Background: Bone is one of the common metastatic sites of lung cancer, and its prognosis is not optimistic. We performed a study to evaluate the incidence, survival, and prognostic factors of lung cancer with bone metastasis (LCBM) at initial diagnosis, and to develop a nomogram to predict its outcomes. Methods: We conducted a retrospective study choosing 13,541 patients with LCBM from the Surveillance, Epidemiology, and End Results (SEER) 18 registry database. An X-tile analysis provided the optimal age cutoff point. The incidence, overall survival, and prognosis of bone metastasis were evaluated according to the patient information, characteristics of the tumor, and therapy. We also used multivariable Cox regression to estimate mortality hazard ratios (HRs) among patients with LCBM, while a visual nomogram was established to judge the prognosis. Results: The incidence of disease increased with age, but survival rates show the opposite trend. The median survival time was about 4 months. In addition, although the differences for patient race is not significant (P=0.445), White patients are prone to have bone metastases from lung cancer according to the incidence analysis. The difference for laterality is also not significant (P=0.534), while the factors of age, gender, the total number of sites, histological types, grade, tumor size, and treatment are significantly related to the outcome of patients with LCBM. Furthermore, our nomogram could predict the probability of surviving to the median survival time of the population with a c-index of 0.72. Conclusions: Age, characteristics of the tumor, and therapy should be considered for prediction of prognosis for patients with lung cancer bone metastasis. Putatively, the younger patients and the patients with chemotherapy and surgery may indicate improved survival.
Objective: To develop an emergency training program of personal protective equipment (PPE) for general healthcare workers (HCWs) who may be under the threat of Corona Virus Disease 2019 (COVID-19) and evaluate the effect of the program. Methods: A three-stage training program was designed. The complete clinical workflow together with infectious disease ward was simulated. To verify the effect of the program, an experimental training with pre- and post-test was conducted before large-scale training. Results: Post-test scores were significantly improved when compared with the pre-test scores. Among all PPE, N95 respirator and protective coverall needed training most. Meanwhile, “proficiency level” and “mutual check & help” also needed to be strengthened as independent scoring points. Conclusion: This training program significantly improved the performances of participants. It may therefore be applied for general HCWs on a larger scale.
Rationale: Coronavirus disease 2019 (COVID-19) is a novel infectious disease and became a global issue. Treatment of COVID-19 especially in solid organ transplant recipients is empirical and controversial, especially the adjustment of the immunosuppressants. Patient concerns: A 29-year-old kidney transplant recipient with the symptoms of COVID-19 pneumonia. Diagnoses: COVID-19 pneumonia after kidney transplantation. Interventions: He was treated with modified immunosuppressants (unchanged dose of tacrolimus and oral corticosteroids while discontinuing mycophenolate mofetil (MMF)), antibiotics, interferon α-2b inhalation and traditional Chinese medicine. Outcomes: He recovered from COVID-19 pneumonia after 29 days of hospitalization. And the renal function (measured as blood urea nitrogen, serum creatinine, and urine protein) returned to normal. Lessons: In certain group of COVID-19 (e.g., mild to moderate cases, young patients without comorbidities), a reduction instead of an overall withdrawal of immunosuppressant in kidney transplant recipients is feasible.
This risk model based on Clavien-Dindo grading severity of complications system and logistic regression analysis can predict severe morbidity specific to an individual patient's risk factors, estimate patients' risks and benefits of gastric surgery as an accurate decision-making tool and may serve as a template for the development of risk models for other surgical groups.
