It has been established, through rather painstaking processes over a period of several years, that primary constituents of the growth form are comprised of both iron and amino acids. The methods to achieve this have been described in detail on previous reports. The essence of impact to health has also been discussed at length, namely, that if these elements are used by the organism for its own growth then those same nutrients are being denied to the human host that supports the invasive growth. Your iron is at the core of your respiration and hence of all energy transfer within your body; proteins are the structural framework that allows your body to exist and grow. The absconding of both iron and amino acids (i.e., proteins) from the human body is by itself of sufficient damage to warrant a full and dedicated allocation of resources to this problem; this has not happened to date. This information has, however, been very useful to develop an entire host of strategies to mitigate this damage and these have been discussed on this site. There remains much to do.
This paper seeks to identify a host of organic compounds that are likely to comprise the core physical structure of biologically produced filaments characteristic of the Morgellons condition. A biological oral filament sample will be analyzed for the presence of candidate organic functional groups using the methods of infrared spectrophotometry. Potential health impacts from these same core structures are examined and compared to the observed , reported and documented symptoms (in part) of this same condition. Potential mitigating strategies, from a research perspective only, are discussed. A body of evidence, accumulated over a period of several years, reveals that the Morgellons condition is likely characterized by a host of serious physiological and metabolic imbalances. These imbalances are caused by the disruption of a variety of major body processes including, as a minimum, the regulation of metabolism by the thyroid, potential liver enlargement, a decrease of oxygen in the circulatory system, the utilization of amino acids important to the body, the oxidation of iron and a potential impact to neural pathways. The impact of this degradation to human health can be concluded to be serious, debilitating and potentially lethal in the cumulative sense; the reports of those who suffer from the condition are in alignment with these conclusions. This paper will summarize the body of work and chronology which leads to this more comprehensive hypothesis.