braingate™ implantable array assembly (sensor)
TRANSCRIPT
CerePlex I Array Assembly
Instructions For Use
Blackrock Microsystems 630 Komas Drive, Suite 200
Salt Lake City, UT 84108
Tel: (866) 806-3692
CAUTION-Investigational Device.
Limited by Federal (or United States) Law to Investigational Use.
© Copyright 2014 Blackrock Microsystems. All rights reserved. Copying or other reproduction of this document is
prohibited without prior written consent of Blackrock Microsystems.
.
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Table of Contents
1 Introduction ................................................................................................................1
1.1 Proper Facilities ..........................................................................................................1 1.2 Variations To The Procedure .....................................................................................1 1.3 Cereplex I Assembly ..................................................................................................1
1.3.1 CerePlex I NeuroPort® Array ....................................................................................2 1.3.2 Wire Bundle ...............................................................................................................2 1.3.3 Cereplex-I Implantable Headstage .............................................................................3 1.3.4 Electrode Tail .............................................................................................................3 1.4 Neuroport® Inserter Assembly ..................................................................................4
1.4.1 Inserter Wand .............................................................................................................4
1.4.2 Inserter Wand Holder .................................................................................................4
1.4.3 Head Holder Adapter .................................................................................................5 1.5 Neuroport® System ..................................................................................................5
2 Anatomy Overview ....................................................................................................6
2.1 Review Of Basic Neuroanatomy ................................................................................6
2.2 Review Of Meninges ..................................................................................................7
3 Surgical Preparation ...................................................................................................8
4 Pre-Surgical Set-Up ..................................................................................................10
4.1 Inserter Assembly .....................................................................................................10 4.2 Test The Inserter And The Inserter Wand ................................................................12
4.3 Handling The Cereplex I Assembly .........................................................................13
5 Surgery .....................................................................................................................15
5.1 Overview ..................................................................................................................15 5.1.1 Site Preparation ........................................................................................................15
5.1.2 Smoothing Craniotomy Edges .................................................................................15 5.1.3 Positioning The CerePlex I NeuroPort® Array .......................................................15 5.2 CerePlex I NeuroPort® Array Insertion Procedure .................................................16 5.2.1 Set-Up For CerePlex I NeuroPort® Array Insertion ................................................16
5.2.2 CerePlex I NeuroPort® Array Insertion ...................................................................16 5.2.3 Placement Of The Electrode Tail ............................. Error! Bookmark not defined. 5.2.4 Placement Of Reference Wires ................................................................................17
5.2.5 Replacing The Boneflap ...........................................................................................17 5.2.6 Securing The Cereplex-I Implantable Headstage .....................................................18 5.3 Recording Procedure ................................................................................................18 5.4 Explant Procedure ....................................................................................................19
5.4.1 Patient Preparation ...................................................................................................19 5.4.2 Boneflap Replacement .............................................................................................19 5.4.3 Wound Closure .........................................................................................................19
Appendix A. Cereplex I Eto Sterilization Parameters ........................................................ A-1
Appendix B. Inserter Wand Holder and Head Holder Adapter Sterilization ....................... A-2
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List of Figures
Figure 1: CerePlex I Diagram ........................................................................................................ 1 Figure 2: CerePlex I NeuroPort Recording System ....................................................................... 2 Figure 3: NeuroPort Electrode Array Diagram .............................................................................. 2
Figure 4: Cereplex-I Implantable Headstage ................................................................................. 3 Figure 5: A) Electrode Tail Pin-Out. B) Electrode Tail to HDMI Adapter. ................................. 3 Figure 6: Inserter Wand ................................................................................................................. 4 Figure 7: Inserter Wand Holder ..................................................................................................... 5 Figure 8: Head Holder Adapter...................................................................................................... 5
Figure 9: Cortical Surface .............................................................................................................. 6
Figure 10: Meninges ...................................................................................................................... 7
Figure 11: NeuroPort(R) Array Implantation Site ......................................................................... 8 Figure 12: Inserter Control Box and Transformer ....................................................................... 10 Figure 13: Trigger Connection ..................................................................................................... 11 Figure 14: Attaching Wand to Inserter Control Box ................................................................... 11
Figure 15: Disconnecting the Wand Tubing ................................................................................ 11 Figure 16: Inserter Control Box Assembled ................................................................................ 12
Figure 17: Inserter Control Box Enable/Disable Switch ....... ERROR! BOOKMARK NOT DEFINED.
Figure 18: Connecting the CerePlex I Electrode Tail to the Cabrio Connector of the Electrode
Tail to HDMI Adapter Board. ................................................................................... 18
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Contraindications, Warnings, and Cautions
Contraindications The CerePlex I should not be used on any patient whom the physician/surgeon considers at elevated risk
of infection.
The CerePlex I is designed for single patient use and should not be reused.
The CerePlex I is NOT to be used for stimulation.
Warnings Warnings are for potential hazards
Do not use the CerePlex I if it appears to be damaged in any way.
A thorough understanding of the technical principles, clinical applications and risks associated with
neurosurgery is necessary before using this product.
The CerePlex I is intended for use only by a trained and licensed neurosurgeon with expertise in
stereotactically guided and functional neurosurgery procedures.
Read this entire manual prior to using the device.
Completion of the Blackrock Microsystems user training program is required prior to the use of the
CerePlex I and NeuroPort® System.
Once the CerePlex I NeuroPort® Array has been implanted, the patient should not be exposed to
electrocautery, therapeutic ultrasound or diathermy.
Once the CerePlex I NeuroPort® Array has been implanted, peripheral nerve stimulation should not be
used.
