Tuesday, February 28, 2023

The Future of Intraoperative Imaging: Innovations to Improve Patient Outcomes

 Introduction:

 

Intraoperative imaging has been an essential tool in surgical procedures for many years. It provides surgeons with real-time images of the body's internal structures, allowing for precise navigation and improved surgical outcomes. As technology advances, the future of intraoperative imaging is looking even brighter, with exciting innovations on the horizon that promise to enhance patient outcomes even further. In this blog, we'll explore the latest developments in intraoperative imaging and their potential to revolutionize surgical procedures.

 

  • 3D Imaging: One of the most significant advancements in intraoperative imaging is the integration of 3D imaging technology. Traditional 2D imaging has limitations in visualizing complex anatomical structures and providing depth perception. 3D imaging, on the other hand, can offer improved visualization and precision for surgeries requiring high degrees of accuracy, such as neurosurgery or orthopaedic surgery.


  • Robotic-assisted Imaging: Robot-assisted surgeries have already become quite common in the medical field, and it is now being integrated with intraoperative imaging to make procedures more efficient and precise. Robotic assistance can provide a more stable and steady image, while also allowing for more precise and controlled movements by the surgeon.


  • Real-time Analytics: Intraoperative imaging technology can be used to capture real-time data during surgical procedures, such as blood flow, oxygen levels, and tissue viability. This data can provide surgeons with valuable insights, helping them to make more informed decisions during surgery and improving patient outcomes.


  • Image-guided Navigation: Intraoperative imaging can be used to create real-time maps of the surgical site, which can help surgeons to navigate complex anatomical structures with greater precision. This technology is especially useful in surgeries where there is a risk of damaging surrounding structures or when the target area is difficult to access.


  • Optical Coherence Tomography: Optical coherence tomography (OCT) is a new imaging technology that uses light waves to capture high-resolution images of tissue structures, allowing for better visualization of tissue layers and cellular structures. OCT has the potential to revolutionize the diagnosis and treatment of a wide range of medical conditions, including cancer, cardiovascular disease, and ophthalmology.

 

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Global Growth Influencing Factors:

 

The global growth of the intraoperative imaging industry is influenced by several factors, including:

 

  • Increasing demand for minimally invasive surgeries: Intraoperative imaging technology has revolutionized minimally invasive surgeries, allowing for greater accuracy and precision in surgical procedures. The growing demand for minimally invasive surgeries is driving the demand for intraoperative imaging systems.


  • Technological advancements: The development of advanced imaging technologies, such as 3D imaging, robotic-assisted imaging, and real-time analytics, has significantly improved the accuracy and precision of intraoperative imaging. These technological advancements are driving the growth of the intraoperative imaging industry.


  • Rising prevalence of chronic diseases: The increasing prevalence of chronic diseases such as cancer, cardiovascular diseases, and neurological disorders is driving the demand for surgical interventions. Intraoperative imaging plays a critical role in the diagnosis, treatment, and management of these conditions, further driving the growth of the industry.


  • Growing geriatric population: The aging population is more prone to chronic diseases and requires more medical interventions, including surgical procedures. The growing geriatric population is driving the demand for intraoperative imaging systems.


  • Increasing investments in healthcare: Governments and private healthcare organizations are investing heavily in healthcare infrastructure and technology, including intraoperative imaging systems. This investment is further driving the growth of the industry.


  • Increasing awareness among healthcare providers and patients: The growing awareness of the benefits of intraoperative imaging technology among healthcare providers and patients is driving demand for the technology. Healthcare providers are increasingly adopting intraoperative imaging technology, while patients are increasingly demanding it for better surgical outcomes.

 

These factors are expected to continue driving the growth of the intraoperative imaging industry in the coming years, making it an attractive market for investors and healthcare organizations alike.

 

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Conclusion:

Intraoperative imaging technology has already had a significant impact on the field of surgery, providing surgeons with better visualization and improved surgical outcomes. The innovations mentioned above are just a few of the many advancements on the horizon that promise to enhance patient outcomes even further. As technology continues to evolve, we can expect to see even more exciting developments in the future of intraoperative imaging. Ultimately, these advancements will help to make surgical procedures safer, more efficient, and more effective, providing better outcomes for patients around the world.

