By Nicolas Hulscher, MPH
The new study examined leukemia patients who developed blood cancer shortly after receiving mRNA injections. Analysis showed that within a few weeks, their bone marrow showed striking cancer-related metabolic changes, suggesting a potential carcinogenic effect of mRNA technology.
The study, titled “Metabolic profiling of leukemic hematopoiesis: effects of BNT162b2 mRNA COVID-19 vaccine administration,” was recently published in the journal Current Molecular Medicine.
Study design: three groups, one technology
The researchers used untargeted metabolomics – a method for recording cellular metabolic processes in real time – to analyze bone marrow samples from three groups:
- Vaccinated leukemia patients (n = 7): All developed acute leukemia between 15 and 63 days after injection of Pfizer’s BNT162b2.
- Unvaccinated leukemia patients without a history of COVID-19 (n = 2)
- Healthy, unvaccinated controls (n = 7)
Main results: Classic cancer features across all leukemia groups
In both leukemia groups, expected cancer-specific metabolic patterns were observed compared to healthy controls:
- ↑ Glycolysis: increased sugar breakdown (known as the Warburg effect in tumors)
- ↑ Pentose phosphate pathway: increased nucleotide synthesis and antioxidant balance
- Altered tryptophan metabolism: promoting an immunosuppressive tumor environment
- Heme metabolism disorders: disorder of red blood cell formation, increased oxidative stress
Specific markers only in vaccinated leukemia patients
What was striking, however, was that additional clear metabolic changes were only seen in vaccinated leukemia patients – they were not observed in unvaccinated leukemia cases.
- ↑ Tetrahydrofolic acid: A key component of DNA synthesis and methylation, increased only in vaccinated patients. Evidence for modulation of the folate cycle by vaccination.
- ↑ Phosphorylcholine: Marker of membrane metabolism disorder, tumor progression, lipid signaling cascades, and immune activation. Increased only in vaccinated individuals – even decreased in unvaccinated individuals.
- ↑ N-formyl-L-glutamic acid / N-acetyl-L-aspartic acid: involved in amino acid and mitochondrial metabolism. Significantly elevated in vaccinated leukemia patients – absent in unvaccinated patients.
- ↑ Delta 8,14-sterol: a lipid that plays a central role in membrane structure and cell communication – increased only in the vaccinated group. Possible indication of vaccine-induced lipid dysregulation.
Temporal relationship: cancer within two months
All seven vaccinated patients developed leukemia within 15–63 days after mRNA injection. This close temporal correlation, together with the differential molecular findings, suggests that mRNA injection may trigger profound bone marrow reprogramming—with potential carcinogenic consequences.
conclusion
This study provides the first direct evidence that mRNA injections can induce cancer-promoting metabolic patterns in bone marrow — and within just a few weeks. The results suggest that mRNA technology produces more than just immunological effects. It profoundly interferes with central metabolic processes—including DNA synthesis, methylation, membrane assembly, and mitochondrial signaling pathways.
Such findings highlight the urgent need for independent research and long-term follow-up of mRNA-based vaccines.
