Great strides have been made in perioperative pain management after total knee arthroplasty (TKA) leading to reduced length of hospital stay, cost reduction, improved patient satisfaction, and more rapid recovery without affecting the rates of readmission after surgery. To assure a happy patient, early recognition of patients at risk for persistent postoperative pain prior to surgery is key. Patients on chronic pain medication should be evaluated by pain management specialists with the intention of reducing overall narcotic requirement prior to TKA. Patients with high anxiety levels, pain catastrophizing, and Kinesphobia are at increased risk for increased pain and poor outcomes and should be referred for cognitive behavioral therapy and coping strategies. Finally, patients with hypersensitivity syndromes localised in the soft tissue around the knee should undergo desensitization protocols prior to TKA. Patient education on the risk of increased postoperative pain is crucial to manage expectations and optimise modifiable risk factors prior to TKA. To assure a happy patient indicated for TKA, a comprehensive pain management strategy divided into pre-, intra-, and post-operative periods should be employed

Pain management following surgery continues to challenge patients, physician-extenders, and surgeons. A recent survey of 300 patients following surgery found that 86% experienced pain following surgery with 75% describing moderate or severe pain. Pain management in 2017 has to better address patient's needs as Pain has become the “5th Vital Sign” and is used in many patient reported outcomes (for better or worse). Multimodal therapy has been defined as “Synchronous administration of ≥ 2 pharmacological agents or approaches, each with a distinct mechanism of action”. Mounting evidence supports the use of a multimodal approach to peri-operative pain management in all surgical subspecialties. A recent systematic review of intravenous ketamine showed a reduction total opioid consumption and an increase in the time to first analgesic dose needed across all studies. Gabapentin and pregabalin have both been shown to dramatically reduce the use of opioid consumption by 30%. We have worked with our anesthesia team and developed a multimodal analgesia program that includes ketorolac 10mg 3 tabs po qd × 3 days, then 10mg 2 tabs po × 2 days; gabapentin 300mg (<65 year old) or 100mg (>65 year old) 3 tabs po × 3 days; oxycodone 5mg po q 4–6 hours prn breakthrough pain and Tylenol 500mg 1–2 tabs po q 6 hours prn

Pain control is critical in the management of TKA patients and is crucial to allow for early ambulation and accelerated physical therapy. Currently data suggests that 19% of patients are not satisfied with their results following TKA, and failure to control pain may result in prolonged hospitalization, worse outcomes, and increased patient dissatisfaction. Studies suggest that local analgesics coupled with both pre- and post-operative multimodal pain management may result in improved pain control and increased patient satisfaction. Minimization of opioid use is helpful in decreasing complications, accelerating physical therapy milestones, minimizing length of stay and increasing discharge to home. Femoral nerve blocks (FNB) can reduce pain scores for up to 48 hours post-operatively, but may delay ambulation and result in an increased rate of falls. Periarticular injection (PAI) with local analgesics can provide significant short term relief comparable to FNB and can also facilitate decreased opioid consumption. One commonly used local anesthetic is bupivacaine, but the average half-life of this drug is only 2.7 hours. An alternative to this for PAI during TKA is liposomal bupivacaine (LB). LB is a multivesicular drug designed for rapid absorption, prolonged release of bupivacaine, and analgesia that is maintained for up to 72 hours with a single injection. LB exhibits a bimodal peak of distribution, one immediate associated with extra-liposomal bupivacaine, and a second 10–36 hours later associated with the release of liposomal encapsulated bupivacaine. The safety profile of LB has been investigated and adverse events are similar to standard bupivacaine and demonstrate acceptable tolerability. Multiple studies have demonstrated efficacy of this drug compared to other pain control modalities. LB is highly technique dependent and only one piece of a multimodal pain management protocol. Our study consisted of 1808 consecutive primary TKA patients from Sept 2013 to Sept 2015. Three patient cohorts were compiled by date, from Sept 2013 to May 2014 was cohort 1, consisting of FNB and PCA. Department wide adoption of LB began in May 2014 and became routinely used in all patients undergoing total joint arthroplasty at our institution. Cohort 2 entailed a PCA along with LB injection from May 2014 through Feb 2015. Cohort 3 consisted of LB injection only and was from Feb 2015 through Sept 2015. All patients undergoing TKA were eligible and there were no exclusion criteria as long as the protocols were followed. The standard multi-modal analgesia protocol was provided to all patients in all three cohorts. Prior to entering the operating room, patients received preemptive oral analgesics, consisting of: 200 mg celecoxib, 1000 mg acetaminophen, and 50 mg pregabalin. Intra-operative analgesia was chosen at the discretion of the anesthesiologist and preferentially consisted of spinal anesthesia with general anesthesia as an alternate. For all three cohorts, a peri-incisional analgesic cocktail was injected prior to closure consisting of: 40 cc 0.25% Marcaine, 5 cc of (1 mg/cc) morphine, and 1 cc of (30 mg/cc) ketorolac. Cohorts 1 and 2 received PCA post-operatively for pain control post-operatively with prn oral narcotic administration as well. Cohort 3 did not receive a PCA. The cohort treated without FNB and without a PCA using a multimodal pain management protocol including a short acting periarticular injection and a longer acting periarticular injection with LB, had equivalent pain control, less narcotic use, faster achievement of physical therapy milestones, earlier and more frequent discharge home, less complications and a lower cost of the episode of care

