Background Effective interventions are required to prevent the current rapid increase in the prevalence of Type 2 diabetes. Clinical trials of large-scale interventions to prevent Type 2 diabetes are essential but recruitment is challenging and expensive, and there are limited data regarding the most cost-effective and efficient approaches to recruitment. This paper aims to evaluate the cost and effectiveness of a range of promotional strategies used to recruit men to a large Type 2 diabetes prevention trial. Methods An observational study was conducted nested within the Testosterone for the Prevention of Type 2 Diabetes (T4DM) study, a large, multi-centre randomised controlled trial (RCT) of testosterone treatment for the prevention of Type 2 diabetes in men aged 50–74 years at high risk of developing diabetes. Study participation was promoted via mainstream media—television, newspaper and radio; direct marketing using mass mail-outs, publicly displayed posters and attendance at local events; digital platforms, including Facebook and Google; and online promotions by community organisations and businesses. For each strategy, the resulting number of participants and the direct cost involved were recorded. The staff effort required for each strategy was estimated based on feedback from staff. Results Of 19,022 men screened for the study, 1007 (5%) were enrolled. The most effective recruitment strategies were targeted radio advertising (accounting for 42% of participants), television news coverage (20%) and mass mail-outs (17%). Other strategies, including radio news, publicly displayed posters, attendance at local events, newspaper advertising, online promotions and Google and Facebook advertising, each accounted for no more than 4% of enrolled participants. Recruitment promotions cost an average of AU$594 per randomised participant. The most cost-effective paid strategy was mass mail-outs by a government health agency (AU$745 per participant). Other paid strategies were more expensive: mail-out by general practitioners (GPs) (AU$1104 per participant), radio advertising (AU$1081) and newspaper advertising (AU$1941). Conclusion Radio advertising, television news coverage and mass mail-outs by a government health agency were the most effective recruitment strategies. Close monitoring of recruitment outcomes and ongoing enhancement of recruitment activities played a central role in recruitment to this RCT. Trial registration ANZCTR, ID: ACTRN12612000287831 . Registered on 12 March 2012. Electronic supplementary material The online version of this article (10.1186/s13063-019-3485-2) contains supplementary material, which is available to authorized users.
ObjectivesTo identify and review evaluations of strategies to recruit men aged 50 years and over to randomised controlled trials (RCTs).DesignSystematic review and narrative synthesis.Data sourcesMEDLINE, EMBASE, CINAHL and ORRCA databases were searched to 1 December 2017.Eligibility criteriaStudies using quantitative methods to evaluate recruitment strategies to RCTs of men aged 50 years and older.Data extraction and synthesisA single reviewer extracted data (for each strategy, number of participants approached, screened and randomised, and cost). Study quality was assessed using National Heart, Lung and Blood Institute Quality Assessment Tools and considered study design, description of interventions, description and measurement of outcomes, completeness of outcome reporting, performance of statistical testing and consideration of confounders. Recruitment strategies were categorised by the recruitment stage they addressed.ResultsSixteen studies (n >14 000) were included: one good quality, ten fair quality and five poor quality. Studies evaluated strategies to identify prospective participants, and to improve the processes for assessing participant eligibility, providing participant information and seeking consent. In good and fair quality studies, the most effective strategies for identifying participants were referral from an affiliated health service provider (two studies), mass mailing (five studies) and media coverage (two studies). Community outreach activities such as displaying posters and attending local community events were not effective (two studies). Trial-specific training of site recruitment staff, developed using qualitative analysis of recruitment visits (two studies), and provision of study information to prospective participants at a multidisciplinary, group information session (one study) both improved recruitment.ConclusionImproved engagement of men aged 50 years and older in RCTs is needed. A gender-sensitised approach to RCT recruitment may help to address this need. We have identified several promising recruitment strategies that merit further evaluation.PROSPERO registration numberCRD42017060301.
