How Biotechnology Engineering is Influencing Med Tech Solutions

7 Minutes

Buoyed by biotechnology engineering, med tech solutions are evolving to change healthcare fo...

By Ryan Prouse

360 Recruiter

Buoyed by biotechnology engineering, med tech solutions are evolving to change healthcare for the better. The Life Sciences industry is always adapting to meet new and pressing demands within healthcare. Whether it’s drug discovery and development, implantable technology for 24/7 monitoring, or AI’s capabilities changing how medical professionals work, biotech and med tech are crucial in shaping the future of healthcare  

With that said, there’s been an influx of AI-related med tech jobs and biotech jobs. This insightful guide will discuss the relationship between biotechnology and med tech and explore its influence in the Life Sciences industry. 

The Fusion of Biotech and Med Tech 

Biotechnology and medical technology are two fields within the Life Sciences industry that carry influence in their own right. However, as healthcare develops, the relationship between biotechnology and medical technology becomes increasingly intertwined. 

Exploring Biotechnology 

Biotechnology uses biological systems and living organisms to develop products and processes for specific scientific or medical purposes. Traditional biotechnology, with practices like fermentation, has existed for thousands of years. In the modern era, biotechnology is concerned with modifying genetic information and biological systems. 

Its application is prevalent across multiple sectors, including in agriculture, industry, and food production. In healthcare, it can be used in the following areas: 

  • Development of biopharmaceuticals
  • Genetic engineering 
  • Stem cell therapy 
  • Molecular diagnostics
  • Producing vaccines 

Exploring Medical Technology 

Med tech is the development, manufacturing, and distribution of medical devices, equipment, and software that enhance diagnosis, monitoring, and treatment in healthcare. Significant strides have been made in the shaping of cutting-edge devices like:

  • Thermometers: A specialised device for accurately and efficiently measuring body temperature. 
  • MRI Machines: Machines that use powerful magnets and radio waves for cross-sectional images of the body’s internal structure.  
  • CT Scanners: Medical imaging devices that use X-ray technology to produce detailed body images.  
  • Pacemakers: Small devices that are implanted and regulate heart rhythm.  
  • Equipment In Vitro Diagnostics (IVD): Medical devices perform tests on samples from the human body, such as blood, urine, and tissue. 

Ultimately, med tech is the technology that improves patient care and health outcomes. Therefore, its continued development is imperative, and biotechnology engineering spearheads its advancements. 

This interconnectivity between biotechnology and medical technology means roles are changing – and entirely new med tech jobs and jobs in biotechnology are being created. At the moment, there is an unprecedented demand for medical professionals adept with AI-related skills. Here’s an example of some of the jobs being generated:

  • AI Scientist: These professionals work to develop AI applications for healthcare. They must understand specific patient and healthcare needs to tailor applications for different healthcare scenarios. 
  • Head of Machine Learning: Leads machine learning projects for drug discovery and other healthcare advancements. 
  • Machine Learning Scientist: Creates generative technologies and collaborates with lab scientists to develop new therapeutics. 

Key Areas Biotechnology Engineering is Shaping Med Tech Solutions

Healthcare organizations have benefited in several areas due to biotech and med tech advancements. Here’s an overview: 

Personalized Medicine 

Often referred to as precision medicine, this approach factors in a patient's genetics and lifestyle to provide tailored medical decisions, treatments, and practices. This shift away from traditional medicine now gives patients more strategic solutions. Here are the elements of personalized medicine: 

  • Genetic Profiling: Precision medicine is centered around analyzing a patient’s genetic makeup so that informed decisions can be made about disease prevention, diagnosis, and treatment. 
  • Targeted Therapies: One of the main purposes of personalized medicine is to develop and prescribe tailored therapies. This approach is particularly effective for cancer treatment - for example, Herceptin is more effective and has fewer side effects for HER2-positive breast cancer patients. These therapies are engineered to target specific molecular pathways concerned with disease progression. 
  • Pharmacogenomics: This field assesses how genetic variations impact an individual’s response to the administration of certain drugs. This allows biotech companies to engineer new drugs, and healthcare organizations can select the relevant medication based on the patient’s genetic profile. 

Regenerative Medicine 

This discipline aims to replace, repair, or regenerate cells, tissues, or organs to restore them to optimal functionality. Whether it is acute injuries or chronic diseases, biotechnology engineering and med tech solutions are combining to revolutionize healthcare and offer treatments for previously deemed incurable conditions. The core components of regenerative medicine include:  

  • Cell Therapies: The patient’s body benefits by receiving cells in a specific area.
  • Tissue Engineering: Involves sourcing cells from a patient (autologous), a donor (allogeneic), or stem cells. From here, biomaterials, known as scaffolds, provide structural support for cell attachment and tissue formation. 
  • Gene Therapy: The process of manipulating genes within cells. This can be done in several ways. For example, replacing unhealthy genes, inactivating genes that cause disease, and introducing genes that fight disease. 
  • Biotechnology Engineering Methods: Leveraging the latest engineering techniques to produce effective medtech solutions. 