Abstract. Background. ‘Free From Pain’ is a drug-free, injection injection-free, lifestyle-based musculoskeletal pain management programme for seniors. The programme empowers Seniors with relevant information and inspirational metaphors whilst providing them with validated exercises. The programme is also available as a published book (ISBN-0995676941). This pilot study aimed to assess the suitability and safety of the programme's exercises and the usefulness of the book before considering a larger study. Methods. Participants used 5-point Likert scales to evaluate the exercises. A rating of three or below on a Likert scale denoted non-agreement to a positive statement regarding the exercises. A rating of four or above denoted agreement. The Usefulness Scale for Patient Information Material (USE) was utilised to assess the book. Results. Of 30 participants who attended the programme, 25 completed the questionnaire (19 females and six males), with a mean age of 76 years. All the 25 participants were in agreement that the exercises were suitable, (x? = 4.6) and safe (x? = 4.56). 23 participants would also recommend the programme to family and friends? (x? = 4.48). The USE scale is divided into three, sub-domains: cognition (knowledge obtained); emotional (individual's ability to cope with the illness); and behavioural (ability to self-manage). The mean scores for the book on the cognitive, emotional, and behavioural sub-domains were 25.48, 24.08 and 24.04, respectively. Conclusion. Results indicate that the ‘Free From Pain’ exercises are suitable and safe. The book provides educational information that empowers participants to better their musculoskeletal health

The entirety of the patient experience after contemporary total knee and total hip replacements in 2016 is markedly different from that encountered by patients just a decade ago. Ten years ago most patients were treated in a traditional sick-patient model of care and because they were assumed to require substantial hospital intervention, many cumbersome and costly interventions (e.g. indwelling urinary catheters, patient-controlled-analgesic pumps, autologous blood transfusion, continuous passive motion machines) were a routine part of the early post-operative experience. Today the paradigm has shifted to a well-patient model with a working assumption that once a patient has been medically optimised for surgery then the intervention itself, hip or knee replacement, will not typically create a sick-patient. Instead it is expected that most patients can be treated safely and more effectively with less intensive hospital intervention. While as orthopaedic surgeons we are enamored with the latest surgical techniques or interesting technologies most busy surgeons recognise that advances in peri-operative pain management, blood management, and early-mobilisation therapy protocols account for the greatest share of improvements in patient experience over the past decade. One can think pragmatically to get ahead and stay ahead of 3 predictable physiologic disturbances that adversely impact rapid recovery after knee and hip replacement: fluid/blood loss; pain; and nausea. The modern orthopaedic surgeon and his/her care team needs a simple strategy to pro-actively, not reflexively, manage each of those 3 predictable impediments to early recovery. Those surgical teams that routinely get ahead and stay ahead in each of those areas will routinely witness faster recovery, lower costs and greater patient satisfaction and that is clearly a win for patient and surgeon alike. Effective pain management improves patient satisfaction, decreases hospital stay, and facilitates discharge to home. Today's emphasis is on a multi-modal strategy that minimises the use of opioids. Most protocols use pre-operative medications including an NSAID, acetaminophen, an oral opioid and some include gabapentin. Regional anesthesia is typically preferred over general. Both peripheral nerve blocks and periarticular local anesthetic cocktail injections have proved as effective adjuncts in decreasing early post-operative pain. Post-operative oral medications delivered on a schedule, not just as needed, often include acetaminophen, an NSAID and some included gabapentin. Oral and parenteral opioids are reserved for breakthrough pain

