Higher level athletic performance induces greater demands on nutrient and oxygen utilization
and hydration. Consistent performance-induced chronic resource depletion from demands of this
level can induce an increasing anaerobic, hypoxic/acidic environment, promoting anaerobic
metabolic events (i.e. anaerobic glycolysis). Disorders arising from this depletion include
chronic inflammation, cramps, and pain, and induce a defensive expenditure of alkalinizing
buffers in hemoglobin (i.e. histidine), to prevent a dangerous lowering of blood pH. The
physical demands of higher levels of athletic performance deplete biological resources
predisposing a greater incidence of chronic problems such as cramps, inflammation, muscle
injury and pain. A Phase 1 Pilot Validation Study was conducted in three healthy young
trained male athletes (Age: 32-39 years) over a period of 90 consecutive days, with a 2-week
intermediate evaluation1. Subjects consumed 30 mL (1-ounce) of "Prodovite®" VMP35, a World
Anti-Doping Association (WADA) compliant iron-free liquid "Prodovite®" VMP35 vitamin, mineral
and phytonutrient complex (MNC) on an empty stomach before engaging in a rigorous exercise
regimen in the morning. They consumed another ounce of the "Prodovite®" VMP35 again
mid-afternoon of the same day. Total blood chemistry including free and bound testosterone
levels, as well as changes in their exercise performance activities were closely monitored
and recorded prior to consuming the "Prodovite®" VMP35, during the intermediate 2-week
evaluation, and then again at the end of the study period. In the 2-week Phase 1 evaluation,
1 ounce of "Prodovite®" VMP35 taken within 30 minutes before engaging in a rigorous exercise
regimen, induced dramatic improvements in athletic exercise performance. Following
"Prodovite®" VMP35 supplementation, physiological health including physical strength,
stamina, respiratory parameters, energy level, and sleep quality increased, and blood
chemistry parameters were improved. Before "Prodovite®" VMP35 intake, one subject was
struggling with 270 lbs. for 4 reps on the banded reverse Hack Squat, while after
supplementation, subject achieved 270 lb.s for 10 reps; rested, then the very next set
increased to 320 lbs. for 10 reps. The set after that (the 3rd and final set of that
exercise), weight increased again to 360 lbs. for 8 reps. In another subject on the same
equipment, pre-"Prodovite®" VMP35 supplementation, the squat result was 405 lbs. for 10 reps,
while post-"Prodovite®" VMP35 supplementation, the squat increased significantly to 455 lbs.
for 6 reps. Pre-"Prodovite®" VMP35 intake, one exercise in particular, the subject was able
to perform the banded reverse hack squat with 160 lbs for one set of 8 reps. After
"Prodovite®" VMP35 intake, the subject increased squat performance to 180 lbs. for 2 sets of
10 reps. On the Hammer Strength banded incline chest press, pre-"Prodovite®" VMP35, subject's
working weight sets were 160 lbs. Post-"Prodovite®" VMP35 sets increased to 180 lbs. Another
increase in strength was experienced in banded Hammer Strength incline press. Pre-VMP35,
Subject was doing 180 lbs. for 10 reps, which was increased to 230 lbs. for 10 reps post
"Prodovite®" VMP35. On side lateral dumbbell raises subject's working weight increased from
20 lbs. Pre-"Prodovite®" VMP35 to 25 lbs. Post- Prodovite® VMP35 supplementation, subjects
were able to push a little harder and achieve extra reps with shorter rest periods. Overall,
a significant increase in strength was noticed in all subjects and all subjects experienced
shorter recovery time between sets and post-workout. Based on these encouraging data,
investigators propose to conduct the following full-blown investigation. This pilot
investigation inspired our team to conduct a randomized placebo-controlled, double-blind
investigation in 150 volunteers (age: 18-74 years) over a period of 90 consecutive days. A
statistician will be involved in this project. Body weight, body mass index (BMI), waist
circumference, blood chemistry, blood pressure and heart rate, body and hand grip strength,
speed and endurance studies including open circuit spirometry-based assessment of pulmonary
function will be assessed. Other parameters to be evaluated include oxygen consumption, CO2
production and metabolic parameters, VO2 max, respiratory exchange ratio (RER), anaerobic
threshold, ventilatory equivalents for oxygen (VE/V02) and exhaled carbon dioxide (VE/VC02).
Subjects will participate in completed maximal graded exercise tests (GXT) on a treadmill or
in set distance open-field sprints using open-circuit spirometry. Lower and Upper Body
Strength will be evaluated. E-Diary will be provided to all participants. Survey Monkey
program will be provided to all subjects and regularly updated by all study participants
daily and endorsed by the Principal Investigator and Sub-Investigators.