KHP 420 G EXAM 2 QUESTIONS WITH ANSWERS 100% PASS

KHP 420 G EXAM 2 QUESTIONS WITH
ANSWERS 100% PASS


What is the ventilatory threshold? How is that different than lactate threshold? -
ANSWER -the point during incremental exercise at which ventilation increases
disproportionately compared with oxygen consumption.

-provides an alternative to blood sampling for detecting the onset of "anaerobic
threshold" or lactate threshold

-It can provide a noninvasive means for determining changes in exercise metabolism

-Lactate threshold: point of systematic rise in blood lactate during incremental exercise




Approximately, how long does it take to achieve steady state VO2? - ANSWER 1-4 min

-2.5 min




With very short burst training what adaptations do we see to the phosphagen system? -
ANSWER -efficiency may increase (still being debated)

-targets the specific muscles utilized during the event

-CrP-ATP efficiency increases

-enzyme efficiency can increase 10 - 25% with repeated 30 second bouts

-decreased acidosis and fatigue by a matching rate of buffering activity

-buffering capacity improved by 12 - 50% with anaerobic training

,***Explain how with glycolytic training, there is an increase in buffering capacity -
ANSWER -Buffering capacity gets better!!

-Blood buffers bicarbonate hco3-, muscle phosphates hpo4 2- combine with protons
(h+) to take them out of solution.

-Acidosis comes from phosphagen and glycolysis

-12-50 percent better buffering!

-We can delay fatigue for a little bit longer if we have a better buffering capacity




What are the causes of acidosis/H+ production? - ANSWER -ATP hydrolysis coupled with
glycolysis is the main source of proton (H+) production, resulting in decreased muscle
and blood pH

-Another cause is the release of protons from several reactions in glycolysis

-Caused by an imbalance between the rate of proton release and rate of buffering and
removal




What are the names of some buffers? What are they doing? - ANSWER -lactate, HCO3-
(bicarbonate), and HPO4 ^2-(muscle phosphates)

-help to delay acidosis, decrease fatigue, and improve performance




If the pH goes below 7 is the concentration more or less acidic? - ANSWER More acidic




So, is lactate really causing the acidosis? *** If not, what would this be? - ANSWER -no

-it's the buildup of protons in cytosol

, -lactate production is a bi-product of glycolysis during intense exercise




In class we broke down the sites of peripheral fatigue into 3 MAJOR areas. What are they
and explain how this may lead to fatigue? - ANSWER 1) Ach breakdown at the NMJ

2) H+ accumulation interfering with Ca2+ binding to troponin,

3) increases in H+ concentration (decrease in pH) interferes with ATPase activity.




What is the difference between an acute responses and a chronic adaptation to exercise?
- ANSWER -An acute response is a short term adaptation that occurs soon.

-A chronic adaptation to exercise is a physiological long term adaptation to exercise




Acute Response Example - ANSWER -Increased HR, blood pressure, energy substrate
requirements, ventilation




Chronic Adaptation example - ANSWER




What are the major types of muscle fibers discussed in class? - ANSWER -Type I

-Type IIa

-Type IIx




What type of muscle fiber type is recruited for endurance "aerobic" exercise? - ANSWER
High % Type I and low % Type II