Progress toward Health System Readiness for Genome-Based Testing in Canada.

(1) Background: Genomic medicine harbors the real potential to improve the health and healthcare journey of patients, care provider experiences, and improve the health system efficiency-even reducing healthcare costs. There is expected to be an exponential growth in medically necessary new genome-based tests and test approaches in the coming years. Testing can also create scientific research and commercial opportunities beyond healthcare decision making. The purpose of this research is to generate a better understanding of Canada's state of readiness for genomic medicine, and to provide some insights for other healthcare systems. (2) Methods: A mixed-methods approach of a review of the literature and key informant interviews with a purposive sample of experts was used. The health system readiness was assessed using a previously published set of conditions. (3) Results: Canada has created some of the established conditions, but further action needs to be taken to improve the state of readiness for genome-based medicine. The important gaps to be filled are the need for linked information systems and data integration; evaluative processes that are timely and transparent; navigational tools for care providers; dedicated funding to facilitate rapid onboarding and support test development and proficiency testing; and broader engagement with innovation stakeholders beyond care providers and patients. These findings highlight the role of the organizational context, social influence, and other factors that are known to affect the diffusion of innovation within health systems.

Effective and Efficient Delivery of Genome-Based Testing-What Conditions Are Necessary for Health System Readiness?

Health systems internationally must prepare for a future of genetic/genomic testing to inform healthcare decision-making while creating research opportunities. High functioning testing services will require additional considerations and health system conditions beyond traditional diagnostic testing. Based on a literature review of good practices, key informant interviews, and expert discussion, this article attempts to synthesize what conditions are necessary, and what good practice may look like. It is intended to aid policymakers and others designing future systems of genome-based care and care prevention. These conditions include creating communities of practice and healthcare system networks; resource planning; across-region informatics; having a clear entry/exit point for innovation; evaluative function(s); concentrated or coordinated service models; mechanisms for awareness and care navigation; integrating innovation and healthcare delivery functions; and revisiting approaches to financing, education and training, regulation, and data privacy and security. The list of conditions we propose was developed with an emphasis on describing conditions that would be applicable to any healthcare system, regardless of capacity, organizational structure, financing, population characteristics, standardization of care processes, or underlying culture.

Treatment Decision Drivers in Stage III Non-Small-Cell Lung Cancer: Outcomes of a Web-Based Survey of Oncologists in the United States.

PURPOSE: We conducted a cross-sectional survey of practicing medical oncologists in the United States to obtain insight into physician and patient treatment decision making in stage III non-small-cell lung cancer (NSCLC). METHODS: A convenience sample of 150 oncologists completed a 38-question Web-based survey in January 2019. RESULTS: Surveyed oncologists (82% community based) had an average of 15 years of clinical experience and had treated an average of 20 patients newly diagnosed with stage III NSCLC in the previous 6 months. Oncologists reported presenting 55% of their patients with stage III NSCLC to tumor boards. For patients with new unresectable stage III NSCLC seen in the previous 6 months, concurrent chemoradiation therapy (cCRT) was reported as the initial treatment in an average of 48% of patients. The most frequent reason for delays in starting the initial chosen treatment was insurance preauthorization processes (reported by 65% of oncologists). A total of 55% of all patients with unresectable stage III NSCLC who received cCRT went on to receive consolidation immunotherapy; for patients who received consolidation chemotherapy after cCRT, the rate of immunotherapy was lower (42%). Biomarker test results were given as the reason for oncologists not recommending immunotherapy after cCRT in approximately a quarter of cases. The 112 oncologists with eligible patients who declined immunotherapy reported previous treatment fatigue as the reason in 34% of patients and insurance challenges in 19% of patients. CONCLUSION: Oncologists reported notable deviations from treatment guidelines for stage III NSCLC. Our findings highlight important opportunities to improve decision making and the coordination of care in stage III NSCLC.

Are Global Health Systems Ready for Transformative Therapies?

