Objective Drug and alcohol abuse constitutes a major public health problem. Computer-delivered interventions have potential to improve access to quality care. The objective of this study was to evaluate the effectiveness of the Therapeutic Education System, an internet-delivered behavioral intervention that includes motivational incentives, as a clinician-extender in the treatment of substance use disorders. Method Adult men and women (N=507) entering 10 outpatient addiction treatment programs were randomly assigned to 12-weeks of treatment-as-usual (n=252) or treatment-as-usual + Therapeutic Education System, whereby the intervention substituted for 2 hours of standard care per week (n=255). Therapeutic Education System consists of 62 computer-interactive modules covering skills for achieving and maintaining abstinence, plus prize-based motivational incentives contingent on abstinence and treatment adherence. Treatment-as-usual consisted of individual and group counseling at the participating programs. Primary outcomes were (1) abstinence from drugs and heavy drinking measured by twice weekly urine drug screens and self-report, and (2) time to drop-out from treatment. Results Compared to treatment-as-usual, those receiving Therapeutic Education System reduced dropout from treatment (Hazard Ratio=0.72 [95% CI, 0.57-0.92], P=.010), and increased abstinence (Odds Ratio=1.62 [95% CI: 1.12-2.35], P=.010), an effect that was more pronounced among patients with a positive urine drug and/or breath alcohol screen at the point of study entry (n=228) (Odds Ratio=2.18 [95% CI: 1.30-3.68], P=.003). Conclusion Internet-delivered interventions, such as Therapeutic Education System, have the potential to expand access and improve addiction treatment outcomes; additional research is needed to assess effectiveness in non-specialty clinical systems and to differentiate the effect of Community Reinforcement Approach and Contingency Management.
Ca2+ influx through the L-type calcium channel (LTCC) induces Ca2+ release from the sarcoplasmic reticulum (SR) and maintains SR Ca2+ loading. Alterations in LTCC properties, their contribution to the blunted adrenergic responsiveness in failing hearts and their recovery after support with LV assist devices (LVAD) were studied. L-type Ca2+ current (I(Ca,L)) was measured under basal conditions and in the presence of isoproterenol (ISO), dibutyryl-cAMP (db-cAMP), Bay K 8644 (BayK), Okadaic acid (OA, a phosphatase inhibitor), and phosphatase 2A (PP2A) in nonfailing (NF), failing (F), and LVAD-supported human left ventricular myocytes (HVMs). Basal I(Ca,L) density was not different in the 3 groups but I(Ca,L) was activated at more negative voltages in F- and LVAD- versus NF-HVMs (V(0.5): -7.18+/-1.4 and -7.0+/-0.9 versus 0.46+/-1.1 mV). Both ISO and db-cAMP increased I(Ca,L) in NF- and LVAD- significantly more than in F-HVMs (NF >LVAD> F: ISO: 90+/-15% versus 77+/-19% versus 24+/-12%; db-cAMP: 235%>172%>90%). ISO caused a significant leftward shift of the I(Ca,L) activation curve in NF- and LVAD- but not in F-HVMs. After ISO and db-cAMP, the I(Ca,L) activation was not significantly different between groups. BayK also increased I(Ca,L) more in NF- (81+/-30%) and LVAD- (70+/-15%) than in F- (51+/-8%) HVMs. OA increased I(Ca, L) by 85.6% in NF-HVMs but had no effect in F-HVMs, while PP2A decreased I(Ca, L) in F-HVMs by 35% but had no effect in NF-HVMs. These results suggest that the density of LTCC is reduced in F-HVMs but basal I(Ca,L) density is maintained by increasing in LTCC phosphorylation.
Objective We postulated that proteasome inhibition (PI) may be useful in the treatment of SLE by targeting plasmacytoid dendritic cells (pDCs) and plasma cells (PCs), both critical to disease pathogenesis. Methods Lupus prone mice were treated with the non-selective PIs carfilzomib and bortezomib, the LMP7-selective immunoproteasome inhibitor ONX 0914, or vehicle control. Tissues were harvested and analyzed by flow cytometry using standard markers. Nephritis was monitored by proteinuria and kidney harvest. Serum anti-dsDNA levels were measured by ELISA and total IgG and dsDNA antibody secreting cells (ASC) by ELIspot. Human PBMCs or mouse bone marrow cells were incubated with TLR agonists and PIs and interferon α measured by ELISA and flow cytometry. Results Early treatment of lupus prone mice with the dual targeting PIs carfilzomib or bortezomib or the immunoproteasome specific inhibitor ONX 0914 prevented disease progression, and treatment of mice with established disease dramatically abrogated nephritis. Treatment had profound effects on plasma cells with greater reductions in autoreactive than total IgG ASCs, an effect that became more pronounced with prolonged treatment, and was reflected in decreasing serum autoantibodies. Remarkably, proteasome inhibition efficiently suppressed production of interferon α by toll-like receptor activated pDCs in vitro and in vivo, an effect mediated by both an inhibition of pDC survival and function. Conclusions Inhibition of the immunoproteasome is equally efficacious to dual targeting agents in preventing lupus disease progression by targeting two critical pathways in disease pathogenesis, type I interferon activation and autoantibody production by plasma cells.
