Medication adherence, persistence, switching and dose escalation with the use of tumor necrosis factor (TNF) inhibitors among Texas Medicaid patients diagnosed with rheumatoid arthritis

Oladapo, Abiola Oluwagbenga

30 September 2013

The main purpose of this study was to evaluate medication use patterns (i.e., dose escalation, medication adherence, persistence, and switching) of rheumatoid arthritis (RA) patients on etanercept (ETN), infliximab (IFX) or adalimumab (ADA) and the associated healthcare utilization costs using Texas Medicaid data. Study participants were Medicaid beneficiaries (18-63 years) with an RA diagnosis (ICD-9-CM code 714.0x) who had no claim for a biologic agent in the 6-month pre-index period (July 1, 2003 - Dec 31, 2010). The index date was the first date when the patient had the first fill for any of the study TNF inhibitors (ETN, ADA or IFX) within the study identification period (Jan 1, 2004 – Aug 31, 2010). Data were extracted from July 1, 2003 to August 31, 2011. Prescription and medical claims were analyzed over an 18-month study period (i.e., 6-month pre-index and 12-month post-index periods). The primary study outcomes were adherence, persistence, dose escalation, switching and cost (i.e., total healthcare, RA-related and TNF inhibitor therapy cost). The study covariates were demographic factors (age, gender, race/ethnicity), pre-index use of other RA-related medications (pain, glucocorticoids and disease modifying antirheumatic drugs), total number of non-study RA-related medications used at index, pre-index RA and non-RA related visits, pre-index healthcare utilization cost and Charlson Comorbidity Index score. Conditional regression analyses, which accounts for matched samples, were used to address the study objectives. After propensity score matching, 822 patients (n=274/group) comprised the final sample. The mean age (±SD) was 48.9(±9.8) years, and the majority of the subjects were between 45 and 63 years (69.2%), Hispanic (53.7%) and female (88.0%). Compared to patients on ETN, the odds of having a dose escalation were ≈ 5 [Odds Ratio= 4.605 [95% CI= 1.605-12.677], p=0.0031] and ≈ 8 [Odds Ratio=7.520, [95% CI= 2.461-22.983], p=0.0004] times higher for IFX and ADA patients, respectively, while controlling for other variables in the model. Compared to ETN, patients on IFX (p=0.0171) were more adherent while adherence was comparable with patients on ADA (p=0.1144). Compared to patients on ETN, the odds of being adherent (MPR ≥ 80%) to IFX was ≈ 2 times higher [Odds Ratio= 2.437, [95% CI=1.592-3.731], p < 0.0001] while controlling for other variables in the model. Persistence to index TNF inhibitor therapy and likelihood to switch or discontinue index TNF inhibitor therapy were comparable among the 3 study groups. In addition, the duration of medication use (i.e., persistence) prior to switching or discontinuation of index therapy was comparable among the 3 study groups. Furthermore, for each of the cost variables (total healthcare, RA-related and TNF inhibitor therapy cost), costs incurred by patients on ETN were significantly lower (p < 0.01) than those incurred by ADA patients but significantly higher (p < 0.01) than those incurred by IFX patients. Finally, a positive and significant relationship (p < 0.0001) was found between RA-related healthcare cost, adherence and persistence to TNF inhibitor therapies. In conclusion, ETN was associated with lower rates of dose escalation compared to ADA or IFX. However, adherence was better and associated healthcare costs were lower with IFX. Clinicians should endeavor to work with each individual patient to identify patient-specific factors responsible for poor medication use behaviors with TNF-inhibitor therapies. Reducing the impact of these factors and improving adherence should be included as a major part of the treatment plan for each RA patient. RA patients need to be adequately educated on the importance of adhering and persisting to their TNF-inhibitor therapy as poor medication adherence/persistence negatively impacts the RA disease process. / text

Rheumatoid arthritis

Medication adherence

Persistence

Switching

Dose escalation

Tumor necrosis factor (TNF) inhibitors

Evaluation of LMP-420: A Novel, Nontoxic Drug with Anti-Inflammatory Properties and Therapeutic Potential for CLL