The NeuroPort® Neural Signal Monitoring System should be disconnected from the CerePlex I
NeuroPort® Array during cardiac defibrillation.
The patient should not attempt to remove any connections by themselves.
Do not leave the patient connected to the NeuroPort® System when the system is not in use.
Use caution when placing cables and other connectors to minimize the likelihood of tripping or accidentally
pulling on cables. Pulled cables may cause damage to the CerePlex I or any other connected devices.
Do not use the CerePlex I in the presence of flammable anesthetic agents or any other reagents.
Do not SEM image samples of the array prior to implantation as this will alter and possibly degrade the
array assembly and cause the device to malfunction.
When the inserter control box is first turned on, it may automatically trigger the inserter wand piston to fire.
Make sure the inserter wand is retracted at least 5mm away from the CerePlex I NeuroPort® Array before
turning on the inserter control box. Always verify that the CerePlex I NeuroPort® Array electrode length matches the length engraved on the
inserter wand spacer prior to insertion of the Array.
Do not touch the CerePlex I NeuroPort® Array electrodes or drag the CerePlex I NeuroPort® Array across
ANY surface. Irreversible damage may occur.
WARNING Use of MRI with implanted electrodes may result in tissue heating and resulting damage to the
neural tissue which may result in permanent neural damage or death
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Cautions
Investigational Device: Limited by Federal (or United States) Law to Investigational Use
The CerePlex I does not have a validated sterilization process. EtO sterilization parameters have been
provided in Appendix A, however Blackrock does not guarantee the effectiveness of these parameters for
the CerePlex I.
IEC 60601-1 testing has not been completed for the CerePlex I or Blackrock Digital Hub. It is possible that
other medical equipment in the operating room may affect the integrity of signals recorded from the
CerePlex I or Blackrock Digital Hub. It is also possible that the CerePlex I or Blackrock Digital Hub may
in turn affect other medical electrical equipment in the room. Users should only proceed with IRB
approval.
It is recommended that antistatic or electrostatic discharge (ESD) safe gloves be used when connecting the
CerePlex I to the NeuroPort system.
Incorrect connection of the tubing to the inserter control box or inserter wand will lead to malfunctions and
possible patient harm.
Inserter Control Box Symbols and other information
Transport and store the inserter control box under ambient conditions.
The inserter control box does not contain any parts subject to deterioration.
Proper cleaning of the inserter control box can be accomplished by using a damp (water) or dry cloth.
Type BF applied part
Protective earth (ground)
Attention: Consult
Accompanying Documents
I/O ON and OFF positions (power)
Class 1 Equipment Classification
2A 250 V Replaceable fuse: Cooper
Bussmann GMC-2A or equivalent
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1 Introduction
This manual is intended as an informational tool for use in recording of neural signals using the CerePlex I.
It is not intended to teach general surgical skills, techniques or principles. It is expected that surgeons
making use of this manual are trained and licensed neurosurgeons who have successfully completed the
Blackrock Microsystems training program in which they learn how to implant the CerePlex I NeuroPort®
Array and record from the CerePlex I prior to attempting surgery. While this manual provides a detailed
description of the surgical procedure, it is not intended to be an instructional tool for surgeons who have not
been trained to implant the CerePlex I.
The following pages will:
Introduce you to the design of the CerePlex I;
Review basic neuroanatomy; and
Describe the CerePlex I implantation and neural recording procedure in detail.
1.1 Proper Facilities
The procedures described in this manual are invasive neurosurgical procedures intended to be performed
only in a sterile Operating Room (OR) environment.
1.2 Variations to the Procedure
This manual describes a particular surgical procedure for recording of neural signals from the CerePlex I.
However, modifications to this procedure may be required to accommodate a specific patient’s condition, a
patient’s brain anatomy and/or other unforeseen medical or surgical necessities that may arise during
surgery.
1.3 CerePlex I Assembly
The CerePlex I integrates Blackrock’s Cereplex-I Headstage and NeuroPort® Array technologies into an
implantable system that is capable of digitizing and transmitting neural signals to Blackrock’s NeuroPort®
System for the recording and monitoring of electrical activity within the brain. A diagram of the CerePlex I
and CerePlex I NeuroPort® Recording System are provided in figures 1 and 2 below.
Figure 1: CerePlex I Diagram
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1.3.1 CerePlex I NeuroPort® Array
The CerePlex I NeuroPort® Array is able to sense neural signals from the cerebral cortex and is capable of
detecting single-neuron and multi- neuron signals, as well as local field potentials.
The 4mm × 4mm CerePlex I NeuroPort® Array consists of 100 electrodes protruding from a solid silicon
substrate. Each electrode is a Parylene-coated silicon shank with a platinum tip. Unlike a depth electrode
which penetrates deep into the brain, the CerePlex I NeuroPort® Array penetrates only the outer surface of
the brain (cortex). Electrodes are available in two lengths: 1.0mm and 1.5mm. The CerePlex I NeuroPort®
Array is used for recording and monitoring electrical activity within the brain.
The layout of electrodes on the CerePlex I NeuroPort® Array is provided in the diagram below.
1.3.2 Wire Bundle
The CerePlex I NeuroPort® Array is connected to the Implantable Cereplex-I Headstage via a wire bundle.
The wire bundle consists of 100 25m gold alloy insulated wires collectively sealed with silicone
elastomer. Each of the CerePlex I NeuroPort® Array electrode typically has impedance in the range of 100
to 800kΩ at 1 kHz and is capable of recording single and multi-unit action potentials with signal-to-noise
ratios of up to 10:1 and peak-to-peak amplitude greater than 1mV.
