Dialling back treatment intensity for older people with type 2 diabetes

Reviewing the benefits and risks of stringent glycaemic targets in older people with diabetes

The benefits of glycaemic control for preventing microvascular complications

The microvascular complications of diabetes, e.g. retinopathy, nephropathy and neuropathy, develop over many years; long-term glycaemic control prevents the onset and slows the progression of these complications.⁶ Over time, however, the balance of benefits and harms associated with maintaining stringent glycaemic targets can change. For example, someone with limited life expectancy is unlikely to live long enough to benefit from the prevention of microvascular complications by treating to a stringent target, however, a hypoglycaemia-related fall could accelerate their functional decline and loss of independence (see: “Intensive glycaemic control increases the risk of hypoglycaemia”). In addition, there are some clinical trial data showing that the protection against microvascular complications^* for patients who have maintained stringent targets may continue even after the target is dialled back.⁶

N.B. There is no evidence that maintaining stringent targets will improve renal outcomes in people with established diabetic kidney disease.⁷

^* Defined as vitreous haemorrhage, retinal photocoagulation or renal failure in the follow-up of the UKPDS trial.⁸

Further information on the renal complications of diabetes is available from: “Slowing progression of renal dysfunction in patients with diabetes”.

Intensive glycaemic control is unlikely to prevent the major macrovascular complications of diabetes

The three major clinical trials^* investigating the effects of intensive glycaemic control (achieved HbA_1c levels of 46–53 mmol/mol)^† in people with longstanding type 2 diabetes (mean age of 60–66 years; mean duration of diabetes of eight to 12 years) on the risk of macrovascular complications found no benefit of intensive treatment for reducing all-cause mortality and CVD-related mortality.^{6, 9} Furthermore, one of these trials, the ACCORD study, found that the risk of all-cause and CVD-related mortality was significantly higher in the intensive treatment arm (achieved HbA_1c levels of 46 mmol/mol); the reason for this outcome is not completely clear but may relate to hypoglycaemia triggering CVD events.^{6, 9, 10} For patients with established CVD or high CVD risk, the benefits of addressing non-glycaemic factors, i.e. blood pressure control, lipid-lowering with statin treatment, aspirin for secondary prevention, and lifestyle modifications, are likely to be greater than any potential benefits of glucose-lowering with medicines currently funded in New Zealand for reducing CVD risk.¹¹

^* The ACCORD, ADVANCE and VADT studies; for further information on these trials, see: www.bpac.org.nz/bpj/2010/august/HbA1c.aspx

^† The HbA_1c levels in the standard treatment groups ranged from 56 mmol/mol to 68 mmol/mol

Intensive glycaemic control increases the risk of hypoglycaemia

Intensive glycaemic control is associated with a significantly increased risk of hypoglycaemia.^{9, 12} Age-related physiological changes make older people susceptible to hypoglycaemia and more vulnerable to the adverse outcomes associated with hypoglycaemia-related falls, e.g. fractures, head injuries, hospital admissions, need for long-term residential care.¹³ Hypoglycaemia also increases the risk of cognitive decline, dementia, myocardial infarction, stroke and death.^{14, 15} Fear of hypoglycaemia can cause significant anxiety (e.g. worrying about not waking up in the morning) and lead to or worsen social isolation and/or depression in older people by affecting their confidence to leave the house to engage in social activities, exercise or travel.

Hypoglycaemia in older people can manifest as non-specific neurological symptoms, e.g. confusion, dizziness, weakness, visual disturbances, rather than adrenergic symptoms, e.g. tremors, sweating. Repeated hypoglycaemic episodes can lead to hypoglycaemia unawareness, which in turn increases the risk of hypoglycaemia-related mortality.¹⁴ Clinicians should have a low threshold of suspicion for hypoglycaemia in older patients if they or their caregivers report any possible symptoms.¹⁶

It is also important to ensure that patients and their family/whānau understand “sick day” management and how to adjust regimens to accommodate any missed meals or changes in activity to reduce the risk of hypoglycaemia.

Stringent HbA_1c targets increase the risk of polypharmacy

HbA_1c levels often increase over time and intensification of treatment is needed to achieve an agreed target. For many patients this means using multiple glucose-lowering medicines. If other co-morbidities are present, the risk of polypharmacy and associated adverse outcomes, e.g. poor adherence, medicine-medicine interactions, medicine-disease interactions, is increased. Selecting a less stringent HbA_1c target requiring fewer medicines or a simplified regimen (e.g. switching to a combined metformin + vildagliptin tablet) while still maintaining reasonable glycaemic control can help to minimise the adverse outcomes associated with polypharmacy.

Discussing regimen changes with patients and their whānau

Patients and their family/whānau or caregivers may perceive that relaxing glycaemic targets and any accompanying changes to the treatment regimen signifies the clinician “giving up” on them. Decision-making should be shared with the patient and their caregivers, family/whānau if appropriate and incorporate their preferences and priorities for treatment. Provide reassurance that any changes to the regimen are about providing the best balance of benefits and risks for them. On the contrary, some patients may think that reducing their medicines means that their condition is improving, and they no longer need to maintain a healthy diet and lifestyle, therefore it is important to effectively communicate the goals of treatment.

