PROOF? You Decide.

[eddymerckx]

I really don't want to be banned, I enjoy reading posts on this board. But this is totally incorrect. 200mgs is generally a supra physiological dose of T. Many hormone replacement regimens use 100mg of Test E every week or 200mg every two weeks. This amount of test is sufficient to raise blood levels as high as 1200ng/dL. I don't get what your trying to argue, 100mg can easily put you at 900ng/dL. If your so certain it can't, provide some evidence otherwise.

Ref: Pharmacokinetics, Efficacy, and Safety of a Permeation-Enhanced Testosterone Transdermal System in Comparison with Bi-Weekly Injections of Testosterone Enanthate for the Treatment of Hypogonadal Men (Look at the graph)

To tell people

you will not get banned for a post that respectufully disagrees or takes issues with another member, mod, sponsor (unless you disagree with Digger then you are on your own .)

but, the problem with the study is that it is on congenital or unknown cause "Hypogonadal Men"--not those temp supressed via endogenous testosterone. Those men had some sort lh/fsh/gnrh or pituitary issues not an normal man artifically supressed.

 

[eddymerckx]

I will say this much, when Nelson competed, he looked better than most on this board, and def. better than a lot in this thread. No offense to anyone but for all the high dosages I see around the boards, I don't see it in the pics.

+1 true and painful, but true.

 

[Nelson Montana]

I really don't want to be banned, I enjoy reading posts on this board. But this is totally incorrect. 200mgs is generally a supra physiological dose of T. Many hormone replacement regimens use 100mg of Test E every week or 200mg every two weeks. This amount of test is sufficient to raise blood levels as high as 1200ng/dL. I don't get what your trying to argue, 100mg can easily put you at 900ng/dL. If your so certain it can't, provide some evidence otherwise.

Ref: Pharmacokinetics, Efficacy, and Safety of a Permeation-Enhanced Testosterone Transdermal System in Comparison with Bi-Weekly Injections of Testosterone Enanthate for the Treatment of Hypogonadal Men (Look at the graph)

To tell people

No fear of getting banned for stating an opinion bro. But I think you're missing the point. 100 mgs can bring you to 900, if you still have some T in you. If you were in double digits, no way. The study you cite does not show otherwise.

And Ross, yes I know there's a curve but you too keep missing the point. Why would ANYONE need more than 200mgs if it'll raise your T to that level from next to nothing? But it seems you're looking to split hairs here. Are you saying your supps won't do anything for the enhanced athlete? The ones I recommend have already proven to do so.

C3 -- glad to hear the methods are working for you. Some old, some radically new. Bottom line -- whatever works, is worthwhile.

 

[Ross]

No fear of getting banned for stating an opinion bro. But I think you're missing the point. 100 mgs can bring you to 900, if you still have some T in you. If you were in double digits, no way. The study you cite does not show otherwise.

And Ross, yes I know there's a curve but you too keep missing the point. Why would ANYONE need more than 200mgs if it'll raise your T to that level from next to nothing? But it seems you're looking to split hairs here. Are you saying your supps won't do anything for the enhanced athlete? The ones I recommend have already proven to do so.

C3 -- glad to hear the methods are working for you. Some old, some radically new. Bottom line -- whatever works, is worthwhile.

Nelson, I tested at 1850 when I was 20 years old, 2,000ng/dl is not even a supraphysiological level. 200mgs of Testosterone is the MINIUMUM dosage for bodybuilders my friend, 500mgs being average for most users.

 

[Ross]

For the record, I have NEVER exceeded 750mgs of Testosterone, and I have the pics to back up my physique and my knowledge.

 

[Harleymarleybone]

So you're saying if i come off, My T will be near zero? That makes no sense bro. If that were the case, 100 mgs would not get me to 900 ngs.

It could get you close, especially if you got your blood drawn 2-3 days after your injection. I have heard you say before that your natural T was not totally shut down, but I don't think these numbers prove it. I am on the same TRT dose, and would like it if I was still producing natural T, but I am still not convinced. I know 200 mgs can produce a reading of 1400 a few days after injection since I had mine tested, so 100 mg's could probably produce 700 at least.

 

[Harleymarleybone]

100 mgs can bring you to 900, if you still have some T in you. If you were in double digits, no way. The study you cite does not show otherwise.