BACKGROUND: We have seen significant advancement in a range of health technologies, some with transformative or curative potential. Nevertheless, it is often unclear how global health systems recognize or reward innovation. OBJECTIVES: To consider what is transformative, challenges for transformative therapies, and downstream health ecosystem effects. METHODS: A systematic review of publications in English between 2012 and 2018 was conducted with a focus on value assessment processes and health system effects of a range of breakthrough health technology categories. After screening 9012 records, 222 unique studies were identified. The study also included an analysis of 100 health technology assessments (HTAs) from 5 markets to consider how and in what ways global HTA bodies evaluate transformative therapies. Global sales and technology/procedure utilization data were also evaluated to gain insights into patient access and commercial impact. RESULTS: This article evaluated uncertainties around evidence of efficacy, safety, and duration of effect, as well as underlying study quality and methodological considerations in the target categories. Although many HTA evaluations had similar approaches to assessing parameters such as safety, there were significant differences across technology categories. Technology-driven trends also surfaced where global HTA and payer systems may not yet be prepared to recognize and reward emerging technology impacts, including use of next-generation diagnostic results to guide care, considering novel impacts on therapy sequencing and clinical pathway management, and changes in payment and health delivery models. CONCLUSIONS: Some trends stemming from rapid evolution of breakthrough therapies will prompt reconsideration of our conventional value assessment and reward models, because health system measurement and management processes have not fully anticipated their effects.

Altered lymphocyte proliferation and innate immune function in scrapie 139A- and ME7-infected mice.

Lymphoid organs play an important role in prion disease development and progression. While the role of lymphoid organs and changes in immune-related genes have been extensively investigated in scrapie-infected animals, innate immunity has not. Previous studies examined lymphocyte function in scrapie-infected C3H/HeJ mice, which exhibit defects in lipopolysaccharide (LPS) response now known to result from a mutation in Toll-like receptor (TLR) 4. We examined immune function in scrapie-infected CD1 mice, which are LPS responders. Lymphocyte proliferation from CD1 mice infected with either 139A or ME7 scrapie was measured in response to concanavalin (Con) A or LPS at 1 and 3 months after infection. Following LPS exposure, mice infected 3 months with ME7, but not 139A, demonstrated significantly decreased lymphocyte proliferation compared to controls. After Con A exposure, lymphocyte proliferation in scrapie-infected mice did not differ from controls. Gender-specific comparison of lymphocyte proliferation showed significant decreases in mitogenic responses in females infected 3 months with either 139A or ME7, compared to controls. Males infected for 3 months with ME7, but not 139A, showed significantly decreased proliferation after lymphocyte exposure to LPS, but not Con A. Neither gender showed changes in lymphocyte proliferation after 1 month of scrapie infection. Innate immune activation of peritoneal macrophages was determined via production of nitric oxide (NO), IL-6, and TNF-α after exposure to TLR ligands. TNF-α and IL-6 production were reduced in macrophages from females infected with either scrapie strain for 3 months, while NO production after TLR agonist plus IFN-γ exposure was decreased in both females and males infected for 3 months with 139A, compared to ME7. These data demonstrated altered innate immunity, suggesting hormonal and/or other gender-specific regulation may contribute to gender differences in some immune functions. Our data demonstrate lymphocyte proliferation and innate immune functioning in scrapie-infected mice deteriorate with disease progression.

Inflammatory mediators are inhibited by a taurine metabolite in CpG oligodeoxynucleotide and IFN-r activated macrophage cell line.

Taurine plays an important role in brain and retinal development, and has an antiinflammatory and antioxidant function. Taurine chloramine (Tau-Cl) is produced in polymorphonuclear leukocytes via the myeloperoxidase/halide system. We previously demonstrated that Tau-Cl inhibits the production of nitric oxide (NO) and TNF-α in human and murine macrophages activated with IFN-γ in combination with individual Toll-like receptor (TLR) ligands including those for TLR2 and/or TLR4. In the current study, we further explored the effects of Tau-Cl in RAW 264.7 cells stimulated with the TLR9 ligand CpG oligodeoxynucleotide (ODN). Specifically, we examined the effect of CpG ODN plus IFN-γ on the production of NO and TNF-α, and the effect of Tau-Cl on this process. Our findings show that CpG ODN plus IFN-γ-activated RAW 264.7 cells secrete high levels of NO and TNF-α, and that Tau-Cl (0.8 mM) inhibits this effect in a dose-dependent manner, more potently inhibiting the production of NO (99% inhibition) than that of TNF-α (48% inhibition). Nitric oxide synthase (iNOS) protein was also induced by CpG ODN plus IFN-γ, and was also inhibited by Tau-Cl. Furthermore, while CpG ODN plus IFN-γ induced TNF-α and iNOS mRNAs, Tau-Cl transiently suppressed this effect. Taurine itself had no effects on any of these processes. Our findings in a macrophage cell line demonstrate that Tau-Cl inhibits proinflammatory mediators resulting from TLR9 activation, and have implications for the utility of Tau-Cl in scenarios where such activation is deleterious such as in autoimmune conditions or infections in which overwhelming inflammation may occur. CpG ODNs and Tau-Cl both have potential for topical treatment of autoimmune conditions, including psoriasis, vitiligo, and alopecia areata. As CpG ODNs may, under some conditions, up-regulate Tregs, addition of Tau-Cl to CpG ODN topical formulations has potential for improving cancer immunotherapy.

