Hope in action—facing cardiac death: A qualitative study of patients with life-threatening disease

Coping with existential challenges is important when struck by serious disease, but apart from cancer and palliative care little is known about how patients deal with such issues and maintain hope. To explore how patients with life-threatening heart disease experience hope when coping with mortality and other existential challenges, we conducted a qualitative study with semi-structured interviews. We made a purposive sample of 11 participants (26–88 years) who had experienced life-threatening disease: eight participants with serious heart disease, two with cancer, and one with severe chronic obstructive pulmonary disease. Analysis was by systematic text condensation. The findings showed that hope could enhance coping and diminish existential distress when patients were confronted with mortality and other existential challenges. Hope was observed as three types of dynamic work: to shift perception of mortality from overwhelming horror toward suppression or peaceful acceptance, to foster reconciliation instead of uncertainty when adapting to the new phase of life, and to establish go-ahead spirit instead of resignation as their identity. Meaning of life could, hence, be sustained in spite of serious threats to the persons' future, everyday life, and self-conception. The work of hoping could be supported or disturbed by relationships with family, friends, and health care professionals. Hope can be regarded as an active, dynamic state of existential coping among patients with life-threatening disease. Physicians may support this coping and thereby provide personal growth and alleviation of existential distress by skillfully identifying, acknowledging, and participating in the work of hoping performed by the patient

Risk of tuberculosis in patients with diabetes: population based cohort study using the UK Clinical Practice Research Datalink.

BACKGROUND: Previous cohort studies demonstrate diabetes as a risk factor for tuberculosis (TB) disease. Public Health England has identified improved TB control as a priority area and has proposed a primary care-based screening program for latent TB. We investigated the association between diabetes and risk of tuberculosis in a UK General Practice cohort in order to identify potential high-risk groups appropriate for latent TB screening. METHODS: Using data from the UK Clinical Practice Research Datalink we constructed a cohort of patients with incident diabetes. We included 222,731 patients with diabetes diagnosed from 1990-2013 and 1,218,616 controls without diabetes at index date who were matched for age, sex and general practice. The effect of diabetes was explored using a Poisson analysis adjusted for age, ethnicity, body mass index, socioeconomic status, alcohol intake and smoking. We explored the effects of age, diabetes duration and severity. The effects of diabetes on risk of incident TB were explored across strata of chronic disease care defined by cholesterol and blood pressure measurement and influenza vaccination rates. RESULTS: During just under 7 million person-years of follow-up, 969 cases of TB were identified. The incidence of TB was higher amongst patients with diabetes compared with the unexposed group: 16.2 and 13.5 cases per 100,000 person-years, respectively. After adjustment for potential confounders the association between diabetes and TB remained (adjusted RR 1.30, 95 % CI 1.01 to 1.67, P = 0.04). There was no evidence that age, time since diagnosis and severity of diabetes affected the association between diabetes and TB. Diabetes patients with the lowest and highest rates of chronic disease management had a higher risk of TB (P <0.001 for all comparisons). CONCLUSIONS: Diabetes as an independent risk factor is associated with only a modest overall increased risk of TB in our UK General Practice cohort and is unlikely to be sufficient cause to screen for latent TB. Across different consulting patterns, diabetes patients accessing the least amount of chronic disease care are at highest risk for TB.This article presents independent research supported by a National Institute for Health Research (NIHR) In Practice Fellowship to LP (grant number NIHR/IPF/11/05). DAJM received Wellcome Trust funding (grant number 092691/Z/10/Z). LS is supported by a Wellcome Trust Senior Research Fellowship in Clinical Science

Technology-Enabled Remote Monitoring and Self-Management - Vision for Patient Empowerment Following Cardiac and Vascular Surgery: User Testing and Randomized Controlled Trial Protocol.

