Phenols, including phenol and p-cresol, are aromatic compounds that result from the microbial fermentation of aromatic amino acids, such as tryptophan and tyrosine. These compounds are cytotoxic and may cause damage to the gut, skin, vascular system, kidneys, and more.

Tyrosine tends to be metabolized to phenol by Escherichia coli, Proteus spp., and Streptococcus faecalis, whereas it tends to be metabolized to p-cresol by strictly anaerobic gut bacteria such as Bacteroides fragilis, Fusobacterium spp., and Clostridium spp.

Tryptophan is abundant in foods such as cheese, poultry, red meat, egg whites, and seeds; and therefore, these foods can increase phenol production in the gut. Similarly, tyrosine is also present in protein-rich foods including beef, pork, chicken, fish, chicken, tofu, milk, cheese, beans, seeds, nuts, and whole grains. When paired with a diet low in fermentable fibers, these foods have the potential to dramatically increase phenol and p-cresol production, as gut microbes are forced to use amino acids for energy. Increasing gut acidity through the intake of resistant starches, galactooligosaccharides, and fructooligosaccharides may reduce the production of these toxic metabolites.

P-Ethanolamine, Plasma is short for Phosphoethanolamine (PEA). Phosphoethanolamine (PEA) is a marker measured in the plasma as part of an Amino Acid Profile, Quantitative (Qn) panel. This compound is a derivative of the amino acid serine and plays a critical role in the biosynthesis of phospholipids, which are essential components of cell membranes. In the body, PEA serves as a precursor to phosphatidylethanolamine, one of the most abundant phospholipids in cell membranes, and is involved in various cellular processes, including membrane signaling and repair. Elevated levels of phosphoethanolamine in the plasma can indicate metabolic disruptions or inherited metabolic disorders such as phosphoethanolaminuria, where there is an abnormal accumulation of PEA due to enzyme deficiencies.

P-Ethanolamine stands for Phosphoethanolamine. Phosphoethanolamine is a compound involved in the metabolism of phospholipids, which are essential components of cell membranes. Elevated levels of phosphoethanolamine in urine can indicate metabolic disorders or conditions related to phospholipid metabolism. For instance, abnormal levels may be associated with certain types of metabolic diseases, vitamin B6 deficiency, or issues with kidney function. Monitoring phosphoethanolamine levels can help healthcare providers diagnose these conditions, assess the effectiveness of treatments, and understand more about a patient's metabolic health. It's an important marker because it provides information that can lead to early detection and management of metabolic abnormalities, ultimately contributing to better health outcomes.

The presence of organic compounds such as p-Hydroxybenzoate in the urine may point towards significant dysbiosis (=impaired microbiota).

Associated with small intestinal bacteria overgrowth (SIBO) due to its production by C. di cile, C. stricklandii, C. lituseburense, C. subterminale, C. putrefaciens, and C. propionicum.

Associated with small intestinal bacteria overgrowth (SIBO) due to its production by C. di cile, C. stricklandii, C. lituseburense, C. subterminale, C. putrefaciens, and C. propionicum.

p-hydroxyphenyllactate is a marker of cell turnover. It is also a metabolite in tyrosine degradation and may be useful for studying disorders of tyrosine metabolism.

The P/E2 ratio describes the relationship between progesterone and estradiol levels, and is used clinically to ascertain dominance of one hormone compared to the other.

When it comes to diagnosing Lyme disease, a condition caused by the Borrelia burgdorferi bacteria, healthcare providers often rely on a combination of clinical evaluation, patient symptoms, and specific laboratory tests. One of the components sometimes found on a Borrelia test panel is the P100 biomarker. Understanding what this biomarker signifies and how it fits into Lyme disease diagnostics can shed light on the often-complex process of diagnosing this tick-borne illness.

What is the P100 Biomarker?

P100 is a protein antigen found in the Borrelia burgdorferi bacterium. This protein, along with others like P41, OspC, and others, is used to detect the presence of an immune response to Lyme disease. The P100 antigen, sometimes referred to as the 100 kDa protein, gets its name from its molecular weight. This protein becomes relevant in Lyme disease testing because it is associated with the immune response to the infection; when the immune system encounters Borrelia burgdorferi, it generates antibodies that specifically target bacterial antigens, including P100. Detecting antibodies against P100 can provide insight into a patient’s exposure to the Lyme-causing bacteria.

The Epstein-Barr Virus (EBV) p18 IgG marker is a vital component of the NeuralZoomer Plus panel from Vibrant Wellness, designed to assess neurological health and the risk of autoimmunity. EBV, a widespread herpesvirus, infects most people at some point in their lives, potentially leading to infectious mononucleosis. However, many individuals carry the virus asymptomatically. The p18 IgG marker specifically indicates the body's immune response to EBV, focusing on the production of Immunoglobulin G (IgG) antibodies against the virus's p18 protein—a component of the viral capsid antigen (VCA), essential for the virus's infection and replication processes.

The presence of IgG antibodies against EBV's p18 suggests a past or chronic infection, offering significant insights into a patient's immune system status and potential neurological or autoimmune disease risk factors. This testing is crucial, as chronic EBV infection is linked to various neurological conditions and autoimmune diseases. The NeuralZoomer Plus panel facilitates early detection and intervention, providing a personalized approach to prevent and manage neurological health issues. By including the EBV p18 marker, the panel offers a comprehensive view of the body's immune activity against EBV, essential for diagnosing and treating conditions with a potential viral cause.