The reward system plays a vital role in drug addiction. The purpose of this study is to investigate the structural connectivity characteristics and driving-control subnetwork patterns of reward circuits in heroin abusers and assess the genetic modulation on the reward network. We first defined the reward network based on systematic literature review, and built the reward network based on diffusion tensor imaging data of 78 heroin abusers (HAs) and 79 healthy controls (HCs) using structural connectomics. Then we assessed genetic factors that might modulate changes in the reward network by performing imaging-genetic screening for 22 addiction-related polymorphisms. The genetic association was validated by performing genetic associations (1032 HAs and 2863 HCs) and expanded-variant analysis. Finally, we estimated the association between these genetic variations, reward network, and clinical performance. We found that HAs had widespread deficiencies in the structural connectivity of the reward circuit (center in VTA-linked connections), which correlated with cognition deficiency. The disruptions synchronously were shown on the reward driving system and reward control system. GABRA2 rs279858-linked variants might be a key genetic modulator for heroin vulnerability by affecting the connections of reward network and cognition. The role of the reward network connections that mediates the effects of rs279858 on cognition would be disrupted by heroin addiction. These findings provide new insights into the neurocircuitry and genetic mechanisms of addiction.
Although its status as a neuroprotectant is controversial, etomidate is often employed for pharmacologic cerebral protection in aneurysm surgery. One purported advantage of etomidate over thiopental is its hemodynamic stability. This study examined the cardiovascular effects of etomidate given for electroencephalographic (EEG) burst suppression during cerebral aneurysm clipping in humans and the direct effects of etomidate on arteries in vitro. The charts of intracranial aneurysm surgery patients were retrospectively reviewed to determine the dose of etomidate employed, the frequency of concurrent vaspressor administration, and whether hemodynamic changes were associated with etomidate use. Against a background of balanced anesthesia, the dose of etomidate to induce burst suppression was 0.73 +/- 0.49 mg/kg (mean +/- SD) and the maintenance dose was 48 +/- 30 microg/kg/min. Etomidate produced an immediate decrease in mean arterial pressure that was sustained in patients who did not receive vasopressor support. During etomidate administration, 48% of patients (10 of 21) received some form of vasopressor support such as phenylephrine or ephedrine, and 62% of patients (13 of 21) receiving isoflurane had the anesthetic discontinued or its inspired concentration decreased. Etomidate in vitro produced dose-dependent relaxation of human internal mammary arterial rings that had been preconstricted by potassium or norepinephrine. Etomidate, in EEG burst suppression doses, decreases mean arterial pressure in anesthetized patients undergoing cerebral aneurysm surgery. One mechanism of etomidate-induced hypotension may be direct relaxation of vascular smooth muscle, because etomidate directly dilates preconstricted human arteries in vitro.
Ketamine, an intravenous anesthetic and a major drug of abuse, is a noncompetitive N-methyl-D-aspartate (NMDA) receptor antagonist. Ketamine's enantiomer, S(+)-ketamine, acts stereoselectively on neuronal NMDA receptors. The purpose of this in vitro study was to compare the direct effects of S(+)-ketamine, 2 other noncompetitive NMDA receptor antagonists (dextrorphan and dextromethorphan), and the calcium entry blocker nimodipine on the cerebral vasculature, using bovine middle cerebral arteries as an experimental model. Arterial rings were mounted in isolated tissue chambers equipped with isometric tension transducers to obtain pharmacologic dose-response curves. In the absence of exogenous vasoconstrictors, the NMDA antagonists or nimodipine had negligible effects on cerebral arterial tone. When rings were preconstricted with either potassium or the stable thromboxane A2 mimetic U46619, the NMDA antagonists and nimodipine each produced dose-dependent relaxation. Prior endothelial stripping had no effect on subsequent drug-induced relaxation of K+-constricted rings. In Ca2+-deficient media containing either potassium or U46619, the NMDA antagonists and nimodipine each produced competitive inhibition of subsequent Cainduced constriction. In additional experiments, arterial strips were mounted in isolated tissue chambers to directly measure calcium uptake, using 45calcium (45Ca) as a radioactive tracer. The NMDA antagonists and nimodipine each blocked potassium-stimulated or U46619-stimulated Ca2+ uptake into arterial strips. These results indicate that S(+)-ketamine, dextrorphan, and dextromethorphan, like nimodipine, directly dilate cerebral arteries by acting as calcium antagonists; they all inhibit 45Ca uptake through both potential-operated (potassium) and receptor-operated (U46619) channels in cerebrovascular smooth muscle.
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