Hw: Identify the Positive Effects Robotics Has on Medical Fields
Robotics is used everywhere in daily life. It is commonly used in various jobs, including health care. For many years, human errors have had devastating effects in the medical field, ranging from surgical mistakes to incorrect diagnoses. Robotics in the medical field offers numerous positive effects like enhancing precision, efficiency, and patient outcomes.
Robotics in the medical field can help enhance surgical precision and dexterity. Robotics systems, like the da Vinci Surgical System, can filter out natural hand tremors and offer a greater range of motion than human hands. Doing so allows surgeons to perform highly intricate maneuvers in tight or delicate areas, leading to fewer errors and more consistent outcomes, especially in complex surgeries such as neurosurgical or Cardiovascular Procedures.
Patient outcomes can also improve through the use of robotics in healthcare. Robotics-assisted surgeries typically require only small incisions compared to large open cuts. Small incisions can reduce damage to nearby tissues, leading to reduced blood loss and a lower likelihood of requiring transfusions. Doing so can also reduce the patient’s pain or discomfort after the surgery since the incision was so small, and the chances of infection are also lower.
Robots, especially those equipped with artificial intelligence, can rapidly analyze complex datasets. Using these features allows healthcare professionals to be better informed about their patients, making better decisions. AI can also help customize treatment plans based on patient data.
Allowing robots to perform repetitive and time-consuming tasks, such as transporting medical supplies or lab samples, can be beneficial. It can also aid in basic laboratory processes like sample preparation. Lastly, robots can help in sanitizing hospital rooms using UV light. This allows doctors to focus on the patient first, instead of worrying about disinfecting the room.
In conclusion, robotics has a significant impact on healthcare in many different ways. It can enhance surgical precision, improve patient outcomes, facilitate data analysis, and ultimately contribute to hospital efficiency.
