Web-Based Technology to Improve Disease Knowledge Among Adolescents With Sickle Cell Disease: Pilot Study.

BACKGROUND: Advancements in treatment have contributed to increased survivorship among children with sickle cell disease (SCD). Increased transition readiness, encompassing disease knowledge and self-management skills before transfer to adult care, is necessary to ensure optimal health outcomes. The Sickle Cell Transition E-Learning Program (STEP) is a public, Web-based, 6-module tool designed to increase transition readiness for youth with SCD. OBJECTIVE: The objective of our study was to investigate the participation rate of youth with SCD in STEP and its association with transition readiness. METHODS: This was a single-center, Institution Review Board-approved, retrospective cohort review. A total of 183 youths with SCD, aged between 12 and 15 years, were offered STEP as an adjunct to in-clinic disease education sessions. Participation rate (number of patients who used at least one STEP module divided by those approached) was calculated. The association among the number of STEP modules completed, disease knowledge, and self-management was explored. RESULTS: Overall, 53 of the 183 approached adolescents completed at least one STEP module, yielding a participation rate in STEP of 29.0%. Of the 53 participants, 37 and 39 adolescents had disease knowledge and self-management confidence rating available, respectively. A positive correlation (r=0.47) was found between the number of STEP modules completed and disease knowledge scores (P=.003). No association was found between the number of modules completed and self-management confidence ratings. Disease knowledge scores were significantly higher among participants who completed ≥3 STEP modules compared with those who completed <3 STEP modules (U=149.00; P=.007). CONCLUSIONS: Improvement in disease knowledge in adolescence is critical to ensure the youth's ability to self-care during the period of transition to adult care. Despite low participation, the cumulative exposure to the STEP program suggested greater promotion of disease knowledge among adolescents with SCD before transfer to adult care.

A program of transition to adult care for sickle cell disease.

Most children with sickle cell disease (SCD) today survive into adulthood. Among emerging adults, there is a marked increase in acute care utilization and a rise in mortality, which can be exacerbated by not establishing or remaining in adult care. Health care transition programs are therefore essential to prepare, transfer, and integrate emerging adults in the adult care setting. The Six Core Elements of Health Care Transition, created by the Center for Health Care Transition Improvement, define the basic components of health care transition support as follows: (1) transition policy, (2) tracking and monitoring progress, (3) assessing transition readiness, (4) planning for adult care, (5) transferring to adult care, and (6) integrating into adult care. Programs that implement the Six Core Elements have experienced significant declines in care abandonment during adolescence and young adulthood and higher early adult care engagement. Most of the core transition activities are not currently reimbursable, however, posing a challenge to sustain transition programs. Ongoing studies are investigating interventions in comparative effectiveness trials to improve health-related quality of life and reduce acute care utilization among emerging adults with SCD. Although these studies will identify best practices for health care transition, it is also important to define how the transition outcomes will be measured, as no consensus definition exists for successful health care transition in SCD. Future research is needed to define best practices for health care transition, systematically assess transition outcomes, and revise payment models to promote sustainability of health care transition programs.

Reversal of high fat diet-induced obesity improves glucose tolerance, inflammatory response, ß-amyloid accumulation and cognitive decline in the APP/PSEN1 mouse model of Alzheimer's disease.

This study assessed the extent to which high fat diet (HFD)-induced ß-amyloid accumulation and cognitive decline in APP/PSEN1 mice are reversible through control of fat intake. Ten months of HFD (60% calories from fat) led to significant deficits in a 2-trial Y maze task, and nest building assay, and decreased voluntary locomotor activity. The HFD induced an inflammatory response, indicated by increased expression of several inflammatory markers. Substituting a low fat diet led to pronounced weight loss and correction of glucose intolerance, decreases in the inflammatory response, and improved performance on behavioral tasks in both wild-type and APP/PSEN1 transgenic mice. Insoluble ß-amyloid levels, and extent of tau phosphorylation were also lower following dietary reversal in APP/PSEN1 mice compared to high fat-fed animals, indicating that the inflammatory response may have contributed to key pathogenic pathways in the Alzheimer's disease model. The data suggest that weight loss can be a vital strategy for cognitive protection, but also highlight potential mechanisms for intervention when sustained weight loss is not possible.

Nfix is a novel regulator of murine hematopoietic stem and progenitor cell survival.

Hematopoietic stem cells are both necessary and sufficient to sustain the complete blood system of vertebrates. Here we show that Nfix, a member of the nuclear factor I (Nfi) family of transcription factors, is highly expressed by hematopoietic stem and progenitor cells (HSPCs) of murine adult bone marrow. Although short hairpin RNA-mediated knockdown of Nfix expression in Lineage(-)Sca-1(+)c-Kit(+) HSPCs had no effect on in vitro cell growth or viability, Nfix-depleted HSPCs displayed a significant loss of colony-forming potential, as well as short- and long-term in vivo hematopoietic repopulating activity. Analysis of recipient mice at 4 to 20 days posttransplant revealed that Nfix-depleted HSPCs are established in the bone marrow, but fail to persist due to increased apoptotic cell death. Gene expression profiling of Nfix-depleted HSPCs reveals that loss of Nfix expression in HSPCs is concomitant with a decrease in the expression of multiple genes known to be important for HSPCs survival, such as Erg, Mecom, and Mpl. These data reveal that Nfix is a novel regulator of HSPCs survival posttransplantation and establish a role for Nfi genes in the regulation of this cellular compartment.