Overcoming Obstacles in Sleep Apnea Treatment with Advanced Devices: A Global Perspective

 What is Sleep Apnea?

 

Sleep apnea is a condition in which the individual experiences breathing pauses during sleep due to the airway being partially or completely blocked. This can result in several health complications, including high blood pressure, stroke, heart disease, and depression. The most common treatment options for sleep apnea include lifestyle changes, breathing devices, and surgery. However, the effectiveness of these treatments can be limited by several obstacles.

 

In this blog, we will discuss how advanced sleep apnea devices can help overcome these obstacles.

 

Patient Compliance: One of the most significant challenges in treating sleep apnea is patient compliance. Many individuals find it difficult to adhere to continuous positive airway pressure (CPAP) therapy, which is the most common form of treatment. Advanced devices such as auto-titrating CPAP machines and bilevel positive airway pressure (BiPAP) machines can provide more comfortable and customized therapy, leading to increased patient compliance.

 

Mask Discomfort: Wearing a mask during CPAP therapy can cause discomfort, particularly in individuals with sensitive skin. However, newer mask designs that use softer materials and have a more customizable fit can alleviate discomfort and improve compliance.

 

Traveling with CPAP Machines: Individuals who travel frequently may find it challenging to carry and use their CPAP machines. Portable CPAP machines are now available that are smaller, lighter, and easier to transport, making it more convenient for individuals to continue therapy while traveling.

 

Alternative Treatment Options: Some individuals may not be able to use CPAP therapy due to various reasons. In such cases, alternative treatment options such as oral appliances, positional therapy, and surgery may be considered. Advanced oral appliances that are more comfortable and effective in treating sleep apnea are now available.

 

Monitoring and Data Collection: Monitoring compliance and treatment effectiveness is crucial in ensuring optimal outcomes. Advanced sleep apnea devices now come with built-in data collection and monitoring features, allowing healthcare professionals to track patient progress and make adjustments to therapy as needed.

 

In conclusion, advanced sleep apnea devices can help overcome many of the obstacles in treating sleep apnea. By providing more comfortable and customized therapy, improving compliance, and offering alternative treatment options, these devices can improve treatment outcomes and help individuals achieve better sleep and overall health.

 

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Major Growth Influencing Factors:

 

The sleep apnea industry has experienced significant growth in recent years, driven by several factors that have contributed to its global expansion. Some of the major factors that have played a significant role in the growth of the sleep apnea industry are as follows:

 

Rising Prevalence of Sleep Apnea: The prevalence of sleep apnea has been increasing globally due to factors such as aging populations, obesity, and changing lifestyles. As a result, there is a growing demand for effective sleep apnea treatments and devices.

 

Increasing Awareness: The growing awareness about the health risks associated with untreated sleep apnea has resulted in more individuals seeking diagnosis and treatment. This has led to increased demand for sleep apnea devices and treatments.

 

Technological Advancements: The sleep apnea industry has seen significant technological advancements, leading to the development of more effective and efficient sleep apnea devices. These advancements include more comfortable and user-friendly CPAP machines, portable devices, and advanced oral appliances.

 

Government Initiatives: Several governments across the world have initiated programs to increase awareness about sleep disorders and improve access to sleep apnea diagnosis and treatment. This has led to increased demand for sleep apnea devices and treatments.

 

Growing Healthcare Expenditure: The global increase in healthcare expenditure has led to more investment in the development of new sleep apnea devices and treatments, leading to further growth of the industry.

 

Increase in the Geriatric Population: The aging population has a higher risk of developing sleep apnea. With the increase in the geriatric population globally, there is a growing demand for sleep apnea devices and treatments.

 

Increasing Number of Obese Individuals: Obesity is a significant risk factor for sleep apnea, and the increasing number of obese individuals globally has led to a higher prevalence of sleep apnea. This has resulted in an increased demand for sleep apnea devices and treatments.

 

In conclusion, the global growth of the sleep apnea industry is being driven by several factors, including the rising prevalence of sleep apnea, increasing awareness, technological advancements, government initiatives, growing healthcare expenditure, increase in the geriatric population, and increasing number of obese individuals. As these factors continue to drive demand for sleep apnea devices and treatments, the industry is expected to continue to grow in the coming years.

