- ICH GCP
- Registro degli studi clinici negli Stati Uniti
- Sperimentazione clinica NCT02092051
CGM Treatment in Patients With Type 1 Diabetes Treated With Insulin Injections
A Randomized Trial of the Effect of Continuous Glucose Monitoring (CGM) in Individuals With Type 1 Diabetes Treated With Multiple Daily Insulin Injections (MDI)
Breif summary
A keystone in preventing diabetic complications in patients with type 1 diabetes is good glycaemic control. Frequent self-measurements of blood glucose (SMBG) levels has been an essential part of insulin dosing before meals. However, in recent years continuous glucose monitoring (CGM) has become a treatment option for notifying the patient on trends in glucose levels and warning when these are estimated to be too high and too low.
In some countries today, Sweden among others, CGM is reimbursed in combination with continuous subcutaneous insulin infusions (CSII) in patients with very poor glycaemic control or a history of repeated severe hypoglycaemia in adult type 1 diabetic patients. This is based on existing clinical trials showing a beneficial effect on HbA1c by combining CGM with CSII. However, the majority of adult type 1 diabetic patients are treated with multiple daily insulin injections (MDI). Clinical trial data are sparse on the effect of CGM in adult type 1 diabetic patients treated with MDI, and there are no clinical trial data including only patients on MDI.
The aim of the current study is to evaluate effectiveness, safety and treatment satisfaction among adult type 1 diabetic patients on CGM treated with MDI. The design is a 69-week, cross-over clinical trial, including 26 weeks treatment with CGM, 26 weeks treatment with conventional SMBG and a wash-out period of 17 weeks. In total 120 patients will be included at 8 sites in Sweden. The study will have 80% power to detect a 3 mmol/mol (0.3 percentage unit) change in HbA1c resulting from CGM.
Panoramica dello studio
Stato
Condizioni
Intervento / Trattamento
Descrizione dettagliata
Background
A keystone in preventing diabetic complications in patients with type 1 diabetes is good glycaemic control (1). Today, intensive glycaemic treatment is generally achieved through multiple daily insulin injections (MDI) or an insulin pump, also termed continuous subcutaneous insulin infusion (CSII, [2]). Regular capillary self-measured blood glucose values have been most crucial in obtaining good glycaemic control and guiding the patient on insulin doses (3, 4, 5).
During recent years continuous glucose monitoring (CGM) has become a treatment option for guiding the patient on insulin dosage and other activities (6). CGM has the advantage of informing the patient on estimated glucose values continuously, not the least important of which is to illustrate trends on increases or decreases in glucose levels.
Data from several clinical trials on CGM has shown divergent results on its glycaemic control effects (7). In some clinical trials, only patients on CSII have been included or have initiated CGM and CSII simultaneously as an intervention. In other trials both patients with MDI and CSII have been included, and post hoc analyses have also resulted in divergent findings whether the effect on glycaemic control potentially differs when combining CGM with MDI or CSII (8, 9, 10). Although the absolute majority of adult type 1 diabetic patients are treated with MDI, clinical trials initiating CGM in a pure MDI-treated group are absent.
The current trial is a cross-over design and 69 weeks in duration, where patients will be randomized patients to CGM-treatment for 26 weeks, conventional therapy for 26 weeks and a wash-out period for 17 weeks. The primary endpoint is the effect on HbA1c.
Purpose/aim
The aim of this study is to analyse the effect of CGM on glycaemic control measured by A1C, high and low glucose levels measured by CGM, and quality of life in patients with type 1 diabetes treated with MDI.
Treatment
The studied intervention will be CGM (Dexcom G4, Dexcom Corporation) which will be compared to conventional therapy using only self-measurements of blood glucose levels (SMBG) for guiding the dosage of insulin.
Randomization
After a maximum run-in period of six weeks patients will be randomized to either CGM or continued conventional therapy. During the run-in period blinded CGM will be performed during two weeks. After the blinded CGM period patients that do not believe they will wear a CGM sensor more than 80% of the study time during the period of randomization to CGM, or patients who did not perform adequate calibrations during the run-in period (on average at least 12 of 14 during a 7-day period), will not be randomized. The patient will be shown an example picture of glucose curves (not their own curves) with trend arrows, explained by the physician/diabetic educator to give the patient a better chance to judge how often they will use the sensor. Consenting patients will be randomized to CGM or conventional therapy for 26 weeks and conventional therapy for 26 weeks, with an intermittent wash-out period for 17 weeks.