.

Let's assume the study does not show otherwise. Where is your evidence to show that 100 mgs cannot bring you to 900 on its own (without the addition of natural T)?

 

[Nelson Montana]

Nelson, I tested at 1850 when I was 20 years old, 2,000ng/dl is not even a supraphysiological level. 200mgs of Testosterone is the MINIUMUM dosage for bodybuilders my friend, 500mgs being average for most users.

You were 1850 NATURAL? That, my friend, sounds like a stretch. Maybe you're a freak. I don't know. 2000 isn't considered supraphysiological? 900 is considered out of range. Over 1000 is considered high risk. Where are you getting your numbers from?

You never exceeded 750 of test, but what else did you take along with the test? I never exceeded 750 of EVERYTHING. And when I competed my weekly total was under 400 mgs. (200 mgs of deca a week and 25 mgs of dboll a day). And that was for a one month cycle per contest.

But this is neither here nor there. I invite everyone to do a pre and post Free T test using UNLEASHED. I'm confident, their numbers will improve. And if that's the case who gives a fuck about all this other stuff?

 

[alphatest]

No fear of getting banned for stating an opinion bro. But I think you're missing the point. 100 mgs can bring you to 900, if you still have some T in you. If you were in double digits, no way. The study you cite does not show otherwise.

Show some evidence. Both studies I cited show that 100mgs of IM test can both bring blood levels up into the supra physiological range as well as significantly suppress Lh and FSH. This means that your natty production is going to be significantly suppressed as well. If your total test level is Natty + Injected, I have no idea why you are assuming that your natural production is playing any great role in the equation.

 

[Ross]

You were 1850 NATURAL? That, my friend, sounds like a stretch. Maybe you're a freak. I don't know. 2000 isn't considered supraphysiological? 900 is considered out of range. Over 1000 is considered high risk. Where are you getting your numbers from?

You never exceeded 750 of test, but what else did you take along with the test? I never exceeded 750 of EVERYTHING. And when I competed my weekly total was under 400 mgs. (200 mgs of deca a week and 25 mgs of dboll a day). And that was for a one month cycle per contest.

But this is neither here nor there. I invite everyone to do a pre and post Free T test using UNLEASHED. I'm confident, their numbers will improve. And if that's the case who gives a fuck about all this other stuff?

Granted, 1850 is insanely high, I have great genetics indeed. Many 19-21 year olds will test that high though, which is why it is TRUE that teenagers don't need steroids!

As for my cycles, I have exceeded 750mgs for sure, my typical cycle contains about that:

Weeks 1-6: Dianabol, 30mgs ED
Weeks 1-10: Sustanon, 250mgs
Weeks 1-10: Primobolan, 400mgs
Weeks 8-12: Winstrol, 50mgs ED

If you want to increase FREE T, nothing is more effective than LJ100, 300mgs of which is contained in AndroGenerator:


THE ANABOLIC EFFECTS OF LJ100™
For a printable copy of this study, please click here: http://www.source-1-global.com/pdfs/LJ100-Clinical-Studies.pdf

Sareena Hanim Hamzah & Ashril Yusof
Department of Exercise Physiology, Sports Centre, University of Malaya, Kuala Lumpur

Introduction
Eurycoma longifolia (LJ100™) is a tall shrub tree of a Simaroubaceace family and is commonly found along the hilly jungle slopes of Malaysia. It has been used for years as a traditional medicine to treat fever, ulcer, malarial, swelling, reduce high blood pressure and fatigue. However, LJ100 is better known for its aphrodisiac properties. In a clinical study by Ismail (2002), he demonstrated that this herb enhanced sexual activities and increased free testosterone levels in men. Increases in testosterone levels is associated with an improvement in fat free mass, muscle size and muscle strength in men (Brodsky, 1996; Bhasin, 1997), which could be further amplified by strength training (Bhasin, 1996). In this study, the effect of LJ100 water-soluble extract on body composition and muscle size in men will be measured.