Electrode Numbering Viewed from Pad Side
Figure 3: NeuroPort Electrode Array Diagram
Figure 2: CerePlex I NeuroPort Recording System
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1.3.3 Cereplex-I Implantable Headstage
The Cereplex-I Implantable Headstage is a neural recording device
that utilizes a 128 channel Amplifier ASIC, a 128 channel
Controller ASIC, analog to digital converters (ADCs), and
additional supporting circuitry in order to amplify, digitize and
multiplex neural signals into a digital format.
The Cereplex-I Implantable Headstage undergoes a
special insulative coating of parylene under high vacuum
and is later coated in a double layer of medical grade
silicone in order to prevent the electrical components of
the headstage from coming in contact with the patient.
1.3.4 Electrode Tail
The CerePlex I Electrode Tail has 9 contacts. Locations of the contact points are shown in the diagram
below. The Electrode Tail provides a connection to the NeuroPort Neural Signal Processing System
through connection with the Blackrock DAC via an Electrode Tail to HDMI Adapter.
CEREPLEX-I IMPLANTABLE HEADSTAGE SPECIFICATIONS
Dimensions 0.9” x 0.50”
Electrodes Acceptable electrode impedances: 5 k Ω– 1 MΩ
Maximum Sampling Rate 30 ksps for each channel through the 128 channel controller
Data Sample Resolution The Controller will allow a maximum data sample resolution of 16-bits.
Input Voltage Noise < 5µV RMS at any frequency across its passband when its inputs are shorted.
Figure 4: Cereplex-I Implantable
Headstage
Figure 5: A) Electrode Tail Pin-Out. B) Electrode Tail to HDMI Adapter.
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1.4 NeuroPort® Inserter Assembly
1.4.1 Inserter Wand
The inserter wand is a pneumatically-actuated wand. It is held firmly in place by
the inserter wand holder. The inserter wand is designed for consistent and
controlled implantation of the NeuroPort® Array.
A combination of compressed air and vacuum is used to control the movement of
a piston mass in the shaft of the wand. The inserter wand is positioned vertically
during insertion as noted in the schematic illustration to the right. When the
button on the trigger cable is pushed, the inserter wand applies a consistent pulse
and travel distance (limited to 1.0mm or 1.5mm, depending on the length of the
electrodes) to the NeuroPort® Array, inserting it into the parenchyma in less than
1 millisecond.
To prevent accidental firing of the inserter wand, the system is equipped with an
<Enable/Disable> safety button and associated green indicator light. The button
is pressed to enable the inserter wand trigger button. The inserter wand can only
be fired after the system has been enabled (green indicator light) using the
<Enable/Disable> button.
DO NOT shorten the length of the dual lumen inserter tubing as this will
compromise performance and may also cause harm to the patient.
The inserter wand is a precision instrument. Irreversible damage may result if
the wand is dropped or clamped improperly. If the inserter wand is dropped
prior to affixing it to the inserter wand holder, consider it damaged and replace
it with another sterile unit.
1.4.2 Inserter Wand Holder
The inserter wand holder is a precision assembly that attaches to a rigid fixation device typically used in
neurosurgical procedures such as those manufactured by Mayfield or Greenberg head holders. Depending
on the equipment used, an adapter may be provided to ensure the inserter wand holder can be adequately
affixed to the fixation device. The inserter wand holder serves two key functions; it firmly secures the
inserter wand to prevent recoil during the CerePlex I NeuroPort® Array insertion process, and it facilitates
precision alignment of the inserter wand with respect to the back of the CerePlex I NeuroPort® Array just
prior to pneumatic impulse insertion.
WARNING It is important to verify that the CerePlex I
NeuroPort® Array electrode length matches
the length engraved on the inserter wand
spacer.
Figure 6: Inserter Wand
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1.4.3 Head Holder Adapter
The Head Holder Adapter connects the Inserter Wand Holder to the head holder assembly.
1.5 NeuroPort® System
Refer to the NeuroPort® User Manual (LB-0175) for an overview of other components of the NeuroPort®
System.
Figure 7: Inserter Wand Holder
Figure 8: Head Holder Adapter
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2 Anatomy Overview
The purpose of this section is to familiarize the reader with the basic anatomical structures the surgeon will
encounter during the implantation procedure.
2.1 Review of Basic Neuroanatomy
There are several layers of tissue separating the surface of the scalp from the cerebral cortex. From the
outside in, these structures are: skin, fascia (galea aponeurotica), periosteum, bone, dura mater, arachnoid,
and pia mater (meninges). The surface of the brain immediately underlying the meninges is the cerebral
cortex. The pattern of gyri and sulci, their size and shape, vary to some extent from patient to patient.
There are certain landmarks, however, that remain fairly constant, such as the central sulcus, which may be
used as guides to locate areas of interest to implant the NeuroPort® Array. There are also surface
markings on the skull, which may be used as waypoints to localize brain areas. Bregma and lambda, the
confluence points of skull sutures or the coronal suture are examples of landmarks. The use of stereotactic
atlases, which describe the location of brain areas using such landmarks can also aid in navigation. The
gyri are separated by sulci, deep grooves containing surface blood vessels. The NeuroPort® Array is
ideally placed on a relatively flat portion of a gyrus away from large blood vessels. The following picture
shows a close-up view of the surface of the brain following a craniotomy and dura incision. The skull,
gyri, sulci, dura and surface vasculature are indicated with arrows.
