key: cord-0706292-xt8mz10v
authors: Brener, Avivit; Mazor-Aronovitch, Kineret; Rachmiel, Marianna; Levek, Noa; Barash, Galia; Pinhas-Hamiel, Orit; Lebenthal, Yael; Landau, Zohar
title: Lessons learned from the continuous glucose monitoring metrics in pediatric patients with type 1 diabetes under COVID-19 lockdown
date: 2020-10-07
journal: Acta Diabetol
DOI: 10.1007/s00592-020-01596-4
sha: f2de6b2b26892287c48898ef1313c07abc1f9109
doc_id: 706292
cord_uid: xt8mz10v

AIMS: Billions of people have been under lockdown in an attempt to prevent COVID-19 spread. Lifestyle changes during lockdown could lead to deterioration of glycemic control in type 1 diabetes (T1D). We aimed to assess the impact of COVID-19 lockdown on the glycemic control of pediatric patients with T1D. METHODS: This observational real-life study from the AWeSoMe Group assessed continuous glucose monitoring (CGM) metrics of 102 T1D patients (52.9% males, mean age 11.2 ± 3.8 years, mean diabetes duration 4.2 ± 3.8 years) who used Dexcom G5. The data were accessed without any interface between patients, caregivers, and the diabetes team. Study variables from CGM metrics were: mean glucose level, time-in-range (TIR, 70–180 mg/dL; 3.9–10 mmol/L), hypoglycemia (< 54 mg/dL; < 3 mmol/L), hyperglycemia (> 250 mg/dL; > 13.3 mmol/L), coefficient of variation (CV), and time CGM active before and during lockdown. Delta-variable = lockdown variable minus before-lockdown variable. RESULTS: The mean TIR was 60.9 ± 14.3% before lockdown, with no significant change during lockdown (delta-TIR was 0.9 ± 7.9%). TIR during lockdown was significantly correlated with TIR before lockdown (r = 0.855, P < 0.001). Patients with improved TIR (delta-TIR > 3%) were significantly older than patients with stable or worse TIR (P = 0.028). Children aged < 10 years had a significantly higher CV before lockdown and during lockdown than children aged ≥ 10 years (P = 0.02 and P = 0.005, respectively). Among children aged < 10 years, a multiple linear regression model revealed associations of age and lower socioeconomic cluster with delta-TIR (F = 4.416, P = 0.019) and with delta-mean glucose (F = 4.459, P = 0.018). CONCLUSIONS: CGM metrics in pediatric patients with T1D were relatively stable during a nationwide lockdown. Intervention plans should focus on younger patients with lower socioeconomic position.

On March 11, 2020 , the World Health Organization publicly characterized coronavirus disease (COVID-19) as a pandemic. This infectious disease is demonstrating a tremendous impact on morbidity and mortality rates of the entire world population, in an age-stratified manner [1] . Diabetes has been identified as a risk factor for severe COVID-19 in adults [2] . However, children, adolescents, and young adults with type 1 diabetes (T1D) are not considered at increased risk [3] . Nevertheless, severe manifestations, including fatal cases, were reported in children, and the spread of infection is posing a major health threat in all age groups [4] .

Like other respiratory viruses, SARS-CoV-2 spreads from one person to another primarily via droplet infection [5] . Due to its highly contagious nature, extreme preventive measures including social distancing are advised [6] . On March 15, 2020 , the Israeli government declared a nationwide lockdown, with restriction of non-necessary movement in the public space, and closure of all educational institutions and leisure time activities. The resultant confinement of people to their homes led to lifestyle changes, including in diet, sleep, and physical activity. Such changes have negative implications on metabolic health [7, 8] .

Particularly in the management of T1D, adherence to the therapeutic regimen can be adversely affected by changes in daily routine [9, 10] . Moreover, glycemic control is affected by engaging in regular physical activity and psychological well-being [11] . The major focus during the COVID-19 outbreak is the prevention of infection spread, thus neglecting the impact of lockdown on other health aspects. Eating out of boredom, changes in daily routine, physical inactivity, longer screen time, irregular sleep patterns and increased anxiety are all parameters that may worsen glycemic control [12, 13] . On the other hand, being at home, under parental supervision, could be associated with better meal planning, more accurate carbohydrate counting and timely insulin administration. We assessed the short-term impact of lockdown on the glycemic control of T1D patients according to continuous glucose monitoring (CGM) data that were obtained without any interface between patients, caregivers and health care providers.