Do different clinical evidence bases lead to discordant health-technology assessment decisions? An in-depth case series across three jurisdictions.

BACKGROUND: Health-technology assessment (HTA) plays an important role in informing drug-reimbursement decision-making in many countries. HTA processes for the Pharmaceutical Benefits Advisory Committee (PBAC) in Australia, the Common Drug Review (CDR) in Canada, and the National Institute for Health and Clinical Excellence (NICE) in England and Wales are among the most established in the world. In this study, we performed nine in-depth case studies to assess whether different clinical evidence bases may have influenced listing recommendations made by PBAC, CDR, and NICE. METHODS: Nine drugs were selected for which the three agencies had provided listing recommendations for the same indication between 2007 and 2010. We reviewed the evidence considered for each listing recommendation, identified the similarities and differences among the clinical evidence bases considered, and evaluated the extent to which different clinical evidence bases could have contributed to different decisions based on HTA body comments and public assessment of the evidence. RESULTS: HTA agencies reached the same recommendation for reimbursement (recommended for listing) for four drugs and different recommendations for five drugs. In all cases, each agency used different evidence bases in their recommendations. The agencies considered overlapping sets of clinical comparators and trials when evaluating the same drug. While PBAC and NICE considered indirect and/or mixed-treatment comparisons, CDR did not. In some cases, CDR and/or NICE excluded trials from review if the drug and/or the comparator were not administered according to the relevant marketing authorization. CONCLUSIONS: In the listing recommendations reviewed, considerable variability exists in the clinical evidence considered by PBAC, CDR, and NICE for drug-listing recommendations. Differences in evidence resulted from differences in the consideration of indirect and mixed-treatment comparison data and differences in medical practice in each jurisdiction.

Anti-PrP Mab 6D11 suppresses PrP(Sc) replication in prion infected myeloid precursor line FDC-P1/22L and in the lymphoreticular system in vivo.

The pathogenesis of prion diseases is related to conformational transformation of cellular prion protein (PrP(C)) into a toxic, infectious, and self-replicating conformer termed PrP(Sc). Following extracerebral inoculation, the replication of PrP(Sc) is confined for months to years to the lymporeticular system (LRS) before the secondary CNS involvement results in occurrence of neurological symptoms. Therefore, replication of PrP(Sc), in the early stage of infection can be targeted by therapeutic approaches, which like passive immunization have limited blood-brain-barrier penetration. In this study, we show that 6D11 anti-PrP monoclonal antibody (Mab) prevents infection on a FDC-P1 myeloid precursor cell line stably infected with 22L mouse adapted scrapie strain. Passive immunization of extracerebrally infected CD-1 mice with Mab 6D11 resulted in effective suppression of PrP(Sc) replication in the LRS. Although, a rebound of PrP(Sc) presence occurred when the Mab 6D11 treatment was stopped, passively immunized mice showed a prolongation of the incubation period by 36.9% (pb0.0001) and a significant decrease in CNS pathology compared to control groups receiving vehicle or murine IgG. Our results indicate that antibody-based therapeutic strategies can be used, even on a short-term basis, to delay or prevent disease in subjects accidentally exposed to prions.

Induction of toll-like receptor 9 signaling as a method for ameliorating Alzheimer's disease-related pathology.

