Robots Taking Over Surgical Procedures

25

September

2017

5/5 (2)

 

 

 

Would you believe me if I said that in 5 years’ time the number of doctors in the world might be halved? Can you imagine being surgically operated by a robot? This sounds like something from a futuristic movie, however this in fact already happening.

Robotic assisted surgery (RAS) allows surgeons to perform a variety of complex procedures with more precision, flexibility and control than what was previously possible (Mayo Clinic, 2017). In 2000 Robotic surgery with the da Vinci Surgical System was approved by the Food and Drug Administration. Since this time, the use of robotic assistance in surgery has expanded exponentially (Kirkpatrick and LaGrange, 2017). This system includes a camera arm and mechanical arm each with surgical instruments attached to them. The surgeon sits behind a computer with a console which gives the surgeon a magnified 3D high-definition view.

So why would people rather be surgically operated by a robot than a professionally trained surgeon?

Robotic assisted surgery offers many advantages as it makes surgical procedures minimally invasive. Typical advantages include fewer complications, less pain and blood loss, quicker recovery, smaller scars and quicker procedures (Mayo Clinic, 2017).  Furthermore, the improved ergonomics and dexterity compared to traditional procedures allow for a shorter learning curve for surgeons (Kirkpatrick and LaGrange, 2017).

New robotic drill performs surgery 50 times faster than before. The University of Utah has created an automated machine which reduces a complicated cranial surgery from two hours to two-and-a-half minutes. (Yurieff, 2017)

Often times patients travel from afar in order to be treated or operated by certain specialized surgeons. With robotic surgery it may be possible to eventually complete surgical procedures from across the world. In this case patients in critical condition can stay at home, yet still receive the care from the best specialist surgeons in the world.

Aside from offering patient benefits, RAS offers many economic benefits for both the patient as well as the hospital. Due to less invasive procedures, patients are able to have shorter hospital days and are also able to return to their daily activities and work much faster. (Kirkpatrick and LaGrange, 2017)

So far robotic surgery sounds like a logical improvement, however there are also risks involved. As the current technology involves a robot as assistance, next to human error there is also the added risk of mechanical failure. There are possibilities that mechanical problems are experienced during the procedure, possibly causing the robotic arms not to respond as expected. Furthermore, the energy source from the robot machinery could potentially cause internal burn injuries from the cautery device (Kirkpatrick and LaGrange, 2017). There are possibilities that mechanical problems are experienced during the procedure, possibly causing the robotic arms not to respond as expected.

Overall, many professionals argue that the benefits of robot assisted surgery far outweigh the risks. As RAS is increasingly used in a widespread amount of surgeries around the world, techniques will be refined and developed.

Although robotic surgery offers advances in surgical practice, can you imagine the ethical issues around the topic? Think of equipment safety and reliability, information provision and patient confidentiality, just to mention a few.

In the future, will we ever have to go to hospitals? Currently robots are being used in the assistance of surgeries, however, their usage has increased exponentially in the past decade. The entire value chain of surgical procedures may become entirely robotized. Although this offers many surgical advances, it is vital to consider the risks associated with such robotization of a critical procedure.

 

 

References

Kirkpatrick, T. and LaGrange, C. (2017). Robotic Surgery: Risks vs. Rewards | AHRQ Patient Safety Network. [online] Patient Safety Network. Available at: https://psnet.ahrq.gov/webmm/case/368/robotic-surgery-risks-vs-rewards- [Accessed 25 Sep. 2017].

Mayo Clinic. (2017). Robotic surgery. [online] Available at: http://www.mayoclinic.org/tests-procedures/robotic-surgery/basics/definition/prc-20013988 [Accessed 18 Sep. 2017].

Yurieff, K. (2017). New robotic drill performs skull surgery 50 times faster. [online] CNNMoney. Available at: http://money.cnn.com/2017/05/01/technology/robotic-drill-surgery/index.html [Accessed 25 Sep. 2017].

 

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