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Neuromodulation

Eterna™ SCS System

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eterna product photo
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Relief is within reach

The Eterna™ SCS System with Xtend™ energy technology reduces charging frequency to five times per year,1,2 making it the lowest recharge burden platform on the market.3* The Eterna™ SCS IPG features an implant profile of up to 58% smaller than other other rechargeable spinal cord stimulation (SCS) systems4† and was designed for patient comfort.§

The Eterna™ SCS System harnesses the low-energy power of BurstDR™ stimulation, which has been demonstrated to reduce pain by 23% MORE than traditional tonic SCS.6‖

Patient-focused features

Eterna IPG

Smallest rechargeable implant profile:

Designed with comfort in mind,§ the Eterna™ SCS IPG is the smallest rechargeable implantable spinal cord stimulator on the market.4†

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Xtend™ energy technology:

The Eterna™ SCS System with Xtend™ energy technology reduces charging frequency to five times per year,1, 2 making it the lowest recharge burden platform on the market.3*

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BurstDR™ stimulation:

BurstDR™ stimulation is clinically proven to provide superior pain relief.5 Flexburst360™ therapy, the next generation of BurstDR™ stimulation, delivers a more tailored approach to multi-site and evolving pain.

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TotalScan™ MRI Technology:

Safely undergo full-body MRI scans with TotalScan™ MRI technology.8** Learn more about MR conditional devices.

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Easy-to-use mobile app:

The mobile app allows you to adjust your therapy and can be accessed from either your personal Apple mobile device†† or compatible Apple iPhone, provided to you by Abbott.

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Award-winning NeuroSphere™ Virtual Clinic:

First-of-its-kind in the U.S.7 remote neuromodulation programming platform including video capability that enables your doctor to make therapy adjustments in real time without you needing to visit the clinic.§§

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Upgradeable platform:

The Eterna™ SCS System features upgradeable technology to deliver the latest in advancements via software updates without replacing the implanted battery.

While neurostimulation helps most patients experience at least some reduction in pain, not everyone responds in the same way. The amount of pain relief varies with each individual. Complications related to placement and/or use of the device may occur. Be sure to discuss the risks and benefits of neurostimulation with your doctor.

How it works

The Eterna™ SCS System includes a small device called an implantable pulse generator (IPG) that’s surgically placed in the body along with thin, insulated wires called leads. When your system is turned on, the generator sends mild electrical pulses through the leads to nerves along your spinal cord to reduce the level of pain you feel.

Low maintenance charging

The Eterna™ SCS System could save patients up to 260 hours of charging time per year, compared to systems with a daily recharge of 45 minutes.3‖‖

For detailed charging instructions, refer to our Charging System User's Guide or our Quick Start Guide (PDF 350KB).

Powered by BurstDR™ stimulation

SCS therapy is a well-established pain treatment used by doctors for more than 50 years.9 One of our most advanced forms of this therapy is BurstDR™ stimulation. This low-energy treatment for chronic pain may provide relief from both pain and the emotional suffering associated with the pain.5¶¶

By understanding how the brain naturally manages pain, doctors created BurstDR™ stimulation to mimic natural patterns found in the brain.10 It works by using mild electrical pulses to change pain signals as they travel from the spinal cord to the brain.10 BurstDR™ stimulation is a unique therapy that is effective at low doses.11***

7 out of 10 patients say they prefer BurstDR™ stimulation5†††

BurstDR™ stimulation has been clinically proven to:

  • Provide superior5‖ relief from pain and its associated suffering,¶¶ compared to traditional neurostimulation therapy.5
  • Reduce or eliminate the tingling sensation felt with traditional neurostimulation.5,6
  • Improve the ability to perform everyday activities.5§§§
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Try it first with a temporary evaluation

One of the advantages of the Eterna™ SCS System is that you can try it out to see how well it works for you before committing to an implanted system.

Your pain management doctor will determine if you are a candidate for stimulation therapy with the Eterna™ SCS System, and may recommend a temporary evaluation.

During the temporary evaluation, you can see whether the therapy:

  • Provides meaningful pain relief

  • Improves your ability to perform daily activities

  • Improves your sleeping habits

If, at the end of the evaluation period, you and your doctor decide the Eterna™ SCS System is right for you, you can choose to have the system implanted.