Methods
Fourteen healthy adult males (age 25.64 ? 3.73 years) received either 100 mg/day LJ100 water-soluble extract (n = 7) or placebo (n = 7) for 8 weeks. Simultaneously, both groups performed an intensive strength-training program with initial load of 60% repetition maximum (RM), which was carried out on alternate days. A total of 10 exercises, which make up the circuit, were catered towards providing a total lower body and upper body workout. Each workout was done in two sets of 10 repetitions with 1-minute rest in between. The loads were gradually increased 10% per week. Body composition measurement using skin fold test was taken at two sites as recommended by McArdle (1993). A standard strength test that comprised of 1 RM test was administered on the subject to determine their strength. The upper limb strength was measured by determining their ability to resist maximum load using the shoulder press machine (Nautilus, USA) following the American College of Sports Medicine (ACSM, 2001) standard measurement procedure. The arm circumference measurement was taken using a measuring tape at proximal 1/3rd of the arm. Electromyography reading of the isometric contraction of bicep muscle was taken using the surface electrodes. Subjects were instructed to perform an isokinetic flexion of the elbow using free barbells with load of 10 kg for the durations of 5 seconds. The mean amplitude was analyzed using the MyoResearch Software (Noraxon, USA).
All the measurements were taken 1 day prior to supplementation (LJ100 and placebo) and training period, and 1 day after the completion of 8 weeks experiment. All data were analyzed using the Statistical Package for Social Science (SPSS) computer software version 10.0 (2000) for t-test, means and standard deviation. Statistical significance was established at p<0.05.

Results
The results for fat free mass, fat mass, 1 RM, arm circumference, and sEMG of both groups are shown in Table 1.

Table 1. Average fat free mass, fat mass, 1 RM test, arm circumference and sEMG of the group consuming LJ100 water soluble extract and placebo before and after the period of supplementation and training program


* Results of mean ± SD for pre and post experiment showed significant difference (p<0.05)

The fat free mass of the group supplemented with LJ100 water-soluble extract showed a significant increment of approximately 2.1 kg. There were no significant changes in fat free mass in placebo. Body fat percentages were significantly decreased in treatment and placebo. However, a greater decrement was shown in treatment compared to placebo i.e. 9.14% and 6.57%, respectively. The 1 RM test muscle strength test showed an increase in gross muscle power in both groups. The treatment group showed a greater increment in strength compared to placebo i.e. 6.78% and 2.77%, respectively. The mean arm circumference in treatment group increased significantly by 1.8 cm following the supplementation while no significant changes observed in placebo group. The mean sEMG reading of the treatment and placebo showed a significant decrement in values after going through the exercise program. However, the treatment group showed 2.92% higher reduction in electrical activity of the muscle measured at the end of the experiment period compared to placebo (25.70% and 22.78%, respectively). During and after the administration of LJ100, no adverse effects were noted within the treatment group.

Discussion/ Conclusion
In this study, although the testosterone level was not measured during the test period, an increased in fat free mass in treatment group may be linked to the rise in steroidal hormones in the body. The percentage of body fat appeared to decrease in both groups, this finding is in agreement with a study by Brodsky (1996). However, the further decrease in fat mass by the treatment group could be explained by the higher metabolic rate after consuming LJ100. The increment in muscle strength with strength training in both the treatment and placebo groups were consistent with the finding by Kraemer (1993), he suggested that the improvement in strength was caused by the increase in testosterone levels. Jones and Round (1996) proposed that increases in strength are greater than increases in muscle size during the first 6-8 weeks of strength training. Thus, an increase in arm circumference observed in treatment group could be explained by the testosterone enhancing effect of the extract. In conclusion, results obtained from this pilot study suggest that the administration of LJ100 improved fat free mass, reduce fat mass, increase muscle strength and size suggesting LJ100 might be used as an ergogenic aid. Further studies will be carried out to determine the mechanism of action at hormonal and molecular level.

Water-soluble extract of LJ100™ as a potential
natural energizer for healthy aging in men.
M.I.M.TAMBI1, S. OTHMAN2and J.M SAAD2

1Specialist Reproductive Research Center, National Population & Family Development Board, Ministry of Women & Family Development, Malaysia.
2Department of Biochemistry, Faculty of Medicine, University of Malaya, Malaysia.

