Answer:
Application or Implementation including its Clonal personality psychology for Rubeola infectious disease in something like a 6-year-old child is given below.
Explanation:
<u>Clonal Selection Theory:</u>
This hypothesis notes that lymphocytes have virulence genes preceding activation and also that spontaneous mutations throughout clonal expansion induce the formation of lymphocytes containing strong affinity antigen affiliations.
<u>Its applications are given below:</u>
- Throughout the situation of Rubeola infectious disease in such a 6-year-old boy, as shown by this hypothesis, B-cells that distinguish after such an innate immune system forming phase selection because then antioxidants formed by younger memory B cells provide significantly higher commonalities to certain antigens.
- As a result, secondary physiological systems from memory blocks have become so successful that persistent Rubeola attacks with much the same virus are prevented unless setting up.
- After the primary outbreak, genetic mutations throughout clonal selection may generate recollection B cells which could attach to implementation more effectively than those of the initial B cells.
The question is incomplete however the correct question is as follows:
What is the correct CPT code modifier to use?
Answer:
The correct answer would be - 51 and 59.
Explanation:
Modifier 51 and modifier 59 are two common code modifier for arthroscopy. the code 51 tells that the same physician is performing multiple arthroscopy or other procedure for different clients at the same session except E/M services.
On other hand modifier 59 that indicates that the procedure normally not reported together but in specific conditions that meet with the criteria of code for reporting separately. It may also suggest that same provider should not perform the procedure same day.
Arthroscopy, knee, diagnostic, with or without synovial biopsy -29870 is a separate procedure.
Answer:
I still need the list of functions to answer your question. Let me know okay
Explanation:
Answer:
The correct answer is A. The cell membrane is both hydrophilic and hydrophobic due to the presence of phospholipid.
Explanation:
98% of the lipids present in cell membranes are amphipathic, that is, they have a hydrophilic end (which has affinity and interacts with water) and a hydrophobic end (which repels water). The three main types of lipids in eukaryotic membranes are phospholipids, sphingoglucolipids and steroids (especially cholesterol); It is worth mentioning that phosphoglycerides and sphingolipids are found in all cells. The latter, glycolipids and steroids, do not exist or are scarce in the plasma membranes of prokaryotic cells, fungi and some protists. There are also neutral fats, which are non-amphipathic lipids, but only represent 2% of the total membrane lipids.
