Traumatic Brain Injury Clinical Trial
Official title:
Transitioning to a Valve-Gated Intrathecal Drug Delivery System (IDDS): A Randomized, Controlled, Multi-center, Prospective Study Evaluating Dose Reduction in ITB Patients.
Comparing the efficacy of Intracthecal Baclofen dose between the Prometra II and Medtronic SynchroMed II for patients with spasticity and with current a current SyncroMed II pump needing replacement.
The Prometra II Programmable Pump is a battery-powered, teardrop-shaped, valve-gated pump
with titanium housing and triple redundancy flow controls to deliver precise amounts of
medication into the intrathecal space via the separately provided Intrathecal Catheter. The
Prometra Pump is remotely programmed by the Prometra Clinician Programmer to deliver
medication at a constant or variable rate or to periodically deliver a drug dose at a
distinct interval of time or with an immediate infusion, demand bolus.
The Prometra II Pump differs from the SynchroMed II due to the way in which it delivers
medication. The Prometra pump does not have motor, gears, rollers or tubing s. Instead, the
Prometra II Pump uses a pressure-driven, valve-gated delivery system. When the inlet valve
opens, the pressure behind the reservoir pushes drug into the dosing chamber and the outlet
valve prevents flow out of the dosing chamber or into the catheter until opened (after inlet
valve closes). When the outlet valve opens, the pressure in the dosing chamber pushes the
medication (2 to 3 microliters) out and then the outlet valve closes. The pump is programmed
to control flow by alternately opening the inlet and outlet valves. Medication flows from the
higher pressure in the reservoir to the lower pressure in the dosing chamber when the inlet
valve is opened.
The only moving parts in the Prometra II Pump are the valves. The titanium fluid path is not
permeable to fluids within the drug path since titanium is inert. The titanium dosing chamber
and valve-gated fluid path does not allow any drug to permeate out of the chamber or drug
path as is known to occur with tubing in the peristaltic pumps. This allows baclofen to be
delivered more reliably in the Prometra II Pump.
As a result, the Prometra II Pump may offer several advantages over peristaltic pumps:
- The pressure-driven, valve-gated delivery mechanism has been shown to have different
effects on drug dispersion in the CSF compared to peristaltic pump delivery.
- Any changes in reservoir gas pressure due to fluctuations in refill levels or
environmental factors has minimal effect on Prometra II Pump dose accuracy.
- 100% titanium Prometra II Pump fluid path is not permeable to drug solutions unlike
peristaltic pump tubing, etc. which can result in pump corrosion events and peristaltic
rotor stalls.
- Improved dose accuracy is expected during each refill cycle with the Prometra II Pump as
well as over the pump lifetime compared to peristaltic pumps.
- Improved durability and battery life are expected for the Prometra II Pump compared to
peristaltic pumps.
This randomized study has two arms (Control Arm and Study Arm) and was designed to explore if
the valve-gated pump requires less drug to manage patient spasticity than the prior standard
peristaltic pump in the same patient. The newly implanted valve-gated pump will be programmed
to deliver a 20% reduction (Study Arm) of baclofen that was being delivered in the
peristaltic pump prior to explant. Modified Ashworth scores (MAS) will be evaluated over time
(prospectively for the valve-gated pump and retrospectively via chart review for the
peristaltic pump). A dose reduction of 20% was selected based on anecdotal evidence observed
during use of the Prometra II Pump in pain patients. In the second arm of the study (Control
Arm), the newlyimplanted valve-gated pump will be programmed to deliver the same baclofen
dose that was being delivered in the peristaltic pump prior to explant. As with the Study
Arm, MMAS will be evaluated over time (prospectively for the valve-gated pump and
retrospectively via chart review for the peristaltic pump).
This investigator-initiated trial is designed to evaluate intrathecal drug pumps in the post
market setting. When a patient needs an end of battery life peristaltic pump replacement the
physician may decide to implant the valve-gated pump under standard of care for the
individual patient. This study will collect retrospective peristaltic pump dosage and MAS
data from the last pump refill or visit within the last 3 months prior to explant and
valve-gated pump implant. Prospective valve-gated pump medication dosage and MAS data will be
collected at the 2 week, 4 week and 3 month exit visit (not to exceed 4 months). This study
design will reduce patient medication dose delivered by the valve-gated pump by 20% for
comparison to historical dosing and management provided by the peristaltic pump.
This study will employ a single-blinded approach in which study participants will not be
notified of pump dosing changes. After valve-gated pump implant and dose reduction, the
appropriate spasticity therapy will be provided to adequately address spasticity management
in the opinion of the study investigator using standard of care processes.
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