A Pharmacological Evaluation of the Analgesic Effect and Hippocampal Protein Modulation of the Ketamine Metabolite (2R,6R)-Hydroxynorketamine in Murine Pain Models.

BACKGROUND: The ketamine metabolite (2R,6R)-hydroxynorketamine ([2R,6R]-HNK) has analgesic efficacy in murine models of acute, neuropathic, and chronic pain. The purpose of this study was to evaluate the α-amino-3-hydroxyl-5-methyl-4-isoxazole-propionate (AMPA) dependence of (2R,6R)-HNK analgesia and protein changes in the hippocampus in murine pain models administered (2R,6R)-HNK or saline. METHODS: All mice were CD-1 IGS outbred mice. Male and female mice underwent plantar incision (PI) (n = 60), spared nerve injury (SNI) (n = 64), or tibial fracture (TF) (n = 40) surgery on the left hind limb. Mechanical allodynia was assessed using calibrated von Frey filaments. Mice were randomized to receive saline, naloxone, or the brain-penetrating AMPA blocker (1,2,3,4-Tetrahydro-6-nitro-2,3-dioxobenzo [f]quinoxaline-7-sulfonamide [NBQX]) before (2R,6R)-HNK 10 mg/kg, and this was repeated for 3 consecutive days. The area under the paw withdrawal threshold by time curve for days 0 to 3 (AUC 0-3d ) was calculated using trapezoidal integration. The AUC 0-3d was converted to percent antiallodynic effect using the baseline and pretreatment values as 0% and 100%. In separate experiments, a single dose of (2R,6R)-HNK 10 mg/kg or saline was administered to naive mice (n = 20) and 2 doses to PI (n = 40), SNI injury (n = 40), or TF (n = 40) mice. Naive mice were tested for ambulation, rearing, and motor strength. Immunoblot studies of the right hippocampal tissue were performed to evaluate the ratios of glutamate ionotropic receptor (AMPA) type subunit 1 (GluA1), glutamate ionotropic receptor (AMPA) type subunit 2 (GluA2), phosphorylated voltage-gated potassium channel 2.1 (p-Kv2.1), phosphorylated-calcium/calmodulin-dependent protein kinase II (p-CaMKII), brain-derived neurotrophic factor (BDNF), phosphorylated protein kinase B (p-AKT), phosphorylated extracellular signal-regulated kinase (p-ERK), CXC chemokine receptor 4 (CXCR4), phosphorylated eukaryotic translation initiation factor 2 subunit 1 (p-EIF2SI), and phosphorylated eukaryotic translation initiation factor 4E (p-EIF4E) to glyceraldehyde 3-phosphate dehydrogenase (GAPDH). RESULTS: No model-specific gender difference in antiallodynic responses before (2R,6R)-HNK administration was observed. The antiallodynic AUC 0-3d of (2R,6R)-HNK was decreased by NBQX but not with pretreatment with naloxone or saline. The adjusted mean (95% confidence interval [CI]) antiallodynic effect of (2R,6R)-HNK in the PI, SNI, and TF models was 40.7% (34.1%-47.3%), 55.1% (48.7%-61.5%), and 54.7% (46.5%-63.0%), greater in the SNI, difference 14.3% (95% CI, 3.1-25.6; P = .007) and TF, difference 13.9% (95% CI, 1.9-26.0; P = .019) compared to the PI model. No effect of (2R,6R)-HNK on ambulation, rearing, or motor coordination was observed. Administration of (2R,6R)-HNK was associated with increased GluA1, GluA2, p-Kv2.1, and p-CaMKII and decreased BDNF ratios in the hippocampus, with model-specific variations in proteins involved in other pain pathways. CONCLUSIONS: (2R,6R)-HNK analgesia is AMPA-dependent, and (2R,6R)-HNK affected glutamate, potassium, calcium, and BDNF pathways in the hippocampus. At 10 mg/kg, (2R,6R)-HNK demonstrated a greater antiallodynic effect in models of chronic compared with acute pain. Protein analysis in the hippocampus suggests that AMPA-dependent alterations in BDNF-TrkB and Kv2.1 pathways may be involved in the antiallodynic effect of (2R,6R)-HNK.

Analgesic Effectiveness and Dorsal Root Ganglia Protein Modulation of a Peripheral Adenosine Monophosphate Kinase Alpha Activator (O304) Following Lumbar Disk Puncture in the Mouse.

