Hostname: page-component-586b7cd67f-t8hqh Total loading time: 0 Render date: 2024-11-24T23:17:54.715Z Has data issue: false hasContentIssue false

Late-onset depression: issues affecting clinical care

Published online by Cambridge University Press:  02 January 2018

Rights & Permissions [Opens in a new window]

Abstract

A growing body of evidence suggests that late-onset depression (depression occurring for the first time in later life) differs from early-onset (recurrent) depression in terms of clinical features, aetiology, neuroanatomical substrates and prognosis. Some evidence suggests that late-onset depression is more associated with somatic symptoms, cognitive deficits, cerebral structural abnormalities, vascular disease (‘vascular depression’) and poorer treatment outcomes than is early-onset depression. Both general adult and old age psychiatrists face the challenges of managing late-onset depression. In this article we attempt to clarify specific issues relating to late-onset depression in terms of clinical features, aetiology, treatment response and prognosis.

Type
Research Article
Copyright
Copyright © The Royal College of Psychiatrists 2008 

There is some scepticism regarding the divided classification of depression on the grounds of age at onset, primarily owing to a lack of valid methods for pinpointing that age. Some believe it futile to distinguish between early- and late-onset depression even if there may be evidence that they are different. However, late-onset depression is recognised to be aetiologically different from depression of early onset, and aetiologically heterogeneous in itself.

There is no consensus as to what age should distinguish between the late- and early-onset disorders. In the UK, 60 years of age is the most commonly used cut off, whereas in the USA and other countries 50 is generally used (Reference Baldwin and O'BrienBaldwin & O'Brien, 2002). Reference HopkinsonHopkinson (1964) found that the prevalence of depressive disorders in first-degree relatives of individuals with late-onset depression (aged over 55 at onset), being less than half that for probands with early-onset depression, substantiates Reference Caine, Lyness, King, Lon, Schneider and ReynoldsCaine et al's (1994) theory that familial risk in affective disorders reduces after 50 years of age. Hence, it is likely that a significant number of patients with late-onset depression in the UK are seen by general adult psychiatrists, who therefore need to be as aware of the specific challenges this disorder poses in terms of aetiology, management and treatment as are old age psychiatrists.

The importance of clinical differentiation between late-onset and early-onset depression is illustrated by findings that late-onset depression may be associated with greater incidence of completed suicide (Reference Bellini and MatteucciBellini & Matteucci, 2001) and a poorer outcome (Reference Baldwin, Jeffries and JacksonBaldwin et al, 2004) than early-onset depression. Poorer outcomes appear to be related to neuropsychological deficits (Reference Lockwood, Alexopoulos and KakumaLockwood et al, 2000), which appear to occur more frequently in those who first experience depression after 60 years of age (Reference Holroyd and DuryeeHolroyd & Duryee, 1997).

We carried out an extensive search of published literature on electronic databases, including PubMed and Datastar (Medline, Embase, PsychINFO, CINAHL, AMED, King's Fund, DH-Data and DNI), and electronic journals (ProQuest), using various search terms, including ‘late-onset depression’. We also reviewed literature identified from a hand search of peer-reviewed journals and cross-references. Studies used various ages as cut-off points for diagnosing late-onset depression, and we have quoted these where relevant.

Epidemiology

In the population aged over 65 the overall prevalence of major depression is estimated at 2% and the prevalence of depressive symptoms 10–15%. This figure is increased in hospital sub-populations, and higher still in residential homes (Reference Fountoulakis, O'Hara and IacovidesFountoulakis et al, 2003). The multicentre ODIN study (Reference Ayuso-Mateos, Vázque-Barquero and DowrickAyuso-Mateos et al, 2001), which looked at prevalence of depression in five European countries, classified patients into three age groups: 18–25, 26–45 and 46–65. They found no significant difference in prevalence between the under-45 and the over-45 age groups.

We found no study that throws light on the incidence or prevalence of depression in the different ‘age at onset’ groups. However, in a study of 74 out-patients with depression, Reference Holroyd and DuryeeHolroyd & Duryee (1997) found that 59 (almost 80%) had onset of depression after age 60. Reference Baldwin and O'BrienBaldwin & O'Brien (2002) state that as many as three-quarters of patients with major depressive disorder presenting to old age psychiatrists have late-onset depression.

