Principles Of Drug Use In The Elderly

Question 1

Why is drug use in older people important?

Answer 1

Co-morbidities
Polypharmacy (=/>4)
Susceptibility to ADRs
Hospital admissions increasing
Compliance/adherence
High cost

Question 2

What is a drug interaction?

Answer 2

A situation in which a substance (usually another drug) affects the activity of a drug when both are administered together

Question 3

What is an adverse drug reaction (ADR)?

Answer 3

Undesirable effect (i.e. injury) of a drug beyond its anticipated therapeutic effects occurring during clinical use (serious and growing public health problem in the elderly)

Question 4

What are the risk factors for adverse drug reactions (ADRs)?

Answer 4

Polypharmacy
IP
Physiological affects of ageing
Comorbidities

Question 5

What are adverse drug reactions (ADRs) related to?

Answer 5

DoTS classification:

1. Dose
2. Time-course
3. Susceptibility

Question 6

How can a dose of a drug ABOVE the therapeutic range cause adverse drug reactions (ADRs)?

Answer 6

Above therapeutic range = toxic reaction e.g. bleeding following too high dose of Warfarin

Treatment:

• Reduce dose
• Prevent by using min. effective dose

Question 7

How can a dose of a drug WITHIN the therapeutic range cause adverse drug reactions (ADRs)?

Answer 7

Within therapeutic range = collateral reaction e.g. drowsiness with antihistamines

Treatment:

• May be unavoidable
• Try reducing dose w/o reducing desired therapeutic effect
• If this does not work change medicine

Question 8

How can a dose of a drug BELOW the therapeutic range cause adverse drug reactions (ADRs)?

Answer 8

Below therapeutic range = hypersusceptibility reaction e.g. penicillin allergy

Treatment:

• Avoid by using foreknowledge of patient allergies - ask in history what allergies and what there reaction is
• Permanently avoid said drug

Question 9

How can the time-course of a drug cause adverse drug reactions (ADRs)?

Answer 9

1. 1st dose reaction
2. Early reactions
3. Intermediate reactions
4. Late reactions
5. Withdrawal reactions
6. Delayed reactions

Question 10

How can the dose of a drug cause adverse drug reactions (ADRs)?

Answer 10

1. Above therapeutic range
2. Within therapeutic range
3. Below therapeutic range

Therapeutic range = specific to patient

Question 11

What is a first dose reaction?

Answer 11

When a patient reacts after the first dose of a drug e.g. hypotension after 1st dose of ACEi so advise/special precautions are needed e.g. advice to take 1st dose at night when lying down so they do not fall over

Question 12

What is a early reaction?

Answer 12

When a patient gets a side effect after being on the drug for a short amount of time but the patient becomes tolerant so the reaction wears off so the patient can continue with the treatment as the ADR should wear off e.g. nitrate-induced headache

Question 13

What is an intermediate reaction?

Answer 13

When a reaction to a drug occurs within a specific time frame but vigilance can be relaxed if no reaction occurs after this time e.g. neutropenia due to carbimazole which may make patients have a sore throat short-term

Question 14

What is a late reaction?

Answer 14

A longer term affect of a drug that persists so increases risk of ADR with continued/repeated exposure and implies the need for long-term monitoring +/- prevention e.g. bruising, weight gain and bone loss as a result of corticosteroids

Question 15

What is a withdrawal reaction?

Answer 15

When patients get negative affects as a result of stopping a drug (SSRIs, corticosteroids, opioids)abruptly after being on them for a while so it is important to slowly withdraw or reduce the dose of some drugs to prevent ADRs e.g. SSRI AD discontinuation syndrome can cause flu-like symptoms, shock-like sensations, dizziness, anxiety, irritability, insomnia, vivid dreams etc.

Question 16

What is a delayed reaction?

Answer 16

When a patient gets a long-term illness or disease e.g. carcinogenesis or teratogenesis as a result of long-term use of a drug so the drug should be avoided in patients with known susceptibility to these problems e.g. HRT, chemotherapy, radiotherapy and methotrexate (not as important in elderly but more so in younger patients)

Question 17

What drug in the elderly shows an important delayed reaction?

Answer 17

Nitrofurantoin is used as a prophylactic for UTIs but can cause irreversible progressive pulmonary fibrosis

Question 18

What factors make patients susceptible to adverse drug reactions (ADRs)?

Answer 18

1. Genetics
2. Age
3. Sex
4. Specific physiological states e.g. pregnancy
5. Diseases e.g. hepatic/renal impairment
6. Exogenous factors e.g. other drugs (interactions), diet etc.

Question 19

If there is a suspected adverse drug reaction (ADR), where should it be reported?

