ECCA-HYP-ACUPOINT-MAP-0007
Hypoxic–Ischemic Encephalopathy Acupuncture Point Mapping Atlas
SCF Neural Mapping Schema: Module 7 of Encephalopathy Types
Clinical use classification: Adjunctive supportive neuromodulation only. Hypoxic–ischemic encephalopathy (HIE) is a medical emergency requiring airway stabilization, oxygenation, hemodynamic management, neurocritical care, seizure monitoring, reperfusion optimization, temperature management where indicated, and ICU-level support.
The SCF neural mapping method follows the layered model:
acupoint → peripheral nerve branch → dermatome/myotome → spinal or cranial entry → brainstem/hypothalamic/limbic/cortical node → autonomic, neurovascular, mitochondrial, neuroimmune, or connectomic output.
Evidence tiers:
- A = direct mechanistic/tracing evidence
- B = indirect neuroimaging or physiology
- C = anatomy-based inference
I. Hypoxic–Ischemic Encephalopathy SCF Collapse Targets
ECCA-HYP Collapse Node | Therapeutic Mapping Objective |
Cerebral oxygen deprivation | Support neurovascular synchronization |
ATP bioenergetic collapse | Restore mitochondrial resilience |
Excitotoxic glutamatergic overload | Reduce neural hyperexcitability |
Neuroinflammatory activation | Modulate cytokine-glial amplification |
BBB permeability dysfunction | Stabilize neurovascular integrity |
Cortical synchronization failure | Restore connectomic coherence |
Brainstem autonomic instability | Stabilize respiratory-cardiovascular output |
Oxidative stress injury | Reduce ROS-mediated network damage |
Motor-circuit dysfunction | Support sensorimotor reintegration |
Post-hypoxic dysautonomia | Restore vagal-autonomic regulation |
II. ECCA-HYP Acupoint Neuro-Circuit Atlas
ID | Point | Meridian | Region | Peripheral Nerves | Dermatome | Segment | Central Nodes | Output Circuit | Circuit Network | Evidence |
ECCA-HYP-01 | GV20 | Governing Vessel | Vertex scalp | Greater occipital + trigeminal convergence | CN V / C2 | Cranial-upper cervical | DMN, salience network, PFC | Cortical synchronization | Connectomic-limbic | B |
ECCA-HYP-02 | GV24 | Governing Vessel | Frontal scalp | Supraorbital nerve | CN V1 | Cranial | Frontal cortex, hypothalamic interface | Executive-connectomic stabilization | Frontal-limbic | C |
ECCA-HYP-03 | GV26 | Governing Vessel | Philtrum | Infraorbital branch | CN V2 | Cranial | Brainstem arousal nuclei | Consciousness/arousal support | Brainstem-arousal | C |
ECCA-HYP-04 | Yintang | Extra point | Glabella | Supratrochlear branches | CN V1 | Cranial | Limbic-autonomic circuits | Anxiety/agitation regulation | Limbic-autonomic | C |
ECCA-HYP-05 | DU16 | Governing Vessel | Occipital base | Suboccipital nerves | C1–C2 | Upper cervical | Medullary autonomic nuclei | Respiratory-arousal stabilization | Brainstem-autonomic | C |
ECCA-HYP-06 | GB20 | Gallbladder | Suboccipital | Greater occipital nerve | C2–C3 | Upper cervical | Brainstem-cerebellar interface | Cerebrovascular-autonomic regulation | Cervico-brainstem | C |
ECCA-HYP-07 | BL10 | Bladder | Posterior neck | Cervical dorsal rami | C2–C3 | Upper cervical | Brainstem autonomic centers | Cervico-autonomic stabilization | Cervico-autonomic | C |
