Diabetes Mellitus In Children - UCD 2024 PDF

Summary

This presentation from University College Dublin (UCD) in September 2024 discusses diabetes mellitus in children. It covers various aspects, including definitions, diagnostic criteria, and different types of diabetes. The presentation also gives information about causes, treatments, and monitoring.

Full Transcript

DIABETES MELLITUS IN CHILDREN Dympna Devenney UCD September 2024 Overview  Definitions  Diagnostic criteria and classification  Aims of management  DCCT  Blood glucose monitoring and technology  Insulin treatment and regimens  Difficulties Definitions  Dia...

DIABETES MELLITUS IN CHILDREN Dympna Devenney UCD September 2024 Overview  Definitions  Diagnostic criteria and classification  Aims of management  DCCT  Blood glucose monitoring and technology  Insulin treatment and regimens  Difficulties Definitions  Diabetes Mellitus is a metabolic disorder of multiply aetiologies characterised by chronic hyperglycaemia with disturbances of carbohydrate, fat and protein metabolism resulting from defects in insulin secretion, action or both  Type 1 diabetes is a chronic auto immune disease in the vast majority and accounts for over 90% of childhood and adolescent diabetes  T cell mediated destruction of the pancreatic beta cells leads to insulin deficiency (WHO 1999) Diagnostic Criteria  Blood glucose measurements AND presence or absence of symptoms  The characteristic signs and symptoms are present  Fasting venous plasma glucose concentrations greater than 7mmols/L AND / OR a random venous plasma glucose concentration taken 2 hours after eating is greater than or equal to 11.1mmols/L (WHO 2000) Classification Type 1 Beta cell destruction, usually leading to absolute insulin deficiency Auto immune Idiopathic Type 2 Ranges from predominantly insulin resistance with relative insulin deficiency to predominantly secretory defect with or without insulin resistance Gestational diabetes Other specific types Type 2 Diabetes in Children  Are obese  No figures for Ireland or the UK  Have a strong family history of type 2 diabetes  Positive family history is present in over 80%  Certain ethnic backgrounds are high risk  Identical twins have an almost 100% concordance  Produce little or no ketonuria rate  Show evidence of insulin  Often asymptomatic resistance  Treatment is based on  Lifestyle, diet exercise  metformin  Oral Hypoglycaemic (sulphonylurea’s)  Insulin sensitizers (thiazolidinediones)  Insulin replace therapy  Combinations of the above Other Types of Diabetes  MODY (maturity onset of diabetes of  CFRD (cystic fibrosis related diabetes) the young)  Primarily due to insulin  Onset before 25 deficiency years  Also insulin resistance  Nonketotic  Poor prognostic sign  Autosomal dominant inheritance  Drug induced  Primary defect in diabetes the function of the pancreatic beta  Stress hyperglycaemia cells 5% of all children who presented in A&E with fever or traumatic  DIDMOAD (diabetes insipidus; injuries had hyperglycaemia (Valerio et al. 1990) diabetes mellitus; optic atrophy; deafness) Causes of Type 1 Diabetes TYPE 1 DIABETES ENVIROMENTAL TRIGGER Congenital rubella; GENETIC FACTOR cow’s milk protein UNKNOWN HLA typing Enteroviral infections Type 1 Diabetes  Is characterised by:  Pre-clinical  Can last months or years  Islet cell anti bodies can be  Pre – clinical detected  Can also detect genetic markers  Clinical  Clinical  Presentation is classical polydypsia; polyuria; weight  Partial remission loss  Can be a rapid or gradual onset  Chronic phase  Partial remission  The honeymoon phase  Never indicates “cure”  Chronic phase  Dependence on exogenous insulin replacement therapy Onset of Diabetes Aims of Diabetes Management  Sub optimal management leads to:  Poor control  Impairs growth  Delays puberty  Irreversible long term micro and macro vascular complications  Diabetes mellitus is the largest cause of:  End stage renal failure  Lower limb amputation  Blindness  The aims of diabetes management are:  Optimal psycho – social adjustment  Optimal glycaemic control  Normal growth and development  Plan of care incorporating the needs of the child and family DCCT  Diabetes Control and Complications Trial  Multi – centre trial over 10 years 7000 screened and 1441 participants  RCT  Two questions  Would intensive therapy prevent the development of diabetic retinopathy?  Would intensive therapy affect the progression of diabetic retinopathy?  