To determine the effect of Dexamethasone on post-operative pain management in patients undergoing Total Knee Arthroplasty in terms of numerical pain rating scale and total opoid consumption. This Randomized Controlled Trail (RCT) was conducted for 02 years (7th September 2015 to 6th September 2017). All patients undergoing primary Unilateral Total Knee Replacement (TKR) for Osteoarthritis knee were included in the study. Patients with poor glycemic control (HbA1c > 7.6), Hepatic/Renal failure, corticosteroids/ Immunosuppression drug usage in the last 06 months, known psychiatric illnesses were excluded from the study. All patients were operated by consultant Orthopaedic surgeon under Spinal Anaesthesia and tourniquet control using medial para-patellar approach. Patients were randomly divided into 02 groups, A and B. 79 patients were placed in each group. Group A given 0.1mg/kg body weight Dexamethasone Intravenously 15 minutes prior to surgery and another dose 24 hours post-operatively while in group B (control group) no Dexamethasone given. Post-operative pain using the numerical pain rating scale (NRS) and total narcotics consumed converted to morphine dose equivalent noted immediately post-op, 12-, 24- and 48-hours post-operatively. Data analysis done using SPSS version 23. A total of 158 patients were included in the study. Of the total, 98 (62.02%) were females and 60 (37.98%) males. Average BMI of patients 26.94 ±3.14 kg/m2. Patients in group A required less post-operative analgesics (p < 0 .01) and had a better numerical pain rating scale score (p < 0 .01) as compared to group B. Pain scores at 24- and 48-hours post-op were significantly less for Dexamethasone group (p < 0 .01). Use of Dexamethasone per- and post-operatively reduces the pain and amount of analgesics used in patients undergoing TKA. For any reader queries, please contact . drjunaidrmc@gmail.com

The entirety of the patient experience after contemporary total knee and total hip replacements in 2016 is markedly different from that encountered by patients just a decade ago. Ten years ago most patients were treated in a traditional sick-patient model of care and because they were assumed to require substantial hospital intervention, many cumbersome and costly interventions (e.g. indwelling urinary catheters, patient-controlled-analgesic pumps, autologous blood transfusion, continuous passive motion machines) were a routine part of the early post-operative experience. Today the paradigm has shifted to a well-patient model with a working assumption that once a patient has been medically optimised for surgery then the intervention itself, hip or knee replacement, will not typically create a sick-patient. Instead it is expected that most patients can be treated safely and more effectively with less intensive hospital intervention. While as orthopaedic surgeons we are enamored with the latest surgical techniques or interesting technologies most busy surgeons recognise that advances in peri-operative pain management, blood management, and early-mobilization therapy protocols account for the greatest share of improvements in patient experience over the past decade. One can think pragmatically to get ahead and stay ahead of 3 predictable physiologic disturbances that adversely impact rapid recovery after knee and hip replacement: fluid/blood loss; pain; and nausea. The modern orthopaedic surgeon and his/her care team needs a simple strategy to proactively, not reflexively, manage each of those 3 predictable impediments to early recovery. Those surgical teams that routinely get ahead and stay ahead in each of those areas will routinely witness faster recovery, lower costs and greater patient satisfaction and that is clearly a win for patient and surgeon alike. Effective pain management improves patient satisfaction, decreases hospital stay, and facilitates discharge to home. Today's emphasis is on a multi-modal strategy that minimises the use of opioids. Most protocols use pre-operative medications including an NSAID, acetaminophen, an oral opioid and some include gabapentin. Regional anaesthesia is typically preferred over general. Both peripheral nerve blocks and periarticular local anesthetic cocktail injections have proved as effective adjuncts in decreasing early post-operative pain. Post-operative oral medications delivered on a schedule, not just as needed, often include acetaminophen, an NSAID and some included gabapentin. Oral and parenteral opioids are reserved for breakthrough pain

