Answer:
The thyroid gland absorbs almost all of the iodine in the body. When radioactive iodine (RAI), also known as I-131, is given to the body as a liquid or capsule, it becomes concentrated in thyroid cells. Radiation can kill the thyroid gland and any other thyroid cells or tissues (including cancer cells) that absorb iodine, without damaging any other organs.
Explanation:
The thyroid gland is an organ that belongs to the endocrine system and its function is to synthesize hormones that are responsible for controlling the body's metabolism, this gland has an important characteristic and that is that the hormones it produces have a unique chemical composition due to They are the only hormones that contain iodine in their structure, this in turn is essential for its functioning because the body does not synthesize it and it must be consumed in the diet. When a small dose of the radiopharmaceutical iodine 131 (Sodium Iodide 131I) is consumed, it is absorbed into the bloodstream and concentrated by the thyroid gland, where it begins to destroy cancer cells in the gland. 131I quickly attaches itself to thyroid cells to destroy them, but continues to emit radioactivity for a long time: it takes 8 days to halve. The beta radiation particles of 131I, which we call radioiodine or radioactive iodine, have a range of 2mm and act for a long time in a constant way. Fortunately, the body's metabolism quickly expels iodine through the urine, so that in one day the amount of iodine has decreased considerably.
Training specialists need to be well aware of the wide variety of information stored in electronic health records. For everyday practice, one needs to know how and when to pull up such documents such as patient demographics, medical diagnoses, and treatments. Knowing where different providers' orders are stored is also crucial, for knowing when a specific order will take effect. There's a lot more that goes into learning what an EHR does than just understanding its features - there's a whole science behind how these systems work.
Although the extent to which EHRs are beneficial for training specialists is still debated, it is known that they can help to minimize errors in clinical documentation and improve efficiency. This has been shown across multiple studies - some children hospitals have seen reduced medication discrepancies after implementing electronic health records. The completion of tasks, including filling laboratory orders and checking labs, also improved significantly when using modern technology during patient care rounds at a large research hospital in New York. At the same time, some experts argue that process-driven activities through these systems could reduce face-to-face interactions between doctors on team shifts with each other's patients on observation status, leading to