 

Wednesday, February 22, 2023

Emerging Trends & Global Future Forecasts on Clinical Trial Management Systems Industry

 What are Clinical Trials Management Systems?

Clinical trial management systems (CTMS) have become an increasingly important part of clinical research, as they help streamline the process of managing and tracking the data associated with clinical trials. As the global clinical trials market continues to grow, the demand for more efficient, cost-effective clinical trial management systems has also grown. In response, the CTMS industry has seen a number of new trends and advancements in recent years.

 

Emerging Trends and Global Future Forecasts:

  • Increased Adoption of Cloud-Based Clinical Trial Management Systems: Cloud-based CTMS solutions are becoming increasingly popular due to their cost-effectiveness, scalability, and potential for wide-reaching access. Cloud-based CTMS solutions allow for the secure storage and sharing of clinical trial data, providing much-needed data security for clinical trial sponsors and research organizations. As such, many organizations are turning to cloud-based CTMS solutions to streamline clinical trial processes and reduce operational costs.
  • Growth of Connected Health Solutions: Connected health solutions are becoming increasingly important in the clinical trials industry, as they allow for the real-time sharing of data between healthcare providers, researchers, and sponsors. Connected health solutions provide an efficient way to track patient information, enabling clinical trial sponsors to easily monitor patient progress throughout the course of a trial. This trend is expected to continue in the future, as more organizations look to leverage connected health solutions to improve the efficiency and accuracy of clinical trial data.

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  • Accelerated Development of AI-Based CTMS: Artificial intelligence (AI) is becoming increasingly important in the clinical trial industry, as AI-powered CTMS solutions can provide valuable insights and automate manual processes. AI-based CTMS solutions are capable of providing fast, reliable data analysis, as well as predictive analytics, which can help clinical trial sponsors identify potential issues and take corrective action before they become serious. As such, AI-based CTMS solutions are becoming increasingly popular, and are expected to continue to grow in the coming years.
  • Expansion of Regulatory Compliance Solutions: Regulatory compliance is an important concern for clinical trial sponsors, and CTMS solutions are becoming increasingly important in helping organizations meet their regulatory requirements. CTMS solutions can provide organizations with a comprehensive view of their clinical trial data, ensuring that they are in compliance with the applicable regulations and guidelines. As such, regulatory compliance solutions are expected to continue to grow in popularity in the coming years.
  • Growing Demand for Automation: Automation is becoming increasingly important in the clinical trial industry, as it can help streamline and optimize processes, such as data collection and analysis. Automation can also help organizations reduce costs and improve the accuracy of their data. As such, the demand for automation-based CTMS solutions is expected to continue to grow in the coming years.

These are some of the emerging trends and global future forecasts for the clinical trial management systems industry. As the industry continues to grow, these trends are likely to become even more prominent. As such, organizations should look to leverage these trends to improve their clinical trial processes and stay competitive in an ever-evolving market.

 

Major Growth Opportunities:

  • Increasing Adoption of Cloud-based Solutions: With the increasing demand for faster and easier access to data, the clinical trial management system industry is expected to witness the growing adoption of cloud-based solutions. These solutions provide a secure and reliable platform to store and access data, while also ensuring that the data remains confidential. This will enable the clinical trial management system industry to eliminate the need for physical storage and manual data-entry, thus reducing costs and expediting the process.
  • Integration with Electronic Data Capture Systems: Integration of electronic data capture (EDC) systems with clinical trial management systems (CTMS) is expected to witness a significant growth in the coming years. This integration will enable faster data entry and analysis, thus reducing the time taken to complete the clinical trial process and improve the accuracy of results. EDC systems are expected to become increasingly integrated with CTMS due to the benefits associated with it.
  • Growing Focus on Clinical Data Analytics: Clinical data analytics is a powerful tool that allows researchers to uncover meaningful trends and patterns in large volumes of data. This helps them make more informed decisions regarding the clinical trial process. With the increasing focus on clinical data analytics, the clinical trial management system industry is expected to witness significant growth in the coming years.
  • Growing Demand for Mobile Platforms: The increasing demand for mobile platforms is expected to provide a boost to the clinical trial management system industry in the coming years. Mobile platforms enable researchers to access and manage clinical trial data from any location. This will enable researchers to conduct clinical trials more quickly and efficiently, thus increasing their efficiency and improving the accuracy of results.