BACKGROUND: Disk herniation is a primary cause of radicular back pain. The purpose of this study was to evaluate the antiallodynic effective dose in 50% of the sample (ED 50 ) and dorsal root ganglion (DRG) protein modulation of a peripheral direct adenosine monophosphate kinase alpha (AMPKα) activator (O304) in a murine model of lumbar disk puncture. METHODS: Male (n = 28) and female (n = 28) mice (C57BL6/J) were assessed for hind paw withdrawal threshold (PWT) and burrowing. Abdominal surgery was performed on all mice, and 48 received a lumbar disk puncture (27-G needle), with 8 serving as nondisk puncture controls. Assessments were repeated at day 7, and mice were then randomized into 5 groups of equal numbers of males and females: O304 at 100 mg/kg (n = 10), 150 mg/kg (n = 10), 200 mg/kg (n = 10), and 250 mg/kg (n = 10) or drug vehicle (n = 8). Starting on day 7, mice received daily gavages of O304 or vehicle for 7 days. On days 14 and 21 PWT and on day 14 burrowing were assessed. The area under the PWT by time curve (AUC) from day 7 to 21 was determined by trapezoidal integration. DRG protein modulation was evaluated in male (n = 10) and female (n = 10) mice (C57BL6/J). Following disk puncture, mice were randomized to receive O304 200 mg/kg or vehicle for 7 days starting on day 7. On day 14, mice were euthanized; the DRG harvested and immunoblot performed for mammalian target of rapamycin (mTOR), transient receptor potential ankyrin 1 (TRPA1), phosphorylated adenosine monophosphate kinase (p-AMPK), phosphorylated extracellular signal-regulated kinase (p-ERK), phosphorylated eukaryotic translation initiation factor 2 subunit 1 (p-EIF2S1), phosphorylated eukaryotic translation initiation factor 4e (p-EIF4E), and glyceraldehyde 3-phosphate dehydrogenase (GADPH). RESULTS: Disk puncture decreased PWT greater in female mice compared with male mice and decreased burrowing at 7 days. PWTs were increased with increasing doses of O304 from 150 to 250 mg/g on day 14 and sustained through day 21. The ED 50 (95% confidence interval [CI]) for reducing mechanical allodynia was 140 (118-164) mg/kg. Burrowing was not increased at day 14 compared to day 7 by O304 administration. Compared to vehicle-treated animals, O304 increased (95% CI) the p-AMPK/GADPH ratio, difference 0.27 (0.08-0.45; P = . 004) and decreased (95% CI) the ratios of p-TRPA1, p-ERK1/2, pEIF4E, and p-EIF2S1 to GADPH by -0.49 (-0.61 to -0.37; P < . 001), -0.53 (-0.76 to -0.29; P < . 001), -0.27 (-0.42 to 0.11; P = . 001), and -0.21 (-0.32 to -0.08; P = . 003) in the DRG, respectively. CONCLUSIONS: The direct peripheral AMPK activator O304 reduced allodynia in a dose-dependent manner, and immunoblot studies of the DRG showed that O304 increased p-AMPK and decreased TRPA1, p-ERK1/2, as well as translation factors involved in neuroplasticity. Our findings confirm the role of peripheral AMPKα activation in modulating nociceptive pain.

Early Treatment With Metformin in a Mice Model of Complex Regional Pain Syndrome Reduces Pain and Edema.

BACKGROUND: Metformin, an adenosine monophosphate (AMP)-activated protein kinase activator, as well as a common drug for type 2 diabetes, has previously been shown to decrease mechanical allodynia in mice with neuropathic pain. The objective of this study is to determine if treatment with metformin during the first 3 weeks after fracture would produce a long-term decrease in mechanical allodynia and improve a complex behavioral task (burrowing) in a mouse tibia fracture model with signs of complex regional pain syndrome. METHODS: Mice were allocated into distal tibia fracture or nonfracture groups (n = 12 per group). The fracture was stabilized with intramedullary pinning and external casting for 21 days. Animals were then randomized into 4 groups (n = 6 per group): (1) fracture, metformin treated, (2) fracture, saline treated, (3) nonfracture, metformin treated, and (4) nonfracture, saline treated. Mice received daily intraperitoneal injections of metformin 200 mg/kg or saline between days 14 and 21. After cast removal, von Frey force withdrawal (every 3 days) and burrowing (every 7 days) were tested between 25 and 56 days. Paw width was measured for 14 days after cast removal. AMP-activated protein kinase downregulation at 4 weeks after tibia fracture in the dorsal root ganglia was examined by immunohistochemistry for changes in the AMP-activated protein kinase pathway. RESULTS: Metformin injections elevated von Frey thresholds (reduced mechanical allodynia) in complex regional pain syndrome mice versus saline-treated fracture mice between days 25 and 56 (difference of mean area under the curve, 42.5 g·d; 95% CI of the difference, 21.0-63.9; P < .001). Metformin also reversed burrowing deficits compared to saline-treated tibial fracture mice (difference of mean area under the curve, 546 g·d; 95% CI of the difference, 68-1024; P < .022). Paw width (edema) was reduced in metformin-treated fracture mice. After tibia fracture, AMP-activated protein kinase was downregulated in dorsal root ganglia neurons, and mechanistic target of rapamycin, ribosomal S6 protein, and eukaryotic initiation factor 2α were upregulated. CONCLUSIONS: The important finding of this study was that early treatment with metformin reduces mechanical allodynia in a complex regional pain syndrome model in mice. Our findings suggest that AMP-activated protein kinase activators may be a viable therapeutic target for the treatment of pain associated with complex regional pain syndrome.

Development of an in vivo mouse model of discogenic low back pain.