Introduction. The use of narcotic medications to manage postoperative pain after TJA has been associated with impaired mobility, diminished capacity to engage in rehabilitation, and lower patient satisfaction [1]. In addition, side effects including constipation, dizziness, nausea, vomiting and urinary retention can prolong post-operative hospital stays. Intraarticular administration of local anesthetics such as bupivacaine – part of a multimodal postoperative pain management regimen – reduces pain and lowers patients' length of stay [2]. In addition to its anesthetic activity, bupivacaine also has antibacterial activity, particularly against gram-positive bacteria [3]. We have developed a bupivacaine-eluting ultrahigh molecular weight polyethylene (Bupi-PE) formulation; we hypothesized that elution of bupivacaine from polyethylene could have both anesthetic and antibacterial effects in vivo. Methods. In Vivo Antibacterial Efficacy. A total of n=10 male Sprague Dawley rats (250 g) were used in this study. Polyethylene (control) or Bupi-PE plugs (2.5 mm diameter × 5 mm length) were implanted subcutaneously in the rat dorsum. After incision site closure, 5 × 10. 7. cfu of bioluminescent S. aureus were injected around the implants. Bioluminescent signal (photos/second) was measured daily. All rats were euthanized after one week. In Vivo Anesthetic Efficacy. A total of n=10 male Sprague Dawley rats (250 g) were used in this study. Polyethylene (control) and Bupi-PE plugs (2.5 mm diameter × 5 mm length) were implanted into rat knees via a lateral transcondylar approach (Figure 1a). Efficacy was determined by performing a walking track analysis using a highly sensitive Tekscan. ®. sensor (VHR, 5101) (Figure 1b). Walking tracks were performed at baseline (pre-surgery) and every 24 hours for two weeks. All rats were euthanized after two weeks. Results. In Vivo Antibacterial Efficacy. One control rat expired at day 3 and another one expired in day 7. None of the Bupi-PE rats expired during the study. Significantly less bacterial load was observed in rats receiving Bupi-PE, starting at 24 hr post implantation, continuing until the end of study (day 7) (Figure 2). In Vivo Anesthetic Efficacy. 24 hr post surgery, rats in the control group loaded their unoperated hindlimb significantly more than their operated hindlimb. Rats with the Bupi-PE implant loaded both their hindlimbs similarly (Figure 1c). Discussion. The antibiotic activity of the Bupi-PE against an acute S. aureus infection in the subcutaneous dorsum determined that bupivacaine elution from UHMWPE effectively eradicated bacteria within the implant perimeter. In the joint, the release of bupivacaine allowed prompt weightbearing and joint mobilization compared to controls. Conclusion. Bupivacaine-eluting UHMWPE effectively reduced bacterial load in murine subcutaneous dorsum and reduced postsurgical pain in a murine intra-articular model. This material can be promising for use as infection prophylaxis and pain management after TJA. For any figures or tables, please contact authors directly (see Info & Metrics tab above).

Over the past fifteen years, the average length of stay for total knee arthroplasty (TKA) has gradually decreased from several days to overnight. The most logical and safest next step is outpatient arthroplasty. Through the era of so-called minimally invasive surgery, perhaps the most intriguing advancements are not related to the surgery itself, but instead the areas of rapid recovery techniques and perioperative protocols. Rapid recovery techniques and perioperative protocols have been refined to allow for same-day discharge with improved outcomes. As mentioned, the single most important outcome from the minimally invasive movement has been the multi-modal approach to pain management of patients undergoing arthroplasty. Along with blood loss management, using tranexamic acid and hypotensive anesthetic techniques, this multi-modal program is the most important variable in reducing or avoiding side-effects. In any arthroplasty procedure, side-effects that need to be addressed include the negative effects of narcotics and blood loss. Anesthetic techniques, utilizing local nerve blocks, such as the adductor canal block and sciatic blocks for knee arthroplasty augment intraoperative anesthesia and provide postoperative pain relief and quicker mobilization. Additionally, pericapsular injection with a cocktail of local anesthetic helps significantly with pain relief and recovery reducing the amount of oral narcotic utilised in the early postoperative period. Many have utilised liposomal bupivacaine in these cocktails to successfully increase the period of pain relief. The use of multi-modal perioperative protocols can help avoid narcotics and helps avoid the side-effects of nausea. We also utilise an aggressive prophylactic antiemetic program with dexamethasone, ondansetron and a scopolamine patch. Patients without any significant cardiovascular history are given celecoxib preoperatively, which is continued for approximately two weeks postoperatively. Immediately postoperative, acetaminophen and additional dexamethasone are administered intravenously. The multi-modal protocols to address fear, risk, and side-effects will increase the eligibility for outpatient surgery and decrease the need for overnight hospitalization. By focusing on the patient and avoiding over-treatment, outpatient arthroplasty is quickly becoming the standard of care for total hip replacement in the same way other procedures transitioned from hospital in-patient surgeries to ambulatory procedures