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Clinical Trial Supplies - Why Constant Tech Innovations are Important?

 What are Clinical Trials?

 

Clinical trials are an important part of the drug development process, as they provide critical data to assess the safety and efficacy of potential new treatments. Clinical trial supplies are the materials used in these trials, including drugs, medical devices, and other equipment. As the complexity and cost of clinical trials continues to increase, it is becoming increasingly important to ensure that these supplies are managed efficiently and effectively.

 

This is where technology comes in. By leveraging the latest advancements in technology, clinical trial supplies can be managed more efficiently, resulting in better outcomes and cost savings.

 

The Ways in Which Technology is Transforming Clinical Trials:

 

  • Automated Supply Management: Automated supply management systems can help streamline the process of ordering, tracking, and managing clinical trial supplies. These systems can also be used to monitor drug inventory levels, ensuring that the right amount of supplies are available when needed. This can help improve the efficiency of the trial, as well as reduce costs.
  • Electronic Data Capture: Electronic data capture (EDC) systems are used to collect and store clinical trial data in an electronic format. This eliminates the need for paper-based systems, making data collection and analysis much faster and more accurate. EDC systems can also be used to track supply usage and ensure that the right amount of supplies are available for each trial.
  • Wearable Technology: Wearable technology can be used to collect data from participants during clinical trials. This data can be used to monitor participant compliance and progress, and can also be used to assess the efficacy of treatments. Wearable technologies can also be used to monitor drug or device usage, providing valuable insights into the safety and efficacy of treatments.
  • Machine Learning and Artificial Intelligence: Artificial intelligence and machine learning can be used to automate many of the tedious tasks associated with clinical trials, such as data analysis and drug discovery. This can help reduce the cost and time associated with clinical trials, making them more efficient and cost-effective.

 

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Technology innovations are essential to ensuring that clinical trials are managed efficiently and effectively. Automated supply management systems, electronic data capture, wearable technologies, and artificial intelligence can all help improve the management of clinical trial supplies, resulting in better outcomes and cost savings. As technology continues to evolve, the possibilities for improving the management of clinical trial supplies are endless.

 

Global Geographical Growth Scenario:

 

  • North America: The clinical trial supplies industry in North America is expected to grow significantly due to the presence of major players in the region. Growing investments in the healthcare sector and increasing demand for cost-effective clinical trial supplies are driving market growth in the region.
  • Europe: Europe is expected to witness significant growth in the clinical trial supplies industry due to the presence of a large number of clinical trials in the region. Additionally, the increasing focus on R&D activities in the pharmaceutical industry is propelling the growth of the market.
  • Asia Pacific: The clinical trial supplies industry in Asia Pacific is expected to register a high CAGR due to the presence of large population, increasing healthcare expenditure, and growing demand for cost-effective clinical trial supplies.
  • Latin America: The clinical trial supplies industry in Latin America is expected to witness significant growth due to the presence of a large number of clinical trials in the region. Additionally, the increasing focus on R&D activities in the pharmaceutical industry is propelling the growth of the market.
  • Middle East & Africa: The Middle East & Africa is expected to witness moderate growth in the clinical trial supplies industry due to the presence of a large number of clinical trials in the region. Additionally, the increasing focus on R&D activities in the pharmaceutical industry is propelling the growth of the market.

 

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Global Key Players:

 

The global clinical trial supplies market is competitive. Prominent players operating in the global clinical trial supplies market include Thermo Fisher Scientific, Inc. (US), Marken (US), Catalent, Inc. (US), Eurofins Scientific (France), PRA Health Sciences (US), Parexel International Corporation. (US), Biocair (UK), Almac Group (UK), Piramal Pharma Solutions (India), Infosys (India), PCI Pharma Services (US), Liveo Research (Switzerland), Capsugel (Switzerland).

 

Growth Strategies Adopted by Key Players:

 

The key players in this market are increasingly focusing on strategic expansions, partnerships, and product approvals to expand their manufacturing capabilities and increase market presence.

