Summary Reader Response: Healthcare Drones (Draft 1)
The article “Drones May Become ‘The Next Big Thing’ In Healthcare Delivery”, written by Balasubramaniam (2022), introduces the public to drone technology which innovators have embraced positively in another crucial application relating to the modern healthcare sector. Balasubramaniam reported that drones had given the healthcare sector the golden opportunity to extend its care to patients living remotely by profoundly using drones attached with cameras for telehealth and virtual care as anticipated by researchers from the University of Cincinnati. Moreover, Balasubramaniam states how drones are being globally deployed for the delivery of healthcare stockpiles (i.e., Covid-19 vaccines). Such delivery moves are made possible with drones having a waterproof box the size of small first-aid kits. A study by the European Heart Journal (2021) also explored the use of drones to deliver automated external defibrillators (AEDs) which help save outpatients suffering cardiac arrest. The study found that drones carrying AEDs have more successful delivery rates in attending emergencies than emergency medical services. With such functions and features, healthcare drones are the key to providing more efficient life-saving operations to patients living remotely and are considered to be more eco-friendly and cost-effective technology compared to emergency response vehicles such as ambulances in the healthcare industry.
Firstly, healthcare drones are the key to bringing better, more efficient life-saving operations to patients who live remotely. As they are small rotary-wing unmanned aircraft that can fly remotely and be programmed to fly routes or controlled wirelessly. Manoeuvring through constricted spaces will also be possible because of the drone's small size while allowing it to fly in a maximum range of 60 miles without any interruption (Saini, 2022). While drones can reach their destination by air and respond to emergencies within minutes, ambulances are not able to do the same as we need to take into consideration of busy traffic and traditional routes that are unavoidable by land (Oliver, 2020). This caused medical personnel to be unable to render care to patients fast enough, especially when AEDs or any other emergency medical supplies are badly needed. With this, drones are being used widely to help in numerous stages of emergency and are seen as a very valuable tool for the healthcare industry.
Secondly, healthcare drones are considered eco-friendly as no fuel is required for operation which reduces air pollution unlike the emergency response vehicles in the industry. Using zero fuel will reduce carbon dioxide emissions which are excessively produced in the environment by vehicles powered by combustion engines. This can be supported by the statement released by the Land Transport Authority (2022) which states that vehicles powered by combustion engines emit about “7.7 million tonnes of carbon dioxide equivalent (MtC02e) in 2016.” Instead, healthcare drones are commonly powered by lithium polymer (LiPo) batteries and lithium-ion (Li-on) batteries which emit far less carbon dioxide in the environment. These batteries are large-capacity and compact-size rechargeable batteries made of polymer that reserve and transmit power only when necessary, allowing the drones to be used for longer flight times (Karanja, 2022). Such rechargeable batteries will also have a longer shelf life than compared to non-rechargeable ones which are easily disposable (Stanfield, 2022). Thus, using reusable and rechargeable batteries on healthcare drones requires less energy consumption compared to vehicles powered by combustion engines will essentially reduce environmental impact and lower the carbon footprint making healthcare drones to be considered eco-friendly.
Thirdly, healthcare drones are also known to be more cost-effective. Based on a statistic, delivery by drones gathers 70% figure to savings on maintenance costs because operating drones for deliveries of healthcare stockpiles will not require heavy maintenance which is required by vehicles used for deliveries (Forde, 2021). The use of drone technology for telehealth will also slowly deplete human reliance on providing medical assistance or completing medical deliveries. Depleting human reliance will decrease the cost of assisting patients and the hiring of manpower for such service (Odigie et al., 2021). For that, drones are generally less expensive and more cost-effective which makes them the better choice in the healthcare industry.
However, despite the key features of healthcare drones in delivering a better healthcare system. There are some concerns involving the drone's capability in providing sufficient power for longer-distance delivery while carrying a heavier load (Frachtenber, 2019). Currently, the battery life for drones is based on the payload which is inversely proportional to the consumption rate of the battery (Torabbeigi, M. & Lim, G. J., 2020).
In conclusion, healthcare drones are the key to providing a better healthcare system. They are able to provide a more efficient life-saving operation for patients suffering cardiac arrest as they require less time in delivering AEDs and responding to emergencies. Healthcare drones are also eco-friendly as they emit lesser carbon dioxide which leads to few air pollutants in the environment. The only downside is their ability to deliver loads beyond their battery capacity which can be improved in future.
References
Balasubramanian, S. (2022). Drones May Become ‘The Next Big Thing’ In Healthcare Delivery.
Balasubramanian, S. (2021). A New First Responder: How Drones May Revolutionize Healthcare.
Saini, P. (2022). Drone Technology for Healthcare. Webmedy.
https://webmedy.com/blog/drone-technology-for-healthcare/
Oliver, F. (2020). Six Ways Drones are Helping in Emergency Response. ScaleFlyt.
https://www.scaleflyt.com/news/six-ways-drones-are-helping-in-emergency-response
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