Please note: The placement of the leads is a surgical procedure that exposes you to certain risks. Complications such as infection, swelling, bruising and possibly the loss of strength in or use of an affected limb or muscle group (i.e., paralysis) are possible. Be sure to talk to your doctor about the risks associated with the placement of a neurostimulation system.

Explore your path to pain relief

Talk to a pain specialist

Find a pain specialist
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* Upon implant of the Eterna™ SCS System, approximately 3 hours 5 times per year (69 to 74 days between charges) or 1 hour per month [25 to 27 days between charges] at standard [nominal] settings for BurstDR™ programming: 30/90 dosing when programmed with amplitude of 0.6mA and all other BurstDR™ stimulation settings are left at default. Recommended recharge frequency and duration for competitor product described in their respective IFU or clinical studies, which may involve different patient populations and other variables. Not a head-to-head comparison of stimulation settings or clinical outcomes. 

† Smallest size determined by volume in cubic centimeters. Based off comparison to volumetric measurement of the following IPGs: Boston Scientific WaveWriter Alpha‡ 16: 20.1 cc; Medtronic Intellis‡: 13.9 cc; Nevro Omnia‡: 26 cc; Saluda Evoke‡: 33 cc. 

§ Patient comfort resulting from reduced features that could lead to discomfort (i.e., sharp edges) and reduced size compared to on-market IPGs. 

‖ BurstDR™ stimulation is superior when compared to traditional tonic stimulation as studied in SUNBURST.

¶ Programming options available for evolving pain.

** Within approved parameters. Refer to the Instructions for Use for full details on the MR Conditional scan parameters.

†† Available on eligible Apple mobile digital devices. For a list of personal Apple mobile digital devices compatible with the NeuroSphere™ Patient Controller App from Abbott, visit http://www.NMmobiledevicesync.com/cp.

§§ Anywhere with a cellular or Wi-Fi‡ connection and sufficiently charged patient controller

‖‖ This is calculated by comparing the expected charging for the Eterna™ SCS System vs. competitive rechargeable systems based on their range of typical settings (approximately 1 hour of charging per month [25 to 27 days between charges] at standard [nominal] settings vs. 45 min of daily charging). Recommended recharge frequency and duration for competitor product described in their respective IFU or clinical studies, which may involve different patient populations and other variables. Not a head-to-head comparison of stimulation settings or clinical outcomes. 

¶¶ Pain and suffering as measured by VAS 

*** The term dose/dosage is referred to as the delivery of a quantity of energy to neural tissue 

††† Additional data observed from the SUNBURST study. 

§§§ Based on PGIC scores of moderately better improvement or higher 

 

  1. Abbott. Eterna™ SCS IPG Battery Recharge Characterization Report (90903492). 2023.
  2. Abbott. Eterna™ SCS IPG Elect Design Verification Report: Current Draw (90860050). 2022.
  3. Abbott. Eterna™ Lowest Recharge Burden Comparison Memo (MAT-2210739). 2023.
  4. Abbott. Eterna™  SCS IPG Size Comparison Memo (MAT-221051). 2022. 
  5. Deer T, Slavin KV, Amirdelfan K, et al. Success using neuromodulation with BURST (SUNBURST) study: results from a prospective, randomized controlled trial using a novel burst waveform. Neuromodulation. 2018;21(1):56-66.   https://journals.lww.com/clinicalpain/abstract/2015/05000/a_2_center_comparative_study_on_tonic_versus_burst.7.aspx
  6. De Ridder D, Lenders MW, De Vos CC, et al. A 2-center comparative study on tonic versus burst spinal cord stimulation: amount of responders and amount of pain suppression. Clin J Pain. 2015;31(5):433-437. https://journals.lww.com/clinicalpain/abstract/2015/05000/a_2_center_comparative_study_on_tonic_versus_burst.7.aspx
  7. Abbott. Data on file. First-of-Its-Kind Memo: U.S. Virtual Clinic (MAT-2101330). 2021.
  8. Abbott. MRI Procedure Information, MR Conditional Eterna™ SCS System. 2023.
  9. International Neuromodulation Society. A brief history of neuromodulation. Updated August 3, 2022. Accessed 02/14/2024. https://www.neuromodulation.com/brief-history-neuromodulation
  10. De Ridder D, Vanneste S, Plazier M, Vancamp. T. Mimicking the brain: evaluation of St. Jude Medical’s Prodigy chronic pain system with burst technology. Expert Rev Med Devices. 2015;12(2):143-150. https://www.tandfonline.com/doi/full/10.1586/17434440.2015.985652
  11. Deer TR, Patterson DG, Baksh J, et al. Novel intermittent dosing burst paradigm in spinal cord stimulation. Neuromodulation. 2021;24(3):566-573. doi:10.1111/ner.13143

