Pharmacodynamic interactions between muscle relaxants and other medications in practice of anesthesia

Knowledge of drug interactions is an essential element of medical practice. Along with the increasing occurrence of multimorbidity and the associated multi-drug use, the number of possible combinations of preparations is constantly rising. The result is a growing number of potentially harmful drug to drug interactions. In their course, the effects of drugs may be enhanced, diminished, or additional effects may emerge that would not occur when used in monotherapy. Taking all of this into consideration, the role of anaesthesiologist in monitoring occurrence of drug interactions appears to be especially important. One should be familiar with drugs used in other fields of medicine and assess their safety in relation to aesthetic agents, the use of which is mainly limited to the conditions of the operating block and intensive care unit. An extremely important part of the modern anaesthesiology and safe conduct of general anaesthesia is the issue of the use of striated muscle relaxants. Due to the wide range of anaesthetic preparations, the aim of this article is to discuss the interactions between depolarizing and nondepolarizing muscle relaxants and other groups of drugs currently used in clinical practice. For this purpose, a review of the literature available in the electronic database of the PubMed portal was conducted. Based on the information obtained, it can be concluded that the effect of muscle relaxants is strongly enhanced when volatile anaesthetics and magnesium ions are used. Whereas neuromuscular relaxation is less intensified by selected groups of antibiotics, lithium ions, statins, and local anaesthetics. Attenuation of the effect occurs with the use of corticosteroids. Antiepileptic drugs, calcium ions, beta-blockers and calcium channel blockers show different effects on the potency of muscle relaxants. Diuretics, angiotensin-converting enzyme inhibitors, anticoagulants and antiplatelet agents have no direct effect on muscle relaxation. The use of corticosteroids does not affect the effectiveness of sugammadex. Sugammadex prolongs the coagulation times [prothrombin (PT) and activated partial thromboplastin (APTT)] in a dose-dependent manner

Decrease of T-cells exhaustion markers programmed cell death-1 and T-cell immunoglobulin and mucin domain-containing protein 3 and plasma IL-10 levels after successful treatment of chronic hepatitis C

During chronic hepatitis C virus (HCV) infection, both CD4$^{+}$ and CD8$^{+}$ T-cells become functionally exhausted, which is reflected by increased expression of programmed cell death-1 (PD-1) and T-cell immunoglobulin and mucin domain-containing protein 3 (Tim-3), and elevated anti-inflammatory interleukin 10 (IL-10) plasma levels. We studied 76 DAA-treated HCV-positive patients and 18 non-infected controls. Flow cytometry measured pretreatment frequencies of CD4$^{+}$PD-1$^{+}$, CD4$^{+}$PD-1$^{+}$Tim-3$^{+}$ and CD8$^{+}$PD-1$^{+}$Tim-3$^{+}$ T-cells and IL-10 levels measured by ELISA were significantly higher and CD4$^{+}$PD-1$^{-}$Tim-3$^{-}$ and CD8$^{+}$PD-1$^{-}$Tim-3$^{-}$ T-cells were significantly lower in patients than in controls. Treatment resulted in significant decrease of CD4$^{+}$Tim-3$^{+}$, CD8$^{+}$Tim-3$^{+}$, CD4$^{+}$PD-1$^{+}$Tim-3$^{+}$ and CD8$^{+}$PD-1$^{+}$Tim-3$^{+}$ T-cell frequencies as well as IL-10 levels and increase in CD4$^{+}$PD-1$^{-}$Tim-3$^{-}$ and CD8$^{+}$PD-1$^{-}$Tim-3$^{-}$ T-cells. There were no significant changes in the frequencies of CD4$^{+}$PD-1$^{+}$ T-cells, while CD8$^{+}$PD-1$^{+}$ T-cells increased. Patients with advanced liver fibrosis had higher PD-1 and lower Tim-3 expression on CD4$^{+}$T-cells and treatment had little or no effect on the exhaustion markers. HCV-specific CD8$^{+}$T-cells frequency has declined significantly after treatment, but their PD-1 and Tim-3 expression did not change. Successful treatment of chronic hepatitis C with DAA is associated with reversal of immune exhaustion phenotype, but this effect is absent in patients with advanced liver fibrosis

T-Cell Exhaustion in HIV-1/Hepatitis C Virus Coinfection Is Reduced After Successful Treatment of Chronic Hepatitis C.

