Key takeaways:
~ Shilajit contains fulvic acid, metabolites, and minerals
~ Used for centuries, clinical trials show it has positive benefits for osteoporosis, testosterone, male infertility, and muscle recovery.
~ Animal studies suggest that shilajit is neuroprotective, antiviral, and reduces gut inflammation.
What is shilajit and what does it do?
In a nutshell, shilajit is a Himalayan mountain compound rich in fulvic acid and likely produced from the centuries-long decomposition of certain plants. It has been used in Ayurvedic medicine for centuries as a way to rejuvenate and build strength. It is also referred to as Mumie.[ref]
Part of the composition of shilajit is fulvic acid, which is formed from microorganisms breaking down plant material over a long period of time. Shilajit also contains dibenzo-a-pyrones (DAPs) [ref]
I want to get my biases out of the way up front here:
I have avoided writing about shilajit or fulvic acid because it comes across as eating overpriced dirt. The rave reviews of shilajit on social media seem too good to be true, and I just assumed the hype was from people selling dirt. However, there is a lot of research that shows there may actually be something to it… I’ll present the research here; you can make up your own mind on the subject. Keep in mind that some of these studies are probably funded by companies that are making money selling people dirt. (Sorry – the bias slipped in again 🙂
Safety first: Is shilajit safe?
The clinical trials, hundreds of years of use, and animal safety research studies all say that it is safe.[ref][ref]
However, part of the safety issue is knowing whether the manufacturer is trustworthy and has a solid product. Look for reputable brands or companies that offer third-party testing of their products. My concern is that there could be heavy metals or mycotoxins in the shilajit, so quality is important here.
What is the difference between shilajit and fulvic acid?
Shilajit contains fulvic acid along with other compounds and trace amounts of a number of minerals. Fulvic acid is thought to be a large part of the benefits seen in shilajit, but there may also be benefits to the combination of minerals and metabolites contained in shilajit.
Human studies on Shilajit:
Randomized, placebo-controlled clinical trials show benefits for muscle recovery, bone health, testosterone, and sperm motility.
As always, talk with your healthcare provider with any medical questions and about any medications that mayinteract with a supplement.
Extracellular matrix and collagen – muscle and exercise:
Collagen is an essential protein that makes up bones, tendons, ligaments, and muscles. Degradation of collagen is seen in arthritis as well as muscle and tendon injuries. A placebo-controlled clinical trial in healthy, active men using 250 mg/day or 500 mg/day of shilajit showed that at the higher dose, there was an increase in “retention of maximal muscular strength following the fatiguing protocol”. [ref]
Another clinical trial using 250 mg/2x/day showed that genes related to extracellular matrix, collagen, muscle repair, and muscle formation were upregulated with the supplement. The study was conducted in overweight adults for 12 weeks. The first 8 weeks of the study looked at the changes from the supplement alone, and the last 4 weeks looked at exercising along with supplemental shilajit. The results showed the upregulation of muscle-related gene expression during the first 8 weeks (before the onset of exercise) as well as benefits when combined with exercising.[ref]
Several additional clinical trials show that shilajit supplementation upregulates extracellular matrix genes associated with muscle formation, elasticity, and recovery from exercise and training. [ref][ref][ref]
Osteoporosis prevention by increasing BMD:
Shilajit extract increased bone mineral density (BMD) from baseline in postmenopausal women with osteopenia. One mechanism noted was increased antioxidant status along with decreased RANKL. The conclusion of the clinical trial states: “ Daily supplementation with this shilajit extract supports BMD in postmenopausal women with osteopenia in part by attenuating the increased bone turnover, inflammation, and oxidative stress that coincides with estrogen deficiency in this population at increased risk for osteoporosis and bone fractures.” [ref]
Testosterone production in middle-aged men:
A randomized, double-blind, placebo-controlled clinical trial examined the effects of shilajit in men aged 45-55 (250 mg, 2x/day). The results show a statistically significant increase in total testosterone, free testosterone, and DHEA.[ref] These results are supported by other clinical trials as well.[ref]
Sperm count and male infertility:
In a clinical trial of men with low sperm counts, shilajit extract increased total sperm count and sperm motility. The men took 100 mg capsules of processed shilajit twice a day for 90 days. In addition to significant improvements in sperm count, the men had an average increase of 23% in serum testosterone. [ref]
Possible skin benefits:
A study in overweight, middle-aged women showed that oral shilajit supplementation (250 mg/2x/day) increased microperfusion in the skin.[ref]
Animal and cell studies on shilajit:
In addition to human clinical trials, there are hundreds of studies on the effects of shilajit using animals or cell lines. These studies can give us insight into safety, antiviral properties, and the mechanism of action.
Cholinergic pathways:
Animal studies show that shilajit affects cholinergic signaling in certain types of brain cells. The studies also showed that shilajit does not affect GABA, benzodiazepine receptors, or NMDA receptors. [ref]
Neuroprotective role:
A 2023 study in cells showed that shilajit may be protective against tau aggregation.[ref] This may be beneficial for preventing Alzheimer’s disease. Further studies are definitely needed here.