Important Safety Information

Spinal Column Stimulation (SCS) Systems

Intended Use

This neurostimulation system is designed to deliver low-intensity electrical impulses to nerve structures. The system is intended to be used with leads and associated extensions that are compatible with the system.

Indications For Use

Abbott Medical spinal cord stimulation (SCS) systems are indicated as an aid in the management of chronic, intractable pain of the trunk and/or limbs, including unilateral or bilateral pain associated with the following: failed back surgery syndrome, nonsurgical back pain (without prior surgery and not a candidate for back surgery), and diabetic peripheral neuropathy of the lower extremities.

Contraindications

This system is contraindicated for patients who are unable to operate the system or who have failed to receive effective pain relief during trial stimulation.

MRI Safety Information

Some models of this system are Magnetic Resonance (MR) Conditional, and patients with these devices may be scanned safely with magnetic resonance imaging (MRI) when the conditions for safe scanning are met. 

For more information about MR Conditional neurostimulation components and systems, including equipment settings, scanning procedures, and a complete listing of conditionally approved components, refer to the MRI procedures clinician's manual for neurostimulation systems (available online at medical.abbott/manuals). 

For more information about MR Conditional products, visit the Abbott Medical product information page at neuromodulation.abbott/us/en/healthcare-professionals/mri-support.html

Warnings

The following warnings apply to this neurostimulation system.

Poor surgical risks. Neurostimulation should not be used on patients who are poor surgical risks or patients with multiple illnesses or active general infections.

Magnetic resonance imaging (MRI). Some patients may be implanted with the components that make up a Magnetic Resonance (MR) Conditional system, which allows them to receive an MRI scan if all the requirements for the implanted components and for scanning are met. A physician can help determine if a patient is eligible to receive an MRI scan by following the requirements provided by Abbott Medical. Physicians should also discuss any risks of MRI with patients. 

Patients without an MR Conditional neurostimulation system should not be subjected to MRI because the electromagnetic field generated by an MRI may damage the device electronics and induce voltage through the lead that could jolt or shock the patient. 

Diathermy therapy. Do not use short-wave diathermy, microwave diathermy, or therapeutic ultrasound diathermy (all now referred to as diathermy) on patients implanted with a neurostimulation system. Energy from diathermy can be transferred through the implanted system and cause tissue damage at the location of the implanted electrodes, resulting in severe injury or death.

Diathermy is further prohibited because it may also damage the neurostimulation system components. This damage could result in loss of therapy, requiring additional surgery for system implantation and replacement. Injury or damage can occur during diathermy treatment whether the neurostimulation system is turned on or off. 

Electrosurgery. To avoid harming the patient or damaging the neurostimulation system, do not use monopolar electrosurgery devices on patients with implanted neurostimulation systems. Before using an electrosurgery device, place the device in Surgery Mode using the patient controller app or clinician programmer app. Confirm the neurostimulation system is functioning correctly after the procedure. 

  • Use bipolar electrosurgery only.

  • Complete any electrosurgery procedures before connecting the leads or extensions to the neurostimulator.

  • Keep the current paths from the electrosurgery device as far from the neurostimulation system as possible.

  • Set the electrosurgery device to the lowest possible energy setting.

  • Confirm that the neurostimulation system is functioning correctly during the implant procedure and before closing the neurostimulator pocket.

Implanted cardiac systems. Physicians need to be aware of the risk and possible interaction between a neurostimulation system and an implanted cardiac system, such as a pacemaker or defibrillator. Electrical pulses from a neurostimulation system may interact with the sensing operation of an implanted cardiac system, causing the cardiac system to respond inappropriately. To minimize or prevent the implanted cardiac system from sensing the output of the neurostimulation system, (1) maximize the distance between the implanted systems; (2) verify that the neurostimulation system is not interfering with the functions of the implanted cardiac system; and (3) avoid programming either device in a unipolar mode (using the device’s can as an anode) or using neurostimulation system settings that interfere with the function of the implantable cardiac system.