Surface Vessels
Sulcus
Gyrus
Dura
Bone
Figure 9: Cortical Surface
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2.2 Review of Meninges
The meninges are a series of tissue layers which separate the surface of
the cortex from the inner table of the skull. The meninges envelop the
brain and spinal cord and protect the contents within. The meninges also
contain the cerebrospinal fluid surrounding the brain and spinal cord.
The outermost layer of the meninges is the dura mater. This is a thick
and strong fibrous structure. On occasion, in certain areas, the inner
layer of the skull may be adherent to the outer layer of dura.
Venous drainage of the brain is funneled through invaginations of the
dura, the dural sinuses, into the jugular venous system. The sinuses
roughly follow the cranial suture lines. Care should be exercised to not
drill close to the suture lines, particularly in the midline and over the
occipital sutures as this may cause damage to sinuses leading to
extensive bleeding which may be difficult to control.
There is a virtual space between the dura and the underlying membrane,
the arachnoid. The arachnoid membrane is an avascular structure, which
surrounds the brain and envelops surface vasculature. There are
trabeculae, which bridge this membrane and the final layer of meninges,
the pia. The arteries and veins of the brain travel within this network of trabeculae in the subarachnoid
space. Cerebrospinal fluid is also contained within this space. The pia is a thin membrane tightly adherent
to the surface of the brain. The pia follows the brain into sulci, whereas the arachnoid traverses sulci to
form a surface cover. The healthy arachnoid and pia layers are transparent and the NeuroPort® Array is
implanted in the brain through these layers. Clouding of these layers may signify an inflammatory process.
P
Figure 10: Meninges
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3 Surgical Preparation
The CerePlex I NeuroPort® Array Assembly may only be implanted by a trained and qualified
neurosurgeon, using the NeuroPort® Inserter Assembly affixed to a head holder or other rigid fixation
device. Imaging techniques such as magnetic resonance imaging (MRI) or computed tomography (CT)
scanning should be used to map the brain and localize the target area for purposes of The CerePlex I
NeuroPort® Array implantation within the brain. The CerePlex I NeuroPort® Array is inserted through a
small craniotomy in the skull and implanted in the targeted site within the brain.
Patient Preparation
Standard procedures for craniotomy at the surgical site must be followed. At a minimum, the patient’s hair
is washed with chlorhexidine gluconate solution or similar. This procedure is done 24 hours before surgery
and repeated on the morning of surgery.
Just prior to the application of the rigid fixation device, the scalp and hair should be once more washed
with chlorhexidine gluconate solution or similar. Placement of the rigid fixation device should be planned
so that the area of anticipated craniotomy and connector position are unobstructed. The rigid fixation
device is placed in routine fashion according to the manufacturer’s Instructions for Use (IFU). Next, the
patient should undergo imaging procedures which typically consist of high quality stereotactic MRI, and
perhaps a CT scan. Surface reconstruction of the brain may be desirable to determine the target location site
for implantation of the CerePlex I NeuroPort® Array.
Figure 11: NeuroPort(R) Array Implantation Site
Craniotomy
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4 Pre-Surgical Set-Up
Sterilize the CerePlex I Assembly, Inserter Wand Holder and Head Holder Adapter at the clinical site prior
to conducting the surgery.
The CerePlex I Assembly is delivered to the surgical site in its pre-sterilized packaging. The assembly is
secured in a black implant holder and is wrapped in two layers of blue CSR wrap then sealed in a
maintenance bag to keep contamination off of the product.
The CerePlex I Assembly should be EtO sterilized prior to removal from its packaging. The CerePlex I
does not have a validated sterilization process. EtO sterilization parameters have been provided in
Appendix A, however Blackrock does not guarantee the effectiveness of these parameters for the CerePlex
I.
The only validated sterilization method for the Inserter Wand Holder and Head Holder Adapter at this time
is steam sterilization in a pre-vacuum type sterilizer. Refer to Appendix B for this sterilization protocol.
Following sterilization, sterilized product should be stored in a secure environment at ambient temperature
and relative humidity. It is advisable to place the sterilized product in a sterility maintenance dust cover
with an identification label and sterilization date.
4.1 Inserter Assembly
The steel inserter wand along with the dual lumen tubing and trigger cable are delivered sterile, calibrated,
and packaged together. Attempts to disassemble, modify, reuse or re-sterilize any of the inserter wand
system components may lead to malfunctions and possible patient harm.
Step 1 Check that the power switch at the back of the inserter control box is in the off (0) position.
Attach the power cord to the control unit.
Figure 12: Inserter Control Box and Transformer
Step 2 Confirm that the switch on the hospital-grade isolation transformer supplied with the inserter
control box is in the off position. Plug the inserter control box into the isolation transformer.
Step 3 Plug the transformer into an 110V hospital-grade wall outlet.
On Switch
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Step 4 Being careful to properly align the pins, connect the trigger cord to the front of the inserter
control box pushing straight in. Twist the collar on the trigger cord to the right to engage the
threads and secure the cable to the box.
Figure 13: Trigger Connection
Step 5 The color coded tubes on the inserter control box (light blue and clear) match the colors of the
dual lumen tubing. Remove the clear vinyl protector tubes from the ends of the inserter wand
tubing. Push the blue and clear tubes onto the blue and white plastic connectors on the front of
the inserter control box. Be sure to push the tubes in all the way.
Figure 14: Attaching Wand to Inserter Control Box
When properly connected, the long metal tube on the wand is connected to the socket marked
“Piston” on the control box via the blue tube and the short metal tube on the wand is connected
to the socket marked “Sleeve” on the control box via the clear tube.