ECCA-HYP-08 | ST36 | Stomach | Anterolateral leg | Deep peroneal/fascial convergence | L4–L5 | Lumbosacral | NTS, DMV, adrenal pathways | Vagal-adrenal anti-inflammatory reflex | Neuroimmune-metabolic | A |
ECCA-HYP-09 | PC6 | Pericardium | Volar forearm | Median nerve | C6–T1 | Cervical-thoracic | NTS, PVN, vagal nuclei | Cardiovagal stabilization | Cardiovagal-autonomic | A/B |
ECCA-HYP-10 | CV17 | Conception Vessel | Sternum | Intercostal anterior branches | T2–T5 | Thoracic | Cardiopulmonary brainstem centers | Respiratory-cardiovascular synchronization | Cardiopulmonary-autonomic | C |
ECCA-HYP-11 | HT7 | Heart | Ulnar wrist | Ulnar nerve territory | C8–T1 | Cervical-thoracic | Limbic-autonomic circuits | Sleep/anxiety-autonomic regulation | Limbic-autonomic | B |
ECCA-HYP-12 | LI4 | Large Intestine | Dorsal hand | Radial/median overlap | C6–C7 | Cervical | PAG, ACC, insula | Descending analgesia/stress modulation | Nociceptive-limbic | B |
ECCA-HYP-13 | LI11 | Large Intestine | Lateral elbow | Radial nerve territory | C5–C6 | Cervical | Hypothalamic-inflammatory circuits | Cytokine modulation | Neuroimmune | B |
ECCA-HYP-14 | SP6 | Spleen | Medial lower leg | Tibial nerve | L4–S2 | Lumbosacral | Endocrine-autonomic networks | Fluid-endocrine regulation | Endocrine-metabolic | B/C |
ECCA-HYP-15 | KI3 | Kidney | Medial ankle | Tibial/saphenous overlap | L4–S1 | Lumbosacral | Hypothalamic-autonomic systems | ATP-fatigue-fluid support | Renal-endocrine | C |
ECCA-HYP-16 | LV3 | Liver | Dorsal foot | Deep peroneal/tibial overlap | L5–S1 | Lumbosacral | Limbic-hypothalamic nodes | Stress-autonomic modulation | Limbic-autonomic | B/C |
ECCA-HYP-17 | ST25 | Stomach | Abdomen | Thoracoabdominal afferents | T10–T11 | Thoracic | Enteric-spinal autonomic nodes | Gut-perfusion-autonomic regulation | Gut-brain-visceral | A |
ECCA-HYP-18 | CV12 | Conception Vessel | Epigastrium | Intercostal branches | T7–T9 | Thoracic | Brainstem visceral nuclei | Gastric-visceral modulation | Visceral-autonomic | C |
ECCA-HYP-19 | BL13 | Bladder | Upper thoracic back | Thoracic dorsal rami | T3–T5 | Thoracic | Pulmonary sympathetic interface | Pulmonary-autonomic regulation | Pulmonary-visceral | C |
ECCA-HYP-20 | BL15 | Bladder | Upper thoracic back | Thoracic dorsal rami | T5–T6 | Thoracic | Cardiovagal autonomic nodes | Cardiovascular-autonomic support | Cardiovagal-visceral | C |
ECCA-HYP-21 | EX-HN1 (Sishencong) | Extra points | Peri-vertex scalp | Occipital/trigeminal convergence | C2/CN V | Cranial-upper cervical | DMN-salience integration | Cognitive coherence support | Connectomic-cognitive | C |
ECCA-HYP-22 | GB34 | Gallbladder | Lateral leg | Common peroneal territory | L4–S1 | Lumbosacral | Sensorimotor-basal ganglia circuits | Motor coordination support | Sensorimotor-metabolic | B/C |
ECCA-HYP-23 | BL40 | Bladder | Popliteal fossa | Tibial/common fibular region | L5–S2 | Lumbosacral | Segmental motor circuits | Lower-extremity motor regulation | Sensorimotor | B/C |
ECCA-HYP-24 | CV6 | Conception Vessel | Lower abdomen | Iliohypogastric/ilioinguinal afferents | T12–L1 | Thoracolumbar | Hypothalamic-visceral networks | Metabolic-energy regulation | Metabolic-autonomic | C |
