Assessing CSF Flow Dynamics in Pediatric Hemorrhagic Hydrocephalus

Summary

The purpose of this study is to evaluate the safety and efficacy of ventricular microdosing of indocyanine green (ICG) in order to assess cerebrospinal fluid (CSF) ventricular dynamics and extracranial CSF outflow using fluorescent Cap-based Transcranial Optical Tomography (fCTOT) and Near-InfraRed Fluorescent (NIRF) imaging and to evaluate inflammation markers of the CSF and to correlate with CSF ventricular dynamics, extracranial outflow into the lymphatics, ventriculomegaly, and patient's clinical outcome in order to understand how inflammation may impact that status of extracranial outflow.

Conditions

• Post-hemorrhagic Hydrocephalus (PHH)

Interventions

DEVICE

fCTOT cap

The fCTOT cap will be placed on the infant's head . After the MRI, fiber optics will be connected to the cap while donned on the infant and measurements will commence. After initial CSF diversion, a 0.5 cc volume of ICG solution will injected into the subcutaneous reservoir and measurements will be conducted using the fCTOT for 30 minutes. The fCTOT cap will be removed and NIRF planar imaging will be conducted to detect ICG in the subarachnoid space (SAS), draining cervical lymph nodes, along the spinal canal, and in the abdomen, where liver signals are expected. The infant will be transported back to the ICU where CSF diversion will continue and daily, 30 minutes NIRF imaging sessions may be conducted to detect ventricular flow into the SAS and liver clearance. Daily NIRF imaging will be performed in the neonatal intensive care unit (NICU) for as long as 7 days or until the ICG has cleared from the body from liver and/or CSF diversion.

DEVICE

NIRF planar imaging

The fCTOT cap will be placed on the infant's head . After the MRI, fiber optics will be connected to the cap while donned on the infant and measurements will commence. After initial CSF diversion, a 0.5 cc volume of ICG solution will injected into the subcutaneous reservoir and measurements will be conducted using the fCTOT for 30 minutes. The fCTOT cap will be removed and NIRF planar imaging will be conducted to detect ICG in the SAS, draining cervical lymph nodes, along the spinal canal, and in the abdomen, where liver signals are expected. The infant will be transported back to the ICU where CSF diversion will continue and daily, 30 minutes NIRF imaging sessions may be conducted to detect ventricular flow into the SAS and liver clearance. Daily NIRF imaging will be performed in the NICU for as long as 7 days or until the ICG has cleared from the body from liver and/or CSF diversion.

DRUG

ICG

The fCTOT cap will be placed on the infant's head . After the MRI, fiber optics will be connected to the cap while donned on the infant and measurements will commence. After initial CSF diversion, a 0.5 cc volume of ICG solution will injected into the subcutaneous reservoir and measurements will be conducted using the fCTOT for 30 minutes. The fCTOT cap will be removed and NIRF planar imaging will be conducted to detect ICG in the SAS, draining cervical lymph nodes, along the spinal canal, and in the abdomen, where liver signals are expected. The infant will be transported back to the ICU where CSF diversion will continue and daily, 30 minutes NIRF imaging sessions may be conducted to detect ventricular flow into the SAS and liver clearance. Daily NIRF imaging will be performed in the NICU for as long as 7 days or until the ICG has cleared from the body from liver and/or CSF diversion.

Sponsors & Collaborators

• National Institute of Neurological Disorders and Stroke (NINDS)

  collaborator NIH

• Eva Sevick

  lead OTHER

Principal Investigators

• Manish Shah, MD · The University of Texas Health Science Center, Houston

Study Design

Allocation

NA

Purpose

OTHER

Masking

NONE

Model

SINGLE_GROUP

Eligibility

Max Age

6 Months

Sex

ALL

Healthy Volunteers

No

Timeline & Regulatory

Start

2025-01-14

Primary Completion

2029-01-03

Completion

2029-01-03

FDA Drug

Yes

FDA Device

Yes

Countries

• United States

Study Locations