Impact of a Specialty Pharmacy-Based Oral Chemotherapy Adherence Program on Patient Adherence

Russell, Kathy, Slack, Marion, Cooley, Janet, Mathews, Kelly

January 2016

Class of 2016 Abstract / Objectives: Patient medication adherence is a basic requirement for treating chronic myelogenous leukemia (CML) with oral tyrosine kinase inhibitors (TKIs). When imatinib adherence rates are less than 80 or 90 percent, major and complete molecular responses, respectively, do not happen. The purpose of this study was to determine the effect of a real-time medication monitoring (RTMM) reminder system adherence program on the medication possession ratio (MPR). Methods: This analytic study was a retrospective cohort study and used data extracted from chart reviews for patients who received services from 2011 to 2015. It was approved by the Institutional Review Board. The study consisted of an intervention group and a control group (50 patients each). MPRs, demographic, descriptive, and categorical variables were summarized using means, standard deviations (SD), and frequencies/percentages. Results: The study population consisted of adult patients (mean age=62.2, SD=2.7, 50% male) treated by Avella Specialty Pharmacy who received imatinib or nilotinib as treatment for CML, gastrointestinal stromal tumors (GIST), or a similar positive Philadelphia chromosome cancer. Only 4% of patients in the intervention group had an < 85% MPR, compared to 46% in the control group (p < 0.001). Conclusions: In those patients who had an MPR of ≥ 85%, the difference between the groups was statistically significant. As past studies have shown, adherence rates greater than 90% have a higher likelihood of a major or complete molecular response and a greatly reduced risk of disease progression.

pharmacy-based

oral chemotherapy

patient adherence

chronic myelogenous leukemia (CML)

oral tyrosine kinase inhibitors (TKIs)

real-time medication monitoring (RTMM)

Toward an Improved Chronic Myelogenous Leukemia Treatment: Blocking the Stem Cell Factor–Mediated Innate Resistance With Anti–c-Kit Synthetic-Antibody Inhibitors

2015 March 1900

Chronic Myelogenous Leukemia (CML) is a blood cancer that arises when hematopoietic cells acquire an abnormal protein known as BCR-ABL. Current therapies for CML include drugs that inhibit BCR-ABL. However, these drugs only suppress the disease and do not cure it. One reason is that BCR-ABL drugs fail to kill the primitive population of CML cells, referred to as leukemia stem cells (LSCs), which are responsible for initiating and propagating CML. Since LSCs are not killed, the cancer is not cured and many affected patients eventually relapse. Recent studies suggest that LSCs are protected from current therapies by the bone marrow micro-environment where they reside. There, cytokine signaling molecules are present, which mediate processes that protect LSCs from BCR-ABL drugs. The stem cell factor (SCF) is one of these signaling molecules. It activates the receptor c-Kit located on the surface of LSCs, and this activation in turn allows proliferating LSCs to resist BCR-ABL drugs, even without prior exposure to these drugs, i.e., innate resistance is observed. In this thesis, the mechanism of this innate resistance is investigated, so that a suitable treatment strategy can be developed. To this end, a co-agent approach based on synthetic antibodies (sABs) is proposed to inhibit the receptor c-Kit, with the goal of disrupting its activation by the ligand SCF. This disruption should in turn block the SCF-mediated innate resistance, thus potentially restoring BCR-ABL drug apoptotic activity. The method for this disruption involves targeting the c-Kit structural susceptibility. Specifically, the sABs are designed via antibody phage display technology to target the D1–D2–D3 domains representing the SCF binding sites, hence preventing downstream pathway activation. The hypothesis is that, by blocking the SCF-mediated innate resistance, a suitable combination of such an sAB co-agent and a BCR-ABL drug should be conducive to suppressing LSCs, thereby providing a potential means to improve CML treatment. In addition, to assess the performance of the proposed treatment strategy, a set of in vitro tests is conducted, focusing on performance behaviors such as cell binding, cell death, and the progenitor inhibition. The experimental results support the hypothesis that the proposed combinatorial strategy is indeed a promising approach to mitigate the innate resistance, thus restoring BCR-ABL drug apoptotic activity.

chronic myelogenous leukemia (CML)

combinatorial treatment

cancer stem cells

tyrosine kinase inhibitor (TKI)

nilotinib

cytokine signaling

stem cell factor (SCF)

anti--c-Kit synthetic antibodies (sABs).

