and New Technologies with Key Players
Chapter 5:- 3D Printing Medical Devices Market Manufacturing Cost Analysis
Chapter 6:- Technology Progress, Development Process and Downstream Buyers
Chapter 7:- Marketing Strategy Analysis, Distributors/Traders
Chapter 8:- Market Share by Key Countries in These Regions
Chapter 9:- Show the Market by Type and Application, With Sales Market Share and Growth Rate
Chapter 10:- Appendix and Data Source
Click to View the Full Report TOC: https://straitsresearch.com/report/3d-printing-medical-devices-market/toc
Key Questions Answered by Our 3D Printing Medical Devices Market Report
What are the key drivers of growth in the 3D Printing Medical Devices Market, and how do they vary across regions and segments?
How are advancements in technology and innovation affecting the 3D Printing Medical Devices Market, and what new opportunities and challenges are emerging as a result?
Which market players are currently leading the pack in terms of market share and product innovation, and what strategies are they employing to maintain their positions?
What regulatory and policy changes are on the horizon that could affect the 3D Printing Medical Devices Market, and how are market players adapting to these changes?
What are the emerging trends and market disruptors that are likely to shape the 3D Printing Medical Devices Market in the years to come, and what can businesses do to stay ahead of the curve?
How are consumer preferences and behaviors evolving with regard to 3D Printing Medical Devices Market, and what implications do these trends have for market players?
Buy Now full 3D Printing Medical Devices Market report @ https://straitsresearch.com/buy-now/3d-printing-medical-devices-market/
Thanks for reading this article; you can also get separate chapter-wise sections or region-wise report versions like North America, Europe, or Asia.
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Contact Us:
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Website: https://straitsresearch.com/
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Medical Polymer Market Outlook: Trends, Innovations, and Global Dynamics
The medical polymer market has become a pivotal sector, growing due to advancements in healthcare materials. Known for durability, flexibility, and biocompatibility, these polymers are essential across devices, surgical instruments, implants, packaging, and drug delivery systems. The rise in demand reflects industry trends, technological breakthroughs, and growing regulatory standards shaping this market.
The global medical polymer market is valued at USD 41.1 billion in 2024 and is projected to reach USD 60.5 billion by 2029, growing at 8.0% cagr from 2024 to 2029.
Key Market Trends
Biocompatibility Innovations: Biocompatible materials are essential in medical applications where patient safety is paramount. To meet this need, polycarbonate, polypropylene, and polyethylene polymers are engineered to strict medical standards, creating materials that offer safe, effective performance within the body.
Surge in Disposable Devices: Single-use medical products like gloves, syringes, and catheters are gaining traction, especially post-pandemic. Disposable polymers allow manufacturers to produce cost-effective, hygienic products, addressing modern healthcare’s need for cleanliness and infection control.
3D Printing Advancements: Customization has transformed through 3D printing, as tailored prosthetics and surgical tools become accessible. Polymers like PEEK are favored here for strength and adaptability, enabling precise medical solutions suited to individual patient needs.
Sustainability Drives: With heightened environmental awareness, medical manufacturers are focusing on bio-based and recyclable materials. This shift aims to reduce the ecological impact of medical products, reflecting the global push towards sustainable solutions.
Enhanced Drug Delivery Applications: Drug delivery systems require polymers that ensure controlled, sustained release of medication. Bioresorbable polymers are particularly beneficial here, facilitating targeted treatment in chronic and long-term therapies without additional interventions.
Growth Drivers in the Medical Polymer Market
Demand for Minimally Invasive Devices: Polymers are ideal for minimally invasive surgery tools due to their flexibility and durability. As demand for less invasive procedures grows, so does the need for these high-performing materials, making them integral to medical advancements.
Aging Population and Chronic Disease: The global increase in chronic health conditions and an aging population drive demand for medical-grade polymers in implants, devices, and products for ongoing care. This market growth reflects the need for durable, biocompatible materials to improve patient care.
R&D and Technological Investments: Innovations in polymer chemistry and healthcare applications expand the versatility of these materials. Significant R&D investment is pushing the boundaries, enabling entry into new applications and meeting stringent regulatory demands across regions.
Regional Market Insights
The market for medical polymers is expanding globally, with strong growth in North America, Europe, and Asia-Pacific. North America leads due to its advanced healthcare sector and robust R&D focus, while the Asia-Pacific region experiences rapid growth driven by healthcare expansion, population increases, and rising disposable incomes in emerging economies like China and India.
Emerging markets hold considerable growth potential, especially as they build their healthcare infrastructure and address increasing medical needs. Access to quality polymers helps these regions expand their healthcare capabilities, catering to larger populations with advancing healthcare needs.
Challenges and Future Prospects
The medical polymer market faces challenges, such as meeting rigorous regulatory requirements, managing high development costs, and addressing environmental concerns. Compliance with medical standards is necessary but can slow down product development and increase expenses. Additionally, the medical industry’s reliance on single-use polymers prompts a need for eco-friendly, recyclable solutions.
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The future remains promising. The market’s growth, driven by healthcare demands and technological advances, opens new opportunities in medical material innovation. Companies prioritizing sustainability, compliance, and R&D will be well-positioned to capitalize on the evolving needs of this essential industry.