Patients will be initially randomized 1:1, stratified by site, to CGM or conventional therapy. A centralised web system will be used for randomisation. Each patient will be assigned a unique and anonymous Subject ID at randomisation.
Duration
The expected study duration for each participant is 72 weeks, including an assumed mean run-in period of 3 weeks. The total study period is expected to be 84 weeks, including a recruitment period of 12 weeks.
Selection and withdrawal of subjects
Patients fulfilling all inclusion and no exclusion criteria will have their HbA1c levels, fasting C-peptide and creatinine analysed by the central laboratory.
The study is planned to include 120 patients randomized 1:1, stratified by site, to CGM or conventional therapy. Treatment will be for 26 weeks for each group, with a wash-out period of 17 weeks between treatments. An expected drop-out rate is assumed to be 5%-10% without replacement.
Rescreening
Rescreening of patients is possible in the study, but maximally at one time. There is no time limit for rescreening. It can be performed at any interval from previous screening. Rescreening can be performed for any inclusion/exclusion criterion that did not fit the inclusion criteria or fulfilled any exclusion criteria at the previous screening. However, there should be a possibility that this criterion can fit this inclusion criterion or not fit the exclusion criterion at the rescreening visit; e.g. that the glycaemic control has worsened since last screening and HbA1c did not fit inclusion criteria at the previous screening visit.
Treatment procedures
During the run-in period all patients will have blinded CGM during two weeks. If the patient believes after performing blinded CGM that he/she will not be able to wear the sensor and use the CGM-system during the majority of the study period (more than 80% of the time) when randomized to CGM, he/she will be excluded from randomization. In addition, subjects not adherent with calibration procedures (require on average > 12 out of 14 calibrations over a 7 days period). There should be at least 10 days with valid blinded CGM data before randomization.
All patients in the trial will be instructed regarding basic information on insulin dosing, such as bolus correction, types of food elevating glucose levels and the effect of physical activity on glucose control. This information will be provided at the same level as in clinical practice for patients with type 1 diabetes, i.e. to guarantee that all patients have basic skills for dosing insulin. All patients will also be educated on the proportion of rapid acting insulin analogues remaining at various time points after injection.
At clinical visits the care-giver will discuss glucose levels measured by SMBG and CGM data with the patient for possible improvements in the diabetes care. This will be performed in correspondence with intensive therapy used in clinical practice. All patients will have the possibility to contact the responsible staff for the trial at each site for additional support between the visits if needed, e.g. technical problems with SMBG meters or the DexCom 4G system, but extra visits will not be planned with the aim of improving the glycaemic control.
During at least the first week of randomization to CGM there will be no alarm levels set on the CGM, other than a constantly active acute alarm to low glucose levels. The reason is that the patient shall be taught to be active in judging trends of CGM and not only reacting at certain levels for alarms.
Alarm settings will be introduced 2 weeks after randomization, at the latest. At each visit the patient will be motivated to be active using the information from the CGM at least every 1-2 hours during daytime. In correspondence, patients will be motivated in measuring blood glucose levels when randomized to conventional therapy in accordance with guidelines, i.e. at least 4 times a day. At the 2 initial visits of each treatment period patients will be checked for general skills adopted on dosing insulin, types of foods that elevate glucose levels and the influence of physical activity on glucose levels. BG-values will be evaluated at the visits for patients receiving conventional therapy for possible improvements in dosing insulin, food intake and physical activity. In correspondence, CGM-curves will be analysed as well as algorithms for dosage of insulin from CGM-data and physical activity and influence of eating habits on glucose levels. When randomized to CGM patients will be instructed at the start point of the treatment phase and the two consecutive visits on a predefined algorithm for adjusting insulin. In each treatment phase visits will take place at starting point, weeks 2, 4, 13 and 26.
Blinded CGM will be performed for all participants during two weeks before baseline and two weeks before the starting point of the second treatment phase. Participants randomized to conventional therapy will also have CGM during 2 of the 4 last weeks of each treatment period (performed 23-26 and 66-69 respectively).
HbA1c will be recorded at the starting point of each treatment period and all subsequent study visits except week 2 in each treatment phase. At starting point and at the end of each treatment phase extended blood samples will be taken including biobank samples.