Staying Ahead of the Curve in the Global Sleep Apnea Devices Industry

 What is Sleep Apnea?

 

Sleep apnea is a serious medical condition that affects millions of people around the world. It is characterized by pauses in breathing during sleep, often caused by an obstruction in the upper airway. Untreated or undiagnosed sleep apnea can lead to a range of health complications, including increased risk of stroke, heart attack, and even sudden death. Fortunately, there are many treatments available to help manage the condition. One of the most common treatments is the use of sleep apnea devices.

 

Sleep apnea devices come in a variety of shapes and sizes, and they range from the simple to the complex. Continuous positive airway pressure (CPAP) devices are the most widely used sleep apnea devices. These devices work by providing a steady stream of air pressure to keep the airway open during sleep. Other devices, such as oral appliances, can help to keep the airway open by repositioning the jaw and tongue.

 

Why Tech Advancements are Important?

 

As technology continues to advance, so too do the devices used to treat sleep apnea. In recent years, manufacturers have developed new devices that are more comfortable, efficient, and effective than ever before. In order to stay ahead of the curve in the sleep apnea devices market, it’s important to understand the latest trends and innovations.

 

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Emerging Trends:

 

One of the newest trends in sleep apnea devices is the use of wireless technology. Wireless devices use Bluetooth or Wi-Fi to connect to compatible devices, such as smartphones or tablets. By using wireless technology, sleep apnea devices can be monitored remotely, allowing for real-time feedback and adjustments. This means that patients can take a more active role in their treatment, providing valuable insight into the effectiveness of their device.

 

Another trend in sleep apnea devices is the use of artificial intelligence (AI). AI-enabled devices are designed to track and analyze a patient’s sleep patterns, helping to identify potential obstructions and provide personalized treatment recommendations. AI-enabled devices can also collect data over time, allowing for an even more accurate understanding of a patient’s sleep patterns and needs.

 

Finally, manufacturers are also experimenting with the use of virtual reality (VR) in sleep apnea devices. VR is being used to create immersive experiences for patients, such as virtual sleep studies and simulations. These experiences can help to identify potential obstructions and provide real-time feedback on how to adjust the device for better results.

 

Staying ahead of the curve in the sleep apnea devices market requires an understanding of the latest trends and innovations. By keeping up with the latest developments in the industry, you can ensure that you’re providing the best possible treatment options for your patients.

 

Recent Developments:

 

In June 2021, Oventus Medical signed a partnership agreement with Aeroflow Healthcare to provide Oventus’ obstructive sleep apnea (OSA) treatment solutions, including O2Vent Optima, directly to consumers via sleep clinics in the US.

 

In February 2021, Oventus Medical launched 02Vent Optima, a customizable oral appliance therapy device that offers an alternative to CPAP therapy in the US through GoPAPfree.

 

In November 2020, Panthera Dental collaborated with Dentsply Sirona.

 

In December 2019, Fisher & Paykel Healthcare signed a USD-1.5-million partnership agreement with Counties Manukau Health (CM Health) to provide funding for clinical research at Middlemore Hospital.

 

In March 2019, ResMed acquired HB Healthcare, a home medical equipment provider, which offers sleep and respiratory care devices.

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Tuesday, February 21, 2023

Understanding Importance of Tech Advancements in Lung Cancer Surgery

How you get affected by Lung Cancer?

 

Lung cancer can cause a wide range of symptoms, depending on the type and stage of the cancer. Symptoms may include coughing, chest pain, shortness of breath, wheezing, and weight loss. Lung cancer can also spread to other parts of the body, causing symptoms such as bone pain, headache, and neurological changes. Treatment may include surgery, radiation, chemotherapy, targeted therapy, or immunotherapy.

 

Why do We Need Advanced Lung Cancer Surgery Techniques?

 

  • Advanced lung cancer surgery techniques can:
  • Provide more accurate diagnosis and treatment of lung cancer, as well as less invasive procedures.
  • Enable surgeons to achieve better outcomes with less discomfort and shorter recovery times for patients.
  • Allow for the removal of small tumors and other lesions that may be difficult to detect with traditional methods.
  • Help to reduce the risk of recurrence and spread of cancer cells to other parts of the body.
  • Also reduce the need for chemotherapy and radiation, as well as improve the quality of life for patients.