Step 6 To remove a tube, simultaneously push the connector towards the control box and gently pull
the tubing straight out.
Figure 15: Disconnecting the Wand Tubing
CAUTION Incorrect connection of the tubing to the
inserter control box will lead to
malfunctions and possible patient harm.
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Step 7 Connect the inserter control box to the transformer.
Step 8 Plug the transformer into a 110V hospital-grade outlet.
4.2 Test the Inserter and the Inserter Wand
Ensure that the pressure reading is zero before turning on the power. Turn the pressure control regulator
knob counter clockwise to release pressure.
Step 1 Connect the tubing to the wand.
Step 2 Push in the pressure control regulator knob on the front of the inserter control box to lock it.
Pull the knob out to unlock the pressure control regulator.
Figure 16: Inserter Control Box Assembled
Step 3 Turn on the power switch (located on the back of the unit).
Step 4 Adjust the insertion pressure to 20 psi by pulling out pressure control regulator knob and turning
it. To insert the CerePlex I NeuroPort® Array, we recommend using an insertion pressure of 20-
25 psi. Higher or lower pressures are not recommended.
Step 5 Set the pulse adjustment dial to 5.
Step 6 Hold the wand vertically with the wand tip facing downward.
Step 7 Place your sterile gloved finger lightly underneath the tip of the wand.
CAUTION Incorrect connection of the tubing to the wand will
lead to malfunctions and possible patient harm.
Trigger Cable
Pressure Control Regulator Knob
Pulse Adjustment Dial
Enable/Disable Button
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Step 8 Press the <Enable/Disable> button to enable the trigger. Press the button on the end of the trigger
cable to activate the inserter trigger and feel if the inserter tip moves. If it does not move, then
use a new wand.
4.3 Handling the CerePlex I Assembly
Step 1 Just prior to implantation, the CerePlex I Assembly should be removed from its packaging
using sterile technique.
Step 2 To open the CerePlex I Assembly Holder, take care to keep the holder horizontal so that the
CerePlex I NeuroPort® Array does not fall out when opened. Apply a light downward force to
the screw while twisting it counter clockwise to loosen the screw.
Step 3 Place the holder on a stable, flat, and sterile surface and carefully complete unscrewing the
captive screw. Lift off the top of the holder, taking care not to spill the CerePlex I NeuroPort®
Array out of the holder.
Step 4 Remove the CerePlex I Assembly from the holder just prior to implantation.
WARNING
Do not touch the CerePlex I NeuroPort® Array electrodes or drag the CerePlex I
NeuroPort® Array across ANY surface. Irreversible damage may occur.
WARNING
If the wand double fires (the tip moves more than once),
discard it and start with a new wand.
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5 Surgery
5.1 Overview
This section will familiarize you with the general surgical procedure and the details of the anesthesia.
The procedure is intended to be conducted under general anesthesia.
The CerePlex I NeuroPort® Array is implanted through a craniotomy or a burr hole into the cerebral
cortex.
The Cereplex-I Implantable Headstage and Electrode Tail are secured for recording.
The craniotomy bone flap is replaced and fixed with titanium screws.
5.1.1 Site Preparation
The patient is positioned in a supine position with the head elevated and secured in a head holder. The
head-holder system should not interfere with the inserter wand assembly at time of insertion. The hair is
clipped in the area of planned surgery, the skin is prepped in typical fashion, and the surgical field is draped
in sterile fashion.
After assembly of the head holder, local anesthetic is generously applied around the area of the planned
skin incision. A skin incision is made from anterior to posterior along the planned implantation orientation.
After application of a self-retaining skin retractor, the target area is located. A typical craniotomy with
high-speed drill is performed around the target center. The bone flap is dissected from the dura and lifted
then placed in sterile saline solution.
Meticulous hemostasis is performed on epidural vessels. Care is taken not to injure the pia and arachnoid
layers. It is important to note that the brain surface and dura should be kept moist with frequent irrigation of
saline. Similarly the fascia and skin need to be kept moist.
5.1.2 Smoothing Craniotomy Edges
The edges of the craniotomy, especially on the side over which the wire bundle will enter the craniotomy,
should be smoothed using a burr. Sharp edges should be removed and a smooth ramp should be made on
which the wire bundle will traverse the space between connector and craniotomy. A groove or channel in
which the wires will run should be made to protect the bundle and keep a low profile along the surface of
the skull.
5.1.3 Positioning the CerePlex I NeuroPort® Array
The Dura should be opened and retracted.
The target location site for implantation of the CerePlex I NeuroPort® Array should be identified. A
preoperative MRI or CT scan may be used to identify the area for insertion.
The CerePlex I NeuroPort® Array should be positioned so that the electrodes do not penetrate any major
surface vasculature, such as those vessels that run in the sulci. The wire bundle should always be handled
gently with rubber-tipped forceps. It may be beneficial to tack down the wire bundle to the dura close to the
point of insertion.
The CerePlex I NeuroPort® Array should be positioned parallel to the underlying cortical surface so that no
shearing forces can be imposed during insertion.
Titanium cranial straight plates may also be used for the purpose of fixing the wire bundle. The wire
bundle should be manipulated only enough to achieve the desired placement. Care should be taken that the
electrodes on the CerePlex I NeuroPort® Array are not damaged during placement.
The wire bundle should be as flush as possible with the cortical surface and should not protrude above the
craniotomy; the goal is to achieve minimal motion of the CerePlex I NeuroPort® Array and wire bundle
when closing the dura and reattaching the bone flap.
