The influence of low-dose s-ketamine on postoperative delirium and cognitive function in older adults undergoing thoracic surgery.

BACKGROUND: Postoperative delirium (POD) and cognitive dysfunction (POCD) are common complications following thoracic surgery, particularly in patients aged 65 years and above. These complications can significantly affect recovery and increase healthcare costs. This study investigates the effects of low-dose S-ketamine on reducing POD and POCD in this patient demographic. METHODS: In this retrospective cohort study, medical records of patients aged ≥ 65 years who underwent elective thoracic surgery from January 2019 to August 2023 were reviewed. Patients were categorized into S-ketamine and Control groups based on intraoperative S-ketamine exposure. POD was assessed using the Confusion Assessment Method (CAM), while cognitive function was evaluated using the Montreal Cognitive Assessment (MoCA) at baseline, 1 week, 1 month, and 6 months post-surgery. Intraoperative and postoperative parameters, including hemodynamic stability, blood loss, pain scores, and ICU stay length, were also recorded. RESULTS: The study comprised 140 participants, with 70 in each group. The S-ketamine group demonstrated a significantly lower incidence of POD at 7 days post-surgery (12.0% vs. 26.7%, P < 0.001), and reduced POCD at 1 month (18.7% vs. 36.0%, P < 0.05) and 6 months (10.7% vs. 21.3%, P < 0.05). The Ketamine group had a significantly higher median MoCA score compared to the Control group both at 1 month (P = 0.021) and 6 months (P = 0.007). Adverse events, such as infection, bleeding, and respiratory failure, showed no significant differences between the groups, suggesting a safe profile for S-ketamine. CONCLUSION: Administering low-dose S-ketamine during thoracic surgery in patients aged 65 years and above significantly reduces the incidence of POD and POCD, highlighting its neuroprotective potential. These findings advocate for the inclusion of S-ketamine in anesthetic protocols to improve postoperative outcomes and reduce healthcare costs in this patient population.

Association between perioperative flurbiprofen administration and acute kidney injury (AKI) in spine surgery: a retrospective cohort study.

BACKGROUND: The association between nonsteroidal anti-inflammatory drugs (NSAIDs) and postoperative acute kidney injury (AKI) remains controversial, with limited studies specifically examining flurbiprofen. Therefore, this research aimed to investigate the association between intraoperative flurbiprofen administration and postoperative AKI. METHODS: We retrospectively identified a cohort of patients at the Third Xiangya Hospital of Central South University. A total of 3882 adult patients undergoing spinal surgery between January 1, 2012, and July 31, 2018, were included and classified into two groups: those receiving flurbiprofen (50 or 100 mg once, 5 min after anesthesia start) and those not receiving flurbiprofen. The primary endpoint was the incidence of AKI. RESULT: The flurbiprofen group (4.4%) had a lower incidence of AKI compared to the non-flurbiprofen group (6.5%, P < 0.001). After adjusting for potential confounding variables, the multivariable regression analysis showed that the flurbiprofen group had a 49% reduced risk of postoperative AKI (OR 0.51; 95% CI 0.31 to 0.82) compared to the non-flurbiprofen group. Subgroup analysis indicated that flurbiprofen injection was associated with a reduced incidence of postoperative AKI in patients without diabetes (OR 0.61; 95% CI 0.19 to 0.74), surgical times of 2-5 h (OR 0.54; 95% CI 0.23 to 0.75), and preoperative anemia (OR 0.57; 95% CI 0.21 to 0.74). CONCLUSION: The study concluded that perioperative flurbiprofen treatment was associated with a lower risk of postoperative AKI in adult patients undergoing spinal surgery.

Mechanical gated ion channel Piezo1: Function, and role in macrophage inflammatory response.

Macrophages are present in many mechanically active tissues and are often subjected to varying degrees of mechanical stimulation. Macrophages play a crucial role in resisting pathogen invasion and maintaining tissue homeostasis. Piezo-type mechanosensitive channel component 1 (Piezo1) is the main cation channel involved in the rapid response to mechanical stimuli in mammals. This channel plays a crucial role in controlling blood pressure and motor performance and regulates urinary osmotic pressure and epithelial cell proliferation and division. In recent years, numerous studies have shown that in macrophages, Piezo1 not only plays a role in regulating the aforementioned physiological processes but also participates in multiple pathological processes such as inflammation and cancer. In this review, we summarize the research progress on Piezo1-mediated regulation of macrophage-mediated inflammatory responses through downstream signalling pathways and the aerobic glycolysis pathway.