Perhaps the most significant developments in joint replacement surgery in the past decade have been in the area of multimodal pain management. The hallmark of this program is preemptive pain control with oral anti-inflammatory agents, gabapentin, IV acetaminophen, regional anesthetic blocks that preserve quadriceps function for TKA (adductor canal block) and pericapsular local anesthetics. Over the past two years utilising this type of program over 50% of our joint replacement patients are now returning home the day of surgery

Purpose. To evaluate the effectiveness of post-operative pain management using the intra-operative peri-articular injection(PAI) and/or electromyography (EMG)-guided preoperative femoral nerve block (FNB) in total knee arthroplasty(TKA). Materials and Methods. From March 2013 to February 2014, 90 knees which underwent primary TKA by one surgeon were included in our study. The patients were classified into three groups; a single injection FNB with an EMG guide (Group I, 30 knees), intra-operative PAI (Group II, 30 knees) and both FNB and PAI (Group III, 30 knees). Pain at rest and moving was evaluated by Visual Analogue Scale (VAS) at postoperative 0, 4, 8, 24 and 48 hours. Postoperative range of motion, time to walking, total blood loss, amount of opioid consumption and complications were compared in each group. Results. VAS immediately after surgery was 67.9 in group I, 54.6 in group II and 54.7 in group III. VAS was significantly higher in group I than group II and III (p=0.005), but was not significantly different between group II and III (p>0.05). VAS at postoperative 4 and 8hr showed similar results. VAS at postoperative 24 hr was 49.6 in group I, 56.4 in group II and 46.7 in group III, which was significantly higher in group II than group I and III (p=0.043). After postoperative 48hr, there were no differences in group I, II and III. The total amount of opioid consumption in group III was smaller than that in group I and II (p=0.017). There were no differences in postoperative range of motion, time to walking and total blood loss. There was one case with temporary peroneal nerve palsy in group II and no infection in all cases. Conclusion. PAI was more effective than FNB for early (0∼8hr) postoperative period after TKA. However, PAI showed rebound pain at 24hr after TKA. PAI in combination with FNB could enhance the effect of postoperative pain management from immediate postoperative period to 24hr

Perhaps the most significant developments in joint replacement surgery in the past decade have been in the area of multimodal pain management. This has reduced length of stay in the inpatient hospital environment opening the opportunity for cost savings and even outpatient joint replacement surgery for appropriately selected patients. The hallmark of this program is pre-emptive pain control with oral anti-inflammatory agents, gabapentin, regional anesthetic blocks that preserve quad function for TKA (adductor canal block) and pericapsular long acting time release local anesthetics with the addition of injectable ketorolac and IV acetaminophen. Over the past two years utilising this type of program over 60% of our partial knee replacement patients are now returning home the day of surgery. We currently utilise a long acting local anesthetic delivery medication consisting of microscopic, spherical, lipid-based particles composed of a honeycomb-like structure of numerous nonconcentric internal aqueous chambers containing encapsulated bupivacaine separated from adjacent chambers by lipid membranes. Bupivacaine is released from the particles with diffusion of the drug over an extended period of time that more closely matches the time course of postsurgical pain following joint replacement surgery. Trials have demonstrated that a single dose administered via deep tissue infiltration is effective at reducing pain up to 72 hours. This has been trialed in TKA as well