Biopharmaceuticals

Biopharmaceuticals is the process of using biological sources and implementing biotechnology engineering to develop medicinal products. In contrast to traditional drugs, these macromolecules are much larger and are produced in living cells rather than in chemical synthesis. Examples of biopharmaceuticals include: 

  • Vaccines: Prevent infectious diseases and improve public health. 
  • Cytokines: Small proteins that contribute to cell signalling and communication in the immune system. 
  • Enzymes: Primarily, these are proteins that speed up chemical reactions in living organisms.
  • Therapeutic Proteins: Proteins that are generally produced through biotechnological methods. Molecules used to prevent and treat diseases. 
  • Insulin: A hormone that regulates blood glucose levels by enabling cells to absorb and use glucose from the bloodstream.   

The benefits of biopharmaceuticals are plentiful. Invariably, biopharmaceuticals have a high specificity, which results in increased precision and fewer side effects when administering treatment. Biopharmaceuticals have proven to be effective when treating complex conditions such as autoimmune disorders and metabolic diseases. With advancements like Biobetters and Biosimilars, biopharmaceuticals are forecast to continue to influence med tech solutions. 

Wearable and Implantable Tech 

As is customary with many fields within the Life Sciences industry, wearable and implantable tech has progressed significantly in recent years due to technological advancements. They have transformed healthcare by supplying new methods for continuous monitoring and tailored treatment. Wearable tech can monitor various health parameters without the need for invasive surgery.  Examples of wearable tech include: 

  • Smartwatches: There are several watches available that can monitor heart rate and even perform ECGs. 
  • Continuous Glucose Monitors: Wearable sensors that track blood glucose levels. It is particularly useful for diabetics as it reduces the need for regular finger pricks. 
  • Smart Health Clothing: These garments have integrated sensors that monitor heart rate, breathing, and sleep quality. Brands such as Hexoskin Smart Shirts produce apparel that is ideal for athletes or individuals who want an overview of their health. 

More complex conditions often require implantable tech. For example, deep brain stimulators can send electrical stimulation to certain parts of the brain to treat Parkinson’s disease. Implantable tech is especially useful for treating heart conditions. Patients can have pacemakers implanted to regulate heart rhythm in patients with arrhythmias, and Implantable Cardioverter Defibrillators (ICDs) remedy dangerous heart rhythms. 

The Role of Artificial Intelligence 

Artificial intelligence is at the forefront of transformative med tech solutions. AI and machine learning consistently pave the way for new and innovative methods that elevate healthcare delivery and patient outcomes. AI is strengthening several key areas in the healthcare industry: 

  • Diagnostics and Medical Imaging: AI can be used for X-rays, MRIs, CT scans, and PET scans. Image accuracy across these modalities has been enhanced, which means the overall process has been refined. Also, AI can be trained to identify conditions. For example, it has been used to detect skin cancer as early as dermatologists. 
  • Remote Patient Monitoring (RPM): AI-integrated RPM systems are designed to detect anomalies in patients’ health so that medical attention can be provided as soon as possible. The benefits of this are clear. Hospital admissions are reduced, patient outcomes are improved, and medical professionals are equipped with data-driven insights. 
  • Robotic Surgery: AI aids robotic surgery by providing metrics such as force and tactile measurements. These developments make surgical procedures safer and more precise. AI is also used in preoperative planning, surgical simulation, and postoperative analysis. It helps with diagnosis, understanding and mitigating risks, and patient monitoring. 
  • Drug Discovery and Development: AI’s ability to process and analyze data spearheads the identification and development of new drugs. It can reduce the time it takes drugs to reach clinical trials by up to five times and slash industry costs by up to 30%

Final Say: How Biotech is Influencing Med Tech Solutions

Biotechnology engineering’s relationship with med tech is likely to continue developing. As it does, it will have a seismic impact on the Life Sciences industry and healthcare. It’s driven developments in personalized medicine, regenerative therapies, and biopharmaceuticals. With AI’s prominence growing, medtech solutions will advance, and patient outcomes will consistently improve. 

These advancements also transform existing med tech jobs while generating many new jobs in biotechnology. There’s an increased demand for medical professionals with experience and expertise in genetic engineering, biopharmaceuticals, and especially AI-related technologies. 

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