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Opioid medications are associated with many side effects and the risk of abuse or overdose. Orthopaedic surgeons are currently investigating ways to control pain after surgery while limiting the amount of opioid medications prescribed. One way to reduce the amount of opioid medications prescribed, and potentially avoid opioid-associated adverse events, is to use multiple non-opioid medications and anesthetic drugs before surgery, during surgery, and after surgery. This study aims to evaluate a protocol with non-opioid pain medications to reduce the need for opioid medication after shoulder surgery.
The United States constitutes <5% of the world's population but over 80% of the opioid supply and 99% of the hydrocodone supply. In 2014, there were 18,893 deaths from prescription drug overdose, and orthopaedic surgeons are the third highest prescribing physicians for opioids. Surgeons often prescribe opioids to minimize postoperative pain and to reduce the likelihood of readmission for pain. Available data suggests that orthopaedic surgeons are the most likely physicians to prescribe opioids to Medicare patients. Among Medicare patients, opioid prescriptions are over 7 times more likely to come from an orthopaedic surgeon than another type of physician. Yet, despite the significant amount of opioids prescribed by orthopaedic surgeons, orthopaedic surgeons often have one of the highest readmission rates for post-operative pain. Many studies have investigated the utilization of opioids after surgery to assess surgeon's tendencies to overprescribe, demographics of those likely to overuse, and adverse events of opioid abusers.
A recent paper by Kim et al. prospectively investigated opioid utilization after upper extremity surgery. This study (n=1,416) showed an opioid utilization rate of just 34%, taking an average 8.1 pills out of 24 prescribed. Patients aged 30-39, those having joint procedures, upper extremity/shoulder surgery, or self-pay/Medicaid insurance were all far more likely to overuse opioids. The study concluded that their surgeons prescribed 3 times the required opioid following surgery and gave recommendations for opioid distribution based on location, procedure type, and patient risk factors. This study's identification of over prescription is congruent with a study completed by Bates et al that showed 67% of patients had a surplus of medications, with 92% not receiving proper medication disposal instructions.
Other recent literature has attempted to risk stratify patients who are more likely to abuse prescription opioids. Morris et al. identified various risk factors including: family history of substance abuse, nicotine dependency, age <45, psychiatric disorders, and lower level of education.These risk factors are associated with aberrant behaviors (non-compliance, early refill request, "lost or stolen" medication), which should raise concerns for any provider prescribing opioids.
Studies have shown that patients who are on chronic opioid therapy before surgery have worse outcomes. A recent study compared chronic opioids users (n= 35,068) versus those who were opioid-naïve at the time of total knee arthroplasty (TKA) and found the opioid group had more opioid scripts filled per patient at discharge as well as at 3, 6, and 9 months (0.63 scripts/patient vs. 1.2 scripts/patient, p<0.05). These patients also had a higher Charlson Comorbidity Index (p<0.05) and higher rates of respiratory failure, acute kidney failure, pneumonia, all post-operative infections, and infections requiring return to the OR. The study concluded patients should have their opioid consumption controlled during the pre-operative and peri-operative period.
In addition to the complications of opioid medications experienced by orthopaedic patients, a recent nationwide retrospective analysis presents an unintended yet severe problem associated with opioid prescriptions. The incidence of pediatric hospitalizations for opioid toxicity nearly tripled from 1997 to 2012. The over-prescription of opioids creates a readily available source for accidental ingestion by younger children and for intentional opioid overdose by older pediatric/adolescent patients. In fact, a family member's leftover pills have been described as the number one source for pediatric opioid overdose. Moreover, the Center for Disease Control reported that in 2015 the U.S. saw its highest incidence of opioid-related death. Given the frequency and severity of opioid diversion and misuse, orthopaedic surgeons should consider the best methods for controlling patients postoperative pain and also avoid facilitating opiate misuse, whether by orthopaedic patients or other community members. With this goal in mind, this study will investigate regimens for effective postoperative pain control that also minimize the total amount of opioids prescribed.