Introduction
Malaysia has a rich source of rainforests that contain thousands of plants with potential medicinal values. One such plant is the tall shrub tree from the Simaroubaceace family, Eurycoma Longifolia (LJ100™ Tongkat Ali) which is commonly found along the hilly jungle slopes of Malaysia (Burkill and Hanif, 1930). The local name of the shrub is 'Tongkat Ali' or Ali's Walking Stick' which is rather suggestive of its traditional function of sexual support for aging males. Similar trees are also found in other Asian Rainforests; however, it is traditionally known that only two species of the shrub namely E.Longifolia and E.apiculata have medicinal properties (Burkill and Hanif, 1930). The medicinal elements are only found within the roots. The root of Eurycoma Longifolia was used as a decoction by the natives of old Malaya, especially the elderly for strength and energy (Burkill and Hanif,1930), this practice remains to this day.
Early experimental studies on animals were mainly focused on the aphrodisiac properties of LJ100. Mice treated LJ100 demonstrated higher frequency of mounting compared to the control group (Ali and Saad, 1993). Additionally, the serum testosterone of the dissected mice showed an increase of 480% compared to the placebo-controlled group (Ali and Saad, 1993). Further studies provided evidence that LJ100 produced a dose-dependent increase in mounting frequency in male rats, hence, acting as a potent stimulator of sexual arousal in the absence of feedback from genital sensation (Ang and Sim,1997). It was also shown that LJ100enhanced and maintained a high level of crossovers, mountings, intromissions, and ejaculations.

Other studies showed that when the extract of LJ100 was injected into male mice, they showed intense physical activities and copulatory behavior (Ang and Sim, 1998). Even frail mice were observed to be active and alert. In another study, LJ100 was exposed to penile muscular tissue of male mice; results demonstrated that the muscular tissue was found to relax. Analysis on the mitochondria homogenates of the liver and penile muscle of the mice showed that the extract could enhance the respiration of mitochondria, leading to 60% increase in ATP production through oxidative phosphorylation (Khamis and Saad, 1993).

Early clinical trials studied the effect of LJ100 on testicular tissues. The samples were incubated along with human testicular tissues taken from men who were orchidectomised as part of treatment of prostate cancer (Aminuddin et al, 1995). There was significant increase in the concentration of testosterone and its precursors. The results suggest that the LJ100 has the ability to increase the biosynthesis of androgens (Aminuddin et al, 1995).


Androgen is the generic term for any natural or synthetic compound, usually a steroid hormone, that stimulates or controls the development and maintenance of masculine characteristics in vertebrates. This includes the activity of the accessory male sex organs and development of male secondary sex characteristics. The primary, and most well known, androgen is testosterone.

In this study, we intend to investigate the effect of the LJ100 water-soluble extract on testosterone, dehydroepiandrosterone (DHEA) and sex hormone binding globulin (SHBG) levels in human subjects. Dehydroepiandrosterone (DHEA) is a natural steroid hormone produced from cholesterol by the adrenal glands. Dehydroepiandrosterone is structurally similar to testosterone and estrone and can be easily converted into those hormones (DHEA is a precursor for testosterone). Sex hormone binding globulins are carrier proteins that regulate the amount of unbound steroid in the blood. A decrease in SHBG is associated with an improvement in free testosterone index. Additional parameters that will be measured include Quality Of Life (QOL) via the PADAM score and Sexual Health Inventory Questionnaires (SHI-Q).

Methodology
In a Reproductive Research Center in Kuala Lumpur, Malaysia, 30 human volunteers were recruited in a randomized open trial. The volunteers were selected among married men whose age ranges between 31-52 years. There were no other specific criteria for the selection of volunteers. Dr. Johari M. Saad and co-workers from the Department of Biochemistry, University Malaya, Malaysia, produced LJ100 water-soluble extract of E.Longifolia root.
Upon registration, the volunteers were asked to fill out two questionnaires: (i) a validated Sexual Health Inventory Questionnaires (SHI-Q) and (ii) the PADAM Score Questionnaires. Peripheral venous blood sample was collected from each individual to evaluate his total testosterone hormone, dehydroepiandrosterone sulphate (DHEA) and sex hormone binding globulin (SHBG) levels. Following this, each volunteer was given a supply of the encapsulated LJ100. These were to be consumed regularly for three consecutive weeks, twice daily, and two capsules per day (100 mg/day). The volunteers were requested to come back for a follow-up after week one and week three. During the follow-up sessions, they were asked to again fill out two sets of questionnaires and provide blood samples for analysis of serum testosterone, SHBG and DHEA.