At all visits SMBG and CGM data will be downloaded for randomized patients, and a diabetes educator or physician will discuss potential improvements for optimising glycaemic control with the patient. SMBG-data will be downloaded also for patients with CGM-treatment.
Rescue criteria
If the clinician or diabetic educator determines that CGM use is associated with severe risks, e.g., severe hypoglycaemia, CGM treatment shall be stopped and the patient will receive conventional treatment.
Treatment satisfaction and quality of life
Patients will fill in questionnaires before blinded CGM of each treatment phase and at the end of each treatment phase. The DTSQ has been used in many diabetes therapy clinical trials and is a validated questionnaire consisting of 8 questions. Two versions are used, the DTSQs and DTSQc, where the DTSQs is used for recording the current treatment satisfaction and the DTSQc for patients to retrospectively compare various treatments.
SWE-HFS consists of 23 questions concerning actions to prevent hypoglycaemia and fears about hypoglycaemia. The Swedish translation has been well validated (12).
SWE-PAID-20 consists of 20 questions regarding situations about diabetes that may be a problem to the individual.
WHO-5 consists of 5 questions assessing patient well-being.
IPAQ consists of 4 questions of various levels of physical activity during the last 7 days. (13)
Hypoglycaemia confidence questionnaire consists of 9 questions regarding how confident the patients are regarding handling of hypoglycaemia
The questionnaires will be completed at the study site. The patients will be allowed to individually complete the questionnaires in a reasonably quiet environment. It will be emphasized that patients complete the questionnaires prior to clinical measurements and before meeting a doctor. Questionnaires should be answered by the patient alone; however, the nurse/assistant will be informed to help patients complete the questionnaires, if necessary, but without influencing patients' responses. Only the anonymous Subject ID will be used to identify questionnaires to ensure patient confidentiality. Study nurses/assistants should check questionnaires for completeness. The PI shall ensure that appropriate study training is provided.
Hypoglycaemia
Periods of hypoglycaemia will be compared using blinded CGM versus randomization to open CGM during the corresponding time period. The regular definitions of hypoglycaemia using SMBG will be difficult to compare since patients using CGM will detect asymptomatic hypoglycaemia due to CGM and be more alert to symptoms of hypoglycaemia. The number of severe hypoglycaemic events, defined as unconsciousness due to hypoglycaemia or need of assistance from another person to resolve hypoglycaemia, will be recorded. The time with low glucose values will be analysed by comparing active treatment with CGM with blinded CGM for the corresponding time period.
Tipo di studio
Iscrizione (Effettivo)
Fase
- Non applicabile
Contatti e Sedi
Luoghi di studio
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-
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Alingsås, Svezia, 44183
- Alingsås Hospital
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Angered, Svezia, 42422
- Angered Hospital
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Helsingborg, Svezia, 25187
- Helsingborg Hospital
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Härnösand, Svezia, 871 82
- Öbackakliniken
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Kristianstad, Svezia, 29185
- Centralhospital Kristianstad
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Kungsbacka, Svezia, 43480
- Halland's Hospital Kungsbacka
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Malmö, Svezia, 205 02
- Malmö University Hospital
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Motala, Svezia, 591 85
- Motala Hospital
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Norrköping, Svezia, 603 82
- Vrinnevisjukhuset
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Stockholm, Svezia, 118 81
- Sodersjukhuset
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Trelleborg, Svezia, 231 85
- Trelleborg Hospital
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Uddevalla, Svezia, 45180
- Uddevalla Hospital
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Uppsala, Svezia, 75185
- Academic Hospital Uppsala
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Ängelholm, Svezia, 262 81
- Ängelholm Hospital
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Örebro, Svezia, 70185
- University hospital Örebro
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-
Criteri di partecipazione
Criteri di ammissibilità
Età idonea allo studio
Accetta volontari sani
Sessi ammissibili allo studio
Descrizione
Inclusion Criteria:
- Type 1 diabetes
- Adults 18 years or older
- Written Informed Consent
- HbA1c greater than or equal to 58 mmol/mol (7.5% DCCT standard)
Exclusion Criteria:
- Pregnancy, planned pregnancy for the study duration or pregnancy during the last six months
- Severe cognitive dysfunction or other disease, which is judged by the physician to be not suitable for inclusion.
