This was an analytical observational study with a prospective cohort design. The study period was from 1 June 2019 to 30 April 2020. The study was approved by the Independent Ethics Committee (PI [Proyecto de investigación {Research Project}] code 19-1390).

The primary objective of this study was to measure changes in the quality of life of patients with DM1 who started on Flash GM. Changes in blood glucose control parameters were also evaluated.

The study sample included patients who started treatment with flash GM for the first time and who met the following criteria: 1) having DM1; 2) meeting requirements for the financing of flash GM according to the National Health System; 3) over 18 years old; 4) committed to completing three diabetes education sessions specific to the use of flash GM; and 5) agreeing to take part and sign the informed consent form.

The requirements for the financing of flash GM by the National Health System were: 1) visual disability or severe functional limitations that made it impossible for them to prick their finger, or functional cognitive disorders that caused reduced hypoglycaemia awareness; 2) recurrent hypoglycaemia, understood as episodes at least four times a week or when 10% of the glucose meter readings are below 70 mg/dl after performing an average of six capillary blood glucose tests a day; and 3) actually pregnant or planning to become pregnant.

Patients who met any of the following criteria were excluded: 1) women wishing to become pregnant or pregnant during the study period; 2) language barrier that might compromise learning in the diabetes education sessions; 3) patients with cognitive impairment/mental retardation; and 4) prior use of flash GM.

The following questionnaires were administered, both at baseline and at three months:

1) DTSQ18 in its Spanish version (EsDTSQ)19: eight-question questionnaire, with a score range of 0 (very dissatisfied) to 6 (very satisfied). The maximum total score is 36, equivalent to full satisfaction with the treatment; two of the elements included in the questionnaire, referring to the frequency perceived by the patient of episodes of hyperglycaemia and hypoglycaemia, are analysed individually and descriptively.

2) Specific diabetes quality of life questionnaire (DQOL)20 in its Spanish version (EsDQOL)21: questionnaire that evaluates four spheres overall: a) satisfaction, 15 questions, with a score range of 1 (very satisfied) to 5 (not at all satisfied); b) impact, 17 questions, with a score range of 1 (never) to 5 (always); c) social/vocational concerns, 7 questions, with a score range of 1 (never) to 5 (always); and d) diabetes-related concerns, 4 questions, with a score range of 1 (never) to 5 (always). The minimum score in each of the categories is: 15 points for satisfaction, which implies great satisfaction; 17 points for impact, indicating that diabetes has little impact on day-to-day life; 7 points for social/vocational concerns; and 4 points for diabetes-related concerns, indicating that diabetes causes little worry on a day-to-day basis. The total score is the sum of the scores for each of the sections and ranges from 43 (minimum) to 215 (maximum). In this questionnaire, a lower score indicates a better quality of life.

3) The Diabetes Distress Scale22 in its Spanish version (EsDDS),23 which uses 17 questions to assess problem areas that a patient with diabetes may experience in their day-to-day life. Its aim is to evaluate the level of severity of each problem during the past month. These are further grouped into four sub-scales that address a different type of distress: emotional burden, physician distress, regimen distress and interpersonal distress. The score range is from 1 (not a problem) to 6 (very serious problem). The minimum total score is 17 and the maximum is 102. In the EsDDS, a lower score indicates less distress.

4) In addition, the Spanish version of the Clarke questionnaire for hypoglycaemia awareness was administered.24 It consists of eight questions about patients' awareness of hypoglycaemia, the blood glucose thresholds at which the patient presents symptoms and the number of serious and non-serious episodes. Each response is classified as normal (A) or abnormal (R). The patient's degree of awareness of hypoglycaemia is determined according to the total number of R (1-2R normal awareness; 3R indeterminate awareness; >3R hypoglycaemia unawareness). They were also asked about the total number of hypoglycaemia episodes in the previous two weeks.

All the patients received three diabetes education sessions, two at the beginning and another follow-up session at three months. These were face-to-face or telematic through virtual, individual or group platforms, depending on the case. The device used in all patients was FreeStyle Libre, version 1 (Abbott Diabetes Care, Witney, United Kingdom).

At the first session, before the sensor was applied, the study questionnaires were administered and the following points were explained: fundamentals of flash GM; difference between capillary blood glucose and interstitial glucose concentrations; cases in which capillary blood glucose should be measured; situations in which the information provided by the sensor would be limited; sensor placement and removal; sensor activation, glucose reading and device management; obtaining and interpreting data on their meter; FreeStyle Libre mobile app and remote monitoring by healthcare professionals and caregivers; LibreView online platform and download program. Patients then had the sensor applied and activated the monitor, downloaded the FreeStyle Libre mobile app if possible, and switched it on. The patients were linked to the nursing clinic and that of their endocrinologist. Lastly, they were given printed educational information about flash GM and their next appointment was arranged.