If the CerePlex I NeuroPort® Array is placed with other devices such as grids or deep brain probes, be sure
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to locate these devices so that they won’t interfere or cause movement of the CerePlex I NeuroPort® Array.
Position the leads of other device so that they are not immediately adjacent to each other.
5.2 CerePlex I NeuroPort® Array Insertion Procedure
5.2.1 Set-up for CerePlex I NeuroPort® Array Insertion
Step 1 Connect the inserter wand holder to the patient’s head holder using an adapter or use another
method that provides stability for the inserter wand.
Step 2 Place the inserter wand into the clamp portion of the inserter wand holder, ensuring that the
inserter wand size (1.0mm or 1.5mm) matches the size of the CerePlex I NeuroPort® Array
(1.0mm or 1.5mm).
Step 3 Position the inserter wand so that it is perpendicular to and centered over the back of the
CerePlex I NeuroPort® Array.
Step 4 Back the inserter off the electrode CerePlex I NeuroPort® Array by at least 5 mm before
turning on the inserter to make sure that the inserter wand does not move and hit the CerePlex I
NeuroPort® Array when the piston mass is initially drawn to the top of the piston.
Step 5 Make a final check to verify that the inserter wand is accurately centered and aligned
perpendicularly over the CerePlex I NeuroPort® Array using the precision settings on the
inserter wand holder.
Step 6 Ensure that the inserter wand is held rigidly in the inserter wand holder during insertion or the
impact may cause it to twist resulting in a skewed insertion.
5.2.2 CerePlex I NeuroPort® Array Insertion
Step 1 Lower the inserter wand until its tip just touches the back of the CerePlex I NeuroPort® Array.
Position the inserter wand so that it contacts the CerePlex I NeuroPort® Array at the peak of
cortical pulsations caused by respiration and heart beats. Insufficient pressure results in
incomplete insertion and excessive pressure can cause cortical tissue trauma.
Step 2 Press the <Enable> button to activate the trigger only after you are fully prepared to insert the
NeuroPort® Array.
Step 3 Carefully watch the movement of the CerePlex I NeuroPort® Array caused by heart pulsation
and respiration.
WARNING
It is important to verify that the length of the inserter wand piston matches the CerePlex I
NeuroPort® Array electrode length. The piston stroke length is engraved on the spacer of
the inserter wand; the CerePlex I NeuroPort® Array electrode length is located on the
package label. Failure to match the stroke length to the CerePlex I NeuroPort® Array
electrode length may result in improper CerePlex I NeuroPort® Array insertion.
WARNING When the inserter control box is first turned on, it may
automatically trigger the inserter wand piston to fire. Make sure the
inserter wand is retracted at least 5mm away from the CerePlex I
NeuroPort® Array before turning on the inserter control box.
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Figure 17: Inserter Control Box Enable/Disable Switch
Step 4 At the point when the CerePlex I NeuroPort® Array reaches its highest point, press the trigger
to make the insertion.
Step 5 After insertion is completed, turn off the inserter control box to minimize ambient noise and
heat production. To prevent overheating it is important that you do not run the inserter control
box for more than 30 continuous minutes.
Step 6 Before storing the inserter control box:
a. Unplug and discard the dual lumen tubing
b. Unplug and discard the trigger cable
c. Release residual pressure in the control box tank by turning the pressure control valve
counterclockwise until the tank pressure reaches zero.
Step 7 Do not attempt to disassemble, clean or re-sterilize the inserter wand assembly. Discard the
inserter wand, dual lumen tubing and trigger cable assembly after completion of a surgical
procedure.
5.2.3 Placement of Reference Wires
The CerePlex I Assembly has two reference and two ground wires. The wires should be handled only with
fingers or rubber-tipped forceps. The ground wires are longer by 3.5 inches past the array and the reference
wires are longer by 1.5 inches past the array.
The reference wires should be fed under the dura so that they lie on top and are flush with the cortex.
Protruding wire will make the final closure more difficult and can cause damage to the CerePlex I
NeuroPort® Array or the reference wires upon re-placement of the bone flap. Ideally, the wires tips should
be inserted subdurally within about 5mm of the CerePlex I NeuroPort® Array. If needed, they can be
placed epidurally. Do not cross reference wires or touch the CerePlex I NeuroPort® Array with the
reference wires.
The ground wires can be placed between the skin and the skull or between the skull and the dura region. It
can also be wrapped around a titanium screw if it is used as patient ground.
The reference and ground wires are shipped with 1cm of insulation stripped from the end. The reference
wires may need to be trimmed depending on the placement. If the wires are trimmed the last 1cm of wire
MUST be stripped of its insulation using fine forceps or a scalpel blade. Failure to strip the tips will result
in noisy signals.
5.2.4 Replacing the Boneflap
The bone flap is repositioned and the location of the screws for the titanium mini plates is determined. The
bone flap is then removed and a minimum of 3 titanium plates are fixed to the flap. The flap is then
repositioned in the craniotomy, the additional holes are drilled and the screws attached. When positioned
properly, the bone flap should be flush with the surrounding skull while not placing excess pressure on the
underlying CerePlex I NeuroPort® Array. The gold wire bundle is visible in the bone trough without being
squeezed in between bone flap and cranium. Gel foam may be used between the dura and the bone flap.
Enable/Disable Button
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5.2.5 Securing the Cereplex-I Implantable Headstage
Suture the wire bundle leading from the array to the Cereplex-I Implantable Headstage to the bone or
subgaleal tissue.
Secure the Cereplex-I Implantable Headstage to the drapes of the surgical field by clamping them in place
with a hemostat. This is done by wrapping a bit of the drapes around the headstage, then clamping the
hemostat to the drapes. The clamp should NOT be applied to the device itself.
