Opioid-Free Shoulder Arthroplasty

Phase 4

Completed

Conditions: Arthritis;Inflammatory
Opioid Use
Shoulder Osteoarthritis
Avascular Necrosis
Rotator Cuff Tear

Interventions: Drug: Gabapentin
Drug: Celecoxib
Drug: toradol
Drug: acetaminophen
Drug: regional block
Drug: propofol
Drug: IV lidocaine
Drug: rocuronium
Drug: vecuronium
Drug: sevoflurane
Drug: desflurane

Registration Number: NCT03540030

Lead Sponsor: OrthoCarolina Research Institute, Inc.

Brief Summary: Purpose of Study:

To identify and provide a safe, opioid-free treatment pathway for shoulder arthroplasty with a focus on perioperative pain control and postoperative symptoms from treatment

Detailed Description: Background and Significance:

Opioid-based analgesia has been a cornerstone of patient care in the setting of acute pain for the last century and has undergone logarithmic increase over the past twenty years. Unfortunately, the rise in utilization has brought with it a rise in opioid-induced side effects. These include constipation, nausea/vomiting, hyperalgesia, delirium, addiction/withdrawal (with 67% of those prescribed a long-term opioid program still on opioids at an average of 4.8 years of follow-up), and in some cases even respiratory depression/death. Patient expectations of opioid-based pain medication has driven a rapid rise in outpatient opioid prescriptions including both short and long-acting opioids. These prescriptions have in turn become a source of significant mortality in the United States, with nearly 20,000 deaths due to opioid overdose in 2014 alone.

There have been momentous efforts made in identifying synergistic compounds to use for acute pain management in the perioperative time period to begin to minimize the opioid requirement for pain control. These studies have focused on nerve modulation with gabapentinoids, intravenous and local administration of sodium-channel blockers such as lidocaine and bupivacaine, and even increased interest in non-steroidal anti-inflammatories and acetaminophen. At this time, no study has looked at the possibility of utilizing a multi-modal acute post-surgical pain control pathway that did not include some form of opioid medication for the general population.

Arthroplasty continues to be a dominant procedure in the orthopaedic armamentarium and accounts for well over a million surgeries done in the United States per year. With the ability to utilize targeted nerve blocks by anesthesia, and the increasing data showing efficacy of multi-modal therapy for acute pain, we propose a patient care pathway that is completely free of all opioid-based medications. From the time that patients are checked in until the time the patient follows up in clinic, they will utilize a pathway designed to eliminate pain and opioid-related side effects following shoulder arthroplasty. Our hope is that a well-designed pathway for total shoulder arthroplasty can quickly be modeled for other surgical procedures in an attempt to minimize the negative effects of opioid utilization both acutely and on a societal level.

Recruitment & Eligibility

Status: COMPLETED

Sex: All

Target Recruitment: 86

Inclusion Criteria

Patient undergoing elective primary total shoulder or reverse total shoulder arthroplasty for osteoarthritis, avascular necrosis, cuff tear arthropathy, or inflammatory arthritis etiologies
Age greater than or equal to 50.

Exclusion Criteria

Revision total shoulder arthroplasty
Chronic opioid therapy - per investigator discretion
Liver or renal insufficiency - per investigator discretion
Arthroplasty for fracture
Sickle cell disease
Workers compensation
Inability to receive block
Intervention Arm Only: Creatinine clearance less than 30 mL/min
Intervention Arm Only: Allergy to non-steroidal anti-inflammatory medications (NSAIDs).