As materials science and healthcare continue to intersect, medical polymers are set to play a critical role in advancing medical technologies, improving patient outcomes, and meeting global healthcare needs.
#medical polymer market#biocompatible materials#disposable medical devices#3D printing in healthcare#sustainable polymers#biodegradable polymers#drug delivery systems#minimally invasive devices#chronic disease treatment#aging population healthcare#medical-grade polymers
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Medical Device Prototype
Medical device prototype is created as early physical models of medical devices that aim to show how the product looks and operates. It can allow designers and engineers to identify opportunities and risks in the early stages of the medical device design development phase.
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New AI algorithm could enhance autoimmune disease prediction and therapy
- By InnoNurse Staff -
An advanced AI algorithm from Penn State University may enhance the accuracy and timing of predictions and introduce novel treatments for autoimmune diseases.
By examining the genetic code, the algorithm better models gene expression and regulation, identifying additional risk genes associated with these conditions.
Read more at Penn State
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Other recent news and insights
Illuminating neurovascular dynamics with 3D-printed implants and bioluminescence (SPIE)
New device enables paraplegics to partially regain hand function (AFP/Medical Xpress)
Innovative 3D printing techniques for eye condition treatments (University of East Anglia/Medical Xpress)
Australia: The MediSecure data breach explained (The Conversation)
#ai#genomics#health informatics#health tech#biotech#medtech#neuroscience#medical implants#3d printing#disability#medical device#ophthalmology#eye#australia#cybersecurity#cyberattack#data breach#medisecure
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https://www.advancemarketanalytics.com/reports/17161-global-market-3d-printed-medical-devices
Advance Market Analytics released a new market study on Global 3D Printed Medical Devices Market Research report which presents a complete assessment of the Market and contains a future trend, current growth factors, attentive opinions, facts, and industry validated market data. The research study provides estimates for Global 3D Printed Medical Devices Forecast till 2028*.
3D printed medical devices are the equipment used in a wide range of medical applications in hospitals, clinics manufactured using 3D technology. The 3D medical devices consist of human organs and tissue, surgical guides, surgical instruments, prosthetics & orthopedic implants, medical phantoms, and others. This technology process creates a 3D object by building a successive layer of raw material, and every layer is attached to the previous one until the object is complete. Medical devices are produced by digital 3D files like magnetic resonance images (MRI), and computer-aided design (CAD).
Key Players included in the Research Coverage of 3D Printed Medical Devices Market are:
3D Systems (United States), Zortrax (Poland), Stratasys, Ltd. (Israel), Formlabs (United States), ENVISIONTEC US LLC (United States), Materialise NV (Belgiuim), Renishaw plc (United Kingdom), Prodways Group (France), restor3d (United States)
What's Trending in Market: Improvement, Innovations, and Advancement in 3D Printing Process for Medical Equipment Manufacturing
Challenges: Complex Material Sourcing Affecting 3D Printed Medical Devices
Opportunities: Increasing Investment of Healthcare Providers and Associations in Advanced Technology such as 3D Printed Organs will Boost the 3D Printed Medical Devices Market
Market Growth Drivers: Growing 3D Printing Technology in Healthcare for Performing Complex Operation and Training Programmes
Demand for Fulfilling Design Flexibility and Complex Design Structure of Medical Devices for Different Applications
The Global 3D Printed Medical Devices Market segments and Market Data Break Down by Type (Human Organs and Tissue, Surgical Guides, Surgical Instruments, Prosthetics & Orthopaedic Implants, Medical Phantoms, Others), Application (Hospitals, Clinics, Others), Technology (Stereolithography (SLA), Selective Laser Sintering (SLS), Fused Deposition Modeling (FDM), Electron Beam Melting (EBM), Others), Sales Channel (Online, Offline)
Get inside Scoop of the report, request for free sample @: https://www.advancemarketanalytics.com/sample-report/17161-global-market-3d-printed-medical-devices
To comprehend Global 3D Printed Medical Devices market dynamics in the world mainly, the worldwide 3D Printed Medical Devices market is analyzed across major global regions. AMA also provides customized specific regional and country-level reports for the following areas.
• North America: United States, Canada, and Mexico.
• South & Central America: Argentina, Chile, Colombia and Brazil.
• Middle East & Africa: Saudi Arabia, United Arab Emirates, Israel, Turkey, Egypt and South Africa.
• Europe: United Kingdom, France, Italy, Germany, Spain, Belgium, Netherlands and Russia.
• Asia-Pacific: India, China, Japan, South Korea, Indonesia, Malaysia, Singapore, and Australia.
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What are the Advancements in 3D Printing High-Performance Plastics?
3D printing tech has gone from strength to strength at a rapid rate, altering more than a few industries. Amongst the several 3D printing applications, plastic 3D printing is really a game changer, offering adaptability, cost-efficiency, and innovation. The utmost new progressions in plastic 3D printing have pushed the limits of what was formerly thought conceivable. This blog will help you…
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#3D Printing High-Performance Plastics Market#Additive Manufacturing#Aerospace Components#automotive parts#Chemical Durability#Competitive Landscape#Healthcare Industry#Heat Resistance#Industrial Prototypes#Investors#Manufacturers#Market Segments#Medical Devices#Regional Influences#Strength
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