Recommendations and considerations for speeding the collapse of the non-ventilated lung during single-lung ventilation in thoracoscopic surgery: a literature review.

Video-assisted thoracoscopic thoracic surgery has the advantages of less physical damage, less postoperative pain, and a rapid recovery. Therefore, it is widely used in the clinic. The quality of nonventilated lung collapse is the key point of thoracoscopic surgery. Poor lung collapse on the operative side damages surgical exposure and prolongs the process of surgery. Therefore, it is important to achieve good lung collapse as soon as possible after opening the pleura. Over the past two decades, there have been reports of advances in research on the physiological mechanism of lung collapse and several kinds of techniques for speeding up lung collapse. This review will inform the advances of each technique, make recommendations for reasonable implementation and discuss their controversies and considerations.

Identification of novel immunomodulators in lung squamous cell carcinoma based on transcriptomic data.

Cells in the tumor microenvironment are well known for their role in cancer development and prognosis. The processes of genetic changes and possible remodeling in the tumor microenvironment of lung squamous cell carcinoma, on the other hand, are mainly unclear. In this investigation, 1164 immunological differentially expressed genes (DEGs) were shown to have predictive significance. A prognostic model with high prediction accuracy was constructed using these genes and survival data. There were 1020 upregulated genes and 144 downregulated genes found, with 57 genes found to be important in the development of LUSC. We used least absolute shrinkage and selection operator (LASSO) regression analysis to determine the risk profiles of 9 genes based on the expression values of 57 prognosis-related genes. The AUCs of the developed prognostic model for predicting patient survival at 1, 3, and 5 years were 0.66, 0.61, and 0.63, respectively, based on the training data. For immune-correlation analysis in this survival model, we chose IGLC7, which was seen to predict patient survival with high accuracy. The effects on immune cells and synergistic effects with other immunomodulators were then investigated. We discovered that IGLC7 is involved in immune response and inflammatory activity using gene ontology analysis and genomic sequence variance analysis (GSVA), with a potential effect, especially on B cells and T cells. In conclusion, IGLC7 expression levels are related to the malignancy of LUSC based on the constructed prognostic model and can thus be a therapeutic target for patients with LUSC. Furthermore, IGLC7 may work in concert with other immune checkpoint members to regulate the immune microenvironment of LUSC. These discoveries might lead to a fresh understanding of the complicated interactions between cancer cells and the tumor microenvironment, particularly the population of immune cells, and a novel approach to future immunotherapeutic treatments for patients with LUSC.

Evidence of the Involvement of Spinal EZH2 in the Development of Bone Cancer Pain in Rats.

INTRODUCTION: Bone cancer pain (BCP) seriously affects the quality of life of patients with advanced cancer, but effective treatment methods are lacking. This study mainly investigates the role of EZH2 in a well-established BCP model induced by Walker 256 breast cancer cells in rats. METHODS: Female Sprague-Dawley rats of the same age weighing approximately 160 g were selected for the experiment. The BCP model was established by injecting inactivated Walker 256 breast cancer cells into the tibia. von Frey filaments were used to measure the paw withdrawal threshold, and bone destruction in the rat was observed using x-ray. The spinal EZH2 and H3K27Tm levels were measured using Western blotting and RT-qPCR analysis. Intrathecal injection of an EZH2 inhibitor was performed to examine the role of EZH2 in trigeminal BCP. RESULTS: Experimental results showed that injecting Walker 256 breast cancer cells into the tibia induced bone cancer pain. Spinal EZH2 and H3K27Tm levels were significantly increased over time in BCP rats. An intrathecal injection of 3-deazaneplanocin A (DZNep), a selective EZH2 inhibitor, downregulated the expression of EZH2 and attenuate the BCP-induced mechanical allodynia state. CONCLUSION: Intrathecal injection of DZNep relieve bone cancer pain in rats. EZH2 expressed in spinal cord tissue may be involved in the process of bone cancer pain in rats.

Mu Opioid Receptor Heterodimers Emerge as Novel Therapeutic Targets: Recent Progress and Future Perspective.