- Required continuous use of paracetamol. Paracetamol must not have been used the week before the study and shall not be used during CGM-use because it disturbs the interpretation of blood glucose levels estimated by the DexComG4. However, other pain killers can be used throughout the study duration.
- Current CGM use. (within the past 4 months
- History of allergic reaction to any of the CGMS materials or adhesives in contact with the skin.
- History of allergic reaction to chlorhexidine or alcohol antiseptic solution.
- Abnormal skin at the anticipated glucose sensor attachment sites (excessive hair, burn, inflammation, infection, rash, and/or tattoo).
- Patient is uncomfortable by using the sensor during the blinded run-in period and believes it is unlikely that he/she will use the sensor more than 80% of the time during the trial.
- The patient has on average performed 12 or less calibrations per week during the run-in period.
- Insulin pump therapy=Continuous subcutaneous insulin infusion (CSII)
- Diabetes duration < 1 year
- Participation in another study.
- Fasting C-peptide level of 0.3 nmol/l or higher
- eGFR < 30 ml/min (estimated from creatinine, age and sex at the inclusion visit by the MDRD-formula)
- Planned house move during the next 1.5 years, making it difficult to come to study visits
- Other investigator-determined criteria making patients unsuitable for participation.
Piano di studio
Come è strutturato lo studio?
Dettagli di progettazione
- Scopo principale: Trattamento
- Assegnazione: Randomizzato
- Modello interventistico: Assegnazione incrociata
- Mascheramento: Nessuno (etichetta aperta)
Armi e interventi
Gruppo di partecipanti / Arm |
Intervento / Trattamento |
---|---|
Sperimentale: Continuous glucose monitoring
Continuous glucose monitoring with DexCom G4 platina during 6 months
|
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Nessun intervento: Conventional therapy
Conventional therapy during 6 months using only SMBG for glucose monitoring
|
Cosa sta misurando lo studio?
Misure di risultato primarie
Misura del risultato |
Lasso di tempo |
---|---|
Difference in HbA1c between week 26 and week 69
Lasso di tempo: Week 26, week 69
|
Week 26, week 69
|
Misure di risultato secondarie
Misura del risultato |
Lasso di tempo |
---|---|
Difference in mean glucose level measured by CGM between week 23-26 and 66-69
Lasso di tempo: Week 23-26, week 66-69
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Week 23-26, week 66-69
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Difference in mean amplitude glucose excursion (MAGE) measured by CGM between week 23-26 and week 66-69
Lasso di tempo: Week 23-26, week 66-69
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Week 23-26, week 66-69
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Difference in standard deviation of glucose levels measured by CGM between week 23-26 and week 66-69
Lasso di tempo: Week 23-26 and week 66-69
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Week 23-26 and week 66-69
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Difference in DTSQs scores between weeks 26 and 69
Lasso di tempo: Week 26, week 69
|
Week 26, week 69
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DTSQc score at week 69
Lasso di tempo: Week 69
|
Week 69
|
Difference in WHO 5 scores between weeks 26 and 69
Lasso di tempo: Week 26, week 69
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Week 26, week 69
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Difference in SWE-HFS scores between weeks 26 and 69
Lasso di tempo: Week 26, week 69
|
Week 26, week 69
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Difference in SWE-PAID-20 scores between weeks 26 and 69
Lasso di tempo: Week 26, week 69
|
Week 26, week 69
|
Difference in the proportion of time with low glucose levels measured by CGM during two weeks between week 23-26 and week 66-69 measured by CGM (below 3.0 mmol/l and below 4.0 mmol/l respectively)
Lasso di tempo: Week 23-26, week 66-69
|
Week 23-26, week 66-69
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Difference in the proportion of time with high glucose levels measured by CGM during two weeks between week 23-26 and week 66-69 measured by CGM (above 10.0 mmol/l and above 13.9 mmol/l respectively)
Lasso di tempo: Week 23-26, week 66-69
|
Week 23-26, week 66-69
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Difference in the proportion of time with euglycaemic levels measured by CGM during two weeks between weeks 23-26 and weeks 66-69 (5.5-10.0 mmol/l and 3.9-10.0 mmol/l respectively)
Lasso di tempo: Week 23-26, week 66-69
|
Week 23-26, week 66-69
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Difference in the proportion of patients reducing their HbA1c by 5 mmol/mol (0.5% in DCCT) or more
Lasso di tempo: Week 26, week 69
|
Week 26, week 69
|
Difference in the proportion of patients lowering their HbA1c 10 mmol/mol (1% in DCCT) or more
Lasso di tempo: Week 26, week 69
|
Week 26, week 69
|
Difference in the mean number of severe hypoglycaemic events between weeks 1-26 and weeks 43-69 defined as unconsciousness due to hypoglycaemia or need of assistance from another person to resolve the hypoglycaemia
Lasso di tempo: Week 1-26, week 43-69
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Week 1-26, week 43-69
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Collaboratori e investigatori
Sponsor
Collaboratori
Investigatori
- Investigatore principale: Marcus Lind, MD, PhD, NU-Hospital Organization
Pubblicazioni e link utili
Pubblicazioni generali
- Craig CL, Marshall AL, Sjostrom M, Bauman AE, Booth ML, Ainsworth BE, Pratt M, Ekelund U, Yngve A, Sallis JF, Oja P. International physical activity questionnaire: 12-country reliability and validity. Med Sci Sports Exerc. 2003 Aug;35(8):1381-95. doi: 10.1249/01.MSS.0000078924.61453.FB.