Study & Design

Study Type: INTERVENTIONAL

Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Non-Opioid Intervention	IV lidocaine	Oral dose of both gabapentin and celecoxib (toradol if sulfa allergy) in the preop area. US-guided interscalene regional block without the aid of opioid co-medication. Intra-op management by anesthesia with non-opioid modalities but should include one dose of IV acetaminophen during the procedure. Anesthetic modalities will include, but not limited to, regional block, propofol, IV lidocaine, rocuronium/vecuronium, and sevoflurane/desflurane. If the attending anesthesiologist deems it necessary to dose with opioids during procedure, it will be recorded and reported. Liposomal bupivacaine will be injected into the peri-articular soft tissues as an adjunct to the block. Post Op, cryotherapy, gabapentin, toradol. Toradol will transition to celecoxib for the duration of the hospitalization (or meloxicam for patients with sulfa allergy). As needed medications will include both oral and IV acetaminophen, as well as up to an additional 15mg of toradol per 6hr, depending on Cr clearance.
Non-Opioid Intervention	regional block	Oral dose of both gabapentin and celecoxib (toradol if sulfa allergy) in the preop area. US-guided interscalene regional block without the aid of opioid co-medication. Intra-op management by anesthesia with non-opioid modalities but should include one dose of IV acetaminophen during the procedure. Anesthetic modalities will include, but not limited to, regional block, propofol, IV lidocaine, rocuronium/vecuronium, and sevoflurane/desflurane. If the attending anesthesiologist deems it necessary to dose with opioids during procedure, it will be recorded and reported. Liposomal bupivacaine will be injected into the peri-articular soft tissues as an adjunct to the block. Post Op, cryotherapy, gabapentin, toradol. Toradol will transition to celecoxib for the duration of the hospitalization (or meloxicam for patients with sulfa allergy). As needed medications will include both oral and IV acetaminophen, as well as up to an additional 15mg of toradol per 6hr, depending on Cr clearance.
Non-Opioid Intervention	desflurane	Oral dose of both gabapentin and celecoxib (toradol if sulfa allergy) in the preop area. US-guided interscalene regional block without the aid of opioid co-medication. Intra-op management by anesthesia with non-opioid modalities but should include one dose of IV acetaminophen during the procedure. Anesthetic modalities will include, but not limited to, regional block, propofol, IV lidocaine, rocuronium/vecuronium, and sevoflurane/desflurane. If the attending anesthesiologist deems it necessary to dose with opioids during procedure, it will be recorded and reported. Liposomal bupivacaine will be injected into the peri-articular soft tissues as an adjunct to the block. Post Op, cryotherapy, gabapentin, toradol. Toradol will transition to celecoxib for the duration of the hospitalization (or meloxicam for patients with sulfa allergy). As needed medications will include both oral and IV acetaminophen, as well as up to an additional 15mg of toradol per 6hr, depending on Cr clearance.
Non-Opioid Intervention	Gabapentin	Oral dose of both gabapentin and celecoxib (toradol if sulfa allergy) in the preop area. US-guided interscalene regional block without the aid of opioid co-medication. Intra-op management by anesthesia with non-opioid modalities but should include one dose of IV acetaminophen during the procedure. Anesthetic modalities will include, but not limited to, regional block, propofol, IV lidocaine, rocuronium/vecuronium, and sevoflurane/desflurane. If the attending anesthesiologist deems it necessary to dose with opioids during procedure, it will be recorded and reported. Liposomal bupivacaine will be injected into the peri-articular soft tissues as an adjunct to the block. Post Op, cryotherapy, gabapentin, toradol. Toradol will transition to celecoxib for the duration of the hospitalization (or meloxicam for patients with sulfa allergy). As needed medications will include both oral and IV acetaminophen, as well as up to an additional 15mg of toradol per 6hr, depending on Cr clearance.
Non-Opioid Intervention	Celecoxib	Oral dose of both gabapentin and celecoxib (toradol if sulfa allergy) in the preop area. US-guided interscalene regional block without the aid of opioid co-medication. Intra-op management by anesthesia with non-opioid modalities but should include one dose of IV acetaminophen during the procedure. Anesthetic modalities will include, but not limited to, regional block, propofol, IV lidocaine, rocuronium/vecuronium, and sevoflurane/desflurane. If the attending anesthesiologist deems it necessary to dose with opioids during procedure, it will be recorded and reported. Liposomal bupivacaine will be injected into the peri-articular soft tissues as an adjunct to the block. Post Op, cryotherapy, gabapentin, toradol. Toradol will transition to celecoxib for the duration of the hospitalization (or meloxicam for patients with sulfa allergy). As needed medications will include both oral and IV acetaminophen, as well as up to an additional 15mg of toradol per 6hr, depending on Cr clearance.
