key: cord-1007750-u77g09va
authors: Arsenyadis, Franciskos; Redman, Emma; Henson, Joseph; Brady, Emer M.; Coull, Nicole A.; Khunti, Kamlesh; Hall, Andrew P.; Davies, Melanie J.
title: Energy intake and weight during the COVID‐19 lockdown were not altered in a sample of older adults with type 2 diabetes in England
date: 2021-11-17
journal: Diabetes Obes Metab
DOI: 10.1111/dom.14585
sha: e3b6ee3db9df4754741ee259369c5985ec42a4ed
doc_id: 1007750
cord_uid: u77g09va

nan

COVID-19 and subsequent lockdowns have caused a significant disruption to society. The effects were felt on an individual level as daily activities were severely restricted and habitual patterns were disrupted. 1 Governmental advice restricting people's freedom and enforced periods at home have raised public health concerns regarding well-being beyond the risk of COVID-19 infection. 2 These concerns focused on negative impacts to lifestyle, activity, and diet, which are modifiable risk factors for mental and physical health. 3, 4 The importance of managing excess weight in people living with type 2 diabetes (T2D) is highlighted by evidence linking obesity and dysglycaemia to poor clinical outcomes and mortality in severely ill COVID-19 patients treated in critical care and perioperative settings. 5, 6 It is unclear if lockdown affected diet intake and body weight, although anecdotal evidence suggests that energy intake (kcal/d), 7 and therefore body weight, 8 might have increased during periods of lockdown, when increased intake in the home was not mitigated by reduced intake away from home. 7, 8 Chronic excess energy intake is linked to body weight gain, which is one of the main predictors of T2D and cardiovascular disease. 9 Nutritional analysis software, Nutritics (https://en-gb.nutritics. com/p/home), was then used to analyse the diet data. A complete macronutrient and micronutrient profile was generated for each individual meal per day per participant and collated into grouped diet data. Total energy intake was estimated in kcal/d while macronutrients (carbohydrate, protein, and fat) were estimated in g/d. Body weight was self-reported (kg). Monitors were initialized to record accelerations at 100 Hz.

R software version 1.3.959 (http://cran.r-project.org) was used for all statistical analyses. Paired sample t test and mean ± SD were used where data were normally distributed and basic t-test assumptions were satisfied. The Wilcoxon signed-rank test was utilized as a valid non-parametric alternative to the paired sample t test where data distribution were significantly skewed, with data presented as median with interquartile range (IQR).

One hundred and nineteen participants were included in the study (Table 1 ). In total, 826 (413 during lockdown) days of diet data were available ( Table 2 ).

The paired sample t-test of total energy intake showed no significant change in energy intake during lockdown compared to the prelockdown period. Additionally, lockdown did not have a meaningful impact on the distribution of fat, protein, carbohydrate, or alcohol intake. The Wilcoxon signed-rank test showed a trend towards an increase in caffeine consumption (mg/d) during lockdown, but this change was small. Alcohol consumption (for those who consumed alcohol) did not differ.

There was no evidence of body weight change in 105 participants who completed a baseline weight (recorded in clinic) and a lockdown weight (self-assessed at home). The pattern of results remained the same when looking at sex-specific weight and energy changes. As previously reported, 1 overall physical activity was reduced ($800 steps per day), meaning that the impact of total physical activity on body weight change is probably negligible.

In this prospective study of older adults, we did not observe any chronotype alterations during lockdown.

There are a number of limitations to this study. The CODEC sample was representative of the English population, our lockdown population was opportunistically recruited, and participants were selfselected for inclusion, which may have introduced selection bias.

Additionally, our sample was not powered to detect differences in energy intake or body weight and there was a gap of up to 3 years between baseline and lockdown measurements, during which participant behaviour may have changed.

