The goal of this commentary is to highlight the ageism that has emerged during the COVID-19 pandemic. Over 20 international researchers in the field of ageing have contributed to this document. This commentary discusses how older people are misrepresented and undervalued in the current public discourse surrounding the pandemic. It points to issues in documenting the deaths of older adults, the lack of preparation for such a crisis in long-term care homes, how some ‘protective’ policies can be considered patronising and how the initial perception of the public was that the virus was really an older adult problem. This commentary also calls attention to important intergenerational solidarity that has occurred during this crisis to ensure support and social-inclusion of older adults, even at a distance. Our hope is that with this commentary we can contribute to the discourse on older adults during this pandemic and diminish the ageist attitudes that have circulated.
The hemostatic system is assumed to be similar in children and adults and reference ranges established for adults are commonly used to evaluate children suspected of having congenital or acquired hemostatic problems. However, we know that the hemostatic system is not fully mature by 6 months of age and comprehensive studies of healthy older children have not been published. Therefore, we conducted a prospective cohort study of the hemostatic system in healthy children having minor, elective day surgery. After obtaining informed consent, a 3-mL blood sample was obtained at the time routine preoperative blood work was drawn. The plasma was fractioned and stored at -70 degrees C for batch assaying. We measured the concentration of 33 components of the hemostatic system (functional and immunologic assays) and the bleeding time (automated pediatric device) in 246 children aged 1 to 16 inclusive (a minimum of four subjects at each age). Eleven components of hemostasis (fibrinogen, prekallikrein, high-molecular weight kininogen, factors VIII and XIII, antithrombin III [ATIII], heparin cofactor II [HCII], alpha 1-antitrypsin [alpha 1AT], protein S, plasminogen, alpha 2-antiplasmin [alpha 2AP]) had mean values and ranges of normal that were similar to adults. Mean values of seven coagulants (II, V, VII, IX, X, XI, XII) were significantly lower than adult values and varied with age. Values for three inhibitors, alpha 2- macroglobulin (alpha 2M), protein C, and protein C1-inhibitor (C1-Inh) also differed from adults. Alpha 2M and C1-Inh inhibitor levels were elevated throughout childhood, whereas protein C levels were low, with a lower limit of normal of 0.40 U/mL until the age of 11. Finally, the upper limit of normal for the bleeding time was longer in children during the first 10 years of life, but decreased to adult values in the teenage years. In summary, there are important physiologic differences in the hemostatic system in children compared with adults. The decreased levels of several critical coagulants and increased levels of alpha 2M may contribute in part to the lower risk of thrombotic events in childhood. Age-matched controls should be used for evaluation of the hemostatic system in children with suspected congenital or acquired defects.
BackgroundOlder adults use more health-care services per capita than younger age groups and the older adult population varies greatly in its needs. Evidence suggests that there is a critical distinction between relative frailty and fitness in older adults. Here, we review how frailty is described in the pre-hospital literature and in the broader emergency medicine literature.MethodsPubMed was used as the primary database, but was augmented by searches of CINAHL and EMBASE. Articles were included if they focused on patients 60 years and older and implemented a definition of frailty or risk screening tool in the Emergency Medical Services (EMS) or Emergency Department setting.ResultsIn the broad clinical literature, three types of measures can be identified: frailty index measures, frailty scales, and a phenotypic definition. Each offers advantages and disadvantages for the EMS stakeholder. We identified no EMS literature on frailty conceptualization or management, although some risk measures from emergency medicine use terms that overlap with the frailty literature.ConclusionsThere is a paucity of research on frailty in the Emergency Medical Services literature. No research was identified that specifically addressed frailty conceptualization or management in EMS patients. There is a compelling need for further research in this area.
BackgroundPatient engagement in research priority-setting is intended to democratize research and increase impact. The objectives of the Canadian Frailty Priority Setting Partnership (PSP) were to engage people with lived or clinical experience of frailty, and produce a list of research priorities related to care, support, and treatment of older adults living with frailty.MethodsThe Canadian Frailty PSP was supported by the Canadian Frailty Network, coordinated by researchers in Toronto, On-tario and followed the methods of the James Lind Alliance, which included establishing a Steering Group, inviting partner organizations, gathering questions related to care, support and treatment of older adults living with frailty, processing the data and prioritizing the questions.ResultsIn the initial survey, 799 submissions were provided by 389 individuals and groups. The 647 questions that were within scope were categorized, merged, and summarized, then checked against research evidence, creating a list of 41 unanswered questions. Prioritization took place in two stages: first, 146 individuals and groups participated in survey and their responses short-listed 22 questions; and second, an in-person workshop was held on September 26, 2017 in Toronto, Ontario where these 22 questions were discussed and ranked.ConclusionResearchers and research funders can use these results to inform their agendas for research on frailty. Strategies are needed for involving those with lived experience of frailty in research.
Antithrombin III (ATIII) deficiency has been implicated in adults as a predisposing factor to thrombosis; however, thromboembolic complications are rare in children with the same deficiency. We hypothesized that because of the elevated levels of plasma alpha-2- macroglobulin (alpha 2M) throughout childhood, plasmas of ATIII- deficient children inhibit thrombin more efficiently than those of ATIII-deficient adults. In total, 14 ATIII-deficient adults (ages 25 to 46 years), 13 ATIII-deficient children (ages 2 to 13 years), 9 normal children (ages 3 to 15 years), and 16 normal adults were studied. We measured thrombin inhibition in these plasmas, as well as the contributions of ATIII, alpha 2M, and heparin cofactor II (HCII) as thrombin inhibitors in each plasma. 125I-alpha-thrombin, 25 nmol/L, was added to each plasma (defibrinated with Arvin at 37 degrees C), and 90 seconds later the free thrombin and thrombin-inhibitor complexes were quantitated after sodium dodecyl sulfate-polyacrylamide gel electrophoresis, autoradiography, and densitometric scanning. Plasma from ATIII-deficient adults inhibited significantly less thrombin (12.8 +/- 0.6 nmol/L) than both normal adults (16.1 +/- 0.3 nmol/L, P less than .01), normal children (15.7 +/- 0.4 nmol/L, P less than .01), or ATIII-deficient children (15.5 +/- 0.3 nmol/L, P less than .01). There was no significant difference between the total concentration of thrombin inhibited by ATIII-deficient children and either normal adult or normal children groups. In addition, plasmas of ATIII-deficient children inhibited thrombin significantly more efficiently than plasma of ATIII-deficient adults (P less than .01). In the ATIII-deficient patients there was a significant correlation between the alpha 2M level and ability to inhibit thrombin (P less than .01), but no correlation between either ATIII or HCII levels and thrombin inhibition. On the addition of heparin (0.4 U/mL) to plasma, all four types of plasma inhibited thrombin to the same extent. Although ATIII was the predominant inhibitor in all heparinized plasmas, HCII inhibited more thrombin in the ATIII-deficient patients than in normal patients (2.8 +/- 0.3 v 1.2 +/- 0.2 nmol/L, P less than .01). We hypothesize that the lower risk of thromboembolic complications in ATIII-deficient children may be due in part to the protective effect of elevated alpha 2M levels during childhood.
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