BACKGROUND T-cell responses during chronic viral infections become exhausted, which is reflected by upregulation of inhibitory receptors (iRs) and increased interleukin 10 (IL-10). We assessed 2 iRs-PD-1 (programmed cell death protein 1) and Tim-3 (T-cell immunoglobulin and mucin domain-containing protein 3)-and IL-10 mRNAs in peripheral blood mononuclear cells (PBMCs) and their soluble analogs (sPD-1, sTim-3, and IL-10) in plasma in chronic HIV-1/hepatitis C virus (HCV) coinfection and explored the effect of HCV treatment on these markers. We also aimed to establish whether iR expression may be determined by the HCV CD8+ T-cell immunodominant epitope sequence. METHODS Plasma and PBMCs from 31 persons with chronic HIV-1/HCV coinfection from the Swiss HIV Cohort Study were collected before and after HCV treatment. As controls, 45 persons who were HIV-1 negative with chronic HCV infection were recruited. Exhaustion markers were assessed by enzyme-linked immunosorbent assay in plasma and by quantitative reverse transcription polymerase chain reaction in PBMCs. Analysis of an HCV epitope sequence was conducted by next-generation sequencing: HLA-A*02-restricted NS31073-1081 and NS31406-1415 and HLA-A*01-restricted NS31436-1444. RESULTS The study revealed higher plasma sPD-1 (P = .0235) and IL-10 (P = .002) levels and higher IL-10 mRNA in PBMCs (P = .0149) in HIV-1/HCV coinfection. A decrease in plasma sPD-1 (P = .0006), sTim-3 (P = .0136), and IL-10 (P = .0003) and Tim-3 mRNA in PBMCs (P = .0210) was observed following successful HCV treatment. Infection with the HLA-A*01-restricted NS31436-1444 ATDALMTGY prototype variant was related to higher sTim-3 levels than infection with the ATDALMTGF escape variant (P = .0326). CONCLUSIONS The results underscore the synergistic effect of coinfection on expression of exhaustion markers, their reduction following successful HCV treatment and imply that iR levels may operate on an epitope-specific manner

T-Cell Exhaustion in HIV-1/Hepatitis C Virus Coinfection Is Reduced After Successful Treatment of Chronic Hepatitis C

BACKGROUND T-cell responses during chronic viral infections become exhausted, which is reflected by upregulation of inhibitory receptors (iRs) and increased interleukin 10 (IL-10). We assessed 2 iRs-PD-1 (programmed cell death protein 1) and Tim-3 (T-cell immunoglobulin and mucin domain-containing protein 3)-and IL-10 mRNAs in peripheral blood mononuclear cells (PBMCs) and their soluble analogs (sPD-1, sTim-3, and IL-10) in plasma in chronic HIV-1/hepatitis C virus (HCV) coinfection and explored the effect of HCV treatment on these markers. We also aimed to establish whether iR expression may be determined by the HCV CD8$^{+}$ T-cell immunodominant epitope sequence. METHODS Plasma and PBMCs from 31 persons with chronic HIV-1/HCV coinfection from the Swiss HIV Cohort Study were collected before and after HCV treatment. As controls, 45 persons who were HIV-1 negative with chronic HCV infection were recruited. Exhaustion markers were assessed by enzyme-linked immunosorbent assay in plasma and by quantitative reverse transcription polymerase chain reaction in PBMCs. Analysis of an HCV epitope sequence was conducted by next-generation sequencing: HLA-A*02-restricted NS3$_{1073-1081}$ and NS3$_{1406-1415}$ and HLA-A*01-restricted NS3$_{1436-1444}$. RESULTS The study revealed higher plasma sPD-1 (P = .0235) and IL-10 (P = .002) levels and higher IL-10 mRNA in PBMCs (P = .0149) in HIV-1/HCV coinfection. A decrease in plasma sPD-1 (P = .0006), sTim-3 (P = .0136), and IL-10 (P = .0003) and Tim-3 mRNA in PBMCs (P = .0210) was observed following successful HCV treatment. Infection with the HLA-A*01-restricted NS3$_{1436-1444}$ ATDALMTGY prototype variant was related to higher sTim-3 levels than infection with the ATDALMTGF escape variant (P = .0326). CONCLUSIONS The results underscore the synergistic effect of coinfection on expression of exhaustion markers, their reduction following successful HCV treatment and imply that iR levels may operate on an epitope-specific manner

ICAR: endoscopic skull‐base surgery

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Hepatitis C Virus Neuroinvasion: Identification of Infected Cells▿

Hepatitis C virus (HCV) infection often is associated with cognitive dysfunction and depression. HCV sequences and replicative forms were detected in autopsy brain tissue and cerebrospinal fluid from infected patients, suggesting direct neuroinvasion. However, the phenotype of cells harboring HCV in brain remains unclear. We studied autopsy brain tissue from 12 HCV-infected patients, 6 of whom were coinfected with human immunodeficiency virus. Cryostat sections of frontal cortex and subcortical white matter were stained with monoclonal antibodies specific for microglia/macrophages (CD68), oligodendrocytes (2′,3′-cyclic nucleotide 3′-phosphodiesterase), astrocytes (glial fibrillary acidic protein [GFAP]), and neurons (neuronal-specific nuclear protein); separated by laser capture microscopy (LCM); and tested for the presence of positive- and negative-strand HCV RNA. Sections also were stained with antibodies to viral nonstructural protein 3 (NS3), separated by LCM, and phenotyped by real-time PCR. Finally, sections were double stained with antibodies specific for the cell phenotype and HCV NS3. HCV RNA was detected in CD68-positive cells in eight patients, and negative-strand HCV RNA, which is a viral replicative form, was found in three of these patients. HCV RNA also was found in astrocytes from three patients, but negative-strand RNA was not detected in these cells. In double immunostaining, 83 to 95% of cells positive for HCV NS3 also were CD68 positive, while 4 to 29% were GFAP positive. NS3-positive cells were negative for neuron and oligodendrocyte phenotypic markers. In conclusion, HCV infects brain microglia/macrophages and, to a lesser extent, astrocytes. Our findings could explain the biological basis of neurocognitive abnormalities in HCV infection