About Us

Media Data Network and Inagene Diagnostics

Media Data Network Inc., a leading provider of data-driven marketing solutions, has joined forces with Inagene Diagnostics, a pioneer in the field of personalized medicine and genetic testing. This collaboration is aimed at providing you and healthcare providers with cutting-edge DNA testing solutions that offer personalized insights into a patient’s unique genetic makeup, allowing for more effective treatment selection and improved healthcare outcomes.


Through this collaboration , Media Data leverages its expertise in data analysis and insights to support Inagene genetic testing services, offering a comprehensive solution that combines genetic testing with advanced analytics. This will enable you to make more informed decisions, based on your genetic profile, and tailor medications to meet the specific needs of your DNA.

Inagene’s proprietary genetic testing platform analyzes more than 50 genes associated with drug metabolism, allowing healthcare providers to identify which medications are most likely to be effective and which may cause adverse reactions in individual patients. This personalized approach to medicine has the potential to improve your prescription outcomes, reduce the risk of adverse reactions, and lower overall healthcare costs.

The collaboration between Media Data and Inagene Diagnostics represents a significant step forward in the field of DNA testing for RX intelligence. By combining advanced genetic testing with data analysis and insights, these two companies are poised to transform the way healthcare providers approach personalized medicine and improve patient outcomes.

Pharmacogenetic Testing

Pharmacogenetic testing, also known as pharmacogenomics, is a type of genetic testing that examines an individual’s DNA to identify variations or mutations that may affect their response to prescription drugs. These variations can impact how the body metabolizes, absorbs, and responds to medications.

Pharmacogenetic testing provides valuable information about how an individual’s body may process certain medications, allowing healthcare providers to make more informed decisions when prescribing drugs. By analyzing an individual’s genetic makeup, pharmacogenetic testing can help identify potential drug interactions, reduce the risk of adverse drug reactions, and optimize medication dosages.

Pharmacogenetic testing is especially important for individuals who may require multiple medications, as it can help identify potential drug interactions and prevent harmful side effects. It can also be useful for individuals who have experienced adverse reactions to medications in the past or for those who have a family history of adverse drug reactions.

Overall, pharmacogenetic testing is a valuable tool for healthcare providers to help ensure that patients receive the right medication at the right dose, leading to better health outcomes and a higher quality of life.

What is DNA

DNA stands for Deoxyribonucleic acid, which is a complex molecule that carries genetic information in living organisms. It is often referred to as the “blueprint of life” because it contains the instructions necessary for the development, function, and reproduction of all known living organisms.

DNA is a long, double-stranded helix composed of nucleotides, which are the building blocks of DNA. Each nucleotide consists of a sugar molecule, a phosphate group, and one of four nitrogenous bases: adenine (A), guanine (G), cytosine (C), and thymine (T). The specific sequence of these nitrogenous bases along the DNA molecule determines the genetic code.

DNA is found in the nucleus of cells in all living organisms, with the exception of some viruses. It is responsible for the inheritance of genetic traits from parents to offspring through the process of replication and transmission of genetic information from one generation to the next.

The discovery of the structure of DNA in the 1950s was a significant milestone in the history of science, paving the way for many advances in genetics, molecular biology, and biotechnology. Today, DNA analysis is used in a variety of applications, including forensics, medical diagnosis, genealogy, and genetic testing.

Who we are

At our core, we believe that every individual’s genetic makeup is unique and plays a crucial role in determining how they respond to different medications. By leveraging the latest advancements in DNA testing technology, we aim to help you understand how your genes impact your body’s ability to metabolize various prescription drugs.

Our state-of-the-art testing platform is designed to provide you with actionable insights into your genetic makeup and help you make informed decisions about your medication regimen. Whether you’re concerned about potential drug interactions or looking to optimize your prescription regimen, our comprehensive genetic testing services are tailored to meet your individual needs.

We are committed to providing our clients with the highest level of accuracy, privacy, and security. Our team of experts is dedicated to ensuring that your personal data is handled with the utmost care and confidentiality.

At our core, we believe that everyone deserves access to personalized healthcare solutions that are tailored to their unique needs. We are proud to be at the forefront of the DNA testing industry, helping individuals across the globe take control of their health and well-being through personalized genetic testing.

