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National Imaging Associates, Inc.
Clinical guidelines
IMPLANTABLE INFUSION INSERTION PUMP
CPT Codes:
62350, 62351, 62355, 62360, 62361, 62362
Guideline Number: NIA_CG_310
Responsible Department:
Clinical Operations
Original Date:
Page 1 of 6
Last Review Date:
July 2015
Last Revised Date:
Implementation Date: September 2015
INTRODUCTION
An implantable infusion pump (IIP), also referred to as an implantable drug delivery
system (IDDS), is a device for the delivery of medication to manage severe, chronic,
intractable pain and/or chronic intractable spasm. The purpose of this guideline is to
address criteria for the permanent placement of an implantable infusion pump.
FOR THE TREATMENT OF CHRONIC INTRACTABLE PAIN Appropriate when ALL of
the following criteria are met:
1. Severe, chronic, intractable malignant or nonmalignant pain that has not responded to
at least 12 weeks of standard nonsurgical therapies (e.g., systemic medications, physical
and psychological therapies, or cognitive behavioral, etc.); AND
2. Documentation of completion of a satisfactory trial *of intraspinal (intrathecal/epidural)
opioid drugs with acceptable pain relief, acceptable degree of side effects and patient
acceptance of mode of treatment
 IIP provides ≥ 50% pain relief; AND
 Side effects are tolerable; AND
 *Satisfactory trials may vary from 2 weeks—12 weeks depending upon clinical
response (dosage and catheter placement may be manipulated).
3. Drug is FDA approved for delivery via by Infusion Pump:
 Opioids ( e.g., morphine), ziconotide, and/or clonidine; AND
4. Patient must have a life expectancy of at least 3 months or more; AND
5. Documentation of completed psychological assessment prior to IIP, including the
patient’s cognitive ability, willingness, and ability to participate in IIP therapy.
FOR THE TREATMENT OF SPASTICITY Appropriate when ALL of the following criteria
are met:
1. Evidence of intractable spasticity that results in the patient’s inability to maintain an
upright posture, balance in ambulation or increased function related to one of the
following conditions:
o Spinal Cord Injury; OR
o Multiple Sclerosis: OR
o Stiff person syndrome; OR
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2. Other medical conditions causing intractable spasms; AND
3. Severe, uncontrollable spasms that have not responded to at least 12 weeks of standard
therapies (e.g. oral medications, physical therapy etc); AND
4. Documentation of completion of a satisfactory* intrathecal trial of the antispasmodic
drug defined as:
o IIP provides ≥ 50% spasm relief ; AND
o Side effects are tolerable; AND
o *Satisfactory trials may vary from 2 weeks—12 weeks depending upon clinical
response (dosage and catheter placement may be manipulated).
5. Drug is FDA approved for delivery via by Infusion Pump:
o anti-spasmodic drugs (e.g., baclofen); AND
6. Patient must have a life expectancy of at least 3 months; AND
7. Documentation of completed psychological assessment prior to IIP, including the
patient’s cognitive ability, willingness, and ability to participate in IIP therapy.
CONTRAINDICATED FOR ANY OF THE FOLLOWING:




There are no other medical indications for other intrathecal treatments except for pain
and spasticity.
Patients with an active infection.
Patients with a known allergy or hypersensitivity to the drug being used (e.g., morphine,
etc.).
Patients with a body size that is insufficient to support the weight and bulk of the
device.
ADDITIONAL INFORMATION:
Devices must be Food and Drug Administration (FDA) approved for infusion of the specific
medication that is to be administered (i.e., some pumps may be specifically designed for the
delivery of antispasmodics, etc.)
Other implanted programmable devices where the crosstalk between devices may
inadvertently change the prescription.
Overview: An implanted pump releases medication through a catheter directly to the
epidural or intrathecal space, which interrupts pain signals before they reach the brain.
This mode of drug delivery provides pain relief with less medication than oral dosing and
helps to minimize the side effects associated with oral medications. An IIP consists of a
programmable pump, an epidural or intrathecal catheter, and an external programmer.
Under general anesthesia, the pump is surgically implanted subcutaneously in the
abdominal area, the catheter tip is inserted in the epidural or intrathecal space, often with
fluoroscopic guidance, and the catheter is connected to the pump. A screening or trial
period (usually a minimum of 3 days in length) is required to assess pain relief and to
determine whether the patient is a candidate for pump implantation.
