Reference no: EM133862312

Assignment:

Clinical engineering is the branch of biomedical engineering dealing with the actual implementation of medical equipment and technologies in hospitals or other clinical settings. Major roles of clinical engineers include training and supervising biomedical equipment technicians (BMETs), selecting technological products/services and logistically managing their implementation, working with governmental regulators on inspections/audits, and serving as technological consultants for other hospital staff (e.g. physicians, administrators, I.T., etc.). Clinical engineers also advise and collaborate with medical device producers regarding prospective design improvements based on clinical experiences, as well as monitor the progression of the state of the art so as to redirect procurement patterns accordingly.

Their inherent focus on practical implementation of technology has tended to keep them oriented more towards incremental-level redesigns and re configurations, as opposed to revolutionary research & development or ideas that would be many years from clinical adoption; however, there is a growing effort to expand this time-horizon over which clinical engineers can influence the trajectory of biomedical innovation. In their various roles, they form a "bridge" between the primary designers and the end-users, by combining the perspectives of being both close to the point-of-use, while also trained in product and process engineering.

Clinical engineering departments will sometimes hire not just biomedical engineers, but also industrial/systems engineers to help address operations research/optimization, human factors, cost analysis, etc. Also see safety engineering for a discussion of the procedures used to design safe systems. Clinical engineering department is constructed with a manager, supervisor, engineer and technician. One engineer per eighty beds in the hospital is the ratio. Clinical engineers is also authorized audit pharmaceutical and associated stores to monitor FDA recalls of invasive items.

1. Determine and discuss in a brief way the mutation identified as frameshift mutation.

2. Identify a start codon and give a brief explanation about it.

3. Identify the amino acid coded by the AUG code.

4. Identify whether the following statement is true or false.

It is definite that the standard genetic code is almost an international phenomenon.

5. What does Cauda epididymis lead to?

6. Describe the most vibrant feature of the cell membrane.

7. What leads to formation of polytene chromosomes?

8. Which role is played by the centromere?

9. How many categories of histones does Histones octamer encompass?

10. Falsify the inference below.

Spliceosome compounds splice Set II introns.