- Misso ML, Egberts KJ, Page M, O'Connor D, Shaw J. Continuous subcutaneous insulin infusion (CSII) versus multiple insulin injections for type 1 diabetes mellitus. Cochrane Database Syst Rev. 2010 Jan 20;(1):CD005103. doi: 10.1002/14651858.CD005103.pub2.
- Pickup JC, Freeman SC, Sutton AJ. Glycaemic control in type 1 diabetes during real time continuous glucose monitoring compared with self monitoring of blood glucose: meta-analysis of randomised controlled trials using individual patient data. BMJ. 2011 Jul 7;343:d3805. doi: 10.1136/bmj.d3805.
- Hirsch IB. Insulin analogues. N Engl J Med. 2005 Jan 13;352(2):174-83. doi: 10.1056/NEJMra040832. No abstract available.
- Miller KM, Beck RW, Bergenstal RM, Goland RS, Haller MJ, McGill JB, Rodriguez H, Simmons JH, Hirsch IB; T1D Exchange Clinic Network. Evidence of a strong association between frequency of self-monitoring of blood glucose and hemoglobin A1c levels in T1D exchange clinic registry participants. Diabetes Care. 2013 Jul;36(7):2009-14. doi: 10.2337/dc12-1770. Epub 2013 Feb 1.
- Diabetes Control and Complications Trial Research Group; Nathan DM, Genuth S, Lachin J, Cleary P, Crofford O, Davis M, Rand L, Siebert C. The effect of intensive treatment of diabetes on the development and progression of long-term complications in insulin-dependent diabetes mellitus. N Engl J Med. 1993 Sep 30;329(14):977-86. doi: 10.1056/NEJM199309303291401.
- Juvenile Diabetes Research Foundation Continuous Glucose Monitoring Study Group; Tamborlane WV, Beck RW, Bode BW, Buckingham B, Chase HP, Clemons R, Fiallo-Scharer R, Fox LA, Gilliam LK, Hirsch IB, Huang ES, Kollman C, Kowalski AJ, Laffel L, Lawrence JM, Lee J, Mauras N, O'Grady M, Ruedy KJ, Tansey M, Tsalikian E, Weinzimer S, Wilson DM, Wolpert H, Wysocki T, Xing D. Continuous glucose monitoring and intensive treatment of type 1 diabetes. N Engl J Med. 2008 Oct 2;359(14):1464-76. doi: 10.1056/NEJMoa0805017. Epub 2008 Sep 8.
- Riveline JP, Schaepelynck P, Chaillous L, Renard E, Sola-Gazagnes A, Penfornis A, Tubiana-Rufi N, Sulmont V, Catargi B, Lukas C, Radermecker RP, Thivolet C, Moreau F, Benhamou PY, Guerci B, Leguerrier AM, Millot L, Sachon C, Charpentier G, Hanaire H; EVADIAC Sensor Study Group. Assessment of patient-led or physician-driven continuous glucose monitoring in patients with poorly controlled type 1 diabetes using basal-bolus insulin regimens: a 1-year multicenter study. Diabetes Care. 2012 May;35(5):965-71. doi: 10.2337/dc11-2021. Epub 2012 Mar 28.