Discogenic low back pain (DLBP) is extremely common and costly. Effective treatments are lacking due to DLBP's unknown pathogenesis. Currently, there are no in vivo mouse models of DLBP, which restricts research in this field. The aim of this study was to establish a reliable DLBP model in mouse that captures the pathological changes in the disc and allows longitudinal pain testing. The model was generated by puncturing the mouse lumbar discs (L4/5, L5/6, and L6/S1) and removing the nucleus pulposus using a microscalpel under the microscope. Histology, molecular pathways, and pain-related behaviors were examined. Over 12 weeks post-surgery, animals displayed the mechanical, heat, and cold hyperalgesia along with decreased burrowing and rearing. Histology showed progressive disc degeneration with loss of disc height, nucleus pulposus reduction, proteoglycan depletion, and annular fibrotic disorganization. Immunohistochemistry revealed a substantial increase in inflammatory mediators at 2 and 4 weeks. Nerve growth factor was upregulated from 2 weeks to the end of the experiment. Nerve fiber ingrowth was induced in the injured discs after 4 weeks. Disc-puncture also produced an upregulation of neuropeptides in dorsal root ganglia neurons and an activation of glial cells in the spinal cord dorsal horn. These findings indicate that the cellular and structural changes in discs, as well as peripheral and central nervous system plasticity, paralleled persistent, and robust behavioral pain responses. Therefore, this mouse DLBP model could be used to investigate mechanisms underlying discogenic pain, thereby facilitating effective drug screening and development of treatments for DLBP.

Oral Ketamine for Acute Pain Management After Amputation Surgery.

Objective: Intravenous ketamine has been shown to provide postoperative analgesia in many clinical trials, in particular to reduce opioid consumption. The primary objective of this pilot study is to determine if multiple dosing over a three-day perioperative period with oral ketamine is a safe treatment method for acute pain after amputation surgery. Methods: Three consented subjects (age 57-60 years) undergoing elective amputation of the lower extremity were included in the study (Institutional Review Board and Food and Drug Administration Investigational New Drug approved). An analgesic dose of oral ketamine (1.0 mg/kg) was administered one hour before surgery. Eight hours after the preoperative dose, a second dose was given. On the first postoperative day, subjects received oral ketamine (1.0 mg/kg) three times per day; and on the second postoperative day, this dose was reduced to 0.5 mg/kg three times per day. The primary outcome measure was the incidence of adverse events. Results: No serious and unexpected adverse events occurred; therefore, no subject required a dose reduction. The numerical rating score for postoperative pain of the body part adjacent to the amputation site ranged from 0.5-4.0. Morphine milligram equivalent opioid doses were in the range of 0-17.5 mg on the first postop day and 1.0-4.0 mg on the second postop day. Conclusions: Our pilot study suggests that oral ketamine is safe to use at 1 mg/kg three times per day, as well as convenient for hospital floor and potential home use. Future studies will determine if the perioperative oral ketamine also reduces the incidence of chronic stump or phantom limb pain.

PKCδ null mutations in a mouse model of osteoarthritis alter osteoarthritic pain independently of joint pathology by augmenting NGF/TrkA-induced axonal outgrowth.

OBJECTIVES: A key clinical paradox in osteoarthritis (OA), a prevalent age-related joint disorder characterised by cartilage degeneration and debilitating pain, is that the severity of joint pain does not strictly correlate with radiographic and histological defects in joint tissues. Here, we determined whether protein kinase Cδ (PKCδ), a key mediator of cartilage degeneration, is critical to the mechanism by which OA develops from an asymptomatic joint-degenerative condition to a painful disease. METHODS: OA was induced in 10-week-old PKCδ null (PKCδ-/-) and wild-type mice by destabilisation of the medial meniscus (DMM) followed by comprehensive examination of the histology, molecular pathways and knee-pain-related-behaviours in mice, and comparisons with human biopsies. RESULTS: In the DMM model, the loss of PKCδ expression prevented cartilage degeneration but exacerbated OA-associated hyperalgesia. Cartilage preservation corresponded with reduced levels of inflammatory cytokines and of cartilage-degrading enzymes in the joints of PKCδ-deficient DMM mice. Hyperalgesia was associated with stimulation of nerve growth factor (NGF) by fibroblast-like synovial cells and with increased synovial angiogenesis. Results from tissue specimens of patients with symptomatic OA strikingly resembled our findings from the OA animal model. In PKCδ null mice, increases in sensory neuron distribution in knee OA synovium and activation of the NGF-tropomyosin receptor kinase (TrkA) axis in innervating dorsal root ganglia were highly correlated with knee OA hyperalgesia. CONCLUSIONS: Increased distribution of synovial sensory neurons in the joints, and augmentation of NGF/TrkA signalling, causes OA hyperalgesia independently of cartilage preservation.

Anti-cytokine autoantibodies in postherpetic neuralgia.