For further information on how to approach the conversation of stopping medicines in older people, see: www.bpac.org.nz/2018/stopping.aspx

Strategies to dial back HbA_1c targets

A less stringent HbA_1c target may be achieved by:

• De-intensifying treatment, e.g. reducing the dose or withdrawing an add-on oral glucose-lowering treatment or insulin
• Not intensifying treatment, e.g. by not adding a second or third oral glucose-lowering medicine or initiating insulin treatment when HbA_1c levels increase

Oral glucose-lowering medicines

Metformin remains the first-line treatment option for older people with type 2 diabetes due to its effectiveness for lowering blood glucose levels and low risk of hypoglycaemia, however, it is contraindicated in people with advanced renal impairment (creatinine clearance < 15 mL/min) and maximum doses should be lowered as renal function declines, i.e. once creatinine clearance is < 60 mL/min.^{6, 17}

As sulphonylureas are associated with a greater risk of hypoglycaemia, where possible, patients at high risk of hypoglycaemia should be switched to an alternative, e.g. vildagliptin.⁶ If a sulphonylurea is used, a formulation with a shorter duration of action, e.g. gliclazide or glipizide, is preferred over one with a longer duration, e.g. glibenclamide, due to the increased risk of hypoglycaemia with longer acting sulphonylureas.⁶

Stopping an oral glucose-lowering medicine or switching to another type does not usually require tapering of the medicine before it is discontinued.

Insulin

Many older people with type 2 diabetes will be using insulin to maintain glycaemic control. However, insulin is the glucose-lowering medicine most associated with hypoglycaemia and older people are particularly vulnerable to this adverse effect. In addition, older people with cognitive or physical impairment may have difficulty maintaining adherence to blood glucose monitoring and insulin injection regimens. It may be necessary to simplify the insulin regimen, e.g. switch from basal-bolus or biphasic regimen to a once daily injection of basal insulin, reduce the dose and/or switch from evening to morning dosing. It may be appropriate to withdraw insulin completely for some older people.

If continuing insulin treatment, patients (or their caregivers) should maintain once daily self-monitoring of blood glucose levels, preferably before breakfast; a higher fasting blood glucose target than usually recommended, e.g. 8–10 mmol/L, may be appropriate depending on the patient’s health status.⁶

For further information on the pharmacological treatment of diabetes, see: www.bpac.org.nz/2019/hba1c.aspx

Individualising lifestyle modifications

Lifestyle modifications to improve cardiovascular health and glycaemic control, i.e. diet and exercise, are recommended for all people with diabetes, including older adults.¹⁸ Clinicians should tailor the recommended modifications to reflect any changes in the patient’s physical and cognitive abilities and circumstances.

Weight loss should be managed carefully in overweight older people; ensure that patients understand what constitutes a balanced diet, including adequate levels of protein to combat the loss of muscle mass and strength associated with both diabetes and frailty, even in those who are overweight.¹⁸ Patients who require additional support can be referred to local services, e.g. cooking courses or Meals on Wheels. If the patient has more complex health needs, e.g. requires assistance with shopping, preparing meals or access to a dietitian, referral for a needs assessment may be appropriate.

Patients who are underweight or malnourished and cannot meet their nutritional needs through diet alone can be prescribed a nutritionally complete food supplement formulated for people with diabetes, e.g. Diasip, Glucerna Select and Nutrison Advanced Diason are fully subsidised with Special Authority approval (see the NZF for further information).

Nutritional status can be assessed using the following validated tools: the Mini Nutritional Assessment, available here: www.mna-elderly.com/forms/MNA_english.pdf and the Short Nutritional Assessment Questionnaire, available here: www.fightmalnutrition.eu/toolkits/summary-screening-tools

Exercise recommendations should be appropriate for the patient’s level of mobility, strength and aerobic fitness. Some patients may be able to undertake moderate-intensity exercise several times per week, and for others, recommendations may need to focus on strategies to avoid sedentary behaviour.¹⁸ Chair-based exercises can be recommended to those who have limited mobility. Ideally, all older people should do a combination of resistance-based, balance and flexibility exercises, to reduce the risk of frailty and falls.¹⁰ Patients can be referred to falls prevention classes or in-home services, if available locally.

Examples of exercises suitable for people with limited mobility are available here: www.diabetes.org.nz/type-2-diabetes-physical-activities

Older people are at risk for depression, particularly if they are socially isolated and/or have limited mobility. Depression may impact upon adherence to diabetes treatment regimens and lifestyle interventions and therefore worsen glycaemic control. Depression can be identified using the Geriatric Depression Scale, a 15-part questionnaire where a score of more than ten is indicative of depression.

The Geriatric Depression Scale is available here: www.bpac.org.nz/BPJ/2011/July/appendices.aspx

Additional resources

• For further information on weight loss, see: www.bpac.org.nz/2019/weight-loss.aspx
• For further information on nutritional and exercise interventions to prevent the progression of frailty, see: www.bpac.org.nz/2018/frailty.aspx
• For further information on preventing falls, see: www.bpac.org.nz/BPJ/2015/August/falls.aspx
• The Stay independent falls prevention toolkit for clinicians, which includes assessments for estimating risk of falling, is available here: www.hqsc.govt.nz/our-programmes/reducing-harm-from-falls/publications-and-resources/publication/2232/
• For information on locally available falls prevention classes, see: www.livestronger.org.nz/
• Nutritional information for patients is available in a variety of languages is available from: www.healthnavigator.org.nz/healthy-living/eating-drinking/n/nutrients/
• For further information on funded services providing dietary advice or assistance with cooking, meals or grocery shopping, see: www.govt.nz/browse/health/help-in-your-home/cooking-and-meals/
• For further information on support services available locally for older people, see: www.ageconcern.org.nz/ACNZPublic/Local_Age_Concerns/ACNZ_Public/AroundNZ.aspx?hkey=189abbc5-0199-4204-b7f6-582dc8804305