Opioids are the most effective analgesics used in the clinical management of cancer pain or non-cancer pain. However, chronic opioids therapy can cause many side effects including respiratory depression, nausea, sedation, itch, constipation, analgesic tolerance, hyperalgesia, high addictive potential, and abuse liability. Opioids exert their effects through binding to the opioid receptors belonging to the G-protein coupled receptors (GPCRs) family, including mu opioid receptor (MOR), delta opioid receptor (DOR), and kappa opioid receptor (KOR). Among them, MOR is essential for opioid-induced analgesia and also responsible for adverse effects of opioids. Importantly, MOR can form heterodimers with other opioid receptors and non-opioid receptors in vitro and in vivo, and has distinct pharmacological properties, different binding affinities for ligands, downstream signaling, and receptor trafficking. This mini review summarized recent progress on the function of Mu opioid receptor heterodimers, and we proposed that targeting mu opioid receptor heterodimers may represent an opportunity to develop new therapeutics, especially for chronic pain treatment.

Evidence of the involvement of spinal αB-crystallin in the maintenance of bone cancer pain in rats.

BACKGROUND: αB-crystallin (CRYAB) is a small heat shock protein that is able to inhibit neuroinflammatory responses under various pathological conditions. Some studies have proven that neuroinflammatory mechanisms play important roles in bone cancer pain (BCP). However, whether CRYAB participates in the maintenance of BCP has not yet been examined. METHODS: Walker256 tumour cells were inoculated into the tibia to induce a rat model of BCP. Von Frey hairs were used to measure mechanical allodynia. Immunohistochemistry and western blotting were used to examine the expression level of CRYAB in the spinal dorsal horn. RESULTS: The gradual development of mechanical allodynia was induced by the injection of Walker256 cells into the tibia. The downregulation of spinal CRYAB expression was found in BCP rats. The intrathecal administration of CRYAB (from days 9 to 15 post-inoculation) dose-dependently alleviated mechanical allodynia in BCP rats. Additionally, there were concomitant increases in spinal CRYAB expression and decreases in TNF-α expression. CONCLUSIONS: Spinal CRYAB may participate in the maintenance of BCP in rats. The findings will help to identify new drugs for the management of BCP.

Spinal SET7/9 may contribute to the maintenance of cancer-induced bone pain in mice.

Cancer-induced bone pain (CIBP) profoundly influences patients' quality of life. Exploring the mechanisms by which CIBP occurs is essential for developing efficacious therapies. Various studies have shown that proinflammatory factors were involved in CIBP. SET domain containing lysine methyltransferase 7/9 (SET7/9) may modulate the expression of NF-κB-dependent proinflammatory genes in vitro. However, whether SET7/9 may participate in the maintenance of CIBP remains unknown. In this study, NCTC 2472 cells were inoculated into the intramedullary space of the femur to establish a mouse model of CIBP. Upregulation of spinal SET7/9 expression was related to pain behaviours in tumour-inoculated mice. Intrathecal cyproheptadine (10 or 20 nmol) attenuated response to painful stimuli in a dose-dependent manner. Moreover, there was a concomitant decrease in spinal SET7/9 and RANTES expression. The antinociceptive effects of cyproheptadine were abolished by pre-intrathecal administration of SET 7/9 (0.2 µg) for 30 minutes before intrathecal cyproheptadine (20 nmol) administration. These results indicated that spinal SET7/9 may contribute to the maintenance of CIBP in mice. Hence, targeting of spinal SET7/9 might be a useful alternative therapy for the treatment of CIBP.

Involvement of Spinal CCR5/PKCγ Signaling Pathway in the Maintenance of Cancer-Induced Bone Pain.

Cancer-induced bone pain (CIBP) is a challenging medical problem that considerably influences cancer patients' quality of life. Currently, few treatments have been developed to conquer CIBP because of a poor understanding of the potential mechanisms. Our previous work has proved that spinal RANTES (a major ligand for CCR5) was involved in the maintenance of CIBP. In this study, we attempted to investigate whether spinal CCR5 and its downstream PKCγ pathway is involved in the maintenance of CIBP. Inoculation of Walker 256 cells into the tibia could induce a marked mechanical allodynia with concomitant upregulation of spinal CCR5 and p-PKCγ expression from day 6 to day 15 after inoculation. Spinal CCR5 was prominently expressed in microglia, and mechanical allodynia was attenuated by intrathecal injection of DAPTA (a specific antagonist of CCR5) with downregulation of spinal CCR5 and p-PKCγ expression levels at day 15 in inoculated rats. Pre-intrathecal injection of RANTES could reverse the anti-allodynia effects of DAPTA. Intrathecal administration of GF109203X (an inhibitor of PKC) could alleviate mechanical allodynia as well as decrease of spinal p-PKCγ expression level, but no influence on spinal CCR5 level. Our findings suggest that CCR5/PKCγ signaling pathway in microglia may contribute to the maintenance of CIBP in rats.