Stomach ulcers:
An animal study showed that shilajit is comparable to omeprazole (Prilosec) in healing gastric lesions caused by aspirin.[ref]
Inflammation:
A study in animals with fatty liver disease showed that shilajit provided protection against inflammation. The study showed that it increased IL-10 (anti-inflammatory) and decreased TNF-alpha.[ref]
Antiviral activity:
One study showed that shilajit has inhibitory activity against herpes simplex 1 and 2, cytomegalovirus, and RSV. It does not have any inhibitory activity for rotavirus or vesicular stomatitis virus.[ref]
Genetic interactions:
Osteoporosis:
Clinical trials on shilajit for osteoporosis are promising. Be sure to talk with your doctor about any interactions with supplements if you are already taking medications for osteoporosis.
It is important to note that the shilajit studies showed that it inhibits RANKL. For someone with TNFSF11 (RANKL) variants associated with osteoporosis (increased RANKL), this may be a good fit.
Gene | RS ID | Effect Allele | Your Genotype | Notes About Effect Allele |
---|---|---|---|---|
TNFSF11 | rs2277438 | G | — | GG only: lower bone mineral density |
TNFSF11 | rs2277439 | G | — | Lower bone mineral density |
TNFSF11 | rs12585014 | G | — | Lower femoral strength; BMD |
OPG | rs3102735 | C | — | CC only: lower BMD |
LRP5 | rs3736228 | T | — | Increased risk of osteoporosis |
SQRDL | rs1044032 | C | — | Decreased risk of osteoporosis |
VDR | rs1544410 | T | — | Increased risk of low BMD; osteoporosis |
VDR Fokl | rs2228570 | A | — | Adequate vitamin D is important here |
ESR2 | rs4986938 | T | — | TT only: lower BMD |
TGFB1 | rs1800470 | G | — | Increased risk of osteoporosis (Asian population group) |
COL1A1 | rs1800012 | A | — | Lower bone mineral density |
Testosterone and male infertility genes:
The human clinical trials on shilajit show positive results for increasing testosterone levels as well as sperm parameters. I don’t know whether the increases are significant enough to be clinically effective, although the anecdotal evidence suggests that it is, at least for some people. Talk with your doctor about hormone testing and your options for hormone replacement compared to shilajit. You can also order hormone testing yourself. (Article: ordering tests yourself)
Gene | RS ID | Effect Allele | Your Genotype | Notes About Effect Allele |
---|---|---|---|---|
SHBG | rs12150660 | G | — | Lower free testosterone |
SHBG | rs6258 | T | — | Lower free testosterone |
SHBG | rs6259 | A | — | Higher SHBG levels |
SHBG | rs1799941 | A | — | Higher SHBG levels |
FAM9B | rs5934505 | T | — | Lower free testosterone |
LIN28B | rs7759938 | C | — | Lower free testosterone |
FSHB | rs10835638 | T | — | Lower free testosterone |
Gene | RS ID | Effect Allele | Your Genotype | Notes About Effect Allele |
---|---|---|---|---|
CFTR | rs113993960 | D | — | DI – one copy of the Delta F508 cystic fibrosis mutation |
PRM1 | rs2301365 | T | — | Increased risk of male infertility – DNA damage-response gene |
LIG4 | rs1805388 | A | — | Increased risk of male infertility – DNA damage-response gene |
TGFB3 | rs2284792 | G | — | Increased risk of male infertility- chronic inflammation related |
GSTM1 | rs366631 | A | — | AA: Increased risk of male infertility- chronic inflammation |
HSPA1L | rs2227956 | G | — | Increased risk of male infertility; heat shock protein |
NOS3 | rs2070744 | C | — | CC: Increased risk of male infertility – nitric oxide synthase |
MTHFR | rs1801133 | A | — | Increased risk of male infertility- folate related |
MTRR | rs1801394 | G | — | Increased risk of male infertility; B12 related (B-complex) |
FSHR | rs6165 | T | — | Increased risk of male infertility; check hormone levels |
FSHR | rs6166 | T | — | TT: Slightly higher risk of male infertility; FSH hormone |
HLA-DRA | rs3129878 | C | — | Increased risk of male infertility; Immune system |
HFE | rs1800562 | A | — | Increased risk of sperm damage; Iron overload related |
HFE | rs1799945 | G | — | Increased risk of low sperm motility; Iron overload related |
CFTR | i3000001 | D | — | DI – one copy of the Delta F508 cystic fibrosis mutation |
MTHFR | rs1801131 | G | — | Increased risk of male infertility- folate related |
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About the Author:
Debbie Moon is the founder of Genetic Lifehacks. Fascinated by the connections between genes, diet, and health, her goal is to help you understand how to apply genetics to your diet and lifestyle decisions. Debbie has a BS in engineering and also an MSc in biological sciences from Clemson University. Debbie combines an engineering mindset with a biological systems approach to help you understand how genetic differences impact your optimal health.