- Hansen MV, Pedersen-Bjergaard U, Heller SR, Wallace TM, Rasmussen AK, Jorgensen HV, Pramming S, Thorsteinsson B. Frequency and motives of blood glucose self-monitoring in type 1 diabetes. Diabetes Res Clin Pract. 2009 Aug;85(2):183-8. doi: 10.1016/j.diabres.2009.04.022. Epub 2009 Jun 3.
- Evans JM, Newton RW, Ruta DA, MacDonald TM, Stevenson RJ, Morris AD. Frequency of blood glucose monitoring in relation to glycaemic control: observational study with diabetes database. BMJ. 1999 Jul 10;319(7202):83-6. doi: 10.1136/bmj.319.7202.83.
- Hirsch IB. Clinical review: Realistic expectations and practical use of continuous glucose monitoring for the endocrinologist. J Clin Endocrinol Metab. 2009 Jul;94(7):2232-8. doi: 10.1210/jc.2008-2625. Epub 2009 Apr 21.
- Battelino T, Conget I, Olsen B, Schutz-Fuhrmann I, Hommel E, Hoogma R, Schierloh U, Sulli N, Bolinder J; SWITCH Study Group. The use and efficacy of continuous glucose monitoring in type 1 diabetes treated with insulin pump therapy: a randomised controlled trial. Diabetologia. 2012 Dec;55(12):3155-62. doi: 10.1007/s00125-012-2708-9. Epub 2012 Sep 11.
- Anderbro T, Amsberg S, Wredling R, Lins PE, Adamson U, Lisspers J, Johansson UB. Psychometric evaluation of the Swedish version of the Hypoglycaemia Fear Survey. Patient Educ Couns. 2008 Oct;73(1):127-31. doi: 10.1016/j.pec.2008.03.022. Epub 2008 May 8.
- Seyed Ahmadi S, Westman K, Pivodic A, Olafsdottir AF, Dahlqvist S, Hirsch IB, Hellman J, Ekelund M, Heise T, Polonsky W, Wijkman M, Schwarcz E, Lind M. The Association Between HbA1c and Time in Hypoglycemia During CGM and Self-Monitoring of Blood Glucose in People With Type 1 Diabetes and Multiple Daily Insulin Injections: A Randomized Clinical Trial (GOLD-4). Diabetes Care. 2020 Sep;43(9):2017-2024. doi: 10.2337/dc19-2606. Epub 2020 Jul 8.
- Olafsdottir AF, Polonsky W, Bolinder J, Hirsch IB, Dahlqvist S, Wedel H, Nystrom T, Wijkman M, Schwarcz E, Hellman J, Heise T, Lind M. A Randomized Clinical Trial of the Effect of Continuous Glucose Monitoring on Nocturnal Hypoglycemia, Daytime Hypoglycemia, Glycemic Variability, and Hypoglycemia Confidence in Persons with Type 1 Diabetes Treated with Multiple Daily Insulin Injections (GOLD-3). Diabetes Technol Ther. 2018 Apr;20(4):274-284. doi: 10.1089/dia.2017.0363. Epub 2018 Apr 2.
- Lind M, Polonsky W, Hirsch IB, Heise T, Bolinder J, Dahlqvist S, Schwarz E, Olafsdottir AF, Frid A, Wedel H, Ahlen E, Nystrom T, Hellman J. Continuous Glucose Monitoring vs Conventional Therapy for Glycemic Control in Adults With Type 1 Diabetes Treated With Multiple Daily Insulin Injections: The GOLD Randomized Clinical Trial. JAMA. 2017 Jan 24;317(4):379-387. doi: 10.1001/jama.2016.19976. Erratum In: JAMA. 2017 May 9;317(18):1912.
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Inizio studio
Completamento primario (Effettivo)
Completamento dello studio (Effettivo)
Date di iscrizione allo studio
Primo inviato
Primo inviato che soddisfa i criteri di controllo qualità
Primo Inserito (Stima)
Aggiornamenti dei record di studio
Ultimo aggiornamento pubblicato (Stima)
Ultimo aggiornamento inviato che soddisfa i criteri QC
Ultimo verificato
Maggiori informazioni
Termini relativi a questo studio
Termini MeSH pertinenti aggiuntivi
Altri numeri di identificazione dello studio
- CGMMDI
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