Description of the Market and Problem

Centralized Medical Records

The medical industry stands as one of the most centralized regarding those that may be deemed essential for human thriving (finance, legal, political, and religious). Medical records are stored on decade-old servers and, due to legislative restrictions, often prove remarkably laborious to access. Moreover, data sets utilized for clinical trials are often concealed for confidentiality reasons. Thus, when research or pharmaceutical corporations promote certain results, cross-referencing for critique's sake may be profoundly difficult.

Furthermore, owing to the centralization of such documentation, manipulation or revision lacks accountability, data changes are typically ascribed to shifts in methodology or testing procedures, when in truth they may harbor significant researcher bias.

Finally, secondary research data remains largely inaccessible to investigators due to this centralized model. And primary data proves incredibly arduous to produce given legislative parameters. Thus compared to industries such as finance, software engineering, or the Internet of Things, medical data constitutes the most centralized and impenetrable.

Bridging the Gap Between Clinicians and Technology Experts

A notorious divide has long existed between cutting-edge technologists and medical practitioners. The majority of doctors rely on scientific advances predating the latest advances as insights trickle slowly into the medical canon. Conversely, innovators in computing operate on the atomic and quantum scale.

This knowledge gap has stalled technological progress in medicine. Were data more accessible, technology experts may be drawn to medical analysis, given potential financial returns. And if clinicians were trained in modern advances, they would employ more sophisticated tools.

Thus, this divide between medical traditionalism and an innovator class that is largely oblivious to medicine must be bridged, via mutual exchange.

Instigating the Quantum Medical Revolution

The medical paradigm focuses on chemicals, cells, and genes, whereas industries such as computing, telecommunications, and high-technology vehicle industries analyze quantum dynamics. And the importance of medicine to overall human prosperity mandates a radical shift.

Fields like nanotechnology, digital photography, LED systems, and fiber optics found their genesis in quantum science. Their success provides a template for revolutionizing medicine through microscopic exploration.

Enabling Precise Decision-Making in Medical Robotics

Finally, medical robotics currently excels in mechanical engineering but lacks advanced decision-making without direct clinician human input. This results from a paucity of granular data on internal bodily processes, which dramatically hinders artificial intelligence in medicine. More expansive data sets and microscopic analysis will spark great innovation.