BACKGROUND: The mechanisms by which varicella zoster virus (VZV) reactivation causes postherpetic neuralgia (PHN), a debilitating chronic pain condition, have not been fully elucidated. Based on previous studies identifying a causative role for anti-cytokine autoantibodies in patients with opportunistic infections, we explored this possibility in PHN. METHODS: Sera from herpes zoster (HZ) patients without and with PHN (N = 115 and 83, respectively) were examined for the presence of autoantibodies against multiple cytokines, and other known autoantigens. In addition, a cohort of patients with complex regional pain syndrome or neuropathic pain was tested for autoantibodies against selected cytokines. Antibody levels against VZV, Epstein Barr virus, and herpes simplex virus-2 were also measured in the HZ and PHN patients. Patient sera with high levels of anti-cytokine autoantibodies were functionally tested for in vitro neutralizing activity. RESULTS: Six PHN subjects demonstrated markedly elevated levels of single, autoantibodies against interferon-α, interferon-γ, GM-CSF, or interleukin-6. In contrast, the HZ and the pain control group showed low or no autoantibodies, respectively, against these four cytokines. Further analysis revealed that one PHN patient with high levels of anti-interleukin-6 autoantibodies had a markedly depressed antibody level to VZV, potentially reflecting poor T cell immunity against VZV. In vitro functional testing revealed that three of the five anti-cytokine autoantibody positive PHN subjects had neutralizing autoantibodies against interferon-α, GM-CSF or interleukin-6. In contrast, none of the HZ patients without PHN had neutralizing autoantibodies. CONCLUSIONS: These results suggest the possibility that sporadic anti-cytokine autoantibodies in some subjects may cause an autoimmune immunodeficiency syndrome leading to uncontrolled VZV reactivation, nerve damage and subsequent PHN.

The Incidence and Severity of Postoperative Pain following Inpatient Surgery.

OBJECTIVE: In recent years, there has been increased attention to pain management after surgery in the hospital setting along with financial enticement from the US government. The aim of this study is to evaluate the current efficacy of postoperative pain management. METHODS: In a prospective study, patients in an academic private nonprofit medical center were asked the same questions about their postoperative pain as in a previously published 2003 survey. Questionnaires on 1) pain intensity on a verbal categorical scale and 2) patient satisfaction with pain medication were completed in the patient's room before hospital discharge, and followed-up by telephone interviews at 1 and 2 weeks later. Numerical Pain Scale (NRS) pain scores were obtained at the same time points. Hospital Consumer Assessment of Healthcare Providers and Systems (HCAHPS) results for pain management were obtained at bedside interview along with standard mailed HCAHPS survey obtained by Press Ganey. RESULTS: Based on 441 surgical inpatients (Orthopedic, General, Neurosurgery, Gynecological) 12% of patients had "Severe-to-Extreme" pain and 54% had "Moderate-to-Extreme" pain at discharge. During the first 2 weeks after discharge, 13% of patients had "Severe-to-Extreme" pain and 46% had "Moderate-to-Extreme" pain. Pain scores at discharge and after discharge were negatively correlated with patient satisfaction with pain medication (P < 0.0001), indicating that increased pain intensity was associated with decreased patient satisfaction. For the HCAHPS question "how often was your pain well controlled?," 66% answered "Always" in the Press Ganey report versus 51% at bedside (P < 0.0001). CONCLUSIONS: The incidence of severe-to-extreme pain in patients before and after discharge following inpatient surgery is 12-13%, and this is a reduction from 10 years ago.

Short-term glycemic control is effective in reducing surgical site infection in diabetic rats.

BACKGROUND: Patients and animals with diabetes exhibit enhanced vulnerability to bacterial surgical infections. Despite multiple retrospective studies demonstrating the benefits associated with glycemic control in reducing bacterial infection after cardiac surgery, there are fewer guidelines on the use of glycemic control for noncardiac surgeries. In the current study, we investigated whether long-term (begun 2 weeks before surgery) or immediate (just before surgery) glycemic controls, continued postoperatively, can reduce surgical site infection in type 1 diabetic-induced rats. METHODS: Rats were injected with streptozotocin to induce type 1 diabetes. Four groups of animals underwent surgery and thigh muscle Staphylococcus aureus bacteria challenge (1 × 10 colony forming units) at the time of surgery. Group 1 diabetic rats received insulin treatment just before surgery and continued until the end of study (short-term glycemic control group). Group 2 diabetic rats received insulin treatment 2 weeks before surgery and continued until the end of study (long-term glycemic control). Group 3 diabetic rats received no insulin treatment (no glycemic control group). Group 4 nondiabetic rats served as a healthy control group. Rats were euthanized at 3 or 6 days after surgery. Blood glucose and muscle bacterial burden were measured at 3 or 6 days after surgery. RESULTS: Glycemic control was achieved in both long- and short-term insulin-treated diabetic rats. Compared with untreated diabetic rats, the bacterial burden in muscle was significantly lower in both groups of glycemic controlled diabetic rats at 3 (all P < 0.003) and 6 (all P < 0.0001) days after surgery. CONCLUSIONS: A short-term glycemic control regimen, initiated just before surgery and bacterial exposure, was as effective in reducing surgical site infection as a long-term glycemic control in type 1 diabetic rats. These data suggest that immediately implementing glycemic control in type 1 diabetic surgical patients before undergoing noncardiac surgery may decrease the risk of infection.

The pathophysiologic role of the protein kinase Cδ pathway in the intervertebral discs of rabbits and mice: in vitro, ex vivo, and in vivo studies.