Distinctive microRNA expression in early stage nasopharyngeal carcinoma patients.

The goal of this study was to investigate microRNAs (miRs) expression at different stages of nasopharyngeal carcinoma (NPC). MiR expression profiling at various stages of NPC was performed by miR array and further verified using quantitative real-time RT-PCR. Pathway enrichment analysis was carried out to identify the functional pathways regulated by the miRs. The expression of a selected group of identified miRs was verified in stage I NPC by in situ hybridization (ISH). A total of 449 miRs were identified with significantly different expressions between NPC tissues and normal pharyngeal tissues. Eighty-four miRs were dysregulated only in stage I NPC, among which 45 miRs were up-regulated and the other 39 were down-regulated. Pathway enrichment assay revleaed that three significantly down-regulated and three significantly up-regulated miRs involved in 12 pathways associating with tumour formation and progression. Quantitative RT-PCR confirmed the miR array result. In addition, the low expression levels of hsa-miR-4324, hsa-miR-203a and hsa-miR-199b-5p were further validated in stage I NPC by ISH. This present study identifed the miR signature in stage I NPC, providing the basis for early detection and treatment of NPC.

Connexin 43 Mediates CXCL12 Production from Spinal Dorsal Horn to Maintain Bone Cancer Pain in Rats.

Tumor metastasis to bone can subsequently lead to bone cancer pain (BCP). Currently, BCP is difficult to conquer due to a poor understanding of the potential mechanisms. Several studies have indicated that astrocyte-specific connexin 43 (Cx43) was involved in the neuropathic pain, and Cx43 induced the release of chemokine CXCL12 in bone marrow stromal cells. However, whether spinal Cx43 mediates the production of CXCL12 to participate in the maintenance of BCP is still unknown. Here we showed that Walker 256 tumor cells inoculation into the tibia induced a significant mechanical allodynia, which was accompanied by upregulation of spinal p-Cx43 and CXCL12 expression levels from day 6 to day 18 after inoculation. Spinal Cx43 was mainly expressed in astrocytes, and intrathecal (43)Gap26 (a selective Cx43 blocker) markedly attenuated mechanical allodynia as well as reduced p-Cx43 and CXCL12 expression at day 18 after inoculation. Pre-intrathecal administration of CXCL12 almost abolished the attenuated mechanical allodynia by (43)Gap26. Furthermore, intrathecal injection of anti-CXCL12 neutralizing antibody could ameliorate mechanical allodynia with concomitant inhibition of upregulation of CXCL12 expression, but not influence on p-Cx43 expression. Our results indicate that Cx43 mediates CXCL12 production from spinal dorsal horn in astrocytes to maintain bone cancer pain in rats. These findings may improve our understanding of the underlying mechanisms of BCP and provide a novel target for the treatment of BCP.

FGF22 protects hearing function from gentamycin ototoxicity by maintaining ribbon synapse number.

Inner hair cell (IHC) ribbon synapses of cochlea play important role in transmitting sound signal into auditory nerve and are sensitive to ototoxicity. However, ototoxic damage of ribbon synapses is not understood clearly. Roles of fibroblast growth factor 22 (FGF22) on synapse formation were explored under gentamycin ototoxicity. 6-week-old mice were injected intraperitoneally once daily with 50-150 mg/kg gentamicin for 10 days. Immunostaining with anti- GluR2&3/CtBP2 was used to estimate the number of ribbon synapses in the cochlea. Expression of FGF22 and myocyte enhancer factor 2D (MEF2D) was assayed with RT-PCR. Expression and localization of FGF22 protein were visualized with anti-FGF22 immunostaining. Hearing thresholds were assessed using auditory brainstem responses. Gentamicin administration caused reduction in ribbon synapse number and hearing impairment without effect on hair cells in CBA/J mouse model. Immunohistochemistry showed that FGF22 protein was expressed in IHCs, but not OHCs of cochlea. Gentamycin attenuated expression of FGF22 but enhanced expression of MEF2D. Cochlear infusion of recombinant FGF22 inhibited expression of MEF2D, preserved ribbon synapses, and restored hearing function impaired by gentamycin. FGF22 restores hearing loss through maintaining ribbon synapse number, likely via inhibition of MEF2D. Activating FGF22 might provide the conceptual basis for the therapeutic strategies.