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Traditional (Standard) Protocol | Other | Preoperative Single shot interscalene block (30 mL 0.5 ropivacaine), postoperative morphine patient controlled analgesia (1 mg/10 min/30 mg) with Hydrocodone-Acetaminophen (oral, 5/325 mg, 1 tab q4h pro re nata (PRN) for pain score of 1-3), Hydrocodone-Acetaminophen (oral, 10/325 mg, 1 tab q4h PRN for pain score of 4-6) Morphine injectable solution (2 mg IV q3h PRN for pain score 7-10), and oxycodone hydrochloride (oral, 10 mg q12h x2 doses) through postoperative day one. Discharged from hospital with hydrocodone bitartrate and acetaminophen (Norco) (5/325 mg or 10/325 mg, 1-2 oral tabs q4-6h PRN pain) script. |
|
| Multimodal Anesthesia and Analgesia | Experimental | Under age 75: Preop: acetaminophen 1000 mg oral, celecoxib 400 mg oral. Interscalene block (30 ml 0.5% ropivacaine with 1:200,000 epinephrine). Intraop: ketorolac 15 mg IV, acetaminophen injectable product. Postop: acetaminophen 500 mg oral, oxycontin 10 mg oral. Breakthrough: ketorolac 15 mg IV, oxycodone 10 mg oral. Floor: tramadol 100 mg q6h oral, acetaminophen 1 g q8h oral, celecoxib 200 mg q12h oral, ketorolac 15 mg IV q6h. Breakthrough: Pain scores 4-6: oxycodone 5 mg q4h PRN oral, pain scores 7-10: oxycodone 10 mg q4h PRN oral. Discharge: acetaminophen 1 g q8h oral, tramadol 100 mg q8h oral, celecoxib 200 mg q12h oral or meloxicam 15 mg daily oral, oxycodone 5 mg q4h PRN oral. 75 or older: Same except: Preop: celecoxib 200 mg oral. PACU meds: acetaminophen 500 mg oral. No OxyER. |
|
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Acetaminophen | Drug | Acetaminophen Tablet |
|
| Measure | Description | Time Frame |
|---|---|---|
| Number of Oxycodone tablets | Number of tablets taken by patient after hospital discharge | From time of discharge until the date the subject is no longer using oxycodone or up 90 days after surgery, whichever came first |
| Measure | Description | Time Frame |
|---|---|---|
| Patient Reported Outcome Measures | Standard shoulder surveys assessing activity and pain | administered preoperatively, 6 weeks, 3 months |
| Shoulder range of motion and strength testing | postoperative shoulder range of motion and strength testing |
| Measure | Description | Time Frame |
|---|---|---|
| Illinois Prescription Monitoring Program (IPMP) | Patient compliance with IPMP | Up to 90 days |
Inclusion Criteria:
Exclusion Criteria:
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| Name | Affiliation | Role |
|---|---|---|
| Gregory P Nicholson, MD | Rush University Medical Center | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Rush University Medical Center | Chicago | Illinois | 60612 | United States |
| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 27869630 | Background | Kim N, Matzon JL, Abboudi J, Jones C, Kirkpatrick W, Leinberry CF, Liss FE, Lutsky KF, Wang ML, Maltenfort M, Ilyas AM. A Prospective Evaluation of Opioid Utilization After Upper-Extremity Surgical Procedures: Identifying Consumption Patterns and Determining Prescribing Guidelines. J Bone Joint Surg Am. 2016 Oct 19;98(20):e89. doi: 10.2106/JBJS.15.00614. | |
| 25911660 |
| Label | URL |
|---|---|
| Opioid Addiction Facts and Figures 2016 from the American Society of Addiction Medicine | View source |
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| Type | Includes Protocol | Includes SAP | Includes ICF | Document Label | Document Date | Document Uploaded Date | Document File Name |
|---|---|---|---|---|---|---|---|
| ICF | No | No | Yes | Informed Consent Form | Sep 12, 2018 | Aug 6, 2019 |
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| Celecoxib 200mg | Drug | Celecoxib Tablet |
|
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| Celecoxib 400 mg | Drug | Celecoxib Tablet |
|
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| Ropivacaine | Drug | Ropivicaine nerve block (injection) |
|
| Ketorolac | Drug | ketorolac injection |
|
|
| Acetaminophen Injectable Product | Drug | Acetaminophen injection |
|
|
| Oxycodone | Drug | oxycodone tablet |
|
|
| Tramadol | Drug | Tramadol tablet |
|
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| Morphine Injectable Solution | Drug | Morphine Patient Controlled Analgesia |
|
|
| hydrocodone bitartrate and acetaminophen | Drug | Norco tablet |
|
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| Morphine | Drug | morphine injection |
|
| Oxycodone Hydrochloride | Drug | oxycodone hydrochloride tablet |
|
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| Meloxicam | Drug | meloxicam tablet |
|
|
| tested as appropriate at 3 weeks, 6 weeks, and 3 months |