OBJECTIVE: Protein kinase Cδ (PKCδ) activation has been shown to be a principal rate-limiting step in matrix-degrading enzyme production in human articular chondrocytes. The aim of this study was to assess the role of the PKC pathways, specifically PKCδ, in intervertebral disc tissue homeostasis. METHODS: Using in vitro, ex vivo, and in vivo techniques, we evaluated the pathophysiologic role of the PKCδ pathway by examining 1) proteoglycan deposition, 2) matrix-degrading enzyme production and activity, 3) downstream signaling pathways regulated by PKCδ, and 4) the effect on in vivo models of disc degeneration in genetically engineered PKCδ-knockout mice. RESULTS: Studies of pathway-specific inhibitors revealed a vital role of the PKCδ/MAPK (ERK, p38, JNK) axis and NF-κB in disc homeostasis. Accordingly, in an in vivo model of disc injury, PKCδ-knockout mice were markedly resistant to disc degeneration. CONCLUSION: Suppression of the PKCδ pathway may be beneficial in the prevention and/or treatment of disc degeneration. The results of this study provide evidence for a potential therapeutic role of pathway-specific inhibitors of the PKCδ cascade in the future.

Species-specific biological effects of FGF-2 in articular cartilage: implication for distinct roles within the FGF receptor family.

Existing literature demonstrates that fibroblast growth factor-2 (FGF-2) exerts opposing, contradictory biological effects on cartilage homeostasis in different species. In human articular cartilage, FGF-2 plays a catabolic and anti-anabolic role in cartilage homeostasis, driving homeostasis toward degeneration and osteoarthritis (OA). In murine joints, however, FGF-2 has been identified as an anabolic mediator as ablation of the FGF-2 gene demonstrated increased susceptibility to OA. There have been no previous studies specifically addressing species-specific differences in FGF-2-mediated biological effects. In this study, we provide a mechanistic understanding by which FGF-2 exerts contradictory biological effects in human versus murine tissues. Using human articular cartilage (ex vivo) and a medial meniscal destabilization (DMM) animal model (in vivo), species-specific expression patterns of FGFR receptors (FGFRs) are elucidated between human and murine articular cartilage. In the murine OA model followed by intra-articular injection of FGF-2, we further correlate FGFR profiles to changes in behavioral pain perception, proteoglycan content in articular cartilage, and production of inflammatory (CD11b) and angiogenic (VEGF) mediators in synovium lining cells. Our results suggest that the fundamental differences in cellular responses between human and murine tissues may be secondary to distinctive expression patterns of FGFRs that eventually determine biological outcomes in the presence of FGF-2. The complex interplay of FGFRs and the downstream signaling cascades induced by FGF-2 in human cartilage should add caution to the use of this particular growth factor for biological therapy in the future.

Characterization of a new animal model for evaluation and treatment of back pain due to lumbar facet joint osteoarthritis.

OBJECTIVE: Osteoarthritic (OA) degeneration of the lumbar facet joints has been implicated in low back pain. This study was undertaken to investigate the biologic links between cellular and structural alterations within facet joint components and the development of symptomatic chronic back pain. METHODS: We generated an animal model of facet joint degeneration by intraarticular injection of monosodium iodoacetate (MIA) into facet joints (L3-L4, L4-L5, L5-L6) of Sprague-Dawley rats. Pain sensation due to pressure, which mimics a mechanical stimulus for facet joint injury, was measured using an algometer. Pain response was also assessed in a straight leg raising test. Cartilage alterations were assessed by biochemical evaluation and microfocal computed tomography (micro-CT). Therapeutic modulation of chronic facet joint pain with the use of various pharmacologic agents was investigated. RESULTS: MIA injection resulted in severely damaged facet joint cartilage, proteoglycan loss, and alterations of subchondral bone structure. Micro-CT analyses suggested that the behavioral hyperalgesia from facet joint degeneration was not associated with foraminal stenosis. The biologic and structural changes in facet joints were closely associated with sustained and robust chronic pain. Morphine and pregabalin markedly alleviated pressure hyperalgesia, while celecoxib (a selective inhibitor of cyclooxygenase 2 [COX-2]) produced moderate antihyperalgesic effects and the effect of ketorolac (an inhibitor of COX-1 and COX-2) was negligible. CONCLUSION: Our findings demonstrate that MIA injection provides a useful model for the study of OA changes in the facet joint and indicate that facet joint degeneration is a major cause of chronic low back pain. The treatment results suggest that classes of drugs that are widely used to treat OA, such as nonsteroidal antiinflammatory drugs, may have limited efficacy once joint destruction is complete.

Safety of local anesthetics administered intrathecally in diabetic rats.