At the second session, two weeks later, all the baseline variables were measured. Any doubts expressed by the patients were resolved and the following points were explained: obtaining and interpreting the data for decision making; description and interpretation of the reports in FreeStyle Libre (reader and mobile); description and interpretation of the reports in LibreView; and general recommendations for flash GM.

At the third session, at three months, measurement of the clinical and analytical variables was repeated and the scales were administered again. Once again, any doubts were resolved and the download from the flash GM was assessed, with treatment adjustment recommendations made by the treating endocrinologist, if necessary. No additional educational sessions or educational reinforcement sessions were held.

Demographic variables were recorded: age (years), gender. Anthropometric data at baseline and after three months were recorded: weight (kg); height (m); and BMI (kg/m2). At the same points, clinical variables were also assessed: duration of diabetes (years); current treatment (multiple dose insulin [MDI] therapy or treatment with continuous subcutaneous insulin infusion [CSII]). We also assessed the number of daily capillary blood glucose self-tests at baseline before the start of flash GM and at three months.

The following blood glucose control parameters were measured: blood HbA1c (%), assessed by immunoturbidimetry (Cobas c513, Roche Diagnostic, Basel, Switzerland) at baseline, before the start of flash GM and at three months; and the following blood glucose control variables from the Abbott FreeStyle Libre 1 over a 14-day period, at baseline, for the first 15 days, and at three months: percentage of sensor use; mean interstitial glucose concentration (mg/dl); standard deviation (SD); coefficient of variation, defined as the standard deviation between the mean; percentage of time in range (TIR) (70-180 mg/dl); percentage of time in hypoglycaemia (<70 mg/dl); percentage of time in hyperglycaemia (>180 mg/dl) and hypoglycaemic events, defined as the number of episodes with interstitial glucose concentrations <70 mg/dl in 14 days.

The sample size was calculated taking into account an improvement in the DQOL test of at least three points and a sample size of (n = 110) was obtained with a type I error <0.05 and a statistical power of 90%.

The SPSS 23.0 program was used for data analysis(SPSS Inc., Chicago, IL, USA). Quantitative variables were expressed as mean and standard deviation, in brackets, or as median and interquartile range, in square brackets, when the distribution was not normal. Qualitative variables were compared using the Chi-square test, as well as Fisher's exact test when necessary. The distribution of quantitative variables was examined using the Kolmogorov-Smirnov test. For the contrast of hypotheses between quantitative variables, the Student's t test was used, or the Wilcoxon test when the variables did not follow a normal distribution. For all calculations, a probability p less than 0.05 was considered significant. A stratified analysis of the main variables was performed by administration of MDI versus CSII and by HbA1c level greater than 8% (poor blood glucose control) or less than 8% (group with better blood glucose control). This cut-off point was selected in accordance with other similar studies.3 The ANOVA test was used to adjust the effect of baseline HbA1c and other related variables in the one-sided analysis.

During the study period, 114 patients met the eligibility criteria. Of these, 56% were male, with a mean age of 37.2 years (12.4). Mean time since onset of diabetes was 18.7 years (11.5). In 28 patients (24.6%), the treatment was CSII, while the rest of the patients were on MDI therapy. At baseline, mean HbA1c was 7.8% (1.3), and was above 8% in 33.3% of patients. None of the patients refused flash GM or dropped out of the study after the baseline visit. The Clarke test was performed before the flash GM, with 17.5% having undetected hypoglycaemia. The number of hypoglycaemic episodes in the two weeks prior to starting flash GM was four [3-7].

Before starting flash GM, the median number of self-tests per day was 6 [4-7], compared to 2 [0-3] at three months (p < 0.001). Of the patients with CSII, the median number of self-tests per day at baseline was 6 [6-8], compared to 1 [0-2] at three months (p < 0.001). Of the users of multiple-dose insulin, the median number of self-tests per day at baseline was 5 [4-6], compared to 2.8 [0-3] at three months (p < 0.001). The median number of scans per day was 11 [8-15] at baseline and 9 [7-11.3] at three months (p < 0.001). The percentage of use of the sensor was 97 [93-98] at 14 days and 96 [91-98] at 3 months.