Today, we are excited to share a new publication by Christopher Armstrong, PhD, & colleagues: “Discriminating ME/CFS and Comorbid Conditions Using NMR Metabolomics in UK ...
Today is International Giving Tuesday, marking the final hours of our Triple Giving November campaign! There are just a FEW HOURS LEFT to have your ...
We are pleased to share a new preprint by Wenzhong Xiao, PhD & Martha Eckey, PharmD: “Patient-Reported Treatment Outcomes in ME/CFS and Long COVID.” With ...
Today, we present an exclusive interview with Jonas Bergquist, MD, PhD, from the OMF Collaborative Center at Uppsala, who shares insights on neuroinflammatory involvement in ...
Today, we present an exclusive interview with Jonas Bergquist, MD, PhD, from the OMF Collaborative Center at Uppsala, who shares insights on neuroinflammatory involvement in ...
Triple Your Impact When we first shared the Moothart family’s story two years ago, they faced the unimaginable: having two children, Thomas and Josiah, severely ...
As part of Triple Giving November, we are highlighting inspiring individuals whose journeys have made an extraordinary impact. Meet Rebecca, a dedicated advocate for ME/CFS and ...
As part of our Triple Giving November campaign, we are excited to share an interview with David Systrom, MD, discussing a muscle biopsy study aimed at understanding the ...
Microvesicles are a type of extracellular vesicle that is released from the cell membrane. Vesicles are small, fluid-filled sacs or vacuoles within the body. Sequencing is a technique used to determine the exact sequence of bases (A, C, G, and T) in a DNA (or viral) molecule.
NMR Metabolomics
NMR (Nuclear Magnetic Resonance) is an instrument/tool used to perform metabolic studies, metabolic profiling, and metabolomics in biofluids and tissues for more than 40 years using magnetic fields. There is a very close connection between metabolic measurements and NMR. This connection has flourished because of NMR’s many unique strengths for characterizing complex mixtures’ chemical composition.
Proteomics
The large-scale study of proteins, which are large, complex molecules that are required for structure, function, and regulation of the human body's tissues and organs.
Autoantibodies
Antibodies that react with self-molecules and that occur in healthy individuals and are referred to as natural antibodies or autoantibodies.
Extracellular DNA for viral reactivation and Mitochondrial DNA
exDNA (extracellular DNA), exDNA is often secreted actively and is used to perform several tasks, thereby offering an attractive target or tool for biotechnological, medical, environmental, and general microbiological applications. Viruses are intracellular parasites that rely to a significant extent on the host cell for replication. Viral reactivation occurs when an active replication of the viral genome results in a lytic (degradation of the cell) infection characterized by the release of new progeny (descendant) virus particles.
Immune cell profiling
The immune system has many important regulatory roles in disease development and progression. Given the emergence of effective immune therapies, reliable predictors of response are needed. Immune cell profiling determines response by evaluating immune cell populations from treated and untreated samples. For our purposes, we will evaluate the white blood cell response to the viral infection using a process called “Cytof.”
Leukocyte Genomics
A leukocyte is a colorless cell circulating in the blood and body fluids and is involved in counteracting foreign substances and disease. A genome is all genetic material of an organism. Genomics is a biology field focusing on the structure, function, evolution, mapping, and editing of genomes. Therefore, leukocyte genomics is the study of all genetic material of leukocytes.
Metabolomics
Metabolomics is a way to study metabolism – that is, through measuring amounts of the metabolites (small molecules) produced by our bodies as we convert food into energy and other molecules that our cells need to survive. Metabolomics technology is ‘large-scale,’ meaning that several thousand metabolites can be measured from a single sample of e.g., blood or urine.
Micro RNA
Cells use Micro RNA to control whether a particular gene is making too much, too little or the normal amount of its protein at a particular time.