MMSx Research Index

MMSx Research Index

An organized overview of applied biomechanics research, protocols, and scholarly work within the MMSx Authority ecosystem.

The MMSx Research Index documents key research activities, applied clinical protocols, analytical studies, and position papers developed under MMSx Authority.

This index is intended to:

  • Provide visibility into ongoing and completed work
  • Clarify the nature and status of each research item
  • Distinguish between clinical protocols, applied analyses, and scholarly manuscripts
  • Support academic dialogue without premature claims of publication or trial completion

This page reflects current documentation status, not final publication outcomes.

Research Categories Represented

  • Applied Clinical Protocols
  • Biomechanical Analysis Studies
  • Position & Conceptual Papers
  • Framework Development Work
  • Pre-publication Manuscripts

📌 Documented Research & Applied Work

BPIT – Balanced Progressive Intensity Training

Category: Applied Clinical Protocol

Status: Active Protocol Documentation

Description:

BPIT represents a structured load-management and movement-quality framework emphasizing correction, adaptation, and progression phases. The available documentation reflects clinical operating procedures, safety standards, session architecture, and neuromuscular preparation protocols.

Materials Available:

  • Phase-based weekly protocol documents
  • Investigator SOPs and safety guidelines
  • Session structure (RAMP, strength, recovery)
  • Load-quality enforcement rules

Current Use:

Clinical and performance environments under MMSx Authority oversight.

Biomechanical Squat Analysis Series

Category: Biomechanical Analysis & Decision-Support

Status: Position Paper & Applied Analysis

Description:

This body of work reframes the squat as a diagnostic stress test, focusing on system organization, load transfer, and constraint-driven mechanics rather than isolated muscle strength.

Core Themes:

  • Proximal-to-distal load transfer
  • Pelvic control as a primary driver
  • Knee mechanics as a resultant, not a cause
  • Force leakage and shear risk patterns

Materials Available:

  • Conceptual position paper
  • Clinical reasoning framework
  • Visual decision-support diagrams

Asymmetry in Loaded Squatting

Category: Applied Biomechanics Analysis

Status: Manuscript in development

Description:

This analysis investigates unilateral load bias, right-dominant shifts, pelvic rotation, and ground-reaction-force asymmetries under progressive loading conditions.

Key Focus Areas:

  • Inter-limb GRF imbalance
  • Transverse-plane pelvic behavior
  • Load-dependent risk amplification
  • “Hidden single-leg squat” phenomenon

Materials Available:

  • Draft analytical manuscript
  • Quantitative modeling documentation
  • Applied corrective frameworks (NEEBAL, BPIT integration)

Maximal Abduction in Squatting Mechanics

Category: Large-Scale Observational Analysis

Status: Completed Applied Analysis

Description:

A multi-center observational dataset examining the biomechanical consequences of excessive knee abduction cues (“knees out”) across a large subject pool.

Scope:

  • Neutral vs maximal abduction comparison
  • Load-path efficiency and shear vectors
  • Depth limitation mechanisms
  • Foot-tripod stability interactions

Materials Available:

  • Full analytical document
  • Conceptual models and schematics
  • Aggregate trend analysis

Neural Efficiency Under Load

Category: Experimental & Neuromuscular Research

Status: Manuscript prepared for journal submission

Description:

This work examines motor-unit recruitment ceilings, rate coding strategies, and neural drive efficiency across elite strength and power athletes.

Key Variables:

  • Recruitment ceiling (%MVC)
  • Rate-coding capacity
  • Force–velocity specialization
  • Neural adaptation patterns

Materials Available:

  • Full manuscript draft
  • EMG methodology documentation
  • Statistical analysis outputs

How These Materials Are Used

  • Some items function as clinical protocols
  • Some serve as applied biomechanical analyses
  • Some are position or conceptual papers
  • Some are pre-publication manuscripts

They are intentionally indexed together to reflect real research workflow, not just final publications.

Governance & Disclosure

  • Participant-level data is not publicly released
  • All materials are educational and research-focused
  • No item on this page constitutes medical prescription
  • Publication status is updated progressively