Perhaps the most significant developments in joint replacement surgery in the past decade have been in the area of multimodal pain management. This has reduced length of stay and opened the opportunity for cost savings and even outpatient joint replacement surgery for appropriately selected patients. The hallmark of this program is preemptive pain control with oral anti-inflammatory agents, gabapentin, regional anesthetic blocks that preserve quad function for TKA (adductor canal block) and long acting local anesthetics with the addition of injectable ketorolac and acetaminophen. Over the past two years utilising this type of program over 60% of our partial knee replacement patients are now returning home the day of surgery. We currently utilise a long acting local anesthetic delivery medication consisting of microscopic, spherical, lipid-based particles composed of a honeycomb-like structure of numerous nonconcentric internal aqueous chambers containing encapsulated bupivacaine separated from adjacent chambers by lipid membranes. Bupivacaine is released from the particles with diffusion of the drug over an extended period of time that more closely matches the time course of postsurgical pain following joint replacement surgery. Trials have demonstrated that a single dose administered via deep tissue infiltration is effective at reducing pain up to 72 hours

Total Knee Arthroplasty (TKA) is a successful treatment for end stage osteoarthritis of the knee joint. However, post-operative pain can lead to patient dissatisfaction and poorer outcomes. Cooled radiofrequency nerve ablation (CRNA) has reportedly been effective at treating pain osteoarthritic knee pain by targeting the periarticular nerves of the knee. We undertook a prospective, controlled pilot study to determine if CRNA provides effective post-operative analgesia when utilised intra-operatively during total knee arthroplasty.

Participants were recruited from January 2019 to February 2020. Those meeting inclusion criteria underwent TKA with intraoperative CRNA to 6 target sites prior to the cementing of implants. The primary outcomes were pain scores and opiate usage in the first 4 days post-operatively, then weekly up to 6 weeks. A total of 62 patients were screened and allocated sequentially; 18 were recruited to the control group and 12 recruited to the study group. The two groups did not have any significant difference in demographics.

There were no clinically significant differences between the two groups in terms of pain scores nor opiate usage. There were complications as a result of the intervention.

This study demonstrated no benefit of using intraoperative CRNA for improving post-operative pain scores or reducing opiate use after TKA.

Refinement of surgical techniques, anaesthesia protocols, and patient selection have facilitated this transformation to same day discharge for arthroplasty care, most notably Partial Knee Arthroplasty (PKR). The trend for early discharge has already happened for procedures formerly regarded as “inpatient” procedures such as upper extremity surgery, arthroscopy, ACL reconstruction, foot and ankle procedures, and rotator cuff repair. Our program began focused on Partial Knee Arthroplasty (PKA) and has now expanded to primary TKA and THA, and select revision cases. Over the past few years we have performed 1,230 Knee Arthroplasty procedures with no readmissions for pain control. Average age and age range is identical to our inpatient cohort for our partial knee cases. Patient selection is based on medical screening criteria and insurance access. PKA is the ideal procedure to begin your transition to the outpatient space. We currently perform medial PKA, lateral PKA, and patellofemoral arthroplasty as outpatient cases. The program centers on the patient, their family, home recovery, pre-operative education, efficient surgery, and represents a shift in the paradigm of arthroplasty care. It can be highly beneficial to patients, surgeons, anaesthesia, facility costs, and payors as arthroplasty procedures shift to the outpatient space. Perhaps the most significant developments in joint replacement surgery in the past decade have been in the area of multimodal pain management. This has reduced length of stay in the inpatient hospital environment opening the opportunity for cost savings and even outpatient joint replacement surgery for appropriately selected patients. The hallmark of this program is meticulous protocol execution. Pre-emptive pain control with oral anti-inflammatory agents, gabapentin, regional anesthetic blocks that preserve quad function for TKA (adductor canal block) and pericapsular long acting local anesthetics with the addition of injectable ketorolac and IV acetaminophen are key adjuncts. Over the past two years utilizing this type of program over 60% of our partial knee replacement patients are now returning home the day of surgery. Concerns over readmission are appropriate. The rates of complications and readmissions are less than our inpatient cohort in appropriately selected cases with a standardised care map. We believe this brings the best VALUE to the patients, surgeons, and the arthroplasty system

