The fertility doctor can help couple conceive by the use of fertility drugs.
<h3>What are fertility drugs?</h3>
Fertility drugs are those drugs that are used to restore fertility in individuals that have infertility problems.
The procedure that can be used by a fertility doctor to help a couple to conceive include the following:
- The use of fertility drugs such as Clomiphene (Clomid)
- Intrauterine insemination (IUI)
- in vitro fertilization (IVF).
In order to use fertility drugs such as Clomiphene (Clomid) effectively, the procedure include the following:
- The starting dosage of Clomiphene is 50 milligrams a day for 5 days.
- The pill should be taken the third, fourth, or fifth day after you start your period.
- The therapeutic effect of the drug is expected to take place about 7 days after you've taken the last dose.
- Most pregnancies happen within three cycles of ovulation.
Therefore, the fertility doctor can help couple conceive by the use of fertility drugs.
Learn more about fertility here:
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Answer:
Explanation:
BMR or basal metabolic rate can be define as the rate of expenditure of available energy when the body is in rest to keep the vital functions active such as breathing and circulation.
Males typically have higher BMR than females because they tend to have higher proportion of lean body mass as compared to females. The females as compared to males exhibit more amount of fat cells. The metabolism of fat cells is slow.
Circulatory system pumps blood from the heart to the lungs to get oxygen. The heart then sends oxygenated blood through arteries to the rest of the body. The veins carry oxygen-poor blood back to the heart to start the circulation process over. Your circulatory system is critical to healthy organs, muscles and tissues.
Answer: 4
Explanation:
The pairing of the third (3') base of the mRNA codon and the first (5') base of the tRNA anticodon are less constrained by base stacking.
Answer:
A) 6
Explanation:
Complex III of the electron transport chain transfers four protons across the membrane during aerobic respiration, per pair of electrons. In the other hand, complex IV is responsible for transporting two protons (per pair of electrons) across the membrane.
If the given compound injects a pair of electron into complex III, four protons will accumulated due to complex III activity and then two more protons as these electrons move forward to complex IV. This means a total of 6 protons being transported to intermembrane space.