Other active implanted devices. The neurostimulation system may interfere with the normal operation of another active implanted device, such as a pacemaker, defibrillator, or another type of neurostimulator. Conversely, the other active implanted device may interfere with the operation of the neurostimulation system.

Interference with other devices. Some of this system’s electronic equipment, such as the programmer and controller, can radiate radiofrequency (RF) energy that may interfere with other electronic devices, including other active implanted devices. Avoid placing equipment components directly over other electronic devices. To correct the effect of interference with other devices, turn off the equipment or increase the distance between the equipment and the device being affected.

Operation of machines, equipment, and vehicles. Patients using therapy that generates paresthesia should turn off stimulation before operating motorized vehicles, such as automobiles, or potentially dangerous machinery and equipment because sudden stimulation changes may distract them from properly operating it. However, current data shows that most patients using BurstDR™ stimulation therapy do not experience paresthesia. For patients who do not feel paresthesia, sudden stimulation changes are less likely to occur and distract them while operating motorized vehicles, machinery, or equipment.

Explosive and flammable gasses. Do not use a clinician programmer or patient controller in an environment where explosive or flammable gas fumes or vapors are present. The operation of these devices could cause them to ignite, causing severe burns, injury, or death.

Keep the device dry. Programmer and controller devices are not waterproof. Keep them dry to avoid damage. Advise patients to not use their device when engaging in activities that might cause it to get wet, such as swimming or bathing.

Pediatric use. Safety and effectiveness of neurostimulation for pediatric use have not been established.

Pregnancy and nursing. Safety and effectiveness of neurostimulation for use during pregnancy and nursing have not been established.

Use in patients with diabetes. Surgical complications and adverse effects may be more frequent and severe in patients with diabetes. The following additional considerations should be made for patients with diabetes:

  • A pre-operative risk assessment should be performed for patients with diabetes who are at high risk for ischemic heart disease, those with autonomic neuropathy or renal failure, and patients with a Hemoglobin A1C (HbA1c) ≥8% (64 mmol/mol).
  • Monitor the patient’s blood glucose levels in the perioperative period and instruct the patient to continue to monitor glucose levels as they may fluctuate as a response to surgery or to complications. Implanting physicians or anesthesiologists should consult practice guidelines for the intraoperative management of patients with diabetes.
  • Closely monitor patients for signs of infection, delayed wound healing, or cerebrospinal fluid (CSF) leakage as the severity of these complications may be greater in patients with diabetes.

Stimulation modes. The BurstDR™ stimulation mode has not been evaluated for effectiveness in the diabetic peripheral neuropathy (DPN) population.

Device components. The use of components not approved for use by Abbott Medical with this system may result in damage to the system and increased risk to the patient.

Device modification. Equipment is not serviceable by the customer. To prevent injury or damage to the system, do not modify the equipment. If needed, return the equipment to Abbott Medical for service.

Application modification. To prevent unintended stimulation, do not modify the operating system in any way. Do not use the application if the operating system is compromised (that is, jailbroken).

Case damage. Do not handle the IPG if the case is pierced or ruptured because severe burns could result from exposure to battery chemicals.

IPG disposal. Return all explanted IPGs to Abbott Medical for safe disposal. IPGs contain batteries as well as other potentially hazardous materials. Do not crush, puncture, or burn the IPG because explosion or fire may result.

Product materials. Neurostimulation systems have materials that come in contact or may come in contact with tissue. A physician should determine whether or not a patient may have an allergic reaction to these materials before the system is implanted.

Precautions

The following precautions apply to this neurostimulation system.

General Precautions

  • Clinician training. Implanting physicians should be experienced in the diagnosis and treatment of chronic pain syndromes and have undergone surgical and device implantation training.

  • Patient selection. It is extremely important to select patients appropriately for neurostimulation. Thorough psychiatric screening should be performed. Patients should not be dependent on drugs and should be able to operate the neurostimulation system.

  • Infection. Follow proper infection control procedures. Infections related to system implantation might require that the device be explanted.

  • Implantation of two systems. If two systems are implanted, ensure that at least 20 cm (8 in.) separates the implanted IPGs to minimize unintended interaction with other system components.