Clinical features

Table 1 summarises the key clinical differences between early- and late-onset depression reported in various studies.

Table 1 Clinical differences between late- and early-onset depression

Source Late-onset depression Early-onset depression
Reference Baldwin and TomensonBaldwin & Tomenson, 1995; Reference Van den Berg, Oldehinkel and BouhuysVan den Berg et al, 2001 Anxiety/neuroticism
Reference Janssen, Beekman and ComijsJanssen et al, 2006 Weight loss Anxiety, suicidal thoughts, worthlessness
Reference Reinhard, Martin and AndreasReinhard et al, 2000 Low spirits, worthlessness
Reference Hickie, Scott and NaismithHickie et al, 2001 Cognitive impairment, anhedonia, psychomotor changes
Reference Rapp, Dahlman and SanoRapp et al, 2005 Anhedonia; attentional and executive dysfunction; cardiovascular comorbidity Episodic memory dysfunction
Reference Brodaty, Luscombe and GordonBrodaty et al, 2001 No difference in phenomenology or neuropsychological performance between late- and early-onset

Depressed mood and cognitions

Depressed mood, the cardinal symptom of depression, may be less prominent in depression affecting patients in old age (Reference GurlandGurland, 1976), meaning that recognition of late-onset depression in its early stages can be difficult for patients, carers and clinicians. In addition, elderly people with new or recurrent depression are more hypochondriacal and more delusional than younger people, possibly complicating diagnosis (Reference GurlandGurland, 1976; Reference Meyers and GreenbergMeyers & Greenberg, 1986).

People with early-onset depression tend to have more depressive cognitions, including suicidal thoughts, thoughts of worthlessness (Reference Reinhard, Martin and AndreasReinhard et al, 2000; Reference Janssen, Beekman and ComijsJanssen et al, 2006) and neuroticism (Reference Baldwin and TomensonBaldwin & Tomenson, 1995; Reference Van den Berg, Oldehinkel and BouhuysVan den Berg et al, 2001). Individuals with late-onset depression tend to present more with symptoms of psychomotor change, anhedonia, cognitive impairments (Reference Hickie, Scott and NaismithHickie et al, 2001; Reference Rapp, Dahlman and SanoRapp et al, 2005) and weight loss (Reference Janssen, Beekman and ComijsJanssen et al, 2006).

In contrast to these findings, a comparison study looking at early- and late-onset depression (onset after age 60) reported that the two groups were similar in terms of phenomenology, depressive subtype and severity, and neuropsychological performance (Reference Brodaty, Luscombe and GordonBrodaty et al, 2001). The validity of this study was perhaps affected by the fact that it was carried out in a tertiary referral centre and it might therefore reflect a more severe form of depression.

Cognitive deficits

Depression in all age groups is associated with some degree of impaired concentration and subjective difficulties with memory. Cognitive deficits seem to occur more frequently when first onset is in older age (Reference Holroyd and DuryeeHolroyd & Duryee, 1997). Other cognitive deficits, such as episodic memory disturbance and executive dysfunction, are also commonly found in depression. Such deficits simply reflect a higher incidence of underlying physical morbidity in older patients as similar cognitive deficits occur in younger patients without physical comorbidity.

Memory improvement seems to correlate with amelioration of depressive signs and symptoms (Reference Sternberg and JarvikSternberg & Jarvik, 1976). Yet in late-onset depression, cognitive deficits frequently persist, albeit to a lesser extent, following recovery from the episode, suggesting that they are not simply the result of depressed mood but instead are both ‘state and trait’ deficits (Reference Nebes, Pollock and HouckNebes et al, 2003; Reference Gallassi, Di Sarro and MorrealeGallassi et al, 2006). There is also evidence that severity of cognitive deficits increases with severity of depression, regardless of age or education (Reference Elderkin-Thompson, Kumar and BilkerElderkin-Thompson et al, 2003). The magnitude of decline varies from just a trend to a statistically significant deficit, depending on the cognitive domain. This decline in cognitive performance also appears to run parallel to the trend seen in neuroanatomical studies, in which the volume of frontal and temporal lobes reduces with increasing severity of depression (see below).

