A Thread:
~THE MCCAIRN-EDOGAWA HOSPITAL CLINICAL RESEARCH PROGRAM~

• Dual Filtration Plasmapheresis/Apheresis Adsorption Therapy
& Stem Cell Growth Factor Treatment

• A hospital-led pathway for long COVID & vaccine injury presentations, pairing DFPA blood purification with cytokine analytics, amyloid detection, live blood analysis, & SHED-derived regenerative growth factor support

@KevinMcCairnPhD @CharlesRixey
@shonyan
@edogawa_PA

~PATIENT PATHWAY~

• From intake to follow-up, every step has a clinical gate

01. Intake + Records

• Health history, current medications, recent diagnostics, treatment goals, & contraindication review

02. Analytics Panel

• In-depth cytokine panels, live blood analysis, & amyloid detection before treatment sequencing

03. Supervised Session

• Dual filtration plasmapheresis planned in a monitored setting with pre- & post-session observation

04. SHED Regeneration

• SHED-derived growth factor timing, neurological recovery goals, follow-up markers, & provider-directed next steps

1- Dual Filtration Plasmapheresis/Apheresis Adsorption Therapy

•Blood is separated, plasma is filtered, & the cleaned components return to circulation

• DFPA/DFPP is a form of therapeutic apheresis

• Blood is gently circulated outside the body through sterile tubing

• The first filter separates plasma from blood cells

• A second filter then targets larger plasma components before the remaining plasma & blood cells are returned

• Designed to reduce selected inflammatory & immune-related plasma burden

• Planned after contraindication review & vascular access assessment

• Used here as part of a broader long COVID & vaccine injury evaluation pathway

2- PATIENT ANALYTICS

• Cytokine panels, live blood analysis, & amyloid detection

• Before DFPA or growth factor timing is finalized, the patient pathway can include detailed cytokine profiling, live blood microscopy-style review, & amyloid burden detection

• These inputs help the team characterize inflammatory load, microvascular clues, & protein aggregation signals

• Transparent exosome & extracellular vesicle overlays carry the regenerative theme visually while the copy stays grounded in measurable lab review & physician-directed decision making

3- REGENERATIVE SIGNALING

• SHED-derived growth factors for neuro-regenerative support

• The growth factor section now centers on SHED: stem cells from human exfoliated deciduous teeth

• These deciduous-teeth stem cells are valued in regenerative medicine because they are neural-crest derived, highly proliferative, & associated in preclinical literature with trophic & immunomodulatory signaling

• In this concept, SHED-derived secretome, extracellular vesicles, & growth factor signaling are positioned as neurological repair & regeneration support after DFPA analytics

• The language should remain clinician-directed: promising repair biology, not a guaranteed cure