Answer 19

Yellow Card Scheme using the electronic form online

Question 20

What is ageing?

Answer 20

Gradual loss of function of cells and organs with the eventual outcome of death

Question 21

What factors influence ageing?

Answer 21

Genetics
Psychology
Lifestyle 
Socio-economic factors
Environment

Question 22

Why is ageing important for doctors?

Answer 22

• Doctors care for lots of older people
• We want to improve QoL and longevity
• Resource issues for NHS

Question 23

What are the main sources of cost impact of the older population?

Answer 23

Benefit expenditure
NHS spending
Hospital and community health services

Question 24

What are the 3 different stages of old age?

Answer 24

1. 65-75yrs: entering old age, careers finished but still active and independent so aim to promote healthy active life but also prevent disease
2. 75-84yrs: transitional phase where we aim to identify/manage on-going and emerging problems
3. 85+yrs: frail old age population that show vulnerability as a result of health/social problems

Question 25

What are the cardiovascular effects of ageing?

Answer 25

1. Cardiac enlargement/LVH
2. Decreased CO = reduced exercise capacity
3. Decreased response of HR to exercise
4. Systolic HPN
5. LVF

Question 26

What are the respiratory effects of ageing?

Answer 26

1. Decreased FEV1/FVC and increased residual volume
2. Increased susceptibility to infection
3. Increased susceptibility to aspiration

Question 27

What are the endocrine affects of ageing?

Answer 27

1. Decreased insulin sensitivity

2. Decreased thyroid hormone production

Question 28

What are the gastrointestinal affects of ageing?

Answer 28

1. Increased gastric acid production

2. Constipation

Question 29

What are the affects on skin and hair with ageing?

Answer 29

1. Dry skin
2. Wrinkles
3. Increased bruising
4. Slower healing = ulcers/sores
5. Greying hair

Question 30

What are the genito-urinary affects of ageing?

Answer 30

1. Decreased GFR
2. Benign prostatic enlargement (prostatism)
3. Decreased sexual function and erectile dysfunction
4. Vaginal dryness so increases UTI susceptibility

Question 31

What are the musculoskeletal affects of ageing?

Answer 31

1. Sarcopenia decreasing muscle strength/power
2. Decreased mobility
3. Increased likelihood of falls
4. Increased susceptibility to fractures due to osteoporosis

Question 32

What are the effects of ageing on the nervous system?

Answer 32

1. Slower thought processes/reactions
2. Vision deterioration inc. presbyopia and cataracts
3. High-frequency hearing loss (presbyacusis)
4. Inner ear dysfunction and balance problems

Question 33

What are the effects of ageing on the immune system?

Answer 33

1. Atrophy of thymus
2. Decreased immune function so increased risk of infections and cancer
3. Reactivation of latent infections e.g. TB and shingles

Question 34

What impact will ageing and disease have on a person’s life?

Answer 34

1. Care needs
2. Mobility
3. Functional capacity
4. QoL
5. Independence
6. Wellbeing

Question 35

Why do older people have higher drug sensitivity and so are more susceptible to adverse drug reactions (ADRs)?

Answer 35

• Receptor responses (e.g. decreased ß-adrenoceptor sensitivity)
• Altered coagulation factor synthesis
• CNS becomes more sensitive to psychotropics/hypnotics
• Baroceptor response less sensitive
• Renal clearance reduced
• Thirst response blunted
• Thermoregulation blunted
• Altered immune response
• Slower gastric emptying
• Reduced plasma albumin
• Increased ratio of adipose to lean tissue
• Altered liver metabolism

Question 36

What affects the absorption stage of pharmacokinetics in the elderly?

Answer 36

1. Swallowing
2. Gastric emptying
3. Intestinal motility
4. Blood flow
5. SA

Question 37

What affects the distribution stage of pharmacokinetics in the elderly?

Answer 37

1. Tissue perfusion and blood flow
2. Reduced plasma protein binding so free fraction of drug increases
3. Volume of distribution: older people have a higher fat:water ratio so fat-soluble drugs will have a longer duration of action but water-soluble drugs will have an initially high concentration that declines

Question 38

What affects the metabolism stage of pharmacokinetics in the elderly?

Answer 38

1. Hepatic mass decreased
2. Hepatic blood flow decreased
3. Thyroid function decreased
4. Genetics

Question 39

What affects the excretion stage of pharmacokinetics in the elderly?

Answer 39

1. Renal drug excretion is decreased due to reduced renal blood flow and GFR so patients with poor renal function (exacerbated by dehydration, UTI + sepsis) take longer to eliminate renally excreted drugs

= ALWAYS assume elderly have at least mild renal impairment as this is the most important and predictable change

Question 40

What are the pharmacodynamic changes in the elderly?