BACKGROUND: Tens of thousands of cardiac and vascular surgeries (CaVS) are performed on seniors in Canada and the United Kingdom each year to improve survival, relieve disease symptoms, and improve health-related quality of life (HRQL). However, chronic postsurgical pain (CPSP), undetected or delayed detection of hemodynamic compromise, complications, and related poor functional status are major problems for substantial numbers of patients during the recovery process. To tackle this problem, we aim to refine and test the effectiveness of an eHealth-enabled service delivery intervention, TecHnology-Enabled remote monitoring and Self-MAnagemenT-VIsion for patient EmpoWerment following Cardiac and VasculaR surgery (THE SMArTVIEW, CoVeRed), which combines remote monitoring, education, and self-management training to optimize recovery outcomes and experience of seniors undergoing CaVS in Canada and the United Kingdom. OBJECTIVE: Our objectives are to (1) refine SMArTVIEW via high-fidelity user testing and (2) examine the effectiveness of SMArTVIEW via a randomized controlled trial (RCT). METHODS: CaVS patients and clinicians will engage in two cycles of focus groups and usability testing at each site; feedback will be elicited about expectations and experience of SMArTVIEW, in context. The data will be used to refine the SMArTVIEW eHealth delivery program. Upon transfer to the surgical ward (ie, post-intensive care unit [ICU]), 256 CaVS patients will be reassessed postoperatively and randomly allocated via an interactive Web randomization system to the intervention group or usual care. The SMArTVIEW intervention will run from surgical ward day 2 until 8 weeks following surgery. Outcome assessments will occur on postoperative day 30; at week 8; and at 3, 6, 9, and 12 months. The primary outcome is worst postop pain intensity upon movement in the previous 24 hours (Brief Pain Inventory-Short Form), averaged across the previous 14 days. Secondary outcomes include a composite of postoperative complications related to hemodynamic compromise-death, myocardial infarction, and nonfatal stroke- all-cause mortality and surgical site infections, functional status (Medical Outcomes Study Short Form-12), depressive symptoms (Geriatric Depression Scale), health service utilization-related costs (health service utilization data from the Institute for Clinical Evaluative Sciences data repository), and patient-level cost of recovery (Ambulatory Home Care Record). A linear mixed model will be used to assess the effects of the intervention on the primary outcome, with an a priori contrast of weekly average worst pain intensity upon movement to evaluate the primary endpoint of pain at 8 weeks postoperation. We will also examine the incremental cost of the intervention compared to usual care using a regression model to estimate the difference in expected health care costs between groups. RESULTS: Study start-up is underway and usability testing is scheduled to begin in the fall of 2016. CONCLUSIONS: Given our experience, dedicated industry partners, and related RCT infrastructure, we are confident we can make a lasting contribution to improving the care of seniors who undergo CaVS

Association between diabetes mellitus and active tuberculosis: A systematic review and meta-analysis.

The burgeoning epidemic of diabetes mellitus (DM) is one of the major global health challenges. We systematically reviewed the published literature to provide a summary estimate of the association between DM and active tuberculosis (TB). We searched Medline and EMBASE databases for studies reporting adjusted estimates on the TB-DM association published before December 22, 2015, with no restrictions on region and language. In the meta-analysis, adjusted estimates were pooled using a DerSimonian-Laird random-effects model, according to study design. Risk of bias assessment and sensitivity analyses were conducted. 44 eligible studies were included, which consisted of 58,468,404 subjects from 16 countries. Compared with non-DM patients, DM patients had 3.59-fold (95% confidence interval (CI) 2.25-5.73), 1.55-fold (95% CI 1.39-1.72), and 2.09-fold (95% CI 1.71-2.55) increased risk of active TB in four prospective, 16 retrospective, and 17 case-control studies, respectively. Country income level (3.16-fold in low/middle-vs. 1.73-fold in high-income countries), background TB incidence (2.05-fold in countries with >50 vs. 1.89-fold in countries with ≤50 TB cases per 100,000 person-year), and geographical region (2.44-fold in Asia vs. 1.71-fold in Europe and 1.73-fold in USA/Canada) affected appreciably the estimated association, but potential risk of bias, type of population (general versus clinical), and potential for duplicate data, did not. Microbiological ascertainment for TB (3.03-fold) and/or blood testing for DM (3.10-fold), as well as uncontrolled DM (3.30-fold), resulted in stronger estimated association. DM is associated with a two- to four-fold increased risk of active TB. The association was stronger when ascertainment was based on biological testing rather than medical records or self-report. The burgeoning DM epidemic could impact upon the achievements of the WHO "End TB Strategy" for reducing TB incidence

Specialist training in medical microbiology across Europe in 2021 – An update on the actual training situation based on a survey

Background: The importance of defining and establishing professional standards for Clinical Microbiology (CM) in Europe has long been highlighted, starting with the development of a European curriculum. The first European Curriculum in Medical Microbiology (MM) was adopted by the European Union of Medical Specialists (UEMS) council in 2017. Objectives: This paper assesses how training programmes in CM in Europe align with the European curriculum, just under 5 years after its introduction, and reviews what methods of assessment are in use to assess the CM trainees' progress during training programmes. Sources: Using an internet-based platform, a questionnaire was circulated to the full, associate and observer members of the UEMS MM section. Information collected related to the structure, content and delivery of CM training in the participating countries, as well as methods of assessment used to evaluate training progress. Content: Twenty-one countries responded, from a total of 30 countries invited to participate. All had a structured CM training programme, with a curriculum, dedicated trainers and a record of training activities. Fifteen countries require trainees to pass an exit examination, and over 60% of countries participate in continuous workplace-based assessment. Of the participating countries, 57% meet the European Training Requirements recommendation that duration of specialist training is 60 months. Regarding core competencies, all trainees gain experience in laboratory skills and infection prevention and control, but the emphasis on clinical management and antimicrobial stewardship is more varied across countries. Implications: The UEMS MM curriculum has been largely adopted by 21 countries within less than 5 years of ratification, which speaks optimistically to a future of standardized quality training across Europe. The introduction of a pilot European Examination in Clinical Microbiology in 2021 is the start of a pan-European assessment of the success of the implementation of this curriculum and the first step in quality assurance for CM training in Europe. Maeve Doyle, Clin Microbiol Infect 2021;27:1576 (c) 2021 Published by Elsevier Ltd on behalf of European Society of Clinical Microbiology and Infectious Diseases

