Academy of Diagnostic & Osteopathic Medicine
Hematologic Malignancies
If ionizing radiation is a proven cause of blood cancers, why do we treat chronic internal radiation from well water as a biological inconsequential?
This research examines hematologic malignancies by focusing on the cumulative effects of chronic environmental exposure on the bone marrow, the central site of blood and immune cell production. Leukemia, lymphoma, and plasma cell malignancies arise when genetic damage, altered signaling, and microenvironmental stress progressively disrupt normal hematopoiesis. Ionizing radiation is a uniquely potent contributor to this process because it directly damages DNA, affects stem cell behavior, and alters marrow homeostasis. While acute radiation exposures are widely recognized, chronic low-dose internal exposures—such as those arising from environmental radionuclides—remain underexamined despite their biological relevance. By integrating mechanistic radiobiology with human exposure data, this work seeks to clarify how long-term, low-level radiation can shape hematologic cancer risk over time and to identify gaps in current models of environmental cancer causation.
Microbes & Parasites in Thyroid Tissue
What if microbes and parasites in the thyroid contribute to serious health problems before the thyroid issue is ever diagnosed?
This research explores whether microbes and parasites may exist within thyroid tissue and influence how the body functions before thyroid disease is formally recognized. People may experience symptoms such as fatigue, joint pain or arthritis, cardiovascular strain, metabolic disruption, or organ stress long before a thyroid condition is identified. By examining the thyroid as a potential source of broader physiological imbalance, this work seeks to better understand overlooked contributors to systemic illness and delayed diagnosis.
The Cost of Cancer
If medicine exists to reduce human suffering, why does cancer generate so much profit?
This research examines the growing tension between medicine’s ethical responsibility to reduce human suffering and the financial structures surrounding modern cancer care. While advances in diagnostics and treatment have extended survival, they have also created long-term cycles of testing, therapy, monitoring, and follow-up that generate significant profit. This work explores whether economic incentives within cancer care influence how disease is managed, how long patients remain in treatment, and how suffering is measured, addressed, or sustained over time.
Plasma Principle
What if the forces that shape our health are the same forces that shape planets and stars?
This research shows that the same cycle of fluid, plasma, stone, and gas that governs the human body also operates throughout Earth and the cosmos. These phases form a continuous pattern of transformation, and disease arises when that pattern is disrupted. Imbalance becomes the central cause of dysfunction at every scale, from physiology to planetary and cosmic systems.
Cellular Regeneration
If cuts heal and bones repair, why can’t wrinkles and organ cells do the same?
We are exploring microalgae research and discovering something extraordinary: these ancient organisms regenerate endlessly by using plasma-based energy exchanges and specific vibrational frequencies to keep their cells young. Microalgae operate almost outside of time, repairing damage before it accumulates, and maintaining youth through a continuous, rhythmic release of cellular energy. By studying how microalgae use frequency, ionic balance, and plasma-like signaling to trigger rapid regeneration, we are beginning to understand how we might apply the same principles to human cells. The idea is simple but revolutionary. If we can restore the precise energetic environment that keeps microalgae biologically young, we may be able to turn back the hands of time in human tissues, reawakening the body’s innate, youthful regenerative capacity.
Microbial Orchestra
What if your microbes were the orchestra of your health?
Investigating the complex interplay of microbial ecosystems in human health, our “microbial orchestra” research uncovers how microbial dynamics shape physiology and disease.
Reframing
Tumors
What if a tumor is not the beginning of disease, but the body's attempt at protection?
This view reframes tumors as organized biological responses to unresolved stressors, such as infection, metabolic strain, or environmental damage, rather than as spontaneous errors. It suggests that tumor structure and behavior reflect an adaptive process, and that imaging and pathology should be used to interpret that process, not just to classify outcomes.
Biological Baseline
What if you could see how your body truly functions at rest and understand your own unique physiology?
For each person we observe patterns in tissue behavior, blood flow, heart activity, and temperature regulation. By tracking how these measurements change over time or in response to controlled conditions, we can identify early shifts in physiology and move closer to true precision medicine based on measurable patterns rather than trial-and-error practice.
Atomic Health
What if you could understand your body not only at the cellular level, but at the atomic level? This is the level where all biology truly begins.
We are conducting new research on atomic health by calculating how ionizing radiation displaces electrons from human tissue and applying these measurements to a broader risk assessment for long-term health.
Atomic Health
What if you could understand your body not only at the cellular level, but at the atomic level? This is the level where all biology truly begins.
We are conducting new research on atomic health by calculating how ionizing radiation displaces electrons from human tissue and applying these measurements to a broader risk assessment for long-term health.
Dental Ultrasound
What if your dentist could see more with ultrasound?
ADOM is conducting a study to explore how adding ultrasound to dentistry can help detect more dental conditions earlier and without radiation. The study is examining whether high-frequency ultrasound can reveal early signs of cavities, infections, cracks, and gum disease that traditional X-rays may miss. By evaluating real-time images of teeth and surrounding tissues, ADOM aims to understand how ultrasound can enhance early diagnosis, improve patient safety, and reduce reliance on ionizing radiation, especially for children and patients who require frequent imaging. This research positions ADOM at the forefront of advancing safer, more accurate dental diagnostics.
Physiology of Frequency
What if we could measure the body’s real-time physiologic changes to external frequency inputs?
Physiology of Frequency explores how the human body reacts to controlled external frequencies. By observing changes in various physiologic patterns, we aim to understand how different systems adapt, shift, or stabilize in response. This work helps reveal individual differences in how people respond to frequency-based inputs and supports a more precise, measurable understanding of human physiology.
pH Balance
What if pH shifts in the body were shaped not only by chemistry, but by the water we choose?
We are researching how hydrogen-ionized water influences the body’s pH regulation by altering the availability of hydrogen ions, which are central to maintaining biochemical and energetic balance. Because pH reflects the body’s internal environment and its capacity to adapt, changes in hydrogen ion concentration may affect overall physiological stability. Our work examines whether ionized water can assist the body in regulating pH, maintaining coherence, and reducing the tendency toward imbalance.