The study population included patients with T1D ages ≤ 18 years who were managed by the pediatric diabetes teams from the AWeSoMe Study Group (four pediatric diabetes multidisciplinary clinics in Israel: Dana-Dwek Children's Hospital, Shamir (Assaf Harofeh) Medical Center, Maccabi Health Care Services and Edmond and Lily Safra Children's Hospital) [14] . The collaborating clinics treated 650 children and adolescents with T1D during the study period; approximately one-half of the patients use real-time CGM devices (Dexcom G5, Dexcom G4, or Medtronic Enlite Sensor) or a Flash Glucose Monitor (FreeStyle Libre). Included in this study were patients who use the Dexcom G5 CGM and chose to share their glucose data with the clinic as part of their routine care. Inclusion criteria were diabetes duration of > 6 months and sufficient data, as evident by CGM active time ≥ 80% [15] . Patients who received diabetes consultation during the study period were excluded from the analysis.

This is an observational real-life multi-center study, based on data retrieved from medical files and CGM data using Dexcom Clarity software. CGM data were retrieved for two 2-week periods: preceding the lockdown (from February 23, 2020 to March 7, 2020) and during the lockdown (from March 25, 2020 to April 7, 2020). Of note, during the period before lockdown, regular lifestyle was maintained since the number of persons with COVID-19 in Israel was limited. The escalation in number of cases, mainly of people arriving from abroad, led the Israeli government to take extreme preventive measures, with a drastic change in policy. The two periods of this study were selected since they did not include holidays; each period reflects a dramatically different reality.

The study was conducted according to the principles of the Declaration of Helsinki. Each center obtained local ethics committee approval.

The information retrieved from medical files included: sociodemographic characteristics [age, sex, households (single/two parents)], socioeconomic position by home address [socioeconomic position (SEP) cluster and SEP index] was analyzed based on the Israel Central Bureau of Statistics' Characterization and Classification of Statistical Areas within Municipalities and Local Councils by the Socio-Economic Level of the Population. The SEP index is an adjusted calculation of 14 variables that measure social and economic levels in the domains of demographics, education, standard of living, and employment [16] . Diabetes-related information retrieved from medical files included: diabetes duration, mode of insulin therapy [multiple daily injections (MDI) or continuous subcutaneous insulin infusion (CSII)], coexistent morbidity such as autoimmune diseases [thyroid and celiac] and attention deficit hyperactivity disorder (ADHD).

The information retrieved from the ambulatory glucose profile report included: mean glucose levels (mg/ dL), glucose standard deviation (SD) (mg/dL), estimated HbA1c (%), coefficient of variation (CV), percent time CGM active, time-in-target range (TIR) (70-180 mg/ dL; 3.9-10 mmol/L), time in hypoglycemia (< 70 mg/ dL; < 3.9 mmol/L), time in marked hypoglycemia (< 54 mg/dL; < 3 mmol/L), time in hyperglycemia (> 180 mg/dL; > 10 mmol/L) and time in severe hyperglycemia (> 250 mg/dL; > 13.3 mmol/L). These definitions were according to the international consensus on CGM interpretation [17] . Differences in variables between the period during lockdown and the preceding period were calculated for each patient and are presented as delta-variable (e.g., delta-TIR = TIR during lockdown minus TIR before lockdown).

We stratified the study population to 3 groups according to delta-TIR: improved TIR (delta-TIR > 3%), stable TIR (−3% ≤ delta-TIR ≤ 3%) and worse TIR (delta-TIR < -3%). This stratification was based on charts that translate a change in TIR to a clinically significant change in HbA1c [18, 19] . Although the difference in TIR is a useful research tool for comparative analysis, consensus regarding a clinically significant difference is lacking [15] . Data were also analyzed by age, < 10 years (children) and ≥ 10 years (adolescents), according to the WHO definition of age of adolescence. In young children, T1D management relies solely on caregivers. However, parental involvement in diabetes care declines with age, as patients become more independent during adolescence [20, 21] .

The data were analyzed using Statistical Package for the Social Sciences software version 25 (SPSS Inc., Chicago, IL, USA). All the statistical tests were two-sided. The data are expressed as means ± SD. The Mann-Whitney test or the Kruskal-Wallis test was used for comparing ordered or quantitative variables, as appropriate. The χ 2 test (or Fisher's exact test for small count tables) was used to compare groups in categorical variables. Pearson's correlation coefficient statistical tests were applied to examine the correlation between two continuous data groups. The paired t-test was used for comparing the means of variables in the two time points in each age group. A multivariate analysis for the relation between age and dependent variables was performed as follows: delta-variables were entered as dependent variables, and age and SEP cluster as the independent variables.