Objective. Although B cells are implicated in the pathogenesis of systemic lupus erythematosus, the role of B cell depletion (BCD) as a treatment is controversial, given the variable benefit in human disease. This study was undertaken to test the effects of BCD therapy in a murine lupus model to better understand the mechanisms, heterogeneity, and effects on disease outcomes.Methods. (NZB ؋ NZW)F 1 female mice with varying degrees of disease severity were treated with an anti-mouse CD20 (anti-mCD20) antibody (IgG2a), BR3-Fc fusion protein (for BAFF blockade), or control anti-human CD20 monoclonal antibody (ϳ10 mg/kg each). Tissue samples were harvested and analyzed by flow cytometry. The development and extent of nephritis were assessed by monitoring proteinuria (using a urine dipstick) and by immunohistochemical analysis of the kidneys. Serum immunoglobulin levels were measured by enzyme-linked immunosorbent assay.Results. After a single injection of anti-mCD20, BCD was more efficient in the peripheral blood, lymph nodes, and spleen compared with the bone marrow and peritoneum of normal mice as well as younger mice with lupus. Since depletion of the marginal zone and peritoneal B cells was incomplete and variable, particularly in older mice with established nephritis, a strategy of sequential weekly dosing was subsequently used, which improved the extent of depletion. BAFF blockade further enhanced depletion in the spleen and lymph nodes. Early BCD therapy delayed disease onset, whereas BCD therapy in mice with advanced disease reduced the progression of nephritis. These effects were long-lasting, even after B cell reconstitution occurred, and were associated with a reduction in T cell activation but no significant change in autoantibody production.Conclusion. The lasting benefit of a short course of BCD therapy in lupus-prone mice with an intact immune system and established disease highlights the validity of this treatment approach.Systemic lupus erythematosus (SLE) is a complex autoimmune disease involving multiple organ systems. The immunologic events triggering the onset of clinical manifestations have not been fully defined, but a central role of B cells in the pathogenesis of this disease has been established by studies performed in multiple laboratories, both in mice and in humans (1-3). Given the strong evidence supporting an abnormal B cell compartment in SLE, B cell depletion (BCD) therapy is being investigated as a potential treatment strategy. Several open-label studies, including our own, have demonstrated that BCD provides significant clinical benefit in SLE (4,5). Our studies have shown that clinical improvement after BCD therapy precedes the decline in levels of conventional serum autoantibodies, strongly supporting the notion of antibody-independent pathogenic roles of B cells.
Two new cases ofpopliteal venous aneurysm are reported and added to the 22 other cases ofpopliteal venous aneurysm available for review. Both patients were first seen with acute pulmonary embolism and were treated with thrombolytic therapy followed by anticoagulation. Each had recurrent venom thromboembolism before discovery of the popliteal venom aneurysm. One popliteal venous aneurysm was diagnosed with phlebography and the second with venous duplex imaging, confirmed with phlebography. Both were surgically corrected with tangential aneurysmectomy and lateral venorrhaphy. Twentyfour cases ofpopliteal venom aneurysm are now available for review. Seventy-one percent (17 of 24) presented with pulmonary embolism, 88% (21 of 24) were saccular, and 96% (23 of 24) were located in the proximal popliteal vein. All but two were diagnosed by ascending phlebography. Three patients received no treatment: in two of these the outcome was not documented and the third had occasional pain. Two patients received anticoagulation without subsequent operative repair and both died of recurrent pulmonary emboli. Operative correction resulted in a 75% patency rate with 21% complications, most of which were related to postoperative anticoagulation. No patient who was operated on had subsequent pulmonary embolism, and there were no operative deaths. We suggest that all patients who have pulmonary embolism have lower-extremity venous duplex imaging. All popliteal venous aneurysms should be surgically repaired, inasmuch as nonoperative therapy results in recurrent thromboembolism and an unacceptably high mortality rate. Tangential aneurysmectomy with lateral venorrhaphy is the recommended procedure.
Computer-assisted interventions hold the promise of minimizing two problems that are ubiquitous in substance abuse treatment: the lack of ready access to treatment and the challenges to providing empirically-supported treatments. Reviews of research on computer-assisted treatments for mental health and substance abuse report promising findings, but study quality and methodological limitations remain an issue. In addition, relatively few computer-assisted treatments have been tested among illicit substance users. This manuscript describes the methodological considerations of a multi-site effectiveness trial conducted within the National Institute on Drug Abuse's (NIDA's) National Drug Abuse Treatment Clinical Trials Network (CTN). The study is evaluating a web-based version of the Community Reinforcement Approach, in addition to prize-based contingency management, among 500 participants enrolled in 10 outpatient substance abuse treatment programs. Several potential effectiveness trial designs were considered and the rationale for the choice of design in this study is described. The study uses a randomized controlled design (with independent treatment arm allocation), intention-to-treat primary outcome analysis, biological markers for the primary outcome of abstinence, long-term follow-up assessments, precise measurement of intervention dose, and a cost-effectiveness analysis. Input from community providers during protocol development highlighted potential concerns and helped to address issues of practicality and feasibility. Collaboration between providers and investigators supports the utility of infrastructures that enhance research partnerships to facilitate effectiveness trials and dissemination of promising, technologically innovative treatments. Outcomes from this study will further the empirical knowledge base on the effectiveness and cost-effectiveness of computer-assisted treatment in clinical treatment settings.
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