Involvement of Spinal Bv8/Prokineticin 2 in a Rat Model of Cancer-Induced Bone Pain.

Cancer-induced bone pain (CIBP) is seriously disruptive to the quality of life in cancer patients, and present therapies are limited. The Bv8/prokineticin 2, a new family of chemokines, has been demonstrated to be involved in inflammatory and neuropathic pain. However, whether it is involved in CIBP remains unclear. This study was designed to examine whether spinal Bv8 was involved in the development of CIBP in rats. A rat CIBP model was constructed by injecting Walker 256 carcinoma cells into the medullary cavity of rat tibia. Tibia inoculation with Walker 256 tumour cells resulted in the development of mechanical hyperalgesia. Compared with sham rats, spinal Bv8 mRNA and protein levels were markedly and time-dependently increased in CIBP rats. Intrathecal administration of Bv8 neutralizing antibody (5 ng) could markedly attenuate pain behaviour as well as up-regulation of spinal TNF-α expression at day 18 after inoculation. Intrathecal pre-treatment with synthetic Bv8 (50 pg) almost completely abolished these effects. These data suggested that spinal Bv8/prokineticin 2 participated in the development of CIBP. Targeting of spinal Bv8 might be a promising strategy for the management of cancer-induced bone pain.

Evidence for involvement of spinal RANTES in the antinociceptive effects of triptolide, a diterpene triepoxide, in a rat model of bone cancer pain.

It has been shown that triptolide has beneficial effects in the treatment of neuropathic pain, but its effects on bone cancer pain (BCP) remain unclear. In this study, we aimed to explore the potential role of spinal regulated activation of normal T cell expressed and secreted (RANTES) in the antinociceptive effects of triptolide on BCP. A BCP model was induced by injecting Walker 256 mammary gland carcinoma cells into the intramedullary space of rat tibia. Intrathecal administration of triptolide (0.5, 1, 2 µg) could dose-dependently alleviate mechanical hyperalgesia and spontaneous pain. In addition, there were also concomitant decreases in RANTES mRNA and protein expression levels in spinal dorsal horn. These results suggest that the antinociceptive effects of triptolide are related with inhibition of spinal RANTES expression in BCP rats. The findings of this study may provide a promising drug for the treatment of BCP.

Involvement of spinal PKA/CREB signaling pathway in the development of bone cancer pain.

BACKGROUND: It has been shown that spinal PKA/CREB signaling pathway is involved in neuropathic and inflammatory pain, but its effects on bone cancer pain have not previously been investigated. The aim of this study was to examine the potential role of the spinal PKA/CREB signaling pathway in the development of bone cancer pain. METHODS: A bone cancer pain model was made by inoculation of Walker 256 cells into the intramedullary space of rat tibia. Western blot analysis examined the expression of PKAca (PKA catalytic subunit) and phospho-CREB (p-CREB) protein levels. The authors further investigated effects of intrathecal treatment with H-89 (a PKA inhibitor, 8 nmol) or forskolin (a PKA agonist, 10 nmol) on nociceptive behavior and the expression of PKAca and p-CREB. RESULTS: On days 6, 9, and 15 after inoculation, the expression of PKAca and p-CREB protein levels were higher in the bone cancer pain rats compared to the sham rats. On day 9, intrathecal administration of H-89 significantly attenuated bone cancer-induced mechanical allodynia as well as upregulation of PKAca and p-CREB protein levels. These effects were completely abolished by intrathecal pretreatment with the PKA agonist forskolin. CONCLUSION: The results suggest that the spinal PKA/CREB signaling pathway may participate in the development of bone cancer pain. The findings of this study may provide an evidence for developing novel analgesics to block bone cancer pain.

Involvement of spinal CC chemokine ligand 5 in the development of bone cancer pain in rats.

In this study, we aimed to investigate the role of spinal CC chemokine ligand 5 (CCL5) in the development of bone cancer pain (BCP). A BCP model was established by inoculation of Walker 256 cells into the intramedullary space of rat tibia. The levels of spinal CCL5 mRNA and protein expression significantly and time dependently increased in BCP rats compared with sham rats. On day 15 after inoculation, intrathecal administration of anti-CCL5 neutralizing antibody (4 µg) significantly attenuated the established mechanical hyperalgesia in the Walker 256 cells-injected rats, and the effect was abolished by intrathecal pre-treatment with recombinant rat CCL5 (0.2 µg). These results suggest that the spinal CCL5 may be involved in the development of BCP. The findings of this study may provide an evidence for developing novel analgesic agents to treat BCP.