Evidence Review:
Chronic pain is pain that continues or recurs ≥ 90 days. It may result from an initial injury
or illness; however, there may be no apparent cause. Chronic pain may limit movement and
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affect the ability to carry out activities of daily living (ADL). It may lead to disability.
Psychological effects may include anger, anxiety, depression, and fear of reinjury. Common
chronic pain complaints include arthritis pain, back pain, headache, nerve pain
(neurogenic), phantom pain, and psychogenic pain (no apparent cause). Chronic pain
usually cannot be cured. The goal of treatment is to reduce pain and improve function.
Treatment may include acupuncture, behavior modification, biofeedback, electrical
stimulation, medications, nerve blocks, physical therapy, psychotherapy, relaxation therapy,
or surgery.
A limited number of trials suggest that pain pumps may be of benefit to patients with
severe chronic pain that is malignant or nonmalignant in origin. Paice et al. (1996) reported
that the majority of patients with chronic, intractable, nonmalignant pain in a large
(n=245) retrospective multicenter survey were very satisfied to moderately satisfied with
intrathecal morphine therapy, with a mean 61% reduction in pain. The mean dosage
required for pain control exhibited a gradual increase, suggesting that tolerance to the drug
develops over time. Device-related complications occurred in 22% of patients during the
follow-up period, which ranged from 8 to 94 months, with a mean of 14.6 months. Survey
data was limited, as only approximately 50% of queried physicians responded. No data was
available on dropouts.
Thimineur et al. (2004) performed a small nonrandomized prospective study of 69 patients
with chronic intractable nonmalignant pain who met inclusion criteria for implantation of
an IIP. An IIP was implanted in 39 patients while 31 patients served as the comparison
group. The authors reported that pain intensity, mood, and function all improved
significantly in the IIP recipient group compared with pretreatment and with the
comparison-group patients. Minimal complications were reported.
In consideration of the paucity of randomized controlled trials (RCTs), Hayek et al. (2011)
conducted a systematic review of intrathecal infusion through IDDS for chronic malignant
and nonmalignant pain. The authors evaluated the available evidence for the efficacy and
safety of intrathecal infusions used in long-term management (> 6 months) of chronic pain.
The authors’ “moderate” recommendation for intrathecal infusion systems for malignantrelated pain is based on Level II-2 evidence (i.e. well-designed cohort and case-control
analytic studies) and their recommendation is “limited to moderate” based on Level II-3
evidence of moderate quality from nonrandomized studies for nonmalignant-related pain.
U.S. Preventive Services Task Force (USPSTF) Evidence Criteria:
Authors based their recommendations on level of evidence criteria developed by the
USPSTF, which rates the quality of evidence on a scale of I to III as follows:
I:
II-1:
II-2:
II-3:
Evidence obtained from at least one properly randomized controlled trial.
Evidence obtained from well-designed controlled trials without randomization.
Evidence obtained from well-designed cohort or case-control analytic studies,
preferably from more than one center or research group.
Evidence obtained from multiple time series with or without the intervention.
Dramatic results in uncontrolled experiments (such as the results of the
introduction of penicillin treatment in the 1940s) could also be regarded as this type
of evidence.
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III:
Opinions of respected authorities, based on clinical experience, descriptive studies,
and case reports or reports of expert committees.
Complications and side effects of IIP may include catheter dislodgement or occlusion, pump
malfunction, arthralgia, decreased libido, erectile dysfunction, hematoma, infection,
leakage, menstrual abnormalities, nausea and vomiting, nerve root irritation, peripheral
edema, pruritus, decreased cognition, concentration, or memory, and other complications
associated with seating of the device and changes in weight.
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REFERENCES
Chou R, Huffman LH. (2009) Guideline for the evaluation and management of low back
pain. Evidence review. May 13, 2009. Retrieved from:
http://www.americanpainsociety.org/. Accessed November 20, 2013.
Falco FJ, Patel V, Hayek SM, Deer TR, Geffert SC, Zhu J. (2013) Intrathecal infusion
systems for long-term management of chronic non-cancer pain: an update of
assessment of evidence. Pain Physician. 2013;16(2 Suppl):SE185-216. Retrieved from:
http://www.painphysicianjournal.com/. Accessed November 18, 2013.