5.3 Recording Procedure
5.3.1 Assemble the NeuroPort® System according to the instructions provided in the NeuroPort® Bio-Potential
Signal Processing System User’s Manual (LB-0175).
5.3.2 Attach a Blackrock Digital Hub to the NSP.
5.3.3 Attach the HDMI A-A cable to the input of the Blackrock Digital and to the Electrode Tail to the HDMI
Adaptor board.
5.3.4 Insert the Electrode Tail from the CerePlex I into the Cabrio connector on the Electrode Tail to HDMI
Adapter board as shown in the figure below.
Figure 17: Connecting the CerePlex I Electrode Tail to the Cabrio Connector of the Electrode Tail to HDMI
Adapter Board.
5.3.5 Secure the cabling to the drapes of the surgical field by clamping them in place with a hemostat as
necessary.
5.3.6 Power on the Digital Hub and Neural Signal Processor.
5.3.7 Open the Central Software Suite on your PC to begin recording. Refer to the NeuroPort® Bio-Potential
Signal Processing System User’s Manual (LB-0175) for instructions regarding use of the Central Software
Suite.
After the Electrode Tail is inserted,
make sure the contacts on the Electrode Tail are correctly placed
in-between the intervals on the
connector.
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5.4 Explant Procedure
5.4.1 Patient Preparation
The patient is placed in a supine position with the head elevated. If the wire bundle of the array is held in
place with titanium plates, these should be removed at this time.
Remove the bone flap. Meticulous hemostasis is performed on epidural vessels. Care is taken not to injure
the pia and arachnoid layers. It is important that the brain surface and dura be kept moist with frequent
irrigation of saline. Similarly the fascia and skin need to be kept moist.
Once the bone flap is removed and the dura opened (the dura may stick to the components, use caution
when pulling) the CerePlex I NeuroPort® Array should be visible. Carefully remove the CerePlex I
NeuroPort® Array by gently grabbing the CerePlex I NeuroPort® Array by the side with a pair of rubber-
tipped forceps.
5.4.2 Boneflap Replacement
The bone flap is repositioned and the location of the screws for the titanium plates is determined. The bone
flap is then removed and a minimum of 3 titanium plates are fixed to the flap. The flap is then repositioned
in the craniotomy and the additional holes are drilled and the screws attached. When positioned properly,
the bone flap should be flush with the surrounding skull. Gel foam may be used between the dura and the
bone flap.
5.4.3 Wound Closure
When the craniotomy defect is covered, wound closure is performed in at least 2 layers. Skin sutures or
staples are acceptable.
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Appendix A. Blackrock EtO Sterilization Parameters
CAUTIONS Blackrock does not guarantee the effectiveness of these parameters for
sterilization of the CerePlex I Assembly
Preconditioning
Set Point Minimum Maximum
Temperature: 110°F 105°F 120°F
Relative Humidity: 65% 45% 75%
Time: 24Hrs 0Min 24Hrs 0Min 72Hrs 0Min
Process Temperature
125°F 115°F 135°F
Vacuum A
Approx. Rate: 0.7”/min
Evacuate To: 5.8 inHgA 5.3 inHgA 6.3 inHgA
Nitrogen Dilution
Approx. Rate: 0.7”/min
Humidity Pressure Rise: inHgA inHgA inHgA
N2 Inject To: 25.3 inHgA 24.8 inHgA 25.8inHgA
Evacuate To: 5.8 inHgA 5.3 inHgA 6.3 inHgA
Humidification
Approx. Rate: 0.7”/min
Pressure Rise: 1.4 inHgA 0.9 inHgA 1.9 inHgA
Humidity Dwell
Dwell Time: 30 Min 29 Min 35 Min
Maintain Pressure At: 7.2 inHgA 6.7 inHgA 7.7 inHgA
Gas A
Approx. Rate: 0.7”/min
Gas Pressure-Inject To: 17.9 inHgA 17.4 inHgA 18.4 inHgA
Gas Dwell
Temperature: 125°F 120°F 130°F
Maintain Pressure: Yes Time: 4hrs 0min 3hrs 59min 4hrs 40min
Sterilant / Inert: Sterilant At: 17.9 inHgA 17.4 inHgA 18.4 inHgA
After Vacuum
Approx. Rate: 0.7”/min
Evacuate To: 7.8 inHgA 7.3 inHgA 9.3 inHgA
Vacuum Hold Time: 1Hrs 00Min 0Hrs 59Min 1Hrs 4Min
Gas Wash A
Inject Type: Inert
Approx. Rate: 0.7”/min
Inject To: 24.8 inHgA 24.3 inHgA 25.3inHgA
Evacuate To: 5.8 inHgA 5.3 inHgA 7.3 inHgA
Vacuum Hold Time: 30Min 29 Min 34 Min
Number of Cycles 0 (1 total)
Gas Wash B
Inject Type: Inert
Approx. Rate: 0.7”/min
Inject To: 24.8 inHgA 24.3 inHgA 25.3inHgA
Evacuate To: 5.8 inHgA 5.3 inHgA 6.3 inHgA
Number of Cycles 2 (3 total)
Release
Approx. Rate: 0.7" / Min
Release To: 24.8 inHgA inHgA inHgA
Heated Aeration
Temperature: 110°F 100°F 135°F
Time: 36 Hrs 36 Hrs N/A
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Appendix B. Inserter Wand Holder and Head Holder Adapter
Sterilization Applicable Devices
Wand Holders (Cat No. 4273) Head Holder Adapters (Cat. No. 4484)
CAUTIONS Institutional device reprocessing should occur in facilities that are adequately designed, equipped, monitored, and staffed by trained personnel.