Total hip arthroplasty (THA) is reliable and reproducible in relieving pain and improving function in patients with end-stage arthritis of the hip joint. With improvements in surgical technique and advances in implant and instrument design, there has been a shift in focus from the technical aspects of the surgical procedure to improving the overall patient experience. In addition, shifts in medico-economic trends placed a premium on early patient mobilization, early discharge, and maximizing patient satisfaction. Arguably, a single most important advance in arthroplasty over the past 2 decades has been the development of multimodal pain protocols that form the foundation of many of the rapid recovery protocols today.

The principal concept of multimodal analgesia is pain reduction through the utilization of multiple agents that synergistically act at various nodes of the pain pathway, thus, minimizing patient exposure to each individual agent and opioids in order to prevent opioid related adverse events (ORAE). Regional anesthesia has been shown to reduce post-operative pain, morphine consumption, and nausea and vomiting compared to general anesthesia but not length of stay. Additionally, general anesthesia has been shown to be associated with increased rates of post-operative adverse events, The use of peripheral nerve blocks in the form of sciatic, femoral or fascia iliaca blocks have not been shown to significantly reduce post-operative pain compared to controls.

Periarticular infiltration of local anesthetics has been shown in some settings to reduce pain during the immediate post-operative period (<24 h). However, no significant differences were noted in terms of early recovery or complications. The use of liposomal bupivacaine (LB) local infiltration decreased pain and shortened length of stay comparable to patients receiving a fascia iliaca compartment block, and has been shown in relatively few randomised trials to provide improved pain relief at 24 hours only compared to conventional bupivacaine. Continuous intra-articular infusion of bupivacaine after THA did not significantly further reduce post-operative pain compared to placebo.

In summary, the use of regional anesthesia when appropriate along with local anesthetic infiltration in the setting of a robust multimodal pain protocol minimises pain and complications while maximizing patient satisfaction following THA.

Introduction. There is no consensus on the ideal pain management strategy following total hip arthroplasty (THA). This study sought to identify immediate changes in the hospital course of patients undergoing primary THA following implementation of a rapid recovery anesthesia and multimodal management of pain (RAMP) protocol. For this study, rapid recovery anesthesia describes the use of preoperative non-narcotic medication in conjunction with neuraxial anesthesia techniques confined to the operating room only. The multimodal pain regimen consists of pre- and post-operative high dose nonsteroidal anti-inflammatories (NSAIDs), gabapentin, and antiemetics with or without intraoperative periarticular anesthetic injection. We hypothesized that the implementation of a RAMP protocol would lead to decreased reported pain scores, decreased narcotic use, and a shorter hospital stay in patients undergoing primary THA. Methods. This retrospective cohort study performed at a multi-surgeon high-volume institution reviewed the records of 81 consecutive patients who underwent primary THA utilizing traditional anesthesia and an opioid-dependentpain management techniques between June to September 2014 compared to 78 patients who underwent primary THA after implementation of the RAMP protocol between November 2014 to February 2015. The length of stay (LOS), pain scores, narcotic use, and other clinical data were recorded for each study group. Equality of variance was confirmed prior to statistical analysis using t-test for equality of means. Results. There was no significant difference in the demographics, body mass index, ASA classification, or Charleson Comorbidity Index between the two cohorts. The average LOS was significantly shorter after implementation of the RAMP protocol with a mean of 2.10 ± 1.1 days versus 2.89 ± 1.0 days. Total amount of narcotics used was significantly less with the RAMP protocol (Fig 1). Patient reported pain scores were improved throughout the hospital stay with patients receiving the RAMP protocol reporting significantly less pain beginning the morning of POD 1 (Fig 2). No significant decrease in kidney function was seen following the use of high dose NSAIDs (p=0.18). Conclusions. The implementation of a RAMP protocol in patients undergoing primary total hip arthroplasty has resulted in an immediate shorter length of stay with less narcotics use and improved reported pain scores. To our knowledge, this is the first study demonstrating a statistically significantly shorter length of stay associated with a multimodal pain protocol. This study supports the benefits of broad implementation a RAMP protocol for total hip arthroplasty