Résistance des cellules souches hématopoïétiques dans la leucémie myéloïde chronique / Resistance of hematopoietic stem cells in chronic myelogenous leukemia

Hamdan, Ghassan

30 September 2010

L’existance de cellules souches leucémiques (CSL) dans la Leucémie Myéloïde Chronique (LMC) prédit que que seule la destruction des CSL conduirait à une guérison. Une proportion importante de patients atteints de LMC développe une résistance aux drogues, environ ~ 30% des cas, Les mécanismes de résistance aux inhibiteurs de tyrosine kinase (TKI) dans la leucémie myéloïde chronique (LMC) restent souvent obscures. Les cellules souches leucémiques de la LMC pourraient rester viables et en repos, malgré la présence de facteurs de croissance ou de médicaments qui semblent les protéger de l'apoptose. Nous avons montré dans la première parti de cette étude que certains transporteurs telles ABCG2, hOCT-1 pourraient jouer un rôle avec le micro environnement dans la résistance des lignées LMC en adhésion au stoma médullaire. De plus, dans deuxième parti nous avons montré que le gène TWIST-1 (est un acteur clé de l'embryogenèse) est déréglementé dans les cellules de LMC innée des résistants à l'imatinib, et que la sur-expression de l’oncogène TWIST-1 pourrait représenter un nouveau facteur clé de pronostiques potentiellement utiles pour améliorer la guérison de LMC aux TKI. De plus, nous avons pu également montrer que le gène TP73 est impliqué dans la résistance des CSL de LMC. Ce gène pourrait être un facteur prédictif pour identifier une résistance potentielle des patients de LMC au moment du diagnostic. Nous avons montré également que ce gène est régulé par le micro-environnement. Nous avons montrés une sur-expression des isoformes tronquées dans les lignées LMC avec l’adhésion au stroma. Les résultats suggèrent que les molécules intrinsèques comme TWIST-1, les transporteurs et les isoformes de p73 sont dérégulées dans les CSL par des mécanismes extrinsèques qui interviennent avec le micro environnement leucémique par le mécanisme d’adhésion dans le phénomène de résistance aux traitements. Ce mécanisme spécial de résistance due à la conservation de ces CSL dans l’état immature en adhésion avec son micro environnement. / The existence of Leukemia stem cells (CSL) in chronic myelogenous leukemia (CML) predicts that only the destruction of CSL lead to a cure. A significant proportion of CML patients develop resistance to drugs, ~ 30% cases, mechanisms of resistance to tyrosine kinase inhibitors (TKI) in chronic myeloid leukemia (CML) often remain obscure. Leukemic stem cells of CML could remain viable and quiet, despite the presence of growth factors or drugs that seem to protect them from apoptosis. We have shown in the first part of this study that some carriers such as ABCG2, hOCT could to be play a role with the microenvironment in the resistance among CML adhesion of stoma Bone marrow. Furthermore, in the second part we showed that the gene TWIST-1 (is a key player of the embryogenesis) is deregulated in cells of CML innately resistant to imatinib, and that overexpression of the oncogene TWIST-1 could represent a new prognostic factor key potentially useful for improving the querison CML to TKI. In addition, we also could show that the TP73 gene is involved in the resistance of CSL CML. This gene could be a predictor to identify potential resistance of CML patients at diagnosis. We have also shown that this gene is regulated by the microenvironment. We have shown an overexpression of truncated isoforms in CML cell lines with the accession to the stroma. The results suggest that intrinsic molecules such as TWIST-1 carriers and p73 isoforms are deregulated in CSL by extrinsic mechanisms involved with the leukemia microenvironment by the mechanism for participation in the phenomenon of drug resistance. This mechanism with its microenvironment.

Leucémie myéloïde chronique (LMC)

Cellules souches leucémiques (CSL)

Résistance

TWIST-1

TP73

Niche Hématopoietique

Chronic myelogenous leukemia (CML)

Leukemia stem cells (CSL)

Resistance

TWIST-1

TP73

Hematopoietic Niche

612.11