Background: Low circulating testosterone is associated with an increased risk of developing type 2 diabetes (T2DM) in overweight men with impaired glucose tolerance (IGT).Aims: To determine in a multi-centre, double-blinded placebo-controlled randomized trial whether testosterone treatment combined with lifestyle intervention (Weight Watchers) relative to lifestyle intervention alone reduces T2DM incidence and improves glucose tolerance at 2 years. Study population: Overweight or obese men aged 50-74 years with a serum testosterone of ≤14 nmol/L and IGT or newly diagnosed T2DM established by an oral glucose tolerance test (OGTT).Setting, drug and protocol: Six Australian capital city-based tertiary care centres. Participants were randomized 1:1 and injected with testosterone undecanoate (1000 mg/4 mL) or vehicle (4 mL castor oil), at baseline, 6 weeks and 3-monthly thereafter.Primary endpoints: (a) Proportion of participants with 2-hour OGTT ≥11.1 mmol/L at 2 years, and (b) a difference at 2 years ≥0.6 mmol/L in the mean 2-hour OGTT glucose between treatments. Secondary endpoints: Fasting insulin, HbA1c, body composition, maximal handgrip strength; sexual function and lower urinary tract symptoms; serum sex steroids and sex hormone binding globulin; mood and psychosocial function; adherence to lifestyle intervention; and healthcare utilization and costs. Safety: Overseen by an Independent Data Safety Monitoring Committee. Haematocrit, lipids and prostate-specific antigen (PSA) are assessed 6-monthly and information relating to haematological, urological and cardiovascular adverse events from each clinic visit. Sub-studies: (a) Changes in bone density and micro-architecture, (b) motivation and behaviour, (c) telomere length, (d) extended treatment up to 4 years, and (e) hypothalamo-pituitary testicular axis recovery at treatment end. K E Y W O R D S
Context Testosterone treatment increases bone mineral density (BMD) in hypogonadal men. Effects on bone microarchitecture, a determinant of fracture risk, are unknown. Objective Determine the effect of testosterone treatment on bone microarchitecture using high resolution-peripheral quantitative computed tomography (HR-pQCT). Design, Setting, Participants Men>50 years were recruited from six Australian centres. Interventions Injectable testosterone undecanoate or placebo over 2 years on the background of a community-based lifestyle program. Main outcomes Primary endpoint was cortical volumetric BMD (vBMD) at the distal tibia, measured using HR-pQCT in 177 men (one centre). Secondary endpoints included other HR-pQCT parameters and bone remodelling markers. Areal BMD (aBMD) was measured by dual energy X-ray absorptiometry (DXA) in 601 men (five centres). Using a linear mixed model for repeated measures, the mean adjusted differences (MAD) [95% CI] at 12 and 24 months between groups are reported as treatment effect. Results Over 24 months, testosterone treatment, compared to placebo, increased tibial cortical vBMD), 9.33mgHA/cm 3[3.96;14.71],p<0.001 or 3.1%[1.2;5.0], radial cortical vBMD, 8.96mgHA/cm 3[3.30;14.62],p=0.005 or 2.9%[1.0;4.9], total tibial vBMD, 4.16mgHA/cm 3[2.14;6.19],p<0.001 or 1.3%[0.6;1.9] and total radial vBMD, 4.42mgHA/cm 3[1.67;7.16],p=0.002 or 1.8%[0.4;2.0]. Testosterone also significantly increased cortical area and thickness at both sites. Effects on trabecular architecture were minor. Testosterone reduced bone remodeling markers CTX, -48.1ng/L[-81.1;-15.1],p<0.001, and P1NP, -6.8μg/L[-10.9;-2.7], p<0.001. Testosterone significantly increased aBMD at the lumbar spine, 0.04 g/cm 2[0.03;0.05],p<0.001, and the total hip, 0.01g/cm 2[0.01;0.02],p<0.001. Conclusions In men>50 years, testosterone treatment for 2 years increased volumetric bone density, predominantly via effects on cortical bone. Implications for fracture risk reduction require further study.
Context: The time course of male reproductive hormone recovery after stopping injectable testosterone undecanoate (TU) treatment is not known. Objective: To investigate rate, extent, and determinants of reproductive hormone recovery over 12 months after stopping TU injections. Methods: Men (n=303) with glucose intolerance but without pathologic hypogonadism who completed a 2-year placebo(P)-controlled randomized clinical trial of TU treatment were recruited for a further 12 months while remaining blinded to treatment. Sex steroids (T, DHT, E2, E1) by LCMS, LH, FSH and SHBG by immunoassays and sexual function questionnaires (Psychosexual Diary Questionnaire (PDQ), International Index of Erectile Function (IIEF), SF-12) were measured at entry (three months after last injection) and 6, 12, 18, 24, 40 and 52 weeks later. Results: In the nested cohort of TU-treated men, serum T was initially higher but declined to 12 weeks remaining stable thereafter with serum T and SHBG 11% and 13%, respectively, lower than P-treated men. Similarly, both questionnaires showed initial carryover higher scores in T-treated men, but after weeks 18 showed no difference between T and P treated men. Initially fully suppressed serum LH and FSH recovered slowly towards the participant’s own pre-treatment baseline over 12 months since last injection. Conclusions: After stopping 2 years of 1000 mg injectable TU treatment, full reproductive hormone recovery is slow and progressive over 15 months since last testosterone injection but may take longer than 12 months to be complete. Persistent proportionate reduction in serum SHBG and T reflects lasting exogenous T effects on hepatic SHBG secretion rather than androgen deficiency.
To compare the response rates and costs of phone call versus short message service (SMS) screening reminders to prospective randomised controlled trial (RCT) participants. Study design and setting A randomised evaluation within a large Australian diabetes prevention RCT. Participants were men aged 50-74 years, overweight or obese, without a previous Type diabetes diagnosis. Those eligible on a pre-screening questionnaire who did not attend a further screening assessment within four weeks were randomised to receive an SMS or phone call reminder (N=709). The primary outcome was attendance for further screening assessment within eight weeks of pre-screening. Results Attendance was 18% (62/354) in the SMS reminder group and 23% (80/355) in the phone reminder group, with no statistically significant difference in response according to reminder type (RR=1.29, 95% CI 0.96-1.73, p=0.09). The lower confidence limits for response to SMS (95% CI 14%-22%) and phone reminders
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.