Mowery, Yvonne Marie

January 2012

<p>B-cell chronic lymphocytic leukemia (CLL) is the most common leukemia in the Western world. Although treatment of this disease has advanced considerably over the past decade, CLL remains incurable with current chemotherapeutics. In addition, available drug regimens for CLL are associated with frequent cytopenia-related complications, such as infection and fatigue. Thus, the major challenge in CLL treatment today is the need for alternative therapeutics with decreased toxicity and improved efficacy for disease refractory to currently available drugs.</p><p> </p><p>CLL is characterized by slow accumulation of malignant cells, which are supported in the microenvironment by cell-cell interactions and soluble cytokines such as tumor necrosis factor (TNF). We evaluated the effect of the small molecule TNF inhibitor LMP-420 on primary CLL cells. LMP-420 exhibited cytotoxic activity against these cells in the MTS assay, with similar potency to the front-line CLL drug fludarabine. LMP-420 induced time- and dose-dependent apoptosis in CLL cells, as demonstrated by annexin V staining, caspase activation, and DNA fragmentation. These changes were associated with decreased expression of the anti-apoptotic proteins Mcl-1, Bcl-xL, Bcl-2, and XIAP. CLL cells from patients with poor prognostic indicators exhibited LMP-420 sensitivity equal to that for cells from patients with favorable characteristics. In addition, LMP-420 potentiated the cytotoxic effect of fludarabine and inhibited in vitro proliferation of CLL cells. In contrast to other CLL therapeutics, LMP-420 exhibited minimal effects on normal peripheral blood mononuclear cell viability, mitogen-stimulated B- and T-cell proliferation, and hematopoietic colony formation. Our data suggest that LMP-420 may be a useful treatment for CLL with negligible hematologic toxicities. </p><p> </p><p>The effect profile of this compound in normal immune cells and the microarray studies in CLL cells indicate that the mechanism of action of LMP-420 likely involves modulation of the NF-kB pathway. Our initial studies demonstrate moderate but significant inhibitory activity against p65, a key member of the NF-kB transcription factor family. Research is ongoing to gain a better understanding of the specific cytotoxicity of LMP-420 for CLL cells and to elucidate other components of its mechanism of action. Regardless of the ultimate mechanistic findings with LMP-420, our studies support this molecule as a promising new CLL therapeutic that warrants further preclinical evaluation.</p> / Dissertation

Pathology

Medicine

Oncology

apoptosis

chronic lymphocytic leukemia (CLL)

hematopoietic toxicity

LMP-420

nuclear factor-kappaB (NF-kB)

tumor necrosis factor (TNF)

Studies on Redox-proteins and Cytokines in inflammation and Cancer

Hossain, Akter

January 2007

The redox state in the cell plays a major role in determining vital functions and its major imbalance can lead to severe cell injury or death. Redox active proteins and cytokines involved in this process includes thioredoxin (Trx), protein disulfide isomerase (PDI), and tumor necrosis factor (TNF) superfamilies. Trx is a multipotent protein and key regulator of cellular redox balance operating in synergy with Trx reductase and NADPH (the Trx system). Trx has gene regulatory activity of several transcription factors. It also controls in a fascinating way redox-sensitive “on-off” decisions for apoptotic or hypertrophic pathways. Trx protects against H2O2 and TNFmediated cytotoxicity, a pathway in which TNF receptor-binding generates ROS. TNF is an autocrine growth factor and survival factor in vitro and in vivo for B-type of chronic lymphocytic leukemia (B-CLL) cells. The overall aim of this study was to investigate the importance of redox active proteins and cytokines in inflammation and cancer. We focused on: i) the role of Trx, TrxR, and selenium in carcinogenesis and in resistant cancer cells. ii) the importance of Trx in cancer cells and the redox regulation of TNF and its receptors TNFR1 and TNFR2. iii) the potential role of Trx as a key regulator in cellular redox balance, in the pathogenesis of cardiac dysfunction; its relationship to stress response parameters. iv) whether unmutated CLL (UCLL) responses to PKC and ROS pathways were different from mutated CLL (M-CLL) responses. Our results demonstrate pronounced selective selenium-mediated apoptosis in therapy resistant cells and suggest that redox regulation through the Trx system is an important target for cancer therapy. Trx was strikingly elevated in heart failure cases compared with controls signifying an adaptive stress response that is higher the more severe the disease. TNF autocrine release was redox modulated and the TNF receptors interacted at the cell surface membrane with the redox-active PDI, which excerted a stringent redox-control of the TNFR signaling. The proliferative response as well as increase of autocrine TNF and Trx were higher in U-CLL than in M-CLL. The overall conclusion of the four papers included in this thesis is that redox-active proteins and cytokines plays an important role in control and regulation of cancer and inflammation. Furthermore, redox regulation via thioredoxin by selenium, may offer novel treatment possibilities for resistant tumors disease.

Thioredoxin (Trx)

Selenium

Tumor necrosis factor (TNF)

Cancer

nflammation

oxidative stress

Protein-disulfide isomerase (PDI)

Tumor necrosis factor receptor (TNFR)

Cell and Molecular Biology

Cell- och molekylärbiologi