Reference Rapp, Dahlman and SanoRapp et al (2005) measured neuropsychological function in 116 older adults (mean age just under 84 years) with late- or early-onset depression. They found that individuals with late-onset depression had specific deficits in attention and executive function (consistent with frontal lobe dysfunction), whereas those with recurrent (early-onset) depression exhibited deficits in episodic memory (consistent with temporal lobe dysfunction). Reference Sweeney, Kmiec and KupferSweeney et al (2000) identify the mesial temporal lobe as the area most associated with episodic memory.

Late-onset depression and dementia

When presented with symptoms of short-term memory impairment, psychomotor retardation, impaired concentration and apathy in elderly patients, clinicians are frequently faced with the challenge of differentiating between dementia and depression as the underlying diagnosis. Furthermore, a considerable number of elderly people develop late-onset depression alongside a dementing illness (Reference Alexopoulos, Meyers and YoungAlexopoulos et al, 1993).

Reference Kaimal and NairKaimal & Nair (2005) found studies reporting structural, functional and electrophysiological links between late-onset depression and Alzheimer's disease. It was suggested not that late-onset depression is a prodrome for any particular type of dementia, but that the majority of patients with late-onset depression who develop dementia get either Alzheimer's disease or vascular dementia. Several studies have looked at whether there is an association between apolipoprotein E and late-onset depression, but no association has been established (Reference Hickie, Scott and NaismithHickie et al, 2001).

Reference van Reekum, Simard and ClarkeVan Reekum et al (1999) compared the cognitive status of 245 elderly individuals with either late- or early-onset depression and found that almost half of those with late-onset depression scored below the chosen cut-off for dementia, compared with just under one-third of those with early-onset depression. They also found that treatment of late-onset depression had little effect on cognition.

Aetiology

Various factors have been proposed as explanations for the onset of depression in early or later life (Table 2). These fall into the following broad categories.

Table 2 Aetiology

Source Late-onset depression Early-onset depression
Reference Maier, Litchtermann and HeunMaier et al, 1991 Higher rate of familial depression
Reference Brodaty, Luscombe and GordonBrodaty et al, 2001 Family history of any psychiatric illness, personality abnormalities, history of poor maternal relationships
Reference Mendlewicz and BaronMendlewicz & Baron, 1981 Greater family history of depression (especially in female relatives), alcoholism, sociopathy
Reference Van den Berg, Oldehinkel and BouhuysVan den Berg et al, 2001 Severe life stress Psychological vulnerability
Reference Grace and O'BrienGrace & O'Brien, 2003 Bereavement life events, no difference on
Eysenck personality questionnaire
Reference Hein, Bonsignore and BarkowHein et al, 2003 Life time depressive symptoms and somatic symptoms as preclinical markers

Genetic susceptibility

Reference Maier, Litchtermann and HeunMaier et al (1991) clearly established that people with late-onset depression (over 60 years of age at onset) have a higher familial rate of depression than age-matched controls, but the rate in early-onset depression is higher still. Reference Brodaty, Luscombe and GordonBrodaty et al (2001) found that a family history of any psychiatric illness is significantly more common in early- than in late-onset depression.

Reference Mendlewicz and BaronMendlewicz & Baron (1981) found that people with early-onset depression had a greater familial morbidity for depression, alcoholism and sociopathy than those with late-onset depression (onset after age 40). They also found an excess of depression in the female relatives of men and women with early-onset depression compared with those with late-onset depression.

Life events and psychosocial factors

According to Reference Van den Berg, Oldehinkel and BouhuysVan den Berg et al (2001), ‘late-life depression’ can be divided into subgroups with different aetiological pathways, including early onset with long-standing psychological vulnerability, and late onset as a reaction to severe life stress.

Reference Hughes, Blazer and GeorgeHughes et al (1988) suggest that the frequency and severity of life events (e.g. loss of a spouse or physical illness) may be greater in later life in the general population. Reference Grace and O'BrienGrace & O'Brien's (2003) findings that bereavement life events were more common in those with early-onset depression suggest that older people may be better able to cope with bereavements, even though they are at greater risk of experiencing them.

Reference Brodaty, Luscombe and GordonBrodaty et al (2001) found that personality abnormalities and a history of a poor maternal relationship were significantly more common in early- than in late-onset depression.

