A systematic approach to evaluate practice-based process- and outcome data applied to the treatment of neovascular age-related macular degeneration.

BACKGROUND: Following the principles of value-based health care, outcomes and processes of daily-practice eye care need to be systematically evaluated. We illustrate an approach that can be used to support data-driven quality improvements. We used patient data regarding the treatment of neovascular age-related macular degeneration (nAMD). METHODS: In a cohort study, we reviewed medical records of patients with nAMD confirmed on fluorescein angiography (FA). Patients were treated with intravitreal injections with bevacizumab; ranibizumab; or photodynamic therapy (PDT). Visual acuity (VA), ophthalmic exam results and treatments were recorded. VA was compared between treatments by linear mixed model. Diagnosis was re-evaluated on the original FAs. Outcome analysis was performed by 1) selecting VA as the relevant outcome parameter; 2) Preventing selection by comparing treatments with historical untreated cohort and cohorts from the literature, 3) correcting for confounding due to lesion type, and 4) identifying relevant process variables that affect the outcome. These were severity of disease at presentation, and doctor- and patient dependent process variables. RESULTS: In total, 473 eyes were included. At 12 months, change in VA was 0.54, 0.48, 0.09, and 0.07 LogMAR in the no-treatment, photodynamic therapy (PDT), bevacizumab, and ranibizumab groups, respectively. Lesion type on FA differed between groups. Diagnosis of nAMD could not be confirmed in 104 patients. Patient delay, inaccurate diagnosis and treatment intervals may have impacted outcomes. CONCLUSIONS: The effect of PDT was small to absent. Anti-VEGFs were effective and appeared as effective as in RCTs. Correct selection of a comparator cohort and addressing confounding, including confounding by indication and effect modification, are needed to achieve valid results and interpretation. Patient delay, diagnosis accuracy, indication for and application of treatment can potentially be improved to improve treatment outcomes. In a value-based care perspective, systematic evaluation of diagnostic accuracy, treatment indication, protocols, and outcomes of new interventions is needed at an early stage to improve outcomes.

High levels of non-activated receptors in glucocorticoid-sensitive S49wt mouse lymphoma cells incubated with dexamethasone.

Upon agonist binding the heteromeric glucocorticoid receptor complex undergoes a conformational change (receptor activation). This event involves the dissociation of a dimer of 90 kDa heat shock proteins. Whereas receptor activation in cytosolic assays is both rapid and irreversible, less is known about the receptor activation and translocation in intact cells during challenge with an agonist. In this paper we report on the receptor status of glucocorticoid-sensitive murine S49 lymphoma cells during dexamethasone exposure. By three different assays, ligand (re)binding, nuclear translocation and hsp90 co-immunoprecipitation, it was found that the majority of the glucocorticoid receptor protein was in a non-activated conformation. Furthermore, prolonged exposure to dexamethasone did not result in increased levels of activated receptors. By assessing receptor activation in situ we found that physiological temperature was less effective in dissociating hsp90 compared to room temperature. These findings indicate that the physiological temperature negatively controls receptor activation, probably due to a thermolabile interaction between the hormone and its cognate receptor.

Generation of donor-derived antileukemic cytotoxic T-lymphocyte responses for treatment of relapsed leukemia after allogeneic HLA-identical bone marrow transplantation.

Allogeneic bone marrow transplantation (BMT) has been associated with an antileukemic effect, the graft-versus-leukemia (GVL) reactivity. Since T-cell depletion of the bone marrow graft performed to reduce the incidence and severity of graft-versus-host disease (GVHD) after BMT has been associated with an increase risk of relapse, the GVL reactivity has been attributed to the T lymphocytes from the graft. Previously, we demonstrated that leukemia-reactive cytotoxic T-lymphocyte (CTL) lines and clones could be generated from the peripheral blood of HLA-genotypically identical siblings of patients with leukemia by stimulation of the donor cells with irradiated leukemic cells from the patients. HLA class I as well as class II restricted CTL clones could be generated that recognized the leukemic cells. Some clones recognized the leukemic cells from the patient, but not the interleukin (IL)-2-stimulated lymphocytes from the same individual. To explore the possibility of clinically using donor-derived CTL lines directed against the leukemic cells from patients who relapsed after allogeneic BMT, a pilot study was performed using eight donor-recipient combinations. In seven of eight combinations donor-derived CTL lines could be generated that showed specific lysis of the leukemic cells from the patient. In five of these cases, the CTL lines showed reactivity with the leukemic cells, but not with the IL-2-stimulated lymphocytes from the same individual. In two cases, the CTL lines were cytotoxic for the IL-2-stimulated lymphoblasts as well as the leukemic cells.(ABSTRACT TRUNCATED AT 250 WORDS)

Temperature dependence of glucocorticoid binding in sensitive and refractory murine leukaemia cells.

The validity of in vitro assays in predicting the susceptibility of leukaemic cells to glucocorticoid-mediated lysis was evaluated in a panel of six murine leukaemia cell lines. In this panel susceptibility to glucocorticoids ranged from highly sensitive to fully resistant. The panel was screened for specific 3H-dexamethasone binding in whole cells and for activation of cytosolic receptors in cell lysates. Specific binding of 3H-dexamethasone was strongly affected by the incubation temperature. In all cell lines, rapid and reversible changes were observed in the stability of agonist-receptor association with a transition temperature of 28 degrees C. Below this temperature, intracellular receptors were found to be in a stable-binding, high-affinity configuration, masking differences in receptor status among the various cell lines. When assayed at 37 degrees C, refractory and fully resistant cells revealed nonsaturating, low-affinity binding of steroid. Saturating, high-affinity binding was, however, restored in these cells by the drug meta-iodobenzylguanidine with concomitant sensitization to dexamethasone-induced lysis. Contrary to observations with intact cells, heat-induced agonist-receptor dissociation in cytosols caused irreversible loss of (re)binding capacity. Activation of cytosolic receptors only recognized fully resistant cell lines as being deficient in the transformation of liganded receptors into a DNA-binding configuration. The assay, however, could not discriminate between three cell lines with highest but varying degrees of sensitivity because of maximal activation. The results indicate that non-physiological temperature and cell disruption strongly and differentially affect steroid binding and receptor activation, respectively. The observations may account for the poor correlation between conventional predictive assays and steroid responsiveness in clinical leukaemia.