The pathogenesis of Alzheimer's disease (AD) is thought to be related to the accumulation of amyloid beta (Abeta) in amyloid deposits and toxic oligomeric species. Immunomodulation is emerging as an effective means of shifting the equilibrium from Abeta accumulation to clearance; however, excessive cell mediated inflammation and cerebral microhemorrhages are two forms of toxicity which can occur with this approach. Vaccination studies have so far mainly targeted the adaptive immune system. In the present study, we have stimulated the innate immune system via the Toll-like receptor 9 (TLR9) with cytosine-guanosine-containing DNA oligodeoxynucleotides in Tg2576 AD model transgenic mice. This treatment produced a 66% and 80% reduction in the cortical (p = 0.0001) and vascular (p = 0.0039) amyloid burden, respectively, compared with nontreated AD mice. This was in association with significant reductions in Abeta42, Abeta40, and Abeta oligomer levels. We also show that treated Tg mice performed similarly to wild-type mice on a radial arm maze. Our data suggest that stimulation of innate immunity via TLR9 is highly effective at reducing the parenchymal and vascular amyloid burden, along with Abeta oligomers, without apparent toxicity.

Accelerated prion disease pathogenesis in Toll-like receptor 4 signaling-mutant mice.

Prion diseases such as scrapie involve the accumulation of disease-specific prion protein, PrP(Sc), in the brain. Toll-like receptors (TLRs) are a family of proteins that recognize microbial constituents and are central players in host innate immune responses. The TLR9 agonist unmethylated CpG DNA was shown to prolong the scrapie incubation period in mice, suggesting that innate immune activation interferes with prion disease progression. Thus, it was predicted that ablation of TLR signaling would result in accelerated pathogenesis. C3H/HeJ (Tlr4(Lps-d)) mice, which possess a mutation in the TLR4 intracellular domain preventing TLR4 signaling, and strain-matched wild-type control (C3H/HeOuJ) mice were infected intracerebrally or intraperitoneally with various doses of scrapie inoculum. Incubation periods were significantly shortened in C3H/HeJ compared with C3H/HeOuJ mice, regardless of the route of infection or dose administered. At the clinical phase of disease, brain PrP(Sc) levels in the two strains of mice showed no significant differences by Western blotting. In addition, compared with macrophages from C3H/HeOuJ mice, those from C3H/HeJ mice were unresponsive to fibrillogenic PrP peptides (PrP residues 106 to 126 [PrP(106-126)] and PrP(118-135)) and the TLR4 agonist lipopolysaccharide but not to the TLR2 agonist zymosan, as measured by cytokine production. These data confirm that innate immune activation via TLR signaling interferes with scrapie infection. Furthermore, the results also suggest that the scrapie pathogen, or a component(s) thereof, is capable of stimulating an innate immune response that is active in the central nervous system, since C3H/HeJ mice, which lack the response, exhibit shortened incubation periods following both intraperitoneal and intracerebral infections.

A sensitive and quantitative assay for normal PrP in plasma.

Transmissible spongiform encephalopathies can be transmitted by blood transfusion. The risk of spreading the disease among the human population could be mitigated with the implementation of a blood screening assay. We developed a two-antibody assay for PrP detection in plasma using the ORIGEN technology with a protocol modification to improve the limit of detection and to increase the sample volume assayed. In the standard 200 microL format, the assay had a detection limit of 7-10 pg of recombinant PrP and 3 pg in 1 mL final volume implementation. PrP concentration measured in normal and scrapie-infected hamster brains was 7.5+/-0.9 and 57.3+/-9.6 microg/g, respectively. After a concentration step with an immuno-affinity resin, plasma PrP(c) was detected by Western blot and its concentration was measured at 3.5+/-0.8 ng/mL. From these data and assuming that blood has the same specific infectivity as brain, we estimated the concentration of abnormal PrP in hamster-infected plasma to be 32 f g/mL. The assay also detected abnormal brain PrP spiked into plasma although the limit of detection was affected. This is a novel and sensitive assay for the detection of PrP in plasma that could be developed into a platform for a plasma-based TSE test.

CpG oligodeoxynucleotide-enhanced humoral immune response and production of antibodies to prion protein PrPSc in mice immunized with 139A scrapie-associated fibrils.