 

Major Growth Driving Factors:

 

Market growth is largely driven by factors such as the technological advancements in lung cancer treatment, the increasing incidence and prevalence of lung cancer, the growing trend of smoking tobacco, the rising geriatric population, the increasing emphasis on early diagnosis and treatment of cancers, and the availability of reimbursement. However, the high cost of lung cancer diagnosis and surgery is expected to restrain the growth of this market during the forecast period.

 

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Emerging Innovations:

 

  • Robot-Assisted Thoracic Surgery: This type of surgery utilizes a robotic system to allow surgeons to perform minimally invasive thoracic procedures with greater precision and accuracy. The robotic system is designed to enable surgeons to make precise, small incisions and access areas of the chest that would otherwise be difficult to reach using traditional open surgery techniques.
  • Video-Assisted Thoracic Surgery (VATS): This type of surgery utilizes a small video camera and other instruments that are inserted through small incisions in the chest wall. This minimally invasive technique allows surgeons to perform operations within the chest cavity with enhanced accuracy and precision. It is often used to perform lobectomies, mediastinal tumor resections, and other surgical procedures.
  • CyberKnife Radiosurgery: CyberKnife radiosurgery is a non-invasive procedure that uses precise doses of radiation to target and destroy cancerous tumors. This technology can be used to treat small, early-stage lung tumors that may not be suitable for traditional open or minimally invasive surgery.
  • Image-Guided Surgery: Image-guided surgery is a technique that uses imaging technology to help guide surgeons during a procedure. This technology can be used to identify the exact location of tumors and other abnormalities in the chest, allowing surgeons to perform accurate, less invasive procedures.


Geographical Growth Dynamics:

 

The global lung cancer surgery industry is experiencing significant geographic growth dynamics. The market for lung cancer surgery has grown significantly in the past few years due to increasing rates of lung cancer diagnosis and the introduction of new technologies. The growth of the market is driven by increased awareness of the need for treatment and preventive measures, improved access to diagnostic and therapeutic services, and the development of new treatments.

 

North America dominates the market, followed by Europe and Asia Pacific. In North America, the US is the largest market, followed by Canada and Mexico. Europe is second in terms of market share, followed by Asia Pacific. The growth of the market in Europe is mainly attributed to the increasing incidence of lung cancer and the growing awareness of the need for treatment.

 

In Asia Pacific, the growth of the market is mainly driven by the increasing prevalence of lung cancer and the availability of advanced technologies and treatments. Furthermore, the rising awareness of preventive measures and improved access to diagnosis and treatments are also driving the growth of the market in Asia Pacific.

 

The Middle East and Africa are still in the early stages of market growth. In the Middle East, the growing awareness of the need for treatment and the availability of advanced technologies and treatments are expected to drive the growth of the market. In Africa, the rising prevalence of lung cancer and the increasing access to diagnostic and therapeutic services are expected to drive market growth.

 

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Recent Developments, Globally:

 

  • Robotic Surgery: Robotic surgery is becoming increasingly popular in the treatment of lung cancer, as it offers more precise control of surgical instruments and less invasive procedures. Robotic surgery allows for a more precise removal of tumors and other structures, with less risk of complications and shorter recovery times.
  • Minimally Invasive Surgery: Minimally invasive surgery has become increasingly popular for lung cancer surgery as it requires smaller incisions and fewer complications. This type of surgery also allows for faster recovery times, reduced pain, and less scarring.
  • 3D Imaging: 3D imaging technology has improved the accuracy of lung cancer surgery, making it easier to identify and target tumors and other areas of concern. This can help reduce the risk of complications and improve overall outcomes.
  • Nanotechnology: Nanotechnology is being used in lung cancer research to improve the accuracy of diagnosis and treatment. This technology can be used to detect cancer cells at an early stage, monitor and track tumor growth, and deliver targeted treatments.
  • Immunotherapy: Immunotherapy is being used in combination with other treatments to better target cancer cells and reduce the risk of recurrence. This type of therapy uses the body’s own immune system to fight the cancer.