Indications for coronary artery bypass grafting in 2009: what is left to surgery.

Coronary artery bypass grafting (CABG) remains the most common procedure performed by cardiac surgeons, yet it is clear that the landscape of coronary intervention is constantly changing as new technology is introduced and data from countless studies continues to be published. However, no single study will be able to clearly define the indications for surgical versus percutaneous revascularization in every clinical scenario given the complexity of this disease as well as that of the patients it afflicts. Moreover, the significant improvements in percutaneous therapy, medical therapy management, perioperative care and secondary prevention after revascularization have decreased the morbidity and mortality of coronary artery disease making comparison between therapies far more difficult. Based on the available literature to date, surgical revascularization (CABG) provides significant benefit in certain patient populations; particularly those with comorbid conditions (for example diabetes, left ventricular [LV] dysfunction) and with more severe disease (for example left main, three-vessel). The goal of this article is to outline the current for surgical revascularization (CABG) understanding that coronary artery disease will continue be an important cause of morbidity and mortality and further study and re-evaluation of these recommendations will likely be necessary as time goes on.

Effect of preexisting anti-herpes immunity on the efficacy of herpes simplex viral therapy in a murine intraperitoneal tumor model.

HSV-1716, a replicating nonneurovirulent herpes simplex virus type 1, has shown efficacy in treating multiple types of human tumors in immunodeficient mice. Since the majority of the human population has been previously exposed to herpes simplex virus, the efficacy of HSV-based oncolytic therapy was investigated in an immunocompetent animal tumor model. EJ-6-2-Bam-6a, a tumor cell line derived from h-ras-transformed murine fibroblast, exhibit a diffuse growth pattern in the peritoneal cavity of BALB/c mice and replicate HSV-1716 to titers observed in human tumors. An established intraperitoneal (ip) tumor model of EJ-6-2-Bam-6a in naive and HSV-immunized mice was used to evaluate the efficacy of single or multiple ip administrations of HSV-1716 (4 x 10(6) pfu/treatment) or of carrier cells, which are irradiated, ex vivo virally infected EJ-6-2-Bam-6a cells that can amplify the viral load in situ. All treated groups significantly prolonged survival versus media control with an approximately 40% long-term survival rate (cure) in the multiply treated, HSV-naive animals. Prior immunization of the mice with HSV did not significantly decrease the median survival of the single or multiply treated HSV-1716 or the carrier cell-treated groups. These studies support the development of replication-selective herpes virus mutants for use in localized intraperitoneal malignancies.

Oncolytic therapy using a mutant type-1 herpes simplex virus and the role of the immune system.

BACKGROUND: Herpes simplex virus (HSV)-1716, a replication-restricted herpes simplex virus type 1, has shown efficacy as an oncolytic treatment for central nervous system tumors, breast cancer, ovarian cancer, and malignant mesothelioma. We evaluated the efficacy of HSV-1716 in a murine lung cancer model, Lewis lung carcinoma. METHODS: Lewis lung carcinoma cells were infected with HSV-1716 and implanted in the flanks of mice at varying ratios of infected to uninfected cells. Tumor burden was assessed by measurement of the weight of the tumor nodule. The role of the immune system was examined by performing experiments in both immunocompetent and SCID mice. Tumors were implanted in the opposite flank to evaluate the vaccine effect. RESULTS: In immunocompetent and SCID animals, ratio of 1:10 (infected-to-uninfected) cells completely prevented tumor formation and ratio of 1:100 suppressed tumor growth. Established tumors at a distant site in the groups receiving HSV-1716 infected cells showed no difference in size versus control, suggesting absence of a vaccine effect. CONCLUSIONS: We conclude that HSV-1716 may provide a oncolytic therapy for lung cancer even in the absence of immune system induction and a "carrier" cell could potentially deliver this vector.

Cellular immunity delimits adenoviral gene therapy strategies for the treatment of neoplastic diseases.

BACKGROUND: Adenoviral gene therapy is a promising new approach for the treatment of neoplastic diseases. To design rational clinical trials and distinguish the effects of therapeutic transgene expression from those caused by viral infection alone, the immune response to the vector must be understood. In these experiments, we further define cellular immunity to recombinant adenovirus. METHODS: The immune response to hepatic adenoviral gene transfer was studied in infected mice by depleting T cells with an anti-CD3 antibody, measuring splenocyte cytokine production, determining the impact of transgene expression on inflammation, and assessing liver MHC protein expression. RESULTS: The cellular immune response to recombinant adenovirus is (1) averted by T lymphocyte depletion, (2) marked by a TH1 response with increased IL-2 production, (3) directed against both the transgene product and viral proteins, and (4) associated with increased hepatocyte MHC Class I expression. CONCLUSIONS: It is necessary to take into consideration the constraints imposed by the immunogenicity of recombinant adenovirus and its transient transgene expression in the clinical application of adenoviral gene transfer for the treatment of cancer.