OBJECTIVES: Although retrospective studies show the risk of neurological complications after spinal anesthesia with local anesthetics is small in diabetic patients, there is still concern about the safety of different local anesthetics in diabetics undergoing neuroaxial anesthesia. We examined block duration and histology of spinal cord and roots with intrathecal local anesthetics in diabetic rats. METHODS: Rats were made diabetic with streptozotocin injection. Blood glucose levels confirmed diabetes, and diabetic neuropathy was verified by tactile hypersensitivity. Diabetic and nondiabetic rats received four intrathecal injections at 3-4-day intervals of 0.75% bupivacaine, with/without 100 µg/mL epinephrine; and 2% lidocaine, with/without 100 µg/mL epinephrine, and duration of sensory (pinprick) and motor (toe-spreading reflex) response inhibition recorded. Four days after the last drug injection, histology of spinal cord and roots was performed. RESULTS: All streptozotocin rats became diabetic and had pronounced tactile allodynia. Intrathecal injection of local anesthetics showed longer duration of sensory and motor block in diabetic rats vs nondiabetics. Histology of caudal spinal cord showed no difference in neuropathology between diabetic and nondiabetic rats. Necrotic neurons were not seen in either group, and white-matter pathology involved less than 0.1% of fibers. Histology of the spinal roots also showed no difference in pathology between groups, and pathology involved less than 0.1% of fibers. Neuron somas in the dorsal root ganglia were normal. CONCLUSIONS: Duration of local anesthetic spinal block is longer in diabetic animals than in nondiabetics. However, there was no increased pathology of spinal cord, roots, or dorsal root ganglia.

Cerebrospinal fluid neurotransmitter changes during the perioperative period in patients undergoing total knee replacement: a randomized trial.

BACKGROUND: Total knee replacement (TKR) is of enormous benefit to patients with osteoarthritis of the knee; however, the acute postoperative pain can be severe and difficult to manage. The role of major spinal cord neurotransmitters in this acute postoperative period is not clear, although there are a few studies in humans. We performed the first prospective clinical study undertaken to delineate the changes in the spinal neurotransmitters after a surgery such as TKR. Furthermore, we also determined whether antihyperalgesic drugs at clinically acceptable doses modulate spinal neurotransmitter concentrations in patients during the perioperative period. METHODS: All patients had a spinal needle placed in the lumbar region and cerebrospinal fluid (CSF) obtained for baseline measurement of the neurotransmitters. An intrathecal catheter was then placed for spinal anesthesia for standard TKR and for continuous spinal postoperative analgesia. The spinal catheter was also used postoperatively to sample CSF at 2, 4, 8, 12, 24, and 32 hours after catheter placement. CSF samples were assayed for norepinephrine, substance P, calcitonin gene-related peptide (CGRP), and glutamate concentrations. SF-36 (36-item Short Form Health Survey) was measured preoperatively. Numerical rating scale (NRS) pain scores and intrathecal analgesic consumption were recorded postsurgery at 4-hour intervals for 32 hours. We performed a randomized, placebo-controlled, double-blind trial with 3 drug groups (n = 16 per group): placebo; single-dose pregabalin (150 mg administered before surgery); and multidose pregabalin (150 mg administered presurgery and 12 and 24 hours later), to determine the effect of an antihyperalgesic drug such as pregabalin on spinal neurotransmitters. RESULTS: Forty-eight patients were randomly assigned to the 3 perioperative treatment groups, and multiple CSF samples were successfully obtained from 44 patients. Before surgery, increased bodily pain (from preoperative SF-36 measure) was correlated with increased CSF norepinephrine concentration (P = 0.044). Compared with presurgery values, norepinephrine levels were lower in the placebo group at the 2- and 4-hour time points (P < 0.005) whereas in the single and multidose groups, the reduction (P < 0.001) continued until 12 and 24 hours, respectively. Substance P CSF levels had an early peak value (at 2 hours) in all 3 groups, and then returned to baseline. Compared with baseline value, the CGRP CSF levels only decreased at the 32-hour time point in the placebo group, but in both pregabalin groups, CGRP levels decreased over the 4- to 32-hour period. In the placebo group only, CSF glutamate decreased over 4 to 32 hours compared with presurgery values. However, there was no difference in the CSF neurotransmitter concentrations among the 3 treatment groups over the 32-hour sampling period. In the placebo group, the early NRS pain score area under the curve, AUC [0-12 hours], was positively correlated (R = 0.67, P = 0.0088) with the CSF norepinephrine concentration AUC [12-24 hours], but none of the other neurotransmitters was correlated with the NRS. None of the CSF neurotransmitter concentrations correlated with postoperative analgesic consumption. CONCLUSION: In the perioperative period, the concentration changes of the 4 spinal neurotransmitters have a distinct time course. CSF substance P seems to increase very rapidly with surgical intervention, whereas the CSF norepinephrine concentration tends to decrease. At clinical doses, pregabalin does not seem to modulate these spinal neurotransmitter concentrations.

Alteration of sensory neurons and spinal response to an experimental osteoarthritis pain model.

