Various technologies are set to transform dermatology with the help of data, smart algorithms, and advancements in medical science.
FREMONT, CA: Technology has impacted every sphere of everyday life and industries alike. Technologies such as artificial intelligence, robotics, big data, and several others are enabling the transformations. Dermatology is one such field which has the potential to leverage these technologies to a significant extent. Smart algorithms are assisting in the diagnosis of skin cancer, 3D printers are printing out synthetic skin to counter tissue shortages, and dermatologists are consulting patients online. There are various aspects of dermatology that are expected to transform shortly, and medical professionals should be ready in time for the changes before they start swiping through the specialty.
While it’s a known fact that skin protects us against various external agents and are even indicative of a probable disease, not enough technological advancements, have incorporated the space in the past. However, the pattern is set to change soon. Here are some of the technologies that will impact various areas of dermatology:
Smartphones, coupled with internet-connectivity, make it simple to send footages or pictures in case of a skin problem with immediate feedback from the telehealth solutions. Moreover, the options of teledermatology services are increasing, and they promise patients to connect them to a dermatologist for consultation within a short time frame. Thus the setup means that the patients do not have to spend their time in waiting rooms for an exam, while dermatologists can deal in more serious cases.
Even the mammoth-like systems such as healthcare can be optimized using the analysis of Electric Health Record (EHRs) and other massive data sets. Data analytics improves the coordination and quality of care, offsets the incurred costs, and eliminates unnecessary use of resources. Dermatologists are also stressing upon the immense potential of big data for the lasting transformation to their specialty.
Various high-tech machines have set the stage for technological advancements in medicine in the recent past. The New Jersey-based firm, Canfield Scientific has launched the first commercial Vectra WB360 which can take 360-scan of the body and identifies each lesion on the skin. However, the potential in robots to help dermatologists, especially as aesthetic dermatologists is the most exciting aspect of the robotics in this area. Various types of skin cancer and skin problems are dealt with using laser therapies. Robots, owing to their capability for precision, are already proving as crucial incorporation in the radiation treatment.
Due to its ability to recognize certain images, deep learning algorithms will certainly have a say in the future of medical specialties concerning medical imaging such as dermatology or radiology. For instance, IBM decided to allow the dermatologists to utilize the results of its deep learning platform, Watson. The move was intended to diagnose melanoma and other variants of skin cancer faster, accurately and without the requirement for many biopsies.
The solution for organ shortage of different kinds, including skin, as well as to the growing reluctance to test the latest cosmetic, pharmaceutical, and chemical products on animals, is 3D printing. Various innovators have recognized its potential lately, and numerous researchers are working on it currently. Basically, 3D printing can be used to support or replace an existing biological structure. It can ensure that critical tissue shortages that were reported in Australia and Japan would never affect the tasks of medical professionals.
Injured skin requires a long time to heal. For instance, a 10 mm cut needs 1-2 weeks to turn into a scar and after that additional time to slowly fade away. Researchers are looking for answers to shorten the healing process and enhance the natural responses of humans for better skin regeneration. They are trying their hands on various innovations which are currently under experimentation but are likely to change the future of regenerative processes.