  • Implantation of multiple leads. If multiple leads are implanted, leads and extensions should be routed in close proximity. Nonadjacent leads can possibly create a conduit for stray electromagnetic energy that could cause the patient unwanted stimulation.
  • Implant healing. While charging the generator, patients may perceive an increase in temperature at the generator site. In patients who have areas of increased sensitivity to heat, consider placing the implant where the patient has normal sensation.

  • High stimulation outputs. Stimulation at high outputs may cause unpleasant sensations or motor disturbances, or render the patient incapable of controlling the stimulator. If unpleasant sensations occur, the device should be turned off immediately.

  • Electromagnetic interference (EMI). Some equipment in home, work, medical, and public environments can generate EMI that is strong enough to interfere with the operation of a neurostimulation system or damage system components. Patients should avoid getting too close to these types of EMI sources, which include the following examples: commercial electrical equipment (such as arc welders and induction furnaces), communication equipment (such as microwave transmitters and high-power amateur transmitters), high-voltage power lines, radiofrequency identification (RFID) devices, and some medical procedures (such as therapeutic radiation and electromagnetic lithotripsy).
  • Consumer goods and electronic devices. Magnetic interference with consumer goods or electronic devices that contain magnets, such as mobile phones and smart watches, may unintentionally cause the neurostimulation system to turn on or turn off or affect communication between the device and generator; however, it will not change the prescribed programmed parameters. Patients should be advised to keep their mobile phones and smart watches at least 15 cm (6 in.) away from the generator and avoid placing any smart device in a pocket near the generator. If a patient is concerned about a smart device interacting with their neurostimulation system, consider disabling magnet mode. For more information about setting the magnet mode, refer to the clinician programmer manual or contact Technical Support.
  • Lead movement. Patients should be instructed to avoid bending, twisting, stretching, and lifting objects over 2 kg (5 lb.) six to eight weeks after implantation of a neurostimulation system. Extension of the upper torso or neck may cause lead movement and alter the stimulation field (especially with leads in the cervical area), resulting in overstimulation or ineffective stimulation.

  • Patient training. Instruct patients to use their neurostimulation system only after an authorized clinician has programmed the device and has trained the patient how to control stimulation and safely use the system.

  • Programmer use. Allow only authorized use of the clinician programmer to avoid any programming changes that may injure a patient.

Sterilization and Storage

  • Single-use, sterile device. The implanted components of this neurostimulation system are intended for a single use only. Sterile components in this kit have been sterilized using ethylene oxide (EtO) gas before shipment and are supplied in sterile packaging to permit direct introduction into the sterile field. Do not resterilize or reimplant an explanted system for any reason.

  • Storage environment. Store components and their packaging where they will not come in contact with liquids of any kind.

Handling and Implementation
  • Expiration date. An expiration date (or “use-before” date) is printed on the packaging. Do not use the system if the use-before date has expired.
  • Recharge-by-date. A recharge‑by date is printed on the packaging. If this date has been reached or has been exceeded before the date of implantation, the generator should be charged prior to implantation.

  • Handle the device with care. The clinician programmer and patient controller are sensitive electronic devices that can be damaged by rough handling, such as dropping them on the ground.

  • Care and handling of components. Use extreme care when handling system components prior to implantation. Excessive heat, excessive traction, excessive bending, excessive twisting, or the use of sharp instruments may damage and cause failure of the components.

  • Package or component damage. Do not implant a device if the sterile package or components show signs of damage, if the sterile seal is ruptured, or if contamination is suspected for any reason. Return any suspect components to Abbott Medical for evaluation.

  • Exposure to body fluids or saline. Prior to connection, exposure of the metal contacts, such as those on the connection end of a lead or extension, to body fluids or saline can lead to corrosion. If such exposure occurs, clean the affected parts with sterile, deionized water or sterile water for irrigation, and dry them completely prior to lead connection and implantation.

  • System testing. To ensure correct operation, always test the system during the implant procedure, before closing the neurostimulator pocket, and before the patient leaves the surgery suite.

Hospitals and Medical Environments

  • High-output ultrasonics and lithotripsy. The use of high-output devices, such as an electrohydraulic lithotripter, may cause damage to the electronic circuitry of an implanted IPG. If lithotripsy must be used, do not focus the energy near the IPG.

  • Ultrasonic scanning equipment. The use of ultrasonic scanning equipment may cause mechanical damage to an implanted neurostimulation system if used directly over the implanted system.