Vascular disease

In their ‘vascular depression’ hypothesis, Reference Alexopoulos, Meyers and YoungAlexopoulos et al (1997) proposed that cerebral ischaemic damage to the fronto–subcortical circuits can predispose, precipitate and perpetuate late-onset depression. In support of their theory they cited a study that compared 21 patients with early-onset depression (<59 years of age at onset) and 36 with late-onset depression (Reference Baldwin and TomensonBaldwin & Tomenson, 1995). Vascular risk factors were found to be highly significantly associated with late-onset depression, but not with just increasing age. This rules out ageing as a likely confounding association with vascular risk. The association between cardiovascular disease and depression is not confined to the elderly population, or those with severe depression.

Box 1 lists some of the theories proposed to explain the association between depression and vascular disease. Not all studies find an association between late-onset depression and vascular pathology. Reference Janssen, Beekman and ComijsJanssen et al (2006) found no such association in an elderly (55–85 years of age) community-based sample. However, this may be explained by the possibility that depression in a community sample is less likely to be complicated by factors such as comorbid vascular disease.

Box 1 Theories explaining the association between depression and vascular disease

  1. Increased platelet aggregation (Reference Kempermann and KronenbergKempermann & Kronenberg, 2003)

  2. Both depression and ischemia may be secondary to atherosclerosis (Reference Baldwin and O'BrienBaldwin & O'Brien, 2002)

  3. Recurrent depression across the lifespan may increase the risk of vascular pathology (Reference Baldwin and O'BrienBaldwin & O'Brien, 2002)

  4. Damage to end arteries supplying subcortical striato–pallido–thalamo–cortical pathways may disrupt the neurotransmitter circuitry involved in mood regulation, causing or predisposing to depression (Reference Baldwin and O'BrienBaldwin & O'Brien, 2002)

Depressive symptoms/sub-threshold depression

Reference Hein, Bonsignore and BarkowHein et al (2003), in a 2-year prospective follow-up study, identified lifetime depressive and somatic symptoms as preclinical markers of late-onset depression. Certain symptoms, when present for over 2 weeks at any age, individually predicted late-onset depression. The most important of these were lack of joy and interest, poor concentration, increased appetite, lack of energy and joint pain. These findings suggest that previous sub-threshold depression increases the risk of later major depression.

Structural neuroimaging

Imaging studies in late-onset depression have found a reduction in grey matter volume in frontal (Reference KrishnanKrishnan, 1991) and temporal lobes, along with ventricular enlargement (Reference Dahabra, Ashton and BahrainainDahabra et al, 1998), sulcal widening, and reduction in volume of the caudate nucleus (Reference KrishnanKrishnan, 1991) and hippocampus (Bell-McGinty et al, 2002).

Bell-McGinty et al (2002) found an inverse correlation between hippocampal–entorhinal volume and years since onset of depression, suggesting that depression may result in neuronal alterations at a molecular level in hippocampal cells. The glucocorticoid hypothesis suggests that hypercortisolaemia may damage hippocampal neurons, disrupting down-regulation of the hypothalamic–pituitary–adrenal (HPA) axis (Reference Sapolsky, Krey and McEwenSapolsky et al, 1986). However, Reference Lloyd, Ferrier and BarberLloyd et al (2004) found greater hippocampal atrophy in late-onset (after age 60) illness, contradicting the glucocorticoid hypothesis and suggesting that a pathological process other than exposure to hypercortisolaemia may underlie hippocampal atrophy. Candidate processes include oxidative stress, calcium metabolism and glutamatergic excitation.

Prognosis

Reference Brodaty, Harris and PetersBrodaty et al (1993) found that patients who experience their first episode of major depression before the age of 60 were more likely to have a relapsing course. This led them to conclude that early-onset depression predicts a poorer prognosis in elderly people than does late-onset depression. A subsequent comparison study of individuals with early- and late-onset depression (Reference Reynolds, Dew and FrankReynolds et al, 1998) found no difference between onset groups in the percentage of patients remitting, recovering or relapsing during their first year of maintenance treatment. However, people in the early-onset group tended to take 5–6 weeks longer to achieve remission.

Reference Kalayam and AlexopoulosKalayam & Alexopoulos (1999) found evidence that prefrontal dysfunction in elderly people is significantly associated with a poor or delayed response to antidepressants. In contrast, Reference Navarro, Gasto and LomenaNavarro et al (2004) found that the presence of frontal hypoperfusion in individuals with late-onset depression was associated with quicker acute response to antidepressant treatment. However, they suggest that this reflects only the speed of response to antidepressants, and not remission rates.

