TY - JOUR
T1 - Effects of increased intracranial pressure on cerebrospinal fluid influx, cerebral vascular hemodynamic indexes, and cerebrospinal fluid lymphatic efflux
AU - Xiang, Tangtang
AU - Feng, Dongyi
AU - Zhang, Xinjie
AU - Chen, Yupeng
AU - Wang, Hanhua
AU - Liu, Xuanhui
AU - Gong, Zhitao
AU - Yuan, Jiangyuan
AU - Liu, Mingqi
AU - Sha, Zhuang
AU - Lv, Chuanxiang
AU - Jiang, Weiwei
AU - Nie, Meng
AU - Fan, Yibing
AU - Wu, Di
AU - Dong, Shiying
AU - Feng, Jiancheng
AU - Ponomarev, Eugene D.
AU - Zhang, Jianning
AU - Jiang, Rongcai
N1 - Publisher Copyright:
© The Author(s) 2022.
PY - 2022/12
Y1 - 2022/12
N2 - The glymphatic-lymphatic fluid transport system (GLFTS) consists of glymphatic pathway and cerebrospinal fluid (CSF) lymphatic outflow routes, allowing biological liquids from the brain parenchyma to access the CSF along with perivascular space and to be cleaned out of the skull through lymphatic vessels. It is known that increased local pressure due to physical compression of tissue improves lymphatic transport in peripheral organs, but little is known about the exact relationship between increased intracranial pressure (IICP) and GLFTS. In this study, we verify our hypothesis that IICP significantly impacts GLFTS, and this effect depends on severity of the IICP. Using a previously developed inflating balloon model to induce IICP and inject fluorescent tracers into the cisterna magna, we found significant impairment of the glymphatic circulation after IICP. We further found that cerebrovascular occlusion occurred, and cerebrovascular pulsation decreased after IICP. IICP also interrupted the drainage of deep cervical lymph nodes and dorsal meningeal lymphatic function, enhancing spinal lymphatic outflow to the sacral lymph nodes. Notably, these effects were associated with the severity of IICP. Thus, our findings proved that the intensity of IICP significantly impacts GLFTS. This may have translational applications for preventing and treating related neurological disorders.
AB - The glymphatic-lymphatic fluid transport system (GLFTS) consists of glymphatic pathway and cerebrospinal fluid (CSF) lymphatic outflow routes, allowing biological liquids from the brain parenchyma to access the CSF along with perivascular space and to be cleaned out of the skull through lymphatic vessels. It is known that increased local pressure due to physical compression of tissue improves lymphatic transport in peripheral organs, but little is known about the exact relationship between increased intracranial pressure (IICP) and GLFTS. In this study, we verify our hypothesis that IICP significantly impacts GLFTS, and this effect depends on severity of the IICP. Using a previously developed inflating balloon model to induce IICP and inject fluorescent tracers into the cisterna magna, we found significant impairment of the glymphatic circulation after IICP. We further found that cerebrovascular occlusion occurred, and cerebrovascular pulsation decreased after IICP. IICP also interrupted the drainage of deep cervical lymph nodes and dorsal meningeal lymphatic function, enhancing spinal lymphatic outflow to the sacral lymph nodes. Notably, these effects were associated with the severity of IICP. Thus, our findings proved that the intensity of IICP significantly impacts GLFTS. This may have translational applications for preventing and treating related neurological disorders.
KW - cerebrospinal fluid
KW - Glymphatic system
KW - increased intracranial pressure
KW - meningeal lymphatic vessels
KW - traumatic brain injury
UR - https://www.scopus.com/pages/publications/85135953337
UR - https://www.scopus.com/inward/citedby.url?scp=85135953337&partnerID=8YFLogxK
U2 - 10.1177/0271678X221119855
DO - 10.1177/0271678X221119855
M3 - Article
C2 - 35962479
AN - SCOPUS:85135953337
SN - 0271-678X
VL - 42
SP - 2287
EP - 2302
JO - Journal of Cerebral Blood Flow and Metabolism
JF - Journal of Cerebral Blood Flow and Metabolism
IS - 12
ER -