The mean age of the pediatric patients treated by the collaborating clinics during the study period was 10.9 ± 3.9 years, mean age at T1D diagnosis was 7.9 ± 3.6 years, the mean diabetes duration 2.9 ± 2.6 years, mean SEP cluster 7.2 ± 2.0 and mean SEP index 1.088 ± 1.00. Comparative analysis between patients included in the study and those not included revealed no significant differences between the two groups in current age, age at T1D onset, diabetes duration and SEP (cluster and index).

The study cohort comprised 102 patients (52.9% males), mean age 11.2 ± 3.8 years (range 3.2-18.0 years). The mean age at T1D diagnosis was 7.0 ± 4.2 years and the mean diabetes duration 4.2 ± 3.8 years. Before lockdown, the mean glucose level was 163.5 ± 24.2 mg/dL, glucose SD was 63.7 ± 14.5 mg/dL; the estimated HbA1c 7.3 ± 0.8% (56.3 ± 8.7 mmol/mol), TIR: 60.9 ± 14.3%, time < 54 mg/dL: 1.2 ± 1.4%, time < 70 mg/dL: 3.9 ± 3.3%, time > 180 mg/dL: 34.1 ± 16.1%, time > 250 mg/dL: 11.3 ± 9.3%, CV: 38.8 ± 6.0% and time CGM active: 93.1 ± 7.8%. The mean TIR during the lockdown was 61.8 ± 15.7%; delta-TIR was 0.9 ± 7.9%. TIR improved for 39 (38%) of the patients, remained stable for 32 (31%) and worsened for 31 (30%).

Patients with improved TIR (delta-TIR > 3%) were significantly older than patients with stable TIR and worse TIR (delta-TIR < −3%) ( Table 1) . Sociodemographic characteristics (sex and socioeconomic variables), prevalence of comorbid conditions and CGM metrics did not differ significantly between these groups.

Before lockdown, glucose SD did not differ between adolescents (≥ 10 years) and children (< 10 years) (P = 0.269) ( Table 2 ). During lockdown, glucose SD was significantly lower in the older than the younger group (P = 0.034) ( Table 2 ). CV was significantly higher among the younger than the older children, before lockdown and during lockdown (P = 0.02 and P = 0.005, respectively). The other CGM metrics, including delta-TIR, did not differ between the age groups either before or during lockdown.

CGM metrics before and during lockdown did not differ between the 74 patients treated by CSII and the 28 patients treated by MDI. Significant differences in age, sex, mode of the therapy and CGM metrics were not observed between the 18 patients with lower SEP cluster (score 3 to 6) and the 84 patients with higher SEP cluster (score 7 to 9).

Univariate analysis revealed an association of TIR before lockdown with TIR during lockdown (r = 0.855, P < 0.001), as presented in Fig. 1 . Neither mean glucose levels nor TIR before lockdown was associated with delta-TIR (r = − 0.061, P = 0.541 and r = 0.03, P = 0.726, respectively). In the < 10 year age group, age was associated with both delta-CV and delta-time < 54 mg/dl (r = 0.359, P = 0.021 and r = 0.310, P = 0.049, respectively); and SEP cluster was inversely associated with delta-mean glucose (r = − 0.311, P = 0.047). Also in the younger age group, a multiple linear regression model revealed associations of age and lower SEP cluster with delta-TIR (F = 4.416, P = 0.019) and with delta-mean glucose (F = 4.459, P = 0.018). No significant correlations were found between the variables in the adolescents age group.

This study demonstrated that children and adolescents with T1D maintained similar CGM metrics during a nationwide lockdown due to the COVID-19 pandemic. Children younger than 10 years had higher glucose SD and CV, which are both markers of glucose variability, as compared to adolescents. For adolescents, markers of variability improved during lockdown, while in the younger age group, they remained stable. In younger children, age and lower SEP were associated with deterioration in glycemic control. Data are presented as mean ± standard deviation and number (percent). Delta time-in-range (TIR) was calculated as follows: TIR during lockdown minus TIR before lockdown

The socioeconomic position (SEP) by home address was analyzed based on the Israel Central Bureau of Statistics' Characterization and Classification of Statistical Areas within Municipalities and Local Councils by the Socio-Economic Level of the Population 2015. The SEP cluster classifies neighborhoods and localities into clusters, with 1 being the lowest rating and 10 the highest. The SEP index is an adjusted calculation of 14 variables that measure social and economic levels in four domains: demographics, education, standard of living, and employment. Bold indicates significance. ADHD Attention-deficit/hyperactivity disorder; CGM Continuous Glucose Monitoring Delta-TIR < −3% − 3% ≤ delta-TIR ≤ 3% Delta-TIR > 3% P The lockdown has tremendous effects on lifestyle that could potentially cause health-related problems, especially in children and adolescents with T1D. The consumption of ultra-processed and calorie-dense comfort foods, reduced opportunities for physical activity, and extended sedentary activities and screen time could contribute to impaired metabolic health [22, 23] . The notion that diabetes is a risk factor for severe COVID-19 may raise anxiety among caregivers of children with T1D, and prompt them to strictly enforce the recommendation of homestay. Therefore, routine visits in our clinics have declined dramatically, and our patients are not offered the usual standards of care. This has been described in other geographic regions [24] .