  • External defibrillators. The safety of discharge of an external defibrillator on patients with implanted neurostimulation systems has not been established.

  • Therapeutic radiation. Therapeutic radiation may damage the electronic circuitry of an implanted neurostimulation system, although no testing has been done and no definite information on radiation effects is available. Sources of therapeutic radiation include therapeutic X-rays, cobalt machines, and linear accelerators. If radiation therapy is required, the area over the implanted IPG should be shielded with lead. Damage to the system may not be immediately detectable.

Home and Occupational Environments

  • Security, antitheft, and radiofrequency identification (RFID) devices. Some antitheft devices, such as those used at entrances or exits of department stores, libraries, and other public places, and airport security screening devices may affect stimulation. Additionally, RFID devices, which are often used to read identification badges, as well as some tag deactivation devices, such as those used at payment counters at stores and loan desks at libraries, may also affect stimulation.
    Patients who are implanted with nonadjacent multiple leads and patients who are sensitive to low stimulation thresholds may experience a momentary increase in their perceived stimulation, which some patients have described as uncomfortable or jolting. Patients should cautiously approach such devices and should request help to bypass them. If they must go through a gate or doorway containing this type of device, patients should turn off their IPG and proceed with caution, being sure to move through the device quickly.

  • Scuba diving or hyperbaric chambers. Patients should not dive below 30 m (100 ft.) of water or enter hyperbaric chambers above 4.0 atmospheres absolute (ATA). Pressures below 30 m (100 ft.) of water (or above 4.0 ATA) could damage the neurostimulation system. Before diving or using a hyperbaric chamber, patients should discuss the effects of high pressure with their physician.

  • Wireless use restrictions. In some environments, the use of wireless functions (for example, Bluetooth® wireless technology) may be restricted. Such restrictions may apply aboard airplanes, in hospitals, near explosives, or in hazardous locations. If you are unsure of the policy that applies to the use of this device, please ask for authorization to use it before turning it on. (Bluetooth® is a registered trademark of Bluetooth SIG, Inc.)

Adverse Effects

In addition to those risks commonly associated with surgery, the following risks are associated with implanting or using this neurostimulation system: 

  • Unpleasant sensations or motor disturbances, including involuntary movement, caused by stimulation at high outputs; if either occurs, turn off your IPG immediately

  • Undesirable changes in stimulation, which may be related to cellular changes in tissue around the electrodes, changes in electrode position, loose electrical connections, or lead failure

  • Stimulation in unwanted places (such as radicular stimulation of the chest wall) 

  • Lead migration, causing changes in stimulation or reduced pain relief 

  • Epidural hemorrhage, hematoma, infection, spinal cord compression, or paralysis from placement of a lead in the epidural space 

  • Cerebrospinal fluid (CSF) leakage 

  • Paralysis, weakness, clumsiness, numbness, or pain below the level of the implant 

  • Persistent pain at the electrode or IPG site 

  • Seroma (mass or swelling) at the IPG site

  • Allergic or rejection response to implant materials 

  • Implant migration or skin erosion around the implant 

  • Battery failure

  • Changes in blood glucose levels in response to any adverse effect 

    NOTE: Patients with diabetes may have increased risks of infection, problems healing around the surgical site, and complications common to any surgical procedure. The severity of any surgical complication may be greater in patients with diabetes, particularly those with inadequate preoperative glycemic control. For adverse effects observed in the use of diabetic peripheral neuropathy, refer to the clinical summaries manual for SCS systems.

Safety And Effectiveness Studies

For information that supports the clinical use of this neurostimulation system, refer to the clinical summaries manual for spinal cord stimulation (SCS) systems (available online at medical.abbott/manuals). This neurostimulation system is similar in technology and intended use to the systems reported in the literature and clinical studies. Therefore, the literature and clinical studies represent the safety and effectiveness of this neurostimulation system.  

21 CR 801.109(b)  The label of the device, other than surgical instruments, bears:

(1) The symbol statement “Rx only” or “℞ only” or the statement “Caution: Federal law restricts this device to sale by or on the order of a ___”, the blank to be filled with the word “physician,” “dentist,” “veterinarian,” or with the descriptive designation of any other practitioner licensed by the law of the State in which the practitioner practices to use or order the use of the device; and 

(2) The method of its application or use.

 

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