DOI: 10.1055/a-2897-0477 ISSN: 2234-6163

Mapping lymphatic drainage from the human brain to the head and neck: Potential surgical implications for dementia

Dung H Nguyen, Carmen Higueras, Hiroo SUAMI, Anna Carrera Burgaya, Jp Hong

Background: Lymphatic surgery of the head and neck has been proposed as a potential approach to prevent, delay, or treat Alzheimer’s disease. This exploratory anatomical study undertook to map and evaluate potential targets for surgical feasibility studies. Methods: This exploratory anatomical and preliminary laboratory study was supported by fresh cadaver dissection, with indocyanine green (ICG) lymphography to visualize the drainage pathway. Immunohistochemistry was used to confirm the presence of lymphatic tissues and to detect β-amyloid in lymphatic tissues from a cadaver with confirmed dementia. A simulated lymph-node-to-vein anastomosis (LNVA) was performed using robotic-assisted supermicrosurgery with the Symani Surgical System (Medical Microinstruments, Inc., Jacksonville, FL, USA). Results: After injection of ICG at the dural meninges, fluorescence progressed toward the skull base to the Level II deep cervical lymph nodes (dCLNs). When injected at the parietal lymphatics, ICG drained past the deep digastric point to the Level II CLNs. Veins localized adjacent to dCLNs at the deep digastric point and Level II suggested candidate surgical targets for LNVA. Histology of lymph nodes from a dementia-confirmed cadaver identified β-amyloid at Level II dCLNs but not at lower levels or the groin. A robotic-assisted microsurgical LNVA was shown to be feasible. Conclusions: This study found evidence supporting a posterior pathway from human dural meninges to the deep cervical lymph nodes and identified potential surgical candidates for Alzheimer’s disease intervention. Further research is warranted to build on the feasibility of this approach.

More from our Archive