Results
Questionnaires Analysis
Analysis of the SHI-Questionnaire results have shown that 62% of the cases had either increased or a maximum score after consuming LJ100. Another 24% showed reduction while 14% of the cases showed no change in the score (Figure 1). This indicates that the majority of the volunteers demonstrated an increase in their sexual health satisfaction and performance. Breakdown of the SHI-Questionnaire showed subjects has an increase in sexual desire and the success at the attempts at sexual intercourse.


Figure 1: Effect of LJ100™ consumption on SHI-Q Score


PADAM Analysis
Analysis of the PADAM Score demonstrated that 82% of the cases showed a decrease in total score (decrease is positive effect). There is 91% improvement in the sexual PADAM score component, a 73% improvement in the physical component, and an 82% improvement of psychological component. The vasomotor score showed improvement in 50% of the subjects (Figure 2). The improvements in the first three components of the PADAM score reflects that consumption of LJ100 had resulted in an improvement of their quality of life with regards to their physical, sexual and psychological well being.

Figure 2: Percentage of Improvement or Reduction for Various Components of the PADAM Score


Serum Hormones analysis
Testosterone
Total testosterone levels were not significantly different between those raised (43%) and those declined (39%) in this study (Table 1). This gives an initial impression that LJ100 does not have any effect on steroidogenesis. Considering that almost all the volunteers have normal levels of total testosterone, the feedback system is activated to ensure the testosterone levels are within the individual needs range. In 6 volunteers whose serum total testosterone is low, there is an increase in total testosterone on first and third week as well as improvement in the Quality of Life Scores (SHI-Q and PADAM Score).





DHEA
Analysis of the DHEA showed gradual increase from 26% after 1 week to 47% after 3 weeks. This suggests that LJ100may influence the DHEA production, which subsequently would be aromatized to testosterone (Figure 3).

Figure 3: Percentage of Increment in DHEA level





SHBG Analysis
The results showed that SHBG levels were reduced in 36% of the cases after one week and improved to 66% after 3 weeks. This suggests that LJ100 could have an effect on the production of SHBG (Table 2).





Free Testosterone Index Analysis (FTI)
When the SHBG level declines, the Free Testosterone Index (FTI is calculated as a percentage of the total testosterone against SHBG) goes up. Results demonstrated that the FTI increased in 39% of the subjects after 1 week to 73% after 3 weeks (Table 3)




Conclusion
Increasing testosterone is the key factor in increasing sex drive. Testosterone is the most important of the male sex hormones, known as androgens, produced in the gonads. Testosterone plays a key role in the development and maturity of male sex organs. The hormone promotes secondary sex characteristics, including the appearance of facial hair, sexual desire, and sexual behavior. However, testosterone is not just a sex booster for men. Women also produce testosterone, about 5 to 10 percent the amount produced in men. In woman, this vital hormone also stimulates sex drive and produces heightened sensitivity of erogenous zones.

In this study, the aqueous LJ100 extract has a strong potential in providing sufficient free testosterone to the body as demonstrated by the increase in the free testosterone index between weeks one and three. The high score in the Physical and Sexual Domain of PADAM and the Desire and Sexual Attempts in the SHI-Q score suggests this extract can delivery sexual health effects for both men and women.

The results demonstrated that the circulating androgen concentration affects SHBG synthesis. The increase in DHEA levels (DHEA is a precursor to testosterone) between week 1 and week 3 resulted in elevated testosterone levels that caused a decrease in SHBG levels. It is important to note the any decrease in SHBG levels has an overall effect to increase free testosterone index as indicated in table 3. The results of this study suggest that LJ100 inhibits SHBG allowing more free testosterone to remain in the blood. This additional testosterone stems the aging process, improves energy and sexual function, and helps reduce body fat and reduces the risk factors associated with heart health.

Since this study is just an exploratory study to look into the marketing potential of LJ100, the volunteers were asked about personal feedbacks with regard to the extract. The following responses were received:
48% felt that they are feeling healthy, not easily tired, feeling active and energized.
40% felt easily aroused, increase sexual desire and maintained an erection longer.
16% felt their joints and backache are feeling better.
24% felt warm and easily sweat (sign of better circulation)
8% experience better sleep.
8% felt an improvement in their memory.
20% felt their appetite has improved and their bowel movements are better than before.