Effects of dexmedetomidine on performance of bispectral index as an indicator of loss of consciousness during propofol administration.

OBJECTIVE: The performance of bispectral index (BIS) for the measurement of the sedative depth when dexmedetomidine is administered in propofol anaesthesia and sedation has not yet been established. This study evaluated the effects of adjunctive dexmedetomidine on the accuracy of BIS to predict loss of consciousness (LOC) and BIS values predicting LOC during propofol administration. METHODS: In this randomised, double-blind and placebo-controlled trial, 225 patients scheduled for general anaesthesia were assigned to one of three groups. Dexmedetomidine 0.5 and 1.0 µg kg-1 were intravenously infused for 15 minutes in the dexmedetomidine 0.5 and 1.0 µg kg-1 groups, and saline was infused in the control group. Propofol was administered as an effect-site target-controlled infusion after completion of dexmedetomidine infusion. Patients in each group were allocated to five subgroups in which the concentration of propofol was set at 0, 1, 2, 3 and 4 µg ml-1, respectively. Three minutes after propofol administration, the BIS values and Observer's Assessment of Alertness/Sedation (OAA/S) scores were recorded. RESULTS: There were no significant differences in the prediction probability of BIS for detecting LOC in the three groups. At the time of LOC, BIS50 values were 71.1 and 71.4 in the dexmedetomidine 0.5 and 1.0 µg kg-1 groups, respectively, which were significantly larger than the BIS50 of 63.2 in the control group. CONCLUSIONS: The ability of BIS to predict LOC is not influenced by dexmedetomidine during propofol administration, but BIS values are enhanced at the time of LOC.

Spinal RhoA/Rho kinase signalling pathway may participate in the development of bone cancer pain.

It has been shown that activation of spinal RhoA/Rho kinase (ROCK) signalling pathway facilitates nociception in neuropathic and inflammatory pain, but its effects on bone cancer pain (BCP) have not previously been studied. This study was designed to examine the potential role of the spinal RhoA/ROCK signalling pathway in the development of BCP. A model for bone cancer was induced by injecting Walker 256 cells into the tibia of rats. On days 6, 9 and 15 after inoculation, the expression of spinal RhoA and ROCK2 protein levels was higher in the Walker 256 cells injected rats compared to the sham rats. On day 9, intrathecal injection of C3 exoenzyme (a RhoA inhibitor, 10 pg) significantly attenuated BCP behaviour as well as up-regulation of spinal RhoA and ROCK2 protein levels. These effects were completely abolished by intrathecal pretreatment with U-46619 (a RhoA agonist, 1.5 pg). These results suggest that the spinal RhoA/ROCK signalling pathway may be involved in the development of BCP. The findings of this study may lead to novel therapeutic strategies for prevention and/or treatment of BCP.

Activation of spinal TDAG8 and its downstream PKA signaling pathway contribute to bone cancer pain in rats.

Bone cancer pain is difficult to treat and has a strong impact on the quality of life of patients. Few therapies have emerged because the molecular mechanisms underlying bone cancer pain are poorly understood. Recently, T-cell death-associated gene 8 (TDAG8) has been shown to participate in complete Freund's adjuvant-induced chronic inflammatory pain. In this study, we aimed to examine whether TDAG8 and its downstream protein kinase A (PKA) pathway are involved in bone cancer pain. A bone cancer pain model was made by inoculation of Walker 256 cells into the intramedullary space of rat tibia. Spinal TDAG8 expression was increased after inoculation with tumor cells. Intrathecal TDAG8 siRNA attenuated bone cancer pain behaviors during the initiation and maintenance phases; there were also concomitant decreases in TDAG8 mRNA and protein levels in spinal cord. Moreover, we found spinal PKA and phosphorylated cAMP response element-binding (pCREB) protein levels were up-regulated in the rat model of bone cancer pain. Knockdown of TDAG8 resulted in reduced bone cancer pain-induced spinal PKA and pCREB protein expression in two procedures. Furthermore, intrathecal H-89 (a PKA inhibitor) significantly attenuated bone cancer pain behaviors in rats. Our results suggest a causal relationship between TDAG8 expression and the initiation and maintenance of bone cancer pain. Activation of spinal TDAG8 contributes to bone cancer pain through the PKA signaling pathway in rats. These findings may lead to novel strategies for the treatment of bone cancer pain.