Answer 40

1. Changes in receptor sensitivity e.g. ß-adrenoceptor sensitivity decreases with age
2. Change in receptor no. (never static)
3. Changes in hormone levels e.g. menopause
4. Actions of medicines affecting CNS/CVS are frequently altered e.g. hypnotics and psychotropics

Question 41

What are the common drugs that need dose adjustment in the elderly?

Answer 41

1. ACEi
2. Diazepam
3. Digoxin
4. NSAIDs
5. Opiates
6. Oral hypoglycaemics
7. Warfarin

Question 42

What is the J-shaped curve of diabetes treatment?

Answer 42

Mortality improves with tighter control of blood glucose and the less control there is, the higher the mortality HOWEVER, as patients get older they have a decreased awareness of hypoglycaemia so if you have very tight control of blood glucose, more mortality may occur as they cannot sense slight hypoglycaemic changes so the blood glucose are purposefully left less controlled so patients can notice hypoglycaemic affects decreasing acute mortality due to hypoglycaemia (longer term effects do not matter as much)

Question 43

What are the changes of homeostasis in ageing?

Answer 43

1. Decreased baroreceptor reflex with blunting of reflex tachycardia causing orthostatic hypotension
2. Decreased postural control
3. Decreased thermoregulation
4. Decreased reserve of cognitive function
5. Decreased immune response so prone to infection

Question 44

What effects will multi-morbidity in the elderly cause?

Answer 44

1. More drugs needed so higher risk of drug-drug interactions
2. More change of drug-disease interactions e.g:
   - Anticholinergics for prostatic hypertrophy precipitate urinary retention
   - BZDs may precipitate delirium in patients with dementia

Question 45

Why can polypharmacy be a problem?

Answer 45

1. Loss of patient compliance or adherence to prescription instructions
2. Prescription errors (increased risk with extra medicines prescribed)
3. Increased interactions + ADRs
4. IP
5. Cost

Question 46

What is deprescribing?

Answer 46

The practice of reducing or discontinuing medications that may no longer be of benefit or may cause adverse effects with the goal of reducing medication burden and potential for harm - one way of addressing the problem of IP and polypharmacy in the older population

Question 47

What is associated with inappropriate prescribing (IP) in older people?

Answer 47

1. Increased fall risk
2. ADRs
3. Hospitalisations
4. Death

Question 48

Why might elderly patients have concordance and compliance issues with medications?

Answer 48

1. Cognitive impairment
2. Visual impairment
3. OTC or other medicines taken
4. Communication between care providers
5. Prescribing cascade

Question 49

What is the prescribing cascade?

Answer 49

When a drug causes an adverse effect and its misinterpreted as a new medical condition so a new drug is prescribed and then this cascade continues on…

For example:
NSAIDs can cause HPN so then antihypertensives are given as well

Question 50

If given an NSAID to an elderly patient is absolutely necessary, what must you do?

Answer 50

1. Use ibuprofen not diclofenac as this has fewer upper GI side effects
2. Co-prescribe a PPI
3. Only give short-term

Question 51

What strategies can improve concordance with medication?

Answer 51

1. Simplify; 1 daily dose, prescribe medicines that can be taken at same time of day, use medicines with dual indications (e.g. ß-blockers) and consider daily dose reminder system (e.g. Dosette box)
2. Educate: explain reasons for taking medicine and how to take it, warn of side effects and enlist support of family/carers in monitoring
3. Monitor: check tablet boxes and use of medicines, monitor request for prescriptions and if indicated, serum monitoring

Question 52

Who should medication reviews be carried out regularly for?

Answer 52

Annually: all patients over 75 years on repeat medication

6 monthly: those taking =/> 4 medicines

Question 53

What can we minimize adverse drug reactions (ADRs)?

Answer 53

• Take good drug history inc. OTC and others
• Prescribe sensibly i.e. do the need it? can they take it? do they want it?
• Consider drug-drug and drug-disease interactions
• Minimize use of high-risk drugs e.g. warfarin and macrolides
• For every new problem, consider whether medicine could be cause
• Start low and go slow due to impaired renal/liver function
• Extreme caution when care is transferred to avoid slipping
• Record allergies/intolerances

Question 54

What does the NICE guidance of prescribing in the elderly say?

Answer 54

1. Follow guidelines for indication
2. Limit range of drugs used to ones you are thoroughly familiar with
3. Reduce dose
4. Review regularly
5. Simplify regimens
6. Explain clearly
7. Advise on repeats and disposal

Question 55

Why should you avoid NSAIDs in the elderly?

Answer 55

They are nephrotoxic and this population often have lowered kidney function - also cause GI ulceration (why you prescribe with PPI) and coronary vascular disease as a result of long-term use