References
1.Burkill, IH and Hanif, M; (1930) Malay Village Medicine, The Garden Bulletin Strait Settlements.
2.Ali, JM and Saad, JM (1993); Biochemical effect of Eurycoma Longifolia Jack on the sexual behavior, fertility, sex hormone and glycolysis. Dissertation Paper for Bachelor of Science, Department of Biochemistry, University of Malaya
3.Ang, HH and Sim,MK (1997); Effect of Eurycoma Longifolia Jack on sexual behavior of male rats. Archives of Pharmacal Research (Seoul),20(5),656-58
4.Ang, HH and Sim,MK (1998)[1]; Eurycoma Longifolia Jack and orientation in sexually experiences male rats. Biol and Pharmaceutical Bulletin 21(2);153-55
5.Ang, HH and Sim,MK (1998)[2]; Eurycoma Longifolia Jack increases sexual motivation in sexually naive male rats. Archives of Pharmacal Research (Seoul),21(6),778-81
6.Khamis, ZM and Saad, JM (1993); Dissertation Paper for Bachelor of Science, Department of Biochemistry, University of Malaya.
7.Aminuddin, N; Saad, JM; Hadi, AH and Abdullah, R (1995); The effect of Eurycoma Longifolia extracts on androgen synthesis.


LJ100™ Saliva Testosterone Test

Saliva Testosterone Test of 9 Individuals 26-52 years of age
Dosage 2x2 (50mg/capsules) morning & evening for 10 days
Normal range for athlete 800 = 150ng/dl of blood



Volunteers 1-5 are athletes - data are an average of 3 different studies at different times
Volunteers 6-9 do not exercise on a regular basis

Conclusion
The results demonstrate that 100 mg per day of LJ100 caused an increase in bioavailability testosterone within 10 days. Furthermore, all subjects (athletes and non-athletes) showed a positive increase in testosterone suggesting that LJ100 causes an increase in the free testosterone index.

Effect of LJ100 Tongkat Ali on Anabolic Balance During Endurance Exercise

Talbott S, Talbott J, Negrete J, Jones M, Nichols M, and Roza J. Effect of Eurycoma longifolia Extract on Anabolic Balance During Endurance Exercise. SupplementWatch, Inc. Draper, UT, 84020 USA and Source One Global Partners, Chicago, IL 60611 USA. [email protected]

Eurycoma longifolia, commonly known as “Tongkat Ali” or “Longjack,” is often touted as a testosterone “booster” and marketed to athletes as a training aid and performance enhancer. Rodent studies have shown oral delivery of Eurycoma extract to improve sexual performance and increase serum testosterone levels. Open-label human trials have suggested that Eurycoma extract may help prevent age-associated androgen deficiency, improve sexual function, and increase psychological parameters such as mood, energy, and sense of well-being. The purpose of this study was to determine the effects of Eurycoma longifolia on testosterone and cortisol levels during intense endurance exercise. We used a water-soluble extract of Eurycoma longifolia (E) standardized to 22% eurypeptides and 40% glycosaponins. Male subjects (N=30) were recruited from a 24-hour mountain biking event and asked to provide a saliva sample before and after each lap for measurement of cortisol and testosterone by enzyme immunoassay (Salimetrics, State College, PA). Subjects completed 4 laps (14.91 miles/lap) and provided 8 saliva samples over a 24h period. Subjects consumed 100mg of E or a look-alike placebo (P) approximately 30 minutes prior to endurance exercise. Cortisol levels were 32.3% lower in E compared to P (0.552+0.665 versus 0.816+0.775 ug/dL, P < 0.05). Testosterone levels were 16.4% higher in E compared to P (86.72+40.90 versus 72.47+33.77 pg/mL, P < 0.05). These results suggest that Eurycoma longifolia extract may help to maintain normal levels of cortisol (low) and testosterone (high) and thus promote an overall “anabolic” hormonal state (versus a “catabolic” state characterized by elevated cortisol and suppressed testosterone) during intense endurance exercise.