OBJECTIVE: To verify the biologic links between progressive cellular and structural alterations within knee joint components and development of symptomatic chronic pain that are characteristic of osteoarthritis (OA), and to investigate the molecular basis of alterations in nociceptive pathways caused by OA-induced pain. METHODS: An animal model of knee joint OA pain was generated by intraarticular injection of mono-iodoacetate (MIA) in Sprague-Dawley rats, and symptomatic pain behavior tests were performed. Relationships between development of OA with accompanying pain responses and gradual alterations in cellular and structural knee joint components (i.e., cartilage, synovium, meniscus, subchondral bone) were examined by histologic and immunohistologic analysis, microscopic examination, and microfocal computed tomography. Progressive changes in the dynamic interrelationships between peripheral knee joint tissue and central components of nociceptive pathways caused by OA-induced pain were examined by investigating cytokine production and expression in sensory neurons of the dorsal root ganglion and spinal cord. RESULTS: We observed that structural changes in components of the peripheral knee joint correlate with alterations in the central compartments (dorsal root ganglia and the spinal cord) and symptomatic pain assessed by behavioral hyperalgesia. Our comparative gene expression studies revealed that the pain pathways in MIA-induced knee OA may overlap, at least in part, with neuropathic pain mechanisms. Similar results were also observed upon destabilization of the knee joint in the anterior cruciate ligament transection and destabilization of the medial meniscus models of OA. CONCLUSION: Our results indicate that MIA-induced joint degeneration in rats generates an animal model that is suitable for mechanistic and pharmacologic studies on nociceptive pain pathways caused by OA, and provide key in vivo evidence that OA pain is caused by central sensitization through communication between peripheral OA nociceptors and the central sensory system. Furthermore, our data suggest a mechanistic overlap between OA-induced pain and neuropathic pain.

Perioperative oral pregabalin reduces chronic pain after total knee arthroplasty: a prospective, randomized, controlled trial.

BACKGROUND: Despite the enormous success of total knee arthroplasty (TKA), chronic neuropathic pain can develop postoperatively and is both distressing and difficult to treat once established. We hypothesized that perioperative treatment with pregabalin, a chronic pain medication, would reduce the incidence of postsurgical neuropathic pain. METHODS: We performed a randomized, placebo-controlled, double-blind trial of pregabalin (300 mg) administered before TKA and for 14 days after TKA (150-50 mg twice daily). Patients were screened for the presence of neuropathic pain at 3 and 6 mo postoperatively using the Leeds Assessment of Neuropathic Symptoms and Signs scale. Secondary outcomes included postsurgical recovery and rehabilitation measures, including knee range of motion, opioid consumption, postoperative pain scores, sleep disturbance, and time to discharge as well as the occurrence of postoperative systemic complications. RESULTS: Of the 240 patients randomly assigned to the 2 treatment groups (120 in each), data for the primary outcome were obtained from 113 pregabalin patients and 115 placebo patients. At both 3 and 6 mo postoperatively, the incidence of neuropathic pain was less frequent in the pregabalin group (0%) compared with the placebo group (8.7% and 5.2% at 3 and 6 mo, respectively; P = 0.001 and P = 0.014). Patients receiving pregabalin also consumed less epidural opioids (P = 0.003), required less oral opioid pain medication while hospitalized (P = 0.005), and had greater active flexion over the first 30 postoperative days (P = 0.013). There were no differences in the actual recorded duration of hospitalization between the 2 groups, although time to achieve hospital discharge criteria was longer for placebo patients, 69.0 +/- 16.0 h (mean +/- SD), than that of pregabalin patients, 60.2 +/- 15.8 h (P = 0.001). Sedation (P = 0.005) and confusion (P = 0.013) were more frequent on the day of surgery and postoperative day 1 in patients receiving pregabalin. CONCLUSION: Perioperative pregabalin administration reduces the incidence of chronic neuropathic pain after TKA, with less opioid consumption and better range of motion during the first 30 days of rehabilitation. However, in the doses tested, it is associated with a higher risk of early postoperative sedation and confusion.

Cytokine gene expression after total hip arthroplasty: surgical site versus circulating neutrophil response.

BACKGROUND: After surgery, cytokines and chemokines are released at the surgical wound site, which can contribute to postoperative pain, local inflammation, and tissue repair. Multiple cell types are present that can release cytokines/chemokines at the wound site and, thus, the exact cellular source of these molecules is unclear. We sought to better understand the contribution of neutrophils to cytokine/chemokine gene expression at the surgical wound site during the initial postsurgery phase of total hip arthroplasty (THA). METHODS: Hip drain fluid was collected at 24 h postsurgery from six patients undergoing standardized THA. In addition, venous blood was collected presurgery and 24 h postsurgery. Neutrophils were isolated, total RNA extracted, and a biotinylated cRNA probe generated. The probes were hybridized with a cDNA microarray containing approximately 100 oligonucleotide sequences representing various human cytokines/chemokines or receptor genes. Changes in gene expression seen in the microarray were verified by reverse transcription polymerase chain reaction. RESULTS: In the microarray analysis of hip drain neutrophils, interleukin-1 receptor antagonist (IL1RN), interleukin-18 receptor 1 (IL18R1), macrophage migration inhibitory factor (MIF), and macrophage inflammatory protein 3alpha (CCL20) were upregulated, whereas interleukin-8 receptor beta (IL8RB/CXCR2) was consistently downregulated, compared with presurgery blood neutrophils. All of these changes were confirmed by reverse transcription polymerase chain reaction. CONCLUSION: There is a distinct cytokine gene expression profile in neutrophils at the THA surgical wound site at 24 h postsurgery when compared with that found in presurgery circulating neutrophils. Understanding these changes may allow us to knowledgeably manipulate neutrophil activity to reduce postoperative pain and inflammation without impairing wound healing.

