Optical Digital Twin of Human Acupoints

Optical digital twin of human acupoints

A whole-body 3D dosimetry atlas for precision photomedicine

A public-facing scientific platform for whole-body, acupoint-resolved visualization of photon transport in anatomically resolved tissue. Each case record integrates a human optical digital twin, orthogonal section views, and case-specific dosimetry evidence to support interpretable precision photomedicine.

Browse Atlas Library Open Selected Case

Atlas Scope: 50 interactive acupoint models
Current Resolution: 0.04 cm isotropic voxels
Core Engine: Voxelized Monte Carlo transport
Presentation Mode: 3D volume + orthogonal tissue sections

Current Release

The current release presents a structured web atlas for whole-body acupoint analysis, teaching, and collaborative interpretation in precision photomedicine.

Published regions 0

Live cases 0

Voxel size 0.04 cm isotropic

Viewer mode Volume + orthogonal planes

Interpretive Scope

The platform is intended for scientific interpretation rather than decorative browsing, linking anatomical context, photon transport, acupoint localization, and direct case access within a single workflow.

Trace photon penetration in relation to the surrounding tissue architecture
Compare whole-body acupoint records across the head, back, anterior torso, leg, and arm
Move directly from atlas selection to the corresponding interactive model

Overview

What this optical digital twin atlas is built to show

Tissue-aware photon visualization

Each model overlays photon transport onto anatomical tissue so that propagation can be interpreted in relation to the surrounding structure rather than in isolation.

Orthogonal plane reading

Users can move between full-volume rendering and orthogonal section views to examine penetration depth, spatial spread, and local distribution from multiple anatomical directions.

Region-organized case library

The site is organized as a whole-body atlas, making it easier to compare acupoint records across body regions while maintaining a consistent interface standard.

Digital Twin Navigator

View the whole-body optical digital twin first, then select any published acupoint record

Full-body 3D twin Selected point: Loading live atlas record

Open Digital Twin in New Tab

Use Quick Search inside the digital twin. After choosing an acupoint, click Search to focus the selected anatomical point and enable the linked 3D model.

Selected Case

Open the currently selected acupoint record within the dosimetry viewer

This featured case illustrates the public viewing workflow of the atlas: composite tissue-photon rendering, orthogonal section views, and a direct transition from digital-twin localization to interpretable dosimetry.

Interactive tissue-photon composite viewer
Orthogonal X / Y / Z section exploration
Direct assessment of penetration depth within tissue
A case-record layout shared across the full atlas

Open Full-Screen Viewer

Drag the center divider or the lower-right corner of the preview frame to resize the inline viewer.

Interactive Preview Current case: Loading live atlas record

Inline viewer available on demand

The embedded 3D viewer is intentionally deferred at page load so that the homepage remains lighter and faster. Use the launch button above to open the selected case directly within this page, or open the full-screen viewer in a separate tab.

Atlas Library

Published case records organized by body region

Workflow

From voxelized anatomy to a precision-photomedicine dosimetry atlas

Voxelized anatomy

Human tissue structures are reconstructed into regularized volumetric slices suitable for physics-aware computation.

Monte Carlo transport

Photon propagation is modeled through heterogeneous tissue with explicit attention to fluence, penetration depth, and spatial spread.

3D dosimetry atlas

The simulated fields are transformed into interactive volumetric models for cross-sectional and whole-field interpretation.

Atlas publication

The computed fields are delivered through a unified web interface so that reviewers, collaborators, and trainees can inspect the same case records directly.