Continuous Glucose Monitoring System in children with type 1 diabetes mellitus: a systematic review and meta-analysis

[1]  R. Brazg,et al.  Accuracy of the 5-Day FreeStyle Navigator Continuous Glucose Monitoring System , 2007, Diabetes Care.

[2]  B. Buckingham Continuous Glucose Monitoring in Children with Type 1 Diabetes Diabetes Research in Children Network (DirecNet) Study Group , 2007 .

[3]  F. Kaufman,et al.  A pilot trial in pediatrics with the sensor-augmented pump: combining real-time continuous glucose monitoring with the insulin pump. , 2007, The Journal of pediatrics.

[4]  J. Ludvigsson,et al.  Hypoglycemia and ketoacidosis with insulin pump therapy in children and adolescents , 2006, Pediatric diabetes.

[5]  H. Guess,et al.  Continuous subcutaneous glucose monitoring in children with type 1 diabetes mellitus: a single‐blind, randomized, controlled trial , 2006, Pediatric diabetes.

[6]  O. Kordonouri,et al.  Results of a randomised controlled cross-over trial on the effect of continuous subcutaneous glucose monitoring (CGMS) on glycaemic control in children and adolescents with type 1 diabetes. , 2006, Experimental and clinical endocrinology & diabetes : official journal, German Society of Endocrinology [and] German Diabetes Association.

[7]  Howard Zisser,et al.  Improvement in glycemic excursions with a transcutaneous, real-time continuous glucose sensor: a randomized controlled trial. , 2006, Diabetes care.

[8]  M. Faupel,et al.  Real-time glucose sensing using transdermal fluid under continuous vacuum pressure in children with type 1 diabetes. , 2005, Diabetes technology & therapeutics.

[9]  D. Klonoff Continuous glucose monitoring: roadmap for 21st century diabetes therapy. , 2005, Diabetes care.

[10]  H Peter Chase,et al.  A randomized multicenter trial comparing the GlucoWatch Biographer with standard glucose monitoring in children with type 1 diabetes. , 2005, Diabetes care.

[11]  Eight-point glucose testing versus the continuous glucose monitoring system in evaluation of glycemic control in type 1 diabetes. , 2005, The Journal of clinical endocrinology and metabolism.

[12]  Bruce A Buckingham,et al.  Accuracy of the modified Continuous Glucose Monitoring System (CGMS) sensor in an outpatient setting: results from a diabetes research in children network (DirecNet) study. , 2005, Diabetes technology & therapeutics.

[13]  Claresa Levetan,et al.  Use of the Continuous Glucose Monitoring System to guide therapy in patients with insulin-treated diabetes: a randomized controlled trial. , 2004, Mayo Clinic proceedings.

[14]  O. Kordonouri,et al.  Assessment of glycemic control by continuous glucose monitoring system in 50 children with type 1 diabetes starting on insulin pump therapy , 2004, Pediatric diabetes.

[15]  A. Caduff,et al.  Impact of posture and fixation technique on impedance spectroscopy used for continuous and noninvasive glucose monitoring. , 2004, Diabetes technology & therapeutics.

[16]  J. Mastrototaro,et al.  Alarms based on real-time sensor glucose values alert patients to hypo- and hyperglycemia: the guardian continuous monitoring system. , 2004, Diabetes technology & therapeutics.

[17]  P. Schaepelynck-Belicar,et al.  Improved metabolic control in diabetic adolescents using the continuous glucose monitoring system (CGMS). , 2003, Diabetes & metabolism.

[18]  Johnny Ludvigsson,et al.  Continuous subcutaneous glucose monitoring improved metabolic control in pediatric patients with type 1 diabetes: a controlled crossover study. , 2003, Pediatrics.

[19]  A. Novials,et al.  The continuous glucose monitoring system is useful for detecting unrecognized hypoglycemias in patients with type 1 and type 2 diabetes but is not better than frequent capillary glucose measurements for improving metabolic control. , 2003, Diabetes care.

[20]  Ronald Brazg,et al.  A continuous glucose sensor based on wired enzyme technology -- results from a 3-day trial in patients with type 1 diabetes. , 2003, Diabetes technology & therapeutics.

[21]  Stefano Zucchini,et al.  The glucose area under the profiles obtained with continuous glucose monitoring system relationships with HbA(lc) in pediatric type 1 diabetic patients. , 2002, Diabetes care.

[22]  Alberto Maran,et al.  Continuous subcutaneous glucose monitoring in diabetic patients: a multicenter analysis. , 2002, Diabetes care.

[23]  A. Zung,et al.  Continuous subcutaneous glucose monitoring in children with type 1 diabetes. , 2002, Pediatrics.

[24]  R. Potts,et al.  Glucose monitoring by reverse iontophoresis , 2002, Diabetes/metabolism research and reviews.

[25]  F. Kaufman,et al.  A pilot study of the continuous glucose monitoring system: clinical decisions and glycemic control after its use in pediatric type 1 diabetic subjects. , 2001, Diabetes care.

[26]  W. Tamborlane,et al.  Limitations of conventional methods of self-monitoring of blood glucose: lessons learned from 3 days of continuous glucose sensing in pediatric patients with type 1 diabetes. , 2001, Diabetes care.

[27]  Matthew D. Davis,et al.  Retinopathy and nephropathy in patients with type 1 diabetes four years after a trial of intensive therapy. , 2000, The New England journal of medicine.

[28]  J. Mastrototaro,et al.  Performance evaluation of the MiniMed continuous glucose monitoring system during patient home use. , 2000, Diabetes technology & therapeutics.

[29]  J. Mastrototaro,et al.  Continuous glucose monitoring used to adjust diabetes therapy improves glycosylated hemoglobin: a pilot study. , 1999, Diabetes research and clinical practice.

[30]  Diabetes Control Effect of intensive diabetes treatment on the development and progression of long-term complications in adolescents with insulin-dependent diabetes mellitus: Diabetes Control and Complications Trial. Diabetes Control and Complications Trial Research Group. , 1994, The Journal of pediatrics.

[31]  S. Genuth,et al.  The effect of intensive treatment of diabetes on the development and progression of long-term complications in insulin-dependent diabetes mellitus. , 1993, The New England journal of medicine.