Prion diseases are characterized by conversion of the cellular prion protein (PrP(C)) to a protease-resistant conformer, the srapie form of PrP (PrP(Sc)). Humoral immune responses to nondenatured forms of PrP(Sc) have never been fully characterized. We investigated whether production of antibodies to PrP(Sc) could occur in PrP null (Prnp(-/-)) mice and further, whether innate immune stimulation with the TLR9 agonist CpG oligodeoxynucleotide (ODN) 1826 could enhance this process. Whether such stimulation could raise anti-PrP(Sc) antibody levels in wild-type (Prnp(+/+)) mice was also investigated. Prnp(-/-) and Prnp(+/+) mice were immunized with nondenatured 139A scrapie-associated fibrils (SAF), with or without ODN 1826, and were tested for titers of PrP-specific antibodies. In Prnp(-/-) mice, inclusion of ODN 1826 in the immunization regime increased anti-PrP titers more than 13-fold after two immunizations and induced, among others, antibodies to an N-terminal epitope, which were only present in the immune repertoire of mice receiving ODN 1826. mAb 6D11, derived from such a mouse, reacts with the N-terminal epitope QWNK in native and denatured forms of PrP(Sc) and recombinant PrP and exhibits a K(d) in the 10(-)(11) M range. In Prnp(+/+) mice, ODN 1826 increased anti-PrP levels as much as 84% after a single immunization. Thus, ODN 1826 potentiates adaptive immune responses to PrP(Sc) in 139A SAF-immunized mice. These results represent the first characterization of humoral immune responses to nondenatured, infectious PrP(Sc) and suggest methods for optimizing the generation of mAbs to PrP(Sc), many of which could be used for diagnosis and treatment of prion diseases.

Clearance and prevention of prion infection in cell culture by anti-PrP antibodies.

Prion diseases are transmissible and invariably fatal neurodegenerative disorders associated with a conformational transformation of the cellular prion protein (PrP(C)) into a self-replicating and proteinase K (PK)-resistant conformer, scrapie PrP (PrP(Sc)). Humoral immunity may significantly prolong the incubation period and even prevent disease in murine models of prionoses. However, the mechanism(s) of action of anti-PrP monoclonal antibodies (Mabs) remain(s) obscure. The murine neuroblastoma N2a cell line, infected with the 22L mouse-adapted scrapie strain, was used to screen a large library of Mabs with similar binding affinities to PrP, to identify those antibodies which could clear established infection and/or prevent infection de novo. Three Mabs were found capable of complete and persistent clearing of already-infected N2a cells of PrP(Sc). These antibodies were 6D11 (generated to PK-resistant PrP(Sc) and detecting PrP residues 93-109), and 7H6 and 7A12, which were raised against recombinant PrP and react with neighbouring epitopes of PrP residues 130-140 and 143-155, respectively. Mabs were found to interact with PrP(Sc) formation both on the cell surface and after internalization in the cytosol. Treatment with Mabs was not associated with toxicity nor did it result in decreased expression of PrP(C). Both preincubation of N2a cells with Mabs prior to exposure to 22L inoculum and preincubation of the inoculum with Mabs prior to infecting N2a cells resulted in a significant reduction in PrP(Sc) levels. Information provided in these studies is important for the rational design of humoral immune therapy for prion infection in animals and eventually in humans.

Interaction of the myogenic determination factor myogenin with E12 and a DNA target: mechanism and kinetics.

The myogenic determination factors MyoD, myogenin, myf5, and MRF4 are members of the basic helix-loop-helix (bHLH) family of transcription factors and crucial agents of myogenesis. The bHLH regions of these proteins enable them to dimerize with E proteins, another class of the bHLH family, and to bind a specific DNA element known as an E box (CANNTG consensus sequence), which results in the activation of muscle-specific gene expression. As a model for such assembly of the myogenic determination factor/E protein-DNA ternary complex, we have studied the physiologically relevant association of myogenin, E12, and the 3' E box of the acetylcholine receptor (AChR) alpha-subunit gene enhancer. Using the technique of electrophoretic mobility shift assay combined with order-of-addition and time-course experiments, we find that heterodimerization of myogenin with E12 occurs prior to DNA-binding. In addition, we deduce the dissociation (Kd) and rate (k) constants for each step in the formation of the myogenin/E12-DNA ternary complex. Kinetic simulations indicate that at 37 degrees C myogenin and E12 heterodimerize with a Kd of 36 microM (k(on) of 573 M(-1) x s(-1) and k(off )of 0.0205 x s(-1)), and that subsequently the heterodimer binds the AChR alpha-subunit gene enhancer 3' E box with a Kd of 8.8 nM (with possible k(on) and k(off) values ranging from 1.0x10(8) to 14.1x10(8) M(-1) x s(-1), and 0.875 to 12.3 s(-1), respectively).