ECCA-HYP-25 | Taiyang | Extra point | Temporal region | Auriculotemporal + zygomaticotemporal branches | CN V2/V3 | Cranial | Temporal-limbic circuits | Headache/cortical irritability modulation | Temporal-limbic | C |
III. Primary Therapeutic Circuit Stack for Hypoxic–Ischemic Encephalopathy
SCF Role | Point Cluster | Primary Objective |
Connectomic Stabilizers | GV20, GV24, GV26, Sishencong | Cortical synchronization support |
Brainstem–Autonomic Stabilizers | DU16, GB20, BL10 | Respiratory-autonomic stabilization |
Neuroimmune Modulators | ST36, LI11 | Cytokine-glial suppression |
Cardiovagal Regulators | PC6, CV17, BL15 | Cardiovascular-autonomic support |
Pulmonary–Autonomic Regulators | BL13, CV17 | Oxygenation-respiratory integration |
Metabolic–Mitochondrial Support | KI3, SP6, CV6 | ATP-redox stabilization |
Gut–Perfusion Regulators | ST25, CV12 | Gut-perfusion-autonomic regulation |
Sensorimotor Recovery | GB34, BL40 | Motor reintegration support |
IV. Evidence-Controlled Interpretation
Highest-confidence SCF anchors include:
- ST36 → vagal-adrenal anti-inflammatory circuitry
- ST25 → gut-autonomic sympathetic modulation
- PC6 → cardiovagal autonomic circuitry
Moderate evidence supports:
- GV20
- HT7
- LI4
- LI11
- SP6
- GB34
Additional mappings are SCF neuroconnectomic inference models integrating:
- hypoxic neurovascular physiology
- mitochondrial-connectomic stabilization
- autonomic-respiratory synchronization
- excitotoxic network modulation
V. Clinical Deployment Logic
Clinical State | SCF Mapping Priority | Candidate Point Emphasis |
Delirium / reduced consciousness | Connectomic stabilization | GV20, GV24, GV26 |
Respiratory instability | Brainstem-autonomic support | DU16, CV17, BL13 |
Dysautonomia | Cardiovagal stabilization | PC6, BL15 |
Neuroinflammatory drift | Cytokine modulation | ST36, LI11 |
Post-hypoxic fatigue | Metabolic-mitochondrial support | KI3, SP6, CV6 |
Motor slowing / weakness | Sensorimotor support | GB34, BL40 |
Headache / dizziness | Cervico-brainstem regulation | GB20, BL10 |
GI hypoperfusion / dysregulation | Gut-autonomic regulation | ST25, CV12 |
VI. Safety and Exclusion Notes
This atlas is not a substitute for:
- airway management
- oxygenation
- neurocritical care
- seizure management
- therapeutic hypothermia where indicated
- ICU monitoring
- cardiovascular stabilization
- reperfusion management
Urgent escalation is required for:
- coma
- seizures
- respiratory failure
- hemodynamic collapse
- cerebral edema
- cardiac instability
Acupuncture mapping integration should occur only:
- after stabilization
- with oxygenation monitoring
- under neurocritical-care supervision
- with coagulation and hemodynamic review
MASTER DOCUMENT REGISTRY INDEX
- SCF-ECCA-HYP-ACU-0007 — Hypoxic–Ischemic Encephalopathy Acupoint Neuro-Circuit Mapping Atlas
- SCF-ECCA-0001 — Encephalopathy Connectomic Collapse Atlas
- SCF-ACU-NEURO-ATLAS-0001-M7 — SCF Acupoint Neuro-Circuit Atlas Module 7
- SCF-361-POINT-NEURAL-MAPPING-0002 — SCF Neural Mapping Schema
- SCF-PATH-PROT-0001 — SCF Pathophysiology Protocol