The study group had intensive therapy and management and frequent contact with the diabetes team, the control group were had “normal” input DCCT - Results  Retinopathy Risk Reduction  Sustained progression (1st group) 76%  Sustained progression (2nd group) 54%  Proliferative / severe non proliferative 47%  Laser treated 56%  Nephropathy  Microalbuminuria (combined cohorts) 39%  Proteinuria (combined cohorts) 54%  Neuropathy 60% DCCT Normal Blood Glucose Values  WHO values:  Fasting 1.5 Annual Assessment  Eyes screen on diagnosis, screen annually from puberty or annually 5 years after diagnosis  TFT’s / Coeliac screen annually  Micro albuminuria screen annually from puberty or annually 5 years after diagnosis  Full medical assessment  New recommendations suggest lipid profile Toddlers  Dietary problems  Inconsistent food intake  Grazing  Child care issues  Testing/injection problems  Treating as normal  Parental fears School children 5-9  Not eating snacks / lunches  Different activities  Friends  Being part of the group  Snacking on sweets  Parental fears School children10-13  Receptive towards diabetes !!!!!!!!  Compliance  Self injecting  Learning new tasks  Negotiating parental versus self control  Experimenting  Parental fears Adolescents  Negotiating parental versus self control  Experimenting  Drugs, alcohol, smoking, sex  Risk taking behaviour  Parental fears Factors Impeding good control in childhood  Insulin deficiency is more complete  Variable food intake  Recurrent infections  Variable exercise pattern  Varying rates of growth and development  Hormonal changes insulin resistance especially during puberty  Behavioural problems associated with psycho social difficulties  Conflict between parents and a young person  Difficulty in adherence to regimen Psycho social issues in children and adolescents  Being different from their peers  Lack of spontaneity  Regimented life  Coping with embarrassing situations  Fear of long term complications  Feelings of being continually judged  Constant need to compromise and think of diabetes  Sibling rivalry  Peer group pressure  Concern of being a failure to parents Psycho social issues in parents  Fear of hypoglycaemia  Fear of the long term complications  Guilt of genetic transfer  Frustration at never having perfect glycaemic control  Lack of flexibility / clock watching  Extra responsibility  Constant need to explain to carers / friends / clubs  Frustration at others not recognising the complexity of care  Constant conflict between responsibility and over protection  Difficulties in allowing adolescents to take over their care  Extra costs Recipe for causing family breakdown  Give a family member a chronic disease – give it to a child  Make the disease of uncertain aetiology indicate heredity because this will make everyone feel guilty  Make treatment essential to well being time consuming and difficult  Make it painful  Make treatment interfere with normal lifestyle because this upsets everyone  Make self discipline essential to success of the treatment as this absolves all the professionals  Enrol a large multidisciplinary team uncertain of goals of treatment so they can give the family conflicting adviceLuther Travis APRG 1999 Case Study  Jane 14 years old diagnosed 4 year ago, fairly good control using MDI  Admitted 28/08/16 DKA  Admitted 03/09/16 DKA  Admitted 08/09/16 DKA  Admitted 13/09/16 DKA  Attended 15/09/16 Reference list  Kuppermann N et al. Clinical Trial of Fluid Infusion Rates for Pediatric Diabetic Ketoacidosis. N Engl J Med. 2018;378:2275-87. DOI: 10.1056/NEJMoa1716816  Nallasamy K et al. Low-Dose vs Standard-Dose Insulin in Pediatric Diabetic Ketoacidosis. A Randomized Clinical Trial. JAMA Pediatr. 2014; 168(11): 999 – 1005 DOI: 10.1001/jamapediatrics.2014.1211  Health Service Executive (HSE). (2020). Paediatric type 1 diabetes resource pack [PDF]. Retrieved from https://www.hse.ie/eng/about/who/cspd/ncps/paediatrics- neonatology/resources/paediatric-type-1-diabetes-resource-pack-mar- 2020.pdf  Health Service Executive (HSE). (n.d.). Model of care for all children and young people with type 1 diabetes in Ireland [PDF]. Retrieved from https://www.hse.ie/eng/services/publications/clinical-strategy-and- programmes/moc-young-people-with-type-1-diabetes . Reference list  Health Service Executive (HSE). (n.d.). Paediatric Type 1 Diabetes Resource Pack. Clinical Strategy and Programmes Division. Retrieved from https://www.hse.ie/eng/about/who/cspd/ncps/paedia trics-neonatology/resources/paediatric-type-1- diabetes-resource-pack.pdf  Health Service Executive (HSE)(2021). (n.d.). Meeting the Care Needs of Primary School Children with Diabetes. Clinical Strategy and Programmes Division. Retrieved from https://www.hse.ie/eng/about/who/cspd/ncps/paedia trics-neonatology/resources/meeting-care-needs- primary-school-children-with-diabetes1.pdf Reference list  Beck, J.K. and Cogen, F.R., 2015. Outpatient management of pediatric type 1 diabetes. Journal of Pediatric Pharmacology and Therapeutics, 20(5), pp.344-357. doi: 10.5863/1551-6776-20.5.344. PMCID: PMC4596120.  Yafi M, Shah A, Velez K. Narrative review of the role of technology in pediatric diabetes: from testing blood glucose to subcutaneous automated therapy and hope for cure. Transl Pediatr. 2023 Sep 18;12(9):1725-1734. doi: 10.21037/tp-23-145. Epub 2023 Sep 14. PMID: 37814709; PMCID: PMC10560351.

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