Synthetic EPO is used to boost low hematocrit levels in chemotherapy patients and those suffering from kidney disease, who are unable to maintain the necessary levels without frequent EPO injections. Perhaps more famously, it is also used illicitly by many endurance athletes seeking to gain a competitive advantage by artificially increasing their red blood cell count. Traditionally, athletes have trained at high altitude to achieve a similar natural effect, but today more and more have chosen to artificially boost red blood cell activity through the use of synthetic EPO.
For all its negative publicity, synthetic EPO remains a positive medical advancement to treat anemia and prevent hypoxia, the condition in which tissues are deprived of oxygen. Researchers continue to improve the effectiveness of synthetic EPO and even to develop a new glycoprotein-called novel erythropoiesis-stimulating protein (NESP) -which eliminates several drawbacks of EPO in its current form. NESP not only requires smaller doses, but also lasts longer, eliminating the need for frequent and often-painful IV administration, which can have complications. Still, unlike the natural stimulus that occurs with the release of EPO, any artificial stimulus of red blood cell production has potential risks, as it raises hemoglobin to the desired levels above 15 grams per deciliter far too quickly. The body cannot properly adjust to the quick change in blood viscosity and substantial cardiac risk results. Given that risk, synthetic EPO must be highly regulated by the FDA so that its use is limited to medical necessity, not athletic performance enhancement.
I have a doubt regarding the option C, which explains that risk associated with Synthetic EPO is quick change in viscosity and substantial cardiac risk results. The change in viscosity gives us no information as to whether it results in increase or decrease in viscosity. How can we say C is a risk?3. All of the following are potential risks of synthetic EPO except that it ______ .
(A) can raise hemoglobin levels too quickly.
(B) increases hemoglobin to levels above 15 grams per deciliter.
(C) abruptly increases blood viscosity.
(D) increases the likelihood of cardiac problems.
(E) needs to be administered frequently.