The importance of mitigating pain for patients undergoing total shoulder arthroplasty is extremely relevant for purposes of being able to initiate early functional rehabilitation and activities of daily living. The process, however, does not commence after surgery but rather before surgery. Careful patient education and instruction, including pre-operative exercises to maximise mobility, strength and endurance within the limited range of motion is quite helpful. Adjunctive therapy includes preemptive ultrasound-guided intrascalene regional anesthesia, immediate post-operative peri-incisional injection of liposomal bupivacaine, post-operative use of waterproof Tegaderm^TM dressing to allow warm showers early on in the rehabilitation period, peri-operative use of Cox 2 inhibitors and a gentle, therapist-guided passive exercise program focusing on relaxation techniques. This in combination with patient-controlled analgesic pumps, careful surgical technique providing adequate soft tissue releases and removal of potential pain generators such as the long tendon of the biceps and an arthritic AC joint all contribute to the minimization of the patient's pain experience, and offers relatively early weaning from parenteral narcotics in the first 24 hours, and oral narcotics within the first 7–10 days post-operatively.

The goals of any rehabilitation protocol should be to control pain, improve ambulation, maximise range of motion, develop muscle strength, and provide emotional support. Over 85% of TKA patients will recover knee function regardless of which rehabilitation protocol is adopted but the process can be facilitated by proper pain control, physical therapy, and emotional support. The remaining 15% of patients will have difficulty obtaining proper knee function secondary to significant pain, limited pre-operative motion, and/or the development of arthrofibrosis. This subset will require a special, individualised rehabilitation program, which may involve prolonged oral analgesia, continued physical therapy, more diagnostic studies and occasionally manipulation. Controlling pain is the mainstay of any treatment plan. The program described herein has been used at Ranawat Orthopaedics over the last 10 years in more than 2000 TKAs.

Peri-articular injections (PAI) have become an important component in many multimodal pain protocols after total knee arthroplasty (TKA). Liposomal bupivacaine has emerged as a highly marketed and touted ingredient for PAI. However, the true efficacy of this material, particularly compared with less expensive PAI “cocktails” such as traditional bupivacaine or ropivacaine, has not been proven to date.

Ropivacaine is considered a long-active local analgesic and in combination with epinephrine, ketorolac and clonidine has been shown to be a very effective PAI in a multimodal pain program. Liposomal bupivacaine has been similarly touted as a long-acting PAI. Initial reports provided support for liposomal bupivacaine PAI's providing similar pain relief as epidurals or femoral nerve blocks. The authors of these studies tout comparable pain control with decreased length of stay attributable to avoiding the side effects of epidurals and regional blocks. However, the ultimate clinical issue relates to how liposomal bupivacaine PAI's compares to traditional PAI cocktail ingredients such as bupivacaine and ropivacaine, which also avoid deleterious effects of regional analgesia, and at a much cheaper price point. Fortunately the highest quality research to date, which includes randomised prospective trials and retrospective controlled cohort studies, have reported consistent results. In a retrospective cohort study comparing a traditional ropivacaine and epinephrine versus liposomal bupivacaine PAI demonstrated no difference between the two groups in inpatient pain scores when used in a comprehensive multimodal pain control program. Further, two prospective randomised trials reported no difference in liposomal bupivacaine PAI compared to a traditional PAI of either bupivacaine or ropivacaine, epinephrine, ketorolac and clonidine. Finally, there have been some authors who contend the efficacy of liposomal bupivacaine PAI's is entirely dependent on a meticulous injection technique, however, comparative studies against traditional PAI ingredients with this recommended technique do not exist.

In summary, the existing data supports that liposomal bupivacaine is an effective PAI that can be used to provide comparable pain relief to that achieved by regional blocks. However, liposomal bupivacaine has not been shown to provide superior pain relief when compared to traditional ropivacaine or bupivacaine PAI's in multimodal pain protocols after TKA. Further, liposomal bupivacaine is prohibitively priced at approximately six times that of ropivacaine-based PAI cocktails. Therefore, the “game changer” is likely the implementation of peri-articular injections as an essential component of multimodal pain control programs and NOT liposomal bupivacaine.