A major challenge in inflammatory bowel disease (IBD) is the integration of diverse IBD data sets to construct predictive models of IBD. We present a predictive model of the immune component of IBD that informs causal relationships among loci previously linked to IBD through genome-wide association studies (GWAS) using functional and regulatory annotations that relate to the cells, tissues, and pathophysiology of IBD. Our model consists of individual networks constructed using molecular data generated from intestinal samples isolated from three populations of patients with IBD at different stages of disease. We performed key driver analysis to identify genes predicted to modulate network regulatory states associated with IBD, prioritizing and prospectively validating 12 of the top key drivers experimentally. This validated key driver set not only introduces new regulators of processes central to IBD but also provides the integrated circuits of genetic, molecular, and clinical traits that can be directly queried to interrogate and refine the regulatory framework defining IBD.
This study evaluated a manualized intervention for sensory difficulties for children with autism, ages 4–8 years, using a randomized trial design. Diagnosis of autism was confirmed using gold standard measures. Results show that the children in the treatment group (n = 17) who received 30 sessions of the occupational therapy intervention scored significantly higher (p = 0.003, d = 1.2) on Goal Attainment Scales (primary outcome), and also scored significantly better on measures of caregiver assistance in self-care (p = 0.008 d = 0.9) and socialization (p = 0.04, d = 0.7) than the Usual Care control group (n = 15). The study shows high rigor in its measurement of treatment fidelity and use of a manualized protocol, and provides support for the use of this intervention for children with autism. Findings are discussed in terms of their implications for practice and future research.
Our results reveal for the first time a dysregulated transcription of several circadian genes in PDA. Elevation of the gene levels in the benign and matched adjacent tissues may be indicative of their role during the process of tumorigenesis. The potential of using circadian genes as predictive markers of the outcomes and survival and distinguishing PDA from benign pancreas must be studied in larger populations to validate and demonstrate their eventual clinical utility.
Small molecule inhibitors targeting mutant epidermal growth factor receptor (EGFR) are standard of care in non-small cell lung cancer (NSCLC), but acquired resistance invariably develops through mutations in EGFR or through activation of compensatory pathways such as cMet. Amivantamab (JNJ-61186372) is an anti-EGFR and anti-cMet bispecific low fucose antibody with enhanced Fc function designed to treat tumors driven by activated EGFR and/or cMet signaling. Potent in vivo anti-tumor efficacy is observed upon amivantamab treatment of human tumor xenograft models driven by mutant activated EGFR and this activity is associated with receptor downregulation. Despite these robust anti-tumor responses in vivo, limited antiproliferative effects and EGFR/cMet receptor downregulation by amivantamab were observed in vitro. Interestingly, in vitro addition of isolated human immune cells notably enhanced amivantamab-mediated EGFR and cMet downregulation leading to antibody dose-dependent cancer cell killing. Through a comprehensive assessment of the Fc-mediated effector functions, we demonstrate that monocytes and/or macrophages, through trogocytosis, are necessary and sufficient for Fc interaction-mediated EGFR/cMet downmodulation and are required for in vivo anti-tumor efficacy. Collectively, our findings represent a novel Fc-dependent macrophagemediated anti-tumor mechanism of amivantamab and highlight trogocytosis as an important mechanism of action to exploit in designing new antibody-based cancer therapies.
Background Colorectal cancer (CRC) screening is cost-effective but underutilized. This study aimed to determine the cost-effectiveness of mailed standard intervention (SI) and tailored navigation interventions (TNI) to increase CRC screening use in the context of a randomized trial among primary care patients. Methods Participants (n=945) were randomized either to a usual care Control Group (n=317), SI Group (n=316), or TNI Group (n=312). The SI Group was sent both colonoscopy instructions and stool blood tests irrespective of baseline preference. TNI Group participants were sent instructions for scheduling a colonoscopy, a stool blood test, or both based on their test preference as determined at baseline, and then received a navigation telephone call. Activity cost estimation was used to determine the cost of each intervention and compute incremental cost-effectiveness ratios . Statistical uncertainty within the base case was assessed with 95 percent confidence intervals derived from net benefit regression analysis. Effects of uncertain parameters such as the cost of planning, training, and involvement of those receiving “investigator salaries” were assessed with sensitivity analyses. Results Program costs of the SI were $167 per participant. Average cost of the TNI was $289 per participant. Conclusion The TNI was more effective than the SI, but substantially increased the cost per additional person screened. Decision-makers need to consider cost structure, level of planning, and training required to implement these two intervention strategies, and their willingness to pay for additional persons screened, to determine whether tailored navigation would be justified and feasible.
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