Food and Drug Administration (FDA). (2012). Prometra Programmable Infusion Pump
System. February 7, 2012. Retrieved from: http://www.fda.gov/. Accessed November 26,
2013.
Hayek SM, Deer TR, Pope JE, Panchal SJ, Patel VB. (2011). Intrathecal therapy for cancer
and non-cancer pain. Pain Physician. 2011;14:219-248. Retrieved from:
http://www.painphysicianjournal.com/2011/may/2011;14;219-248.pdf. Accessed
November 22, 2013.
Institute for Clinical Systems Improvement (ICSI). (2011). Health care guideline:
assessment and management of chronic pain. November 2011. Retrieved from:
https://www.icsi.org/_asset/bw798b/ChronicPain.pdf. Accessed November 19, 2013.
Lee JW, Han KR, Kim SH, Lee JY, Kim DW, Kim C. (2011). Repetitive single subarachnoid
injections for trial administration of the intrathecal morphine pump in patients with
intractable non-cancer pain: a case report. Korean J Anesthesiol. 2011;60(2):138-141.
Malhotra VT, Root J, Kesselbrenner J, Njoku I, Cubert K, Gulati A. (2013). Intrathecal pain
pump infusions for intractable cancer pain: an algorithm for dosing without a neuraxial
trial. Anesth Analg. 2013;116(6):1364-1370.
Manchikanti L, Abdi S, Atluri S, Benyamin RM, Boswell MV, Buenaventura RM. (2013).
An update of comprehensive evidence-based guidelines for interventional techniques in
chronic spinal pain. Part II: guidance and recommendations. Pain Physician.
2013;16:S49-283. Retrieved from: http://www.painphysicianjournal.com/. Accessed
November 18, 2013.
Manchikanti L, Falco FJ, Singh V, Benyamin RM, Racz GB, Helm S. (2013). An update of
comprehensive evidence-based guidelines for interventional techniques in chronic spinal
pain. Part I: introduction and general considerations. Pain Physician. 2013;16:S1-48.
Retrieved from: http://www.painphysicianjournal.com/. Accessed November 18, 2013.
Medscape. Implantable drug pump. February 16, 2012. Retrieved from:
http://www.medscape.com/. Accessed November 27, 2013.
Medtronic. Targeted drug delivery. 2013. Retrieved from: http://www.medtronic.com/.
Accessed November 18, 2013.
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National Guideline Clearinghouse (NGC). Work Loss Data Institute (WLDI). Low back –
lumbar and thoracic (acute and chronic). March 14, 2011. Retrieved from:
http://www.guideline.gov/. Accessed November 19, 2013.
National Guideline Clearinghouse (NGC). Work Loss Data Institute (WLDI). Pain (chronic).
May 13, 2011. Retrieved from: http://www.guideline.gov/. Accessed November 19, 2013.
Paice JA, Penn RD, Shott S. (1996). Intraspinal morphine for chronic pain: a retrospective,
multicenter study. J Pain Symptom Manage. 1996;11(2):71-80.
Rauck R, Deer T, Rosen S, Padda G, Barsa J, Dunbar E. (2013). Long-term follow-up of a
novel implantable programmable infusion pump. Neuromodulation. 2013;16(2):163-167.
Rekand T, Hagen EM, Grønning M. (2012). Chronic pain following spinal cord injury.
Tidsskr Nor Laegeforen. 2012;132(8):974-979.
Rosenquist RW, Benzon HT, Connis RT, De Leon-Casasola OA, Glass DD, Korevaar WC.
(2010). Practice guidelines for chronic pain management: an updated report by the
American Society of Anesthesiologists Task Force on Chronic Pain Management and the
American Society of Regional Anesthesia and Pain Medicine. Anesthesiology.
2010;112(4):810-833. Retrieved from: http://www.asahq.org/. Accessed November 18,
2013.
Turk DC, Wilson HD, Cahana A, et al. Treatment of chronic non-cancer pain. Lancet.
2011;377(9784):2226-2235
The British Pain Society’s Cancer Pain Management (2010). A perspective from the British
Pain Society, supported by the Association for Palliative Medicine and the Royal College
of General Practitioners. January 2010. Retrieved from:
http://www.britishpainsociety.org/. Accessed November 18, 2013.
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