Quantifying Ventricular CSF Clearance in the Human Brain Using Dynamic 18F-FDG PET: Insights into Age-Related Glymphatic Impairment

  1. Zeyu Zhou
  2. Tianyun Zhao
  3. John Gardus
  4. Qiuting Wen
  5. Yang Feng
  6. Christine DeLorenzo
  7. Ramin Parsey
  8. Chuan Huang
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Abstract

Purpose

The glymphatic system facilitates brain waste clearance via cerebrospinal fluid (CSF) flow, and its dysfunction has been linked to aging and neurodegeneration. However, clinically accessible methods to quantify glymphatic function in humans remain limited. This study aimed to examine the potential of dynamic 18F-FDG PET for measuring ventricular CSF clearance - as a surrogate marker of glymphatic function. Specifically, we evaluated its association with age, its test–retest reliability, and the feasibility of reduced scan durations for clinical applicability.

Methods

We analyzed 72 baseline 18F-FDG PET scans from participants enrolled in a prior depression trial. Time–activity curves (TACs) were extracted from the lateral ventricles and fitted with a γ-variate model to estimate influx (μin) and clearance (μout) parameters. Associations with age and clinical factors were examined using correlation and multiple linear regression. Test–retest reliability was assessed in 11 placebo-treated participants who underwent repeat scans eight weeks apart. A feasibility analysis tested whether shorter scan windows could yield comparable clearance estimates.

Results

μoutshowed a strong negative correlation with age (r = –0.680, p < 0.001), whileμinwas not significantly age-related. Age remained a significant predictor ofμoutafter adjusting for sex, ventricle size, and depression severity. A positive association betweenμoutand depression severity was observed after covariate adjustment. Test–retest analysis yielded an intraclass correlation coefficient of 0.702 forμout, indicating moderate-to-good reproducibility. A shortened 30-minute scan window (starting 30 minutes post injection) preserved strong correlations with bothμoutand age, supporting the potential for abbreviated imaging protocols.

Conclusion

Dynamic 18F-FDG PET provides a reliable and noninvasive method to quantify ventricular CSF clearance, revealing age-related decline indicative of glymphatic impairment. The method demonstrates reproducibility over time and retains key clearance metrics even with shortened scan durations. These findings establish a clinically feasible 18F-FDG PET-based approach for studying brain clearance and glymphatic function in aging and disease.

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