| Complications | Deep vein thrombosis, pulmonary embolism, return to surgery, hospital readmission, superficial or deep infection, periprosthetic fracture, cerebrovascular accident or transient ischemic attack, dislocation, and opioid withdrawal | Up to 90 days |
| Pain Score | Inpatient Pain Score- Visual Analog Scale (VAS) for pain. This is a standard pain evaluation scale rating pain 0 (no pain) to 10 (worst imaginable pain). Lower scores indicate a better outcome. | From time of randomization until the date of hospital discharge, assessed up to 90 days after surgery. |
| Postoperative Inpatient Opioid Utilization | Amount of opioid medications taken by patient in hospital | From time of randomization until the date of hospital discharge, assessed up to 90 days after surgery. |
| Long-term Pain Scores | Pain scores of patient after hospital discharge- Visual Analog Scale (VAS) for pain. This is a standard pain evaluation scale rating pain 0 (no pain) to 10 (worst imaginable pain). Lower scores indicate a better outcome. | Assessed on a weekly basis from the time of discharge up to 90 days after surgery. |
| Morris BJ, Mir HR. The opioid epidemic: impact on orthopaedic surgery. J Am Acad Orthop Surg. 2015 May;23(5):267-71. doi: 10.5435/JAAOS-D-14-00163. |
| 21168869 | Background | Bates C, Laciak R, Southwick A, Bishoff J. Overprescription of postoperative narcotics: a look at postoperative pain medication delivery, consumption and disposal in urological practice. J Urol. 2011 Feb;185(2):551-5. doi: 10.1016/j.juro.2010.09.088. Epub 2010 Dec 18. |
| 27802492 | Background | Gaither JR, Leventhal JM, Ryan SA, Camenga DR. National Trends in Hospitalizations for Opioid Poisonings Among Children and Adolescents, 1997 to 2012. JAMA Pediatr. 2016 Dec 1;170(12):1195-1201. doi: 10.1001/jamapediatrics.2016.2154. |
| 25938654 | Background | Moreno MA. Page for patients. The misuse of prescription pain medicine among children and teens. JAMA Pediatr. 2015 May;169(5):512. doi: 10.1001/jamapediatrics.2014.2128. No abstract available. |
| 20668969 | Background | Della Valle CJ, Dittle E, Moric M, Sporer SM, Buvanendran A. A prospective randomized trial of mini-incision posterior and two-incision total hip arthroplasty. Clin Orthop Relat Res. 2010 Dec;468(12):3348-54. doi: 10.1007/s11999-010-1491-5. Epub 2010 Jul 29. |
| 28375887 | Background | Namdari S, Nicholson T, Abboud J, Lazarus M, Steinberg D, Williams G. Randomized Controlled Trial of Interscalene Block Compared with Injectable Liposomal Bupivacaine in Shoulder Arthroplasty. J Bone Joint Surg Am. 2017 Apr 5;99(7):550-556. doi: 10.2106/JBJS.16.00296. |
| Opioid Use, Misuse, and Abuse in Orthopaedic Practice from the American Academy of Orthopaedic Surgeons | View source |
| White House Report-Continued Rise in Opioid Overdose Deaths in 2015 Shows Urgent Need for Treatment | View source |
| ICF_000.pdf |
| ID | Term |
|---|---|
| D020069 | Shoulder Pain |
| ID | Term |
|---|---|
| D018771 | Arthralgia |
| D007592 | Joint Diseases |
| D009140 | Musculoskeletal Diseases |
| D010146 | Pain |
| D009461 | Neurologic Manifestations |
| D012816 | Signs and Symptoms |
| D013568 | Pathological Conditions, Signs and Symptoms |
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| ID | Term |
|---|---|
| D000082 | Acetaminophen |
| D000068579 | Celecoxib |
| D000077212 | Ropivacaine |
| D020910 | Ketorolac |
| D020911 | Ketorolac Tromethamine |
| D010098 | Oxycodone |
| D014147 | Tramadol |
| D009020 | Morphine |
| D006853 | Hydrocodone |
| C514822 | oxycodone-acetaminophen |
| D000077239 | Meloxicam |
| ID | Term |
|---|---|
| D000083 | Acetanilides |
| D000813 | Anilides |
| D000577 | Amides |
| D009930 | Organic Chemicals |
| D000814 | Aniline Compounds |
| D000588 | Amines |
| D000096926 | Benzenesulfonamides |
| D013449 | Sulfonamides |
| D001555 | Benzene Derivatives |
| D006841 | Hydrocarbons, Aromatic |
| D006844 | Hydrocarbons, Cyclic |
| D006838 | Hydrocarbons |
| D013450 | Sulfones |
| D013457 | Sulfur Compounds |
| D011720 | Pyrazoles |
| D001393 | Azoles |
| D006573 | Heterocyclic Compounds, 1-Ring |
| D006571 | Heterocyclic Compounds |
| D007213 | Indomethacin |
| D007211 | Indoles |
| D006574 | Heterocyclic Compounds, 2-Ring |
| D000072471 | Heterocyclic Compounds, Fused-Ring |
| D003061 | Codeine |
| D009022 | Morphine Derivatives |
| D009019 | Morphinans |
| D053610 | Opiate Alkaloids |
| D000470 | Alkaloids |
| D006572 | Heterocyclic Compounds, Bridged-Ring |
| D006576 | Heterocyclic Compounds, 4 or More Rings |
| D010616 | Phenanthrenes |
| D011084 | Polycyclic Aromatic Hydrocarbons |
| D011083 | Polycyclic Compounds |
| D003511 | Cyclohexanols |
| D000441 | Hexanols |
| D005233 | Fatty Alcohols |
| D000438 | Alcohols |
| D004123 | Dimethylamines |
| D008744 | Methylamines |
| D008055 | Lipids |
| D013843 | Thiazines |
| D013844 | Thiazoles |
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