Intrathecal <sup>99m</sup>Tc-DTPA imaging of molecular passage from lumbar cerebrospinal fluid to brain and periphery in humans.

Overview

Introduction: Cerebrospinal fluid (CSF) molecular exchange with brain interstitial fluid (ISF) and periphery is implicated in neurological disorders but needs better quantitative clinical assessment approaches. Methods: Following intrathecal (ITH) dosing via lumbar puncture, Technetium-99 m (^99mTc-) diethylenetriaminepentaacetic acid (DTPA) imaging was used to quantify neuraxial spread, CSF-brain molecular exchange, and CSF-peripheral clearance in 15 normal human volunteers. The effect of experimental convection manipulation on these processes was also assessed. Results: Rostral cranial ^99mTc-DTPA exposures were influenced by the volume of artificial CSF in the formulation. Signal translocation to the cranial cisterns and the brain parenchyma was observable by 3 hours. ^99mTc-DTPA penetrated cortical ISF but showed lower signal in deeper structures. Urinary ^99mTc-DTPA signal elimination was accelerated by higher formulation volumes and mechanical convection. Discussion: Widely used for detecting CSF leaks, ITH ^99mTc-DTPA imaging can also become a useful clinical biomarker for measuring molecular exchange physiology between the CSF, brain, and periphery.