A recently published model of adults with diabetes predicted deterioration of glycemic control and increased rates of diabetes-related complications during a nationwide lockdown [25] . In contradistinction, recent studies have reported that glycemic control did not deteriorate in adults [26, 27] or in children [28] during lockdown. The stable or even improved TIR during lockdown in more than two thirds (66.9%) of our cohort add to the cumulative data. This could be attributed to a good adaptation to the changing Table 2 Continuous glucose monitoring (CGM) metrics of a cohort with type 1 diabetes before and during a nationwide lockdown stratified by age-groups Data are presented as mean (standard deviation) unless otherwise specified P 1 compares values of the CGM parameter before and during the lockdown in children; P 2 compares values of the CGM parameter before and during the lockdown in the adolescents age group; P 3 compares values of the CGM parameter before the lockdown between the age groups; P 4 compares values of the parameter during the lockdown between the age groups. Bold indicates significance. n number, SD standard deviation, % percent, CGM continuous Glucose Monitoring reality, facilitated by CGM usage [29] . The strong association between before-and during-lockdown TIR suggests that patients tended to maintain their glycemic balance despite the dramatic change in daily routine. We found that glucose variability was more pronounced in younger (< 10 years) than older children, before and during lockdown. While adolescents experienced improvement in variability during lockdown, the younger age group maintained similar values as before lockdown. Age was associated with worsened glycemic control during lockdown, as expressed by increased glucose variability, in the age < 10 years group. Age is known to affect diabetes management. Toddlers are managed by parents and adolescents can manage themselves, children between these age groups vary in their executive function abilities and their nutrition choices [30, 31] . In a time of crisis, like lockdown, behavioral problems may become more prominent.

We also found that among the younger children, lower SEP adversely affected glycemic control, as evidenced by higher mean glucose levels. SEP is a major determinant of health conditions [32] . The COVID-19 pandemic has led to an economic crisis, characterized by increasing rates of unemployment and financial insecurity. The first to suffer are people with lower SEP, for whom financial stability was already difficult [33] . Health care systems should take these findings into consideration in planning contemporary health care strategies.

Our study is not without limitations. Since only patients using CGM were included and only short-term data on lockdown are presented, the results may not reflect the glycemic control of individuals with T1D not using CGM. One strength of this multi-center, observational study is the uniformity of data obtained from a single type of CGM. In addition, this study mirrors a real-life scenario without any medical intervention including dose titrations. This enabled drawing conclusions on patients' management in times of limited access to medical services.

In summary, we found that glycemic control during lockdown due to COVID-19 remained relatively stable among children and adolescents with T1D. This is reassuring since deterioration of diabetes control has short-and long-term health implications. Future studies are warranted to explore long-term effects of lockdown on glycemic and metabolic outcomes, and to evaluate possible interventions such as telehealth services.

Author contributions AB made substantial contributions to the conception and design of the study, acquisition, analysis, and interpretation of data and drafting the initial manuscript. KM-A, NL, GB contributed to the data used in this study, contributed to the discussion and reviewed and edited the manuscript. MR, OP-H and YL made substantial contributions to the conception and design of the study, the interpretation of data and the discussion, and reviewed and edited the manuscript for important intellectual content. ZL made substantial contributions to the conception and design of the study, the interpretation of data, drafting and revising it critically for important intellectual content. All authors gave final approval of the version to be published. AB is the guarantor of this work, and as such, had full access to all the data in the study and takes responsibility for the integrity of the data and the accuracy of the data analysis.

Funding No funding.

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

Conflict of interest The Authors declare that there is no conflict of interest.

Ethical approval Each center obtained local ethics committee approval. The study was conducted according to the principles of the Declaration of Helsinki and the data were handled according to GCP.

Informed consent Informed consent by the subjects was waived since the data were retrieved from the medical records with no patient contact.

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Acknowledgements We wish to thank Cindy Cohen for her editorial assistance.