Non-Opioid Intervention	toradol	Oral dose of both gabapentin and celecoxib (toradol if sulfa allergy) in the preop area. US-guided interscalene regional block without the aid of opioid co-medication. Intra-op management by anesthesia with non-opioid modalities but should include one dose of IV acetaminophen during the procedure. Anesthetic modalities will include, but not limited to, regional block, propofol, IV lidocaine, rocuronium/vecuronium, and sevoflurane/desflurane. If the attending anesthesiologist deems it necessary to dose with opioids during procedure, it will be recorded and reported. Liposomal bupivacaine will be injected into the peri-articular soft tissues as an adjunct to the block. Post Op, cryotherapy, gabapentin, toradol. Toradol will transition to celecoxib for the duration of the hospitalization (or meloxicam for patients with sulfa allergy). As needed medications will include both oral and IV acetaminophen, as well as up to an additional 15mg of toradol per 6hr, depending on Cr clearance.
Non-Opioid Intervention	acetaminophen	Oral dose of both gabapentin and celecoxib (toradol if sulfa allergy) in the preop area. US-guided interscalene regional block without the aid of opioid co-medication. Intra-op management by anesthesia with non-opioid modalities but should include one dose of IV acetaminophen during the procedure. Anesthetic modalities will include, but not limited to, regional block, propofol, IV lidocaine, rocuronium/vecuronium, and sevoflurane/desflurane. If the attending anesthesiologist deems it necessary to dose with opioids during procedure, it will be recorded and reported. Liposomal bupivacaine will be injected into the peri-articular soft tissues as an adjunct to the block. Post Op, cryotherapy, gabapentin, toradol. Toradol will transition to celecoxib for the duration of the hospitalization (or meloxicam for patients with sulfa allergy). As needed medications will include both oral and IV acetaminophen, as well as up to an additional 15mg of toradol per 6hr, depending on Cr clearance.
Non-Opioid Intervention	rocuronium	Oral dose of both gabapentin and celecoxib (toradol if sulfa allergy) in the preop area. US-guided interscalene regional block without the aid of opioid co-medication. Intra-op management by anesthesia with non-opioid modalities but should include one dose of IV acetaminophen during the procedure. Anesthetic modalities will include, but not limited to, regional block, propofol, IV lidocaine, rocuronium/vecuronium, and sevoflurane/desflurane. If the attending anesthesiologist deems it necessary to dose with opioids during procedure, it will be recorded and reported. Liposomal bupivacaine will be injected into the peri-articular soft tissues as an adjunct to the block. Post Op, cryotherapy, gabapentin, toradol. Toradol will transition to celecoxib for the duration of the hospitalization (or meloxicam for patients with sulfa allergy). As needed medications will include both oral and IV acetaminophen, as well as up to an additional 15mg of toradol per 6hr, depending on Cr clearance.
Non-Opioid Intervention	propofol	Oral dose of both gabapentin and celecoxib (toradol if sulfa allergy) in the preop area. US-guided interscalene regional block without the aid of opioid co-medication. Intra-op management by anesthesia with non-opioid modalities but should include one dose of IV acetaminophen during the procedure. Anesthetic modalities will include, but not limited to, regional block, propofol, IV lidocaine, rocuronium/vecuronium, and sevoflurane/desflurane. If the attending anesthesiologist deems it necessary to dose with opioids during procedure, it will be recorded and reported. Liposomal bupivacaine will be injected into the peri-articular soft tissues as an adjunct to the block. Post Op, cryotherapy, gabapentin, toradol. Toradol will transition to celecoxib for the duration of the hospitalization (or meloxicam for patients with sulfa allergy). As needed medications will include both oral and IV acetaminophen, as well as up to an additional 15mg of toradol per 6hr, depending on Cr clearance.
Non-Opioid Intervention	sevoflurane	Oral dose of both gabapentin and celecoxib (toradol if sulfa allergy) in the preop area. US-guided interscalene regional block without the aid of opioid co-medication. Intra-op management by anesthesia with non-opioid modalities but should include one dose of IV acetaminophen during the procedure. Anesthetic modalities will include, but not limited to, regional block, propofol, IV lidocaine, rocuronium/vecuronium, and sevoflurane/desflurane. If the attending anesthesiologist deems it necessary to dose with opioids during procedure, it will be recorded and reported. Liposomal bupivacaine will be injected into the peri-articular soft tissues as an adjunct to the block. Post Op, cryotherapy, gabapentin, toradol. Toradol will transition to celecoxib for the duration of the hospitalization (or meloxicam for patients with sulfa allergy). As needed medications will include both oral and IV acetaminophen, as well as up to an additional 15mg of toradol per 6hr, depending on Cr clearance.
Non-Opioid Intervention	vecuronium	Oral dose of both gabapentin and celecoxib (toradol if sulfa allergy) in the preop area. US-guided interscalene regional block without the aid of opioid co-medication. Intra-op management by anesthesia with non-opioid modalities but should include one dose of IV acetaminophen during the procedure. Anesthetic modalities will include, but not limited to, regional block, propofol, IV lidocaine, rocuronium/vecuronium, and sevoflurane/desflurane. If the attending anesthesiologist deems it necessary to dose with opioids during procedure, it will be recorded and reported. Liposomal bupivacaine will be injected into the peri-articular soft tissues as an adjunct to the block. Post Op, cryotherapy, gabapentin, toradol. Toradol will transition to celecoxib for the duration of the hospitalization (or meloxicam for patients with sulfa allergy). As needed medications will include both oral and IV acetaminophen, as well as up to an additional 15mg of toradol per 6hr, depending on Cr clearance.

