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literature has yielded different treatment modalities in acute spinal

cord injury with mixed results including surgical decompression and

neuroprotection methods but none evaluating the efficacy of hy-

pertonic saline administration. After a recent case of a young adult

male who presented with acute spinal cord injury at our institution,

neuroprotective methods and decompressive surgery were used in

addition to the administration of hypertonic saline with elevated

sodium goals. The patient’s discharge neurological function im-

proved with this multi-modal therapy and this is the first known case

in the English language literature in which hypertonic saline was

used in the treatment of acute spinal cord edema. Therefore, we

hereby provide a review of this case and the current literature ad-

dressing spinal cord edema in the setting of acute spinal cord injury

and the implications on neurological recovery.

Keywords: spinal cord injury, hypertonical saline, decompressive

surgery, multi-modal therapy, spinal cord edema

D8-08

PROTECTIVE EFFECT OF N-ACETYLCYSTEINE AMIDE

(NACA) AGAINST BRAIN DAMAGE AFTER EXPOSURE TO

BLAST IN A RAT MODEL

Mikulas Chavko

1

, Usmah Kawoos

1

, Ming Gu

1

, Jason Lankasky

1

,

Richard McCarron

1,2

1

Naval Medical Research Center, Neurotrauma, Silver Spring, USA

2

Uniformed Services University of the Health Sciences, Surgery, Be-

thesda, USA

Blast-induced traumatic brain injury (bTBI) has been a leading cause

of neurocognitive and psychological impairment in the military pop-

ulation. Brain edema and Blood Brain Barrier (BBB) function are

compromised in TBI including blast. In this study we determined if

blast induced changes in intracranial pressure (ICP), and BBB

breakdown, could be ameliorated by administration of the antioxidant

N-acetylcysteine amide (NACA).

Rats were exposed to either single or three blast overpressures

(BOP) (110 kPa) with animal’s head facing the blast wave. NACA

was administered either pre- or post-blast by single i.p injection

(500 mg/kg). ICP was monitored by a telemetric device over a

period of 7 days. BBB permeability and integrity were determined

by Evans Blue (EB) staining and occludin immunoreactivity, re-

spectively.

EB leakage into the brain was increased brain two hours after single

or multiple exposures of blast, indicating a compromise in the in-

tegrity and function of the BBB. Concomitantly, a significant eleva-

tion in ICP was observed after single or repetitive exposures to BOP.

In the single-blast group, ICP immediately returned to near pre-blast

levels after post-blast NACA administration. Also, in the repetitive-

blast group there was a significant amelioration in the ICP increase by

NACA. Immunoreactivity of occludin, a component of tight junctions

in BBB was significantly decreased after exposure to blast and this

was prevented by NACA administration. The protective effect of

NACA against blast-induced changes could be related to its anti-

oxidative effect as demonstrated by suppression of nitrotyrosine im-

munoreactivity increase after blast.

These results demonstrate that BBB breakdown may be an impor-

tant factor in the mechanism of bTBI. The subsequent ICP increase

can be used as one of the markers of brain damage and the antioxidant

NACA may be useful as a new therapeutic modality for ameliorating

BOP-induced brain damage.

Supported by ONR Work Unit 601152N.0000.0001.A1308

Keywords: Blast Brain Injury, N-acetyl cysteineamide, Antioxidant

D8-09

THE EFFECT OF INTERNAL JUGULAR VEIN COMPRES-

SION ON HEMORRHAGE IN A PORCINE CONTROLLED

CORTICAL INJURY MODEL

John Finan

1

, Vimal A. Patel

1

, James L. Stone

1

, John M. Lee

1

, Sydney

A. Sherman

1

, David W. Smith

2

, Julian E. Bailes

1

1

NorthShore University HealthSystem, Neurosurgery, Evanston, USA

2

Q30 Sports Science LLC., Research and Development, Wilton, USA

Internal jugular vein (IJV) compression reduced axonal injury in a rat

model of traumatic brain injury (TBI). However, IJV compression

also increases cerebral perfusion pressure. If this increases hemor-

rhage after TBI, the overall impact of IJV compression might become

harmful. We tested the hypothesis that IJV compression increases

hemorrhage after TBI in a porcine controlled cortical impact (CCI)

model.

Methods:

Yorkshire swine were anesthetized and prepared for

surgery with respiratory support, analgesia and vital signs monitoring.

An 18 mm wide burr hole was created over the right cortex. An In-

tegra Camino pressure sensor was placed in the left cortex. In IJV

compression animals, a custom-made collar was used to compress the

IJV until intracranial pressure rose by 1 mmHg. A beveled, cylindrical

indenter 15 mm in diameter was used with a Leica ImpactOne CCI

device to injure the exposed cortex (velocity

=

3.5 m/s; depth

=

9 mm;

dwell

=

400 ms). The collar was removed immediately after injury and

the burr hole was filled with bone wax. The animal was euthanized 5

hours later. The brain was fixed and sections were obtained from 10

predefined locations in the cortex of each animal. A blinded, clinical

neuropathologist assigned a score between 0 and 2 to the level of sub-

arachnoid hemorrhage (SAH) in each section. Scores for all 10 sec-

tions were totaled to measure the overall level of SAH in each animal.

Results:

4 pigs were injured, 2 with IJV compression and 2 without

(controls). SAH levels were 3.5 and 4.5 in the IJV compression ani-

mals and 9.5 and 10.25 in the control animals.

Conclusions:

Definitive conclusions cannot be drawn due to the

small sample size. In the animals tested, IJV compression did not

increase hemorrhage as hypothesized. In fact, it reduced hemorrhage.

This study was sponsored by Q30 Sports Science, LLC.

Keywords: protective device, hemorrhage, porcine, controlled

cortical impact

D8-10

THE EFFICACY OF PROGESTERONE DEPENDS ON THE

TRAUMATIC BRAIN INJURY MODEL

Anthony Choo

, Robert Komlo, Michael Manzano, Amidi Barboza,

Qing Chang, Taleen Hanania

PsychoGenics Inc., Behavioral Pharmacology, Tarrytown, USA

Progesterone was previously reported to improve outcomes in pre-

clinical studies of traumatic brain injury. Recent phase 3 clinical trials,

however, reported no clinical benefit of progesterone treatment for

moderate-to-severe as well as severe traumatic brain injuries. Given

the heterogeneity in human traumatic brain injuries, we aimed to

reassess the effectiveness of progesterone treatment in two preclinical

traumatic brain injury models. We compared progesterone treatment

(16 mg/kg for 5 days) in mechanically identical controlled cortical

impacts to the medial frontal cortex and the parasagittal cortex in rats.

During the first week following injury, progesterone improved motor

performance on the beam balance in both injury models. In the Morris

water maze test, progesterone improved learning and memory only in

A-116