Multimodal analgesia for controlling acute postoperative pain.

PURPOSE OF REVIEW: Multimodal analgesia is needed for acute postoperative pain management due to adverse effects of opioid analgesics, which can impede recovery; a problem that is of increasing concern with the rapid increase in the number of ambulatory surgeries. Yet, the literature on multimodal analgesia often shows variable degrees of success, even with studies utilizing the same adjuvant medication. RECENT FINDINGS: Nonsteroidal anti-inflammatory drugs and selective cyclooxygenase-2 inhibitors consistently reduce postoperative opioid consumption. The N-methyl-D-aspartate antagonists have produced variable results in studies, which may be due to the dose and timing of drug administration. Alpha-2 adrenergic agonists have been useful as adjuvant for regional analgesia but not when administered orally. The alpha-2-delta receptor modulators such as gabapentin have shown early promising results in multimodal analgesia. Local anesthetic injection at the surgical site, though not as a preemptive analgesic, has recently been demonstrated to be beneficial in multimodal analgesia. No new adjuvants have appeared in the last year, which robustly reduce opioid consumption and opioid-related adverse effects. SUMMARY: There is a continuing need to explore new drug combinations to achieve all of the purported goals of multimodal anesthesia.

Efficacy of the ketamine metabolite (2R,6R)-hydroxynorketamine in mice models of pain.

BACKGROUND AND OBJECTIVES: Ketamine has been shown to reduce chronic pain; however, the adverse events associated with ketamine makes it challenging for use outside of the perioperative setting. The ketamine metabolite (2R,6R)-hydroxynorketamine ((2R,6R)-HNK) has a therapeutic effect in mice models of depression, with minimal side effects. The objective of this study is to determine if (2R,6R)-HNK has efficacy in both acute and chronic mouse pain models. METHODS: Mice were tested in three pain models: nerve-injury neuropathic pain, tibia fracture complex regional pain syndrome type-1 (CRPS1) pain, and plantar incision postoperative pain. Once mechanical allodynia had developed, systemic (2R,6R)-HNK or ketamine was administered as a bolus injection and compared with saline control in relieving allodynia. RESULTS: In all three models, 10 mg/kg ketamine failed to produce sustained analgesia. In the neuropathic pain model, a single intraperitoneal injection of 10 mg/kg (2R,6R)-HNK elevated von Frey thresholds over a time period of 1-24hours compared with saline (F=121.6, p<0.0001), and three daily (2R,6R)-HNK injections elevated von Frey thresholds for 3 days compared with saline (F=33.4, p=0.0002). In the CRPS1 model, three (2R,6R)-HNK injections elevated von Frey thresholds for 3 days and then an additional 4 days compared with saline (F=116.1, p<0.0001). In the postoperative pain model, three (2R,6R)-HNK injections elevated von Frey thresholds for 3 days and then an additional 5 days compared with saline (F=60.6, p<0.0001). CONCLUSIONS: This study demonstrates that (2R,6R)-HNK is superior to ketamine in reducing mechanical allodynia in acute and chronic pain models and suggests it may be a new non-opioid drug for future therapeutic studies.

AMP-activated protein kinase (AMPK) activator drugs reduce mechanical allodynia in a mouse model of low back pain.

BACKGROUND AND OBJECTIVES: Intervertebral disc herniation is one of the common causes of low back pain. Adenosine monophosphate (AMP)-activated protein kinase (AMPK) activator drugs have been shown to reduce pain in several animal models. The present study examines if early treatment with the drug metformin, an indirect AMPK activator, and/or O304, a new direct AMPK activator, can reduce the mechanical hypersensitivity that develops after lumbar disc puncture in mice. METHODS: The L4/L5 and L5/L6 discs in male and female mice were exposed via a retroperitoneal approach and a single puncture was made at the midline of each disc. Mice were randomized into four drug treatment groups: (1) vehicle; (2) metformin 200 mg/kg; (3) O304 200 mg/kg; (4) metformin 100 mg/kg plus O304 100 mg/kg; plus one untreated sham surgery group. Drugs were administered by oral gavage starting 7 days after disc puncture and repeated for six more days. Mechanical allodynia in the plantar hindpaw was measured presurgery and up to day 28. RESULTS: 7 days after disc puncture, female mice had lower von Frey thresholds than male mice, difference -0.46 g, 95% CI -0.34 to -0.60, p<0.001. Gender adjusted von Frey area under the curve's (AUC's) between days 7 and 28 for metformin and/or O304 were greater (reduced allodynia) compared with vehicle-treated mice. The difference of mean AUC's was: metformin, 41.1 g*d, 95% CI of the difference 26.4 to 54.5, O304, 44.7 g*d, 95% CI of the difference 31.0 to 57.4, drug combination: 33.4 g*d; 95% CI of the difference 18.1 to 46.9. No gender by treatment interactions were observed. CONCLUSIONS: Lumbar disc puncture in mice produces consistent mechanical hypersensitivity, and postinjury treatment with AMPK activator drugs (indirect and direct) reduces the mechanical hypersensitivity.