Primary Outcome Measures

Name	Time	Method
Post Op Pain	24 hours	Pain at patient discharge or 24-hours, whichever comes first - measured on a 0 (no pain) -10 (worst possible pain) numeric rating scale (NRS). A score of 0(no pain) is preferable to 10(worst possible pain)

Secondary Outcome Measures

Name	Time	Method
Additional Post Op Pain	6hrs, 12hrs, 2weeks, 2 months	post-operative pain: measured on a 0 (no pain) -10 (worst) numeric rating scale (NRS) at 6hrs, 12hrs, 2 weeks, and 2 months. A score of 0(no pain) is preferable to 10(worst possible pain)
Nausea	2 Months	rate of nausea
Constipation	2 Months	rate of constipation
Falls	2 Months	rate of falls
Morphine Use	In-hospital Stay	Morphine milli-equivalents In-hospital post-operative. Continuous scale of MME, no defined better/worse. Measured as number and dose of medications taken. For example, if the patient received an opioid, the drug and dose was recorded and converted to MME. A time frame of when to assess opioid use in-hospital post-operative was not used but was a continuous monitor for rescue opioid from in-hospital post-operative through discharge.
Pain Satisfaction	2 Months	Satisfaction with overall pain using Numeric Pain Rating (NRS) scale. yes, no. No being better than yes.
ASES	2 Weeks	American Shoulder and Elbow Surgeons (ASES) Shoulder Score for pain and function. Range 0-100. Low score = worse shoulder condition. Function, disability, and pain subscores (all ranges 0-50), and are summed for total ASES score.
Simple Shoulder Test	2 Months	Simple Shoulder Test (SST) activity score. Range 0-12. 0 = worse activity score.
Veterans RAND 12 Item Health Survey (VR-12©) Physical Health Subscore, and Mental Health Subscore	2 Months	quality of life using VR-12 subscores. Physical Health (PCS) subscore and Mental Health (MCS) subscore, not summed. Range reported in weighted units. Physical Health subscore: 1 point increase in PCS is associated with 6% lower total health care expenditures, 5% lower pharmacy expenditures, 9% lower rate of hospital inpatient visits, 4% lower rate of medical provider visits, 5% lower rate of hospital outpatient visits. Mental Health sub score a 1 point increase in MCS is associated with 7% lower total health care expenditures, 4% lower pharmacy expenditures, 15% lower rate of hospital inpatient visits, and 4% lower rate of medical provider visits. Both PCS/MCS are score 0-100 with 100 indicating the highest level of health.