We note that initiation of glucose-lowering therapies may have been a factor affecting body weight. In particular, newer agents, such as glucagon-like peptide-1 receptor agonists (GLP-1 RAs) and sodiumglucose co-transporter-2 (SGLT-2) inhibitors, have been shown to induce weight loss. 12, 13 Four participants were on GLP-1 RAs and 13 participants were on SGTL-2 inhibitors at baseline. During lockdown, two participants informed the trial team that they had started on GLP-1 RAs, while one participant started on SGTL-2 inhibitors and another one stopped. We accept that these changes in glucoselowering therapies may have impacted weight in these participants.

We relied on self-reported weight during the lockdown period, while standardized operating procedures and calibrated weighing scales were used to accurately assess body weight at baseline by a suitably trained healthcare professional. We cannot rule out errors in body weight self-report as a result of inaccurate home-scale measurements or recall bias.

We used diet diaries to assess intake and these should be interpreted with caution, as they rely on self-reported data. We sought to minimize bias by using a standardized diet diary that accounted for week and weekend days, thus adjusting for potential alterations in dietary patterns throughout the week. 14 Diet diaries were also accompanied by detailed reporting instructions and prompts to include frequently forgotten items such as snacks, liquids, and alcohol, and they also included image guides of portion sizes.

There was no further follow-up to assess eating behaviour or We did not investigate the effect of lockdown on glycaemic control. However, an Italian retrospective observational study reported no significant alterations to HbA1c level change between lockdown and matched control groups. 15 Furthermore, this study mirrors our findings regarding weight, with no statistically significant shifts in body mass index (BMI) attributable to lockdown being detected. Similarly, a Turkish retrospective observational study reported no significant changes to HbA1c levels or BMI. 16 Indeed, while the majority of large-scale surveys and questionnaire studies appear to indicate that people perceived that their weight increased, 7,17 our study and similar reports could not replicate these findings. While food choices and diet quality may be impacted, 18 from our interpretation of the current evidence, the effect of lockdown on weight and energy intake is not significant in this population.

Despite concerns to the contrary, we observed no explicit changes in dietary composition, energy intake, and body weight as a result of COVID-19 lockdown in our population of older adults living with T2D and excess weight.

The authors declare no conflict of interest for this paper. 

The data that support the findings of this study are available from the corresponding author upon reasonable request. 

The impact of COVID-19 restrictions on accelerometer-assessed physical activity and sleep in individuals with type 2 diabetes

Mental health and health behaviours before and during the initial phase of the COVID-19 lockdown: longitudinal analyses of the UK Household Longitudinal Study

The impact of lockdown during the COVID-19 outbreak on dietary habits in various population groups: a scoping review

Global pandemics interconnected -obesity, impaired metabolic health and COVID-19

Importance of hyperglycemia in COVID-19 intensive-care patients: mechanism and treatment strategy

Importance of hyperglycemia in preoperative, intraoperative and postoperative periods in COVID-19 patients

The dietary impact of the COVID-19 pandemic. The IFS

PHE Campaign launched to help public get healthy this summer

Multiplying effects of COVID-19 lockdown on metabolic risk and fatty liver

Obesity and cardiovascular disease: a scientific statement from the American Heart Association

Rationale and design of a crosssectional study to investigate and describe the chronotype of patients with type 2 diabetes and the effect on glycaemic control: the CODEC study

Glucagon-like peptide-1 receptor agonists compared with basal insulins for the treatment of type 2 diabetes mellitus: a systematic review and meta-analysis. Diabetes Obes Metab

Efficacy and safety of sodium-glucose co-transporter-2 inhibitors in type 2 diabetes mellitus: systematic review and network meta-analysis

Diet quality is lower and energy intake is higher on weekends compared with weekdays in midlife women: a 1-year cohort study

Effects of the COVID-19 lockdown on glycaemic control in subjects with type 2 diabetes: the glycalock study

The effect of COVID-19 lockdown on glycemic control in patients with type 2 diabetes mellitus in Turkey

American Psychological Association One year on: unhealthy weight gains, increased drinking reported by Americans coping with pandemic stress

COVID-19-related quarantine effect on dietary habits in a northern Italian rural population: data from the Brisighella heart study