Some Statistics

  • According to a report by the Institute of Medicine (IOM), medication errors affect at least 1.5 million people every year in the United States alone, resulting in an estimated 7,000 deaths annually.
  • The World Health Organization (WHO) estimates that medication errors cause at least one death every day and injure approximately 1.3 million people annually in the United States.
  • A study published in the Journal of the American Medical Association (JAMA) found that adverse drug events (ADEs) occur in approximately 2% of hospitalized patients in the United States and are responsible for approximately 100,000 deaths each year.
  • The Centers for Disease Control and Prevention (CDC) reports that ADEs result in more than 700,000 emergency department visits and 100,000 hospitalizations annually in the United States.
  • A systematic review of studies on medication errors and ADEs published in the British Journal of Clinical Pharmacology found that the prevalence of medication errors varied widely across studies, with estimates ranging from 0.8% to 41.1%.

These statistics highlight the importance of improving medication safety and reducing the incidence of medication errors and ADEs. One potential strategy for reducing the risk of medication-related harm is the use of pharmacogenetic testing to guide medication selection and dosing based on an individual’s unique genetic profile.

Artificial Intelligence and DNA Testing

AI is playing an increasingly important role in prescription and DNA-related applications, offering new opportunities for more personalized and precise healthcare. Here are some ways AI is helping in these areas:

  1. Prescription: AI is being used to help healthcare providers make more informed decisions when prescribing medications. Machine learning algorithms can analyze large datasets of patient data, including electronic health records and genetic data, to identify patterns and predict patient responses to different medications. This can help providers select the most appropriate medication and dosage for each patient, reducing the risk of adverse drug reactions and improving treatment outcomes.
  2. DNA: AI is also being used to analyze genetic data and help identify disease-causing mutations. Machine learning algorithms can be trained on large datasets of genetic information to identify patterns and correlations between genetic variations and disease. This can help researchers and healthcare providers better understand the genetic basis of diseases and develop more personalized and effective treatments.
  3. Pharmacogenomics: AI can also be used to analyze an individual’s genetic makeup to predict their response to medications. By analyzing an individual’s genetic data, AI algorithms can help identify potential drug interactions and predict the most effective medication and dosage for each patient, reducing the risk of adverse drug reactions and optimizing treatment outcomes.

Overall, AI has the potential to revolutionize prescription and DNA-related applications, enabling more personalized and precise healthcare that can lead to better health outcomes and a higher quality of life for patients.

Our Mobile App

Our  mobile application is a useful tool for checking the safety of a prescription drug before taking it. Here are some ways that our mobile application could be designed to help users determine if an RX is safe to take:

  1. Drug Interaction Check: Our mobile application can help users check for potential drug interactions between different medications. Our app can allow users to enter the name of their prescription drug and any other medications they are taking, and then provide a list of potential interactions and the associated risks.
  2. Allergy Check: Our app can also help users check for potential allergic reactions to a prescription drug. Users can enter information about their allergies, and the app can cross-reference this information with the ingredients of the prescription drug to identify any potential risks.
  3. Pharmacogenetic Testing: Our mobile applications  offer pharmacogenetic testing, allowing users to upload their genetic information and receive personalized information about how their genetic makeup may affect their response to a particular medication. This can help users make more informed decisions about whether a particular medication is safe for them to take.
  4. Adverse Effects: Our application can also provide information about potential side effects of a prescription drug, and how to recognize and respond to these side effects if they occur. Users can be prompted to report any adverse effects that they experience to their healthcare provider.

It is important to note that our mobile application should not replace professional medical advice. Users should always consult with their healthcare provider before taking any prescription medication, especially if they have any concerns about its safety or potential interactions with other medications.

We use a Canadian Laboratory

Inagene is a biotechnology company based in Toronto, Canada, that is dedicated to advancing the field of gene therapy through cutting-edge research and development. Founded in 2017, InGene is at the forefront of a rapidly evolving industry that has the potential to transform healthcare by treating and potentially curing genetic diseases at the root cause. The company’s team of experienced scientists and engineers work tirelessly to develop innovative gene therapies that can deliver transformative results for patients in need. With a strong commitment to scientific excellence, ethical practices, and collaboration, InGene is poised to make a significant impact on the future of medicine.

DNA testing, also known as genetic testing, is a scientific technique that analyzes DNA molecules to identify specific genetic variations, mutations, or markers that can be used for various purposes, such as diagnosing genetic disorders, establishing paternity or ancestry, identifying suspects in criminal investigations, and more.

The basic principles and methods of DNA testing are the same all over the world, as they are based on the laws of genetics and the universal genetic code that governs all living organisms. The genetic code is composed of four nucleotide bases, adenine (A), thymine (T), cytosine (C), and guanine (G), which pair up in a specific way (A with T and C with G) to form the double helix structure of DNA.