Lorna Doucette scite author profile

The ability of the heart to adapt to increased stress is dependent on modification of its extracellular matrix (ECM) architecture that is established during postnatal development as cardiomyocytes differentiate, a process that is poorly understood. We hypothesized that the small leucine-rich proteoglycan (SLRP) lumican (LUM), which binds collagen and facilitates collagen assembly in other tissues, may play a critical role in establishing the postnatal murine myocardial ECM. Although previous studies suggest LUM deficient mice (lum−/−) exhibit skin anomalies consistent with Ehlers-Danlos syndrome, lum−/− hearts have not been evaluated. These studies show LUM was immunolocalized to non-cardiomyocytes of the cardiac ventricles and its expression increased throughout development. Lumican deficiency resulted in significant (50%) perinatal death and further examination of the lum−/− neonatal hearts revealed an increase in myocardial tissue without a significant increase in cell proliferation. However cardiomyocytes from surviving postnatal day 0 (P0), 1 month (1 mo) and adult (4 mo) lum−/− hearts were significantly larger than their wild type (WT) littermates. Immunohistochemistry revealed that the increased cardiomyocyte size in the lum−/− hearts correlated with alteration of the cardiomyocyte pericellular ECM components collagenα1(I) and the class I SLRP decorin (DCN). Western blot analysis demonstrated that the ratio of glycosaminoglycan (GAG) decorated DCN to core DCN was reduced in P0 and 1 mo lum−/− hearts. There was also a reduction in the β and γ forms of collagenα1(I) in lum−/− hearts. While the total insoluble collagen content was significantly reduced, the fibril size was increased in lum−/− hearts, indicating LUM may play a role in collagen fiber stability and lateral fibril assembly. These results suggest that LUM controls cardiomyocyte growth by regulating the pericellular ECM and also indicates that LUM may coordinate multiple factors of collagen assembly in the murine heart. Further investigation into the role of LUM may yield novel therapeutic targets and/or biomarkers for patients with cardiovascular disease.

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Development of myotendinous‐like junctions that anchor cardiac valves requires fibromodulin and lumican

Dupuis

Doucette

Rice

et al. 2016

Developmental Dynamics

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Background There are many patients that exhibit connective tissue related cardiac malformations but do not have mutations in collagen genes. The Small Leucine Rich Proteoglycans (SLRP) fibromodulin (FMOD) and lumican (LUM) bind collagen and regulate fibril assembly in other biological contexts. Results FMOD deficient mice and double deficient FMOD;LUM mice exhibited anomalies in regions where cardiac valve tissue interdigitates with adjacent muscle for support. Ectopic connective and/or myocardial tissue(s) was associated with the more severe cardiac valve anomalies in FMOD;LUM deficient mice. At postnatal day 0 (P0) there was an increase in the mesenchymal cell number in the regions where valve cusps anchor in FMOD;LUM deficient mice compared to WT. The cardiac valve anomalies correlated with the highest levels of FMOD expression in the heart and also where myotendinous junctions (MTJ) components biglycan, collagen type I alpha 1, and collagen type VI, are also localized. Conclusion The postnatal assembly of the collagen-rich ECM in regions where cardiac valves anchor, that we have designated ‘myotendinous-like junctions’ (MTLJ) requires the SLRPs FMOD and LUM. Moreover, FMOD and LUM may facilitate mesenchymal cell differentiation in late stages of cardiac valve development.

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Use of inhaled imipenem/cilastatin in pediatric patients with cystic fibrosis: A case series

Jones

Doucette

Dellon

et al. 2019

Journal of Cystic Fibrosis

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Mycobacterium abscessus is a rapidly-growing, virulent, non-tuberculous mycobacterium that causes progressive inflammatory lung damage and significant decline in lung functionin patients with cystic fibrosis. M. abscessus complex pulmonary infections are notoriously difficult to treat, and while many antibiotics are approved for children, drug allergies or intolerances can prohibit their use. Intravenous imipenem/cilastatin is among the preferred antibiotics for treatment of M. abscessus, however, its use may result in systemic toxicities including hepatic injury and gastrointestinal effects. Case reports document the successful use of inhaled imipenem/ cilastatin in adult cystic fibrosis and non-cystic fibrosis patients with non-M. abscessus pulmonary infections. To our knowledge, similar evidence does not exist for pediatric patients. In this case series, we describe two pediatric patients with cystic fibrosis and previous intolerance or lack of response to standard therapies who received inhaled imipenem/cilastatin for the treatment of chronic M. abscessus infection.

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Access to clinical pharmacy services in a pharmacist-physician covisit model

Ulrich

Lugo

Hughes

et al. 2021

Research in Social and Administrative Pharmacy

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Participatory research to improve medication reconciliation for older adults in the community

Doucette

Kiely

Gierisch

et al. 2022

J American Geriatrics Society

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Introduction Medication reconciliation, a technique that assists in aligning a care team's understanding of an individual's true medication regimen, is vital to optimize medication use and prevent medication errors. Historically, most medication reconciliation research has focused on institutional settings and transitional care, with comparatively little attention given to medication reconciliation in community settings. To optimize medication reconciliation for community‐dwelling older adults, healthcare professionals and older adults must be engaged in co‐designing processes that create sustainable approaches. Methods Academic researchers, older adults, and community‐ and health system‐based healthcare professionals engaged in a participatory process to better understand medication reconciliation barriers and co‐design solutions. The initiative consisted of two participatory research approaches: (1) Sparks Innovation Studios, which synthesized professional expertise and opinions, and (2) a Community Consultation Studio with older adults. Input from both groups informed a list of possible solutions and these were ranked based on evaluative criteria of feasibility, person‐centeredness, equity, and sustainability. Results Sparks Innovation Studios identified a lack of ownership, fragmented healthcare systems, and time constraints as the leading barriers to medication reconciliation. The Community Consultation Studio revealed that older adults often feel dismissed in medical encounters and perceive poor communication with and among providers. The Community Consultation Studio and Sparks Innovation Studios resulted in four highly‐ranked solutions to improve medication reconciliation: (1) support for older adults to improve health literacy and ownership; (2) ensuring medication indications are included on prescription labels; (3) trainings and incentives for front‐line staff in clinic settings to become champions for medication reconciliation; and (4) electronic health record improvements that simplify active medication lists. Conclusion Engaging community representatives with academic partners in the research process enhanced understanding of community priorities and provided a practical roadmap for innovations that have the potential to improve the well‐being of community‐dwelling older adults.

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Lorna Doucette

Lumican deficiency results in cardiomyocyte hypertrophy with altered collagen assembly

Development of myotendinous‐like junctions that anchor cardiac valves requires fibromodulin and lumican

Use of inhaled imipenem/cilastatin in pediatric patients with cystic fibrosis: A case series

Access to clinical pharmacy services in a pharmacist-physician covisit model

Participatory research to improve medication reconciliation for older adults in the community

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