Aluminum-based instruments are damaged by alkaline (pH > 7) detergents and solutions.
Long, narrow channels and blind holes require particular attention during cleaning
To prolong device life, be especially careful when cleaning threaded portions of the device
When placing items in the ultrasonic bath, assure that they do not contact one another, as contact can result in damage
Do not exceed the temperatures specified for each cleaning operation
Limitations on reprocessing
Wand Holders have been shown by Blackrock Microsystems to retain their functionality after exposure to 20 complete reprocessing cycles (cleaning, disinfection, and sterilization) identified in these instructions. The slides become progressively more difficult to move with damage to the threaded portions of the slides. When any one of the slides does not move freely, the device may no longer be used.
INSTRUCTIONS
Point of use Remove excess soil with disposable cloth/paper wipe.
Containment and transportation
It is recommended that instruments are reprocessed as soon as is reasonably practical following use.
Keeping the devices wet or moist will facilitate cleaning.
Equipment / Supplies Required
Ultrasonic bath with at least a 1.5 liter capacity Soft-bristled brush such as a toothbrush Long, soft-bristled brush such as a pipe cleaner Syringe(s) +Dirl-Lum 63 or other alkaline pH detergent +Enzol® or other enzymatic cleaner +Renu-Klenz™ or other neutral pH instrument cleaner Tap water RO/DI water Teflon Lubricant (Miltex Surgical Instrument Lubricant), or equivalent + Cleaning was validated using the identified commercially available products.
Preparation for cleaning- All items.
Prepare a solution of Dirl-Lum 63 at ambient temperature in an ultrasonic water bath by mixing 30g of DirlLum in 1Liter of water. Stir the solution.
Heat the solution to 69 ± 2°C.
Prepare a solution of Enzol in warm tap water according to its instructions
Prepare a solution of Renu-Klenz at a concentration of 1 ounce per gallon of tap water.
Preparation for Cleaning Wand Holder
Open all slides until limit is reached CAUTION: Avoid complete removal of the slide screw, as it may not thread back into the device
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Preparation for Cleaning- Head Holder Adapter
Completely unscrew the three locking screws (See Figure, above) and remove them from the part.
Remove the Wand holder block assembly from the ball.
Unscrew the Wand Clamp screw and remove completely
Assure cleaning of internal threads.
Cleaning Procedure— Manual
Rinse the devices in running tap water for at least 3 minutes
Immerse the devices in the prepared Enzol solution and allow them to soak for at least 10 minutes.
Use a syringe to flush lumens, cracks, and other difficult-to-reach locations. The devices may remain immersed during the flushing operation to minimize the creation of aerosols
Wand Holder Only
During the soak period, actuate each slide and each clamp of the Wand Holder at least once.
Open slides until the limit is reached. CAUTION: Avoid complete removal of the slide screws from Wand Holder, as they may not thread back into the device
Cleaning Procedure— Manual (continued)
Rinse the devices under running tap water. A syringe may be used to flush any difficult-to-reach locations.
Immerse the devices in the prepared Renu-Klenz. Use a soft bristled brush, such as a toothbrush, to scrub the entire surface of each device. Use a long, narrow brush, such as a pipe cleaner, to scrub the lumens and other narrow openings of each device. A syringe may be used to flush lumens, cracks, and other difficult-to-reach locations.
Immerse the devices in the heated Dirl-Lum solution in the ultrasonic bath, and sonicate them for 15- 16 minutes.
Rinse the devices in RO/DI (reverse osmosis, de-ionized) water. A syringe may be used to flush lumens, cracks, and other difficult-to-reach locations.
Disinfection Immerse the devices in a bath filled with isopropyl alcohol (IPA) for at least 2 minutes.
Drying Remove the devices from the IPA bath and allow to air dry for 30 minutes or until visibly dry, whichever is longer.
Lubrication/ maintenance
Apply a small amount of Teflon Lubricant (Miltex Surgical Instrument Lubricant) to all moving parts and threads of the Wand Holder
Inspection Wand Holder Check for smooth movement of all slides If it is not possible to smoothly move slides after lubricating, discard the device. Do not attempt to resterilize device.
All Devices Visually inspect for presence of residual contamination. Visually inspect for damage and wear. If device is damaged or worn, discard.
Packaging Using the sequential wrapping technique, wrap the devices in 2 layers of 1-ply polypropylene wrap.
Sterilization Place the devices in a steam sterilization chamber that is calibrated and maintained. Sterilize the device using the following parameters:
Sterilizer Type Gravity
Temperature 121 ± 2°C
Cycle Time 95 minutes
Drying Time None required
Storage Store devices in accordance with facility protocols
Additional Information
Manufacturer Contact
For information concerning the cleaning or sterilization procedure, contact Blackrock Microsystem’s Engineering Department at (801) 582-5533
Revised 06-2006
The instructions provided above have been validated by Blackrock Microsystems as being CAPABLE of preparing the identified medical devices for reuse. It remains the responsibility of the processor to ensure that the processing as actually performed, using equipment, materials, and personnel in the processing facility, achieves the desired result. This requires validation and routine monitoring of the process. Likewise, any deviation by the processor from the instructions provided should be properly evaluated for effectiveness and potential adverse consequences. Blackrock Microsystems is not responsible for the consequences of reprocessing its devices by any conditions other than those specified, and cannot attest to, or be held responsible for the functionality, cleanliness or sterility of any devices so processed.
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