Specialist training in medical microbiology across Europe in 2021 – An update on the actual training situation based on a survey

Background: The importance of defining and establishing professional standards for Clinical Microbiology (CM) in Europe has long been highlighted, starting with the development of a European curriculum. The first European Curriculum in Medical Microbiology (MM) was adopted by the European Union of Medical Specialists (UEMS) council in 2017. Objectives: This paper assesses how training programmes in CM in Europe align with the European curriculum, just under 5 years after its introduction, and reviews what methods of assessment are in use to assess the CM trainees' progress during training programmes. Sources: Using an internet-based platform, a questionnaire was circulated to the full, associate and observer members of the UEMS MM section. Information collected related to the structure, content and delivery of CM training in the participating countries, as well as methods of assessment used to evaluate training progress. Content: Twenty-one countries responded, from a total of 30 countries invited to participate. All had a structured CM training programme, with a curriculum, dedicated trainers and a record of training activities. Fifteen countries require trainees to pass an exit examination, and over 60% of countries participate in continuous workplace-based assessment. Of the participating countries, 57% meet the European Training Requirements recommendation that duration of specialist training is 60 months. Regarding core competencies, all trainees gain experience in laboratory skills and infection prevention and control, but the emphasis on clinical management and antimicrobial stewardship is more varied across countries. Implications: The UEMS MM curriculum has been largely adopted by 21 countries within less than 5 years of ratification, which speaks optimistically to a future of standardized quality training across Europe. The introduction of a pilot European Examination in Clinical Microbiology in 2021 is the start of a pan-European assessment of the success of the implementation of this curriculum and the first step in quality assurance for CM training in Europe. Maeve Doyle, Clin Microbiol Infect 2021;27:1576 (c) 2021 Published by Elsevier Ltd on behalf of European Society of Clinical Microbiology and Infectious Diseases

Molecular characterization of VIM-producing Klebsiella pneumoniae from Scandinavia reveals genetic relatedness with international clonal complexes encoding transferable multidrug resistance

VIM-producing Klebsiella pneumoniae (VPKP) has been identified as a source of hospital outbreaks and is prevalent particularly in the Mediterranean region. In this study we have characterized eight VPKP isolates identified in Scandinavia during 2005–2008. With the exception of one isolate, all were from patients with recent history of hospitalization abroad (Greece, n = 6; Turkey, n = 1). Multilocus sequence typing (MLST) resulted in five sequence types (STs), ST36 (n = 1), ST147 (n = 4), ST272 (n = 1), ST273 (n = 1) and ST383 (n = 1), which except for ST272 were part of putative international clonal complexes. All were multidrug resistant due to the presence of other resistance determinants, including extended-spectrum β-lactamases (CTX-M-3, SHV-5 and SHV-12), 16S rRNA methylases (ArmA) and plasmid-mediated quinolone resistance determinants (QnrS). One isolate harboured a novel VIM-variant (VIM-26) while VIM-1 and VIM-19 were detected in six and one isolate, respectively. Two different genetic structures surrounding the blaVIM gene were identified in four isolates. In two isolates blaVIM-1 and blaVIM-26 were located in an integron similar to In-e541 (intI1;blaVIM-1/-26;aacA7; dhfrI;aadA1;3′CS) while in the other two isolates blaVIM-1 was located in an integron lacking 3′CS but with an IS26 element in the 3′end (intI1;blaVIM-1;aac(6′)-Ib;IS26), as identified in the IncN plasmid pKOX105. The blaVIM-genes were located on transferable plasmids ranging from ∼40 to ∼240 kb and associated with Tn21 in four isolates. PCR-based replicon typing indicated association of blaVIM with IncN (n = 3) and A/C (n = 1) broad-host-range plasmids but also with unknown replicons (n = 4). In conclusion, Scandinavian VPKP is associated with importation and genetically related to international clones encoding transferable plasmid-mediated multidrug resistance