Reference Simpson, Baldwin and JacksonSimpson et al (1998) studied the association between subcortical disease and antidepressant response in late-life depression, concluding that a poor response could be expected in patients with a ‘vascular depression’. Reference Miller, Lenze and DewMiller et al (2002) found late-onset depression (at over 60 years of age) was associated with cerebrovascular risk factors. Yet, a high risk of cerebrovascular disease and onset of depression after the age of 60 had no effect on time to remission, need for adjunctive treatment or risk of recurrence over 3-year follow-up.

Management options

In the assessment of patients presenting with depression occurring for the first time in late life it is particularly important to consider neurological and vascular factors, examples of which are listed in Box 2. Reference Baldwin, Jeffries and JacksonBaldwin et al's (2005) report of increased neurological findings in late-onset depression emphasises the importance of physical examination and thorough assessment of cognition. Since vascular disease has been found to be associated with late-onset depression, identification and modification of risk factors for vascular disease, including hypertension, raised cholesterol, diabetes and smoking, plays an important role in prevention and management of depression.

Box 2 Vascular and atrophic changes in late-onset depression

  1. Ischaemia (Reference Baldwin and TomensonBaldwin & Tomenson, 1995; Reference Alexopoulos, Meyers and YoungAlexopoulos et al, 1997)

  2. Ventricular enlargement (Reference Alexopoulos, Meyers and YoungAlexopoulos et al, 1993)

  3. Electrocardiogram (EEG) changes (Reference Kaimal and NairKaimal & Nair, 2005)

  4. Reduction in grey matter in frontal lobe and caudate nucleus (Reference KrishnanKrishnan, 1991)

  5. Reduction in volume of hippocampus (Bell-McGinty et al, 2002; Reference Baldwin, Jeffries and JacksonBaldwin et al, 2004; Reference Hickie, Naismith and WardHickie et al, 2005)

People with late-onset depression have a higher propensity for developing cognitive deficits than those with early-onset depression (Reference Alexopoulos, Meyers and YoungAlexopoulos, et al, 1997), making them more vulnerable to cognitive side-effects of medications, including psychotropics, and electroconvulsive therapy (ECT). In the latter, unilateral ECT, a low-dosing electrical stimulus and adequate pre-anaesthetic may be used to reduce the risk of cognitive side-effects. Evidence suggests that ECT can result in persistent or permanent loss of explicit memory and retrograde amnesia (Reference SackheimSackheim, 2000; American Psychiatric Association, 2001). A proportion of patients continue to complain of subjective memory problems following ECT even when no objective evidence is found on formal testing. However, identifying and monitoring cognitive symptoms may be particularly important in this vulnerable group. Reference Robertson and PryorRobertson & Pryor (2006) suggest the use of various neuropsychological batteries for testing cognitive function following ECT.

We were unable to find any evidence supporting or refuting the use of psychotherapies in late-onset depression. The National Institute for Health and Clinical Excellence (NICE) guidelines for depression recommend that people over the age of 65 should be offered a full range of psychological treatments, including cognitive–behavioural therapy and supportive counselling (National Collaborating Centre for Mental Health, 2004).

We were unable to find any evidence for the use of antioxidants (vitamin E, fish oils) in the management of cortisol-induced hippocampal damage.

For a general review of the management of depression in later life readers are referred to Reference Baldwin and WildBaldwin & Wild's (2004) article in this journal.

Conclusions

Clinicians should recognise that late-onset depression differs from the early-onset disorder. Research suggests that it is more difficult to diagnose and is more commonly associated with cognitive impairments that complicate management. An increase in the occurrence of vascular disease in elderly people may complicate the clinical picture: cardiovascular risk factors require optimum management in older people with the late-onset depression. Despite some evidence that depression of late onset has a poorer outcome than the early-onset disorder, we were unable to confirm this, as studies provide conflicting results.

Defining age at onset of a depression can be difficult; symptoms may have been present for some time but not recognised as being part of a depressive illness. Memory problems associated with depression may affect reliability of recall of symptom onset. Residual features of previous physical illness or depression can affect the clinical picture in subsequent episodes of early-onset depression, thus complicating attempts to differentiate it from depression of late onset.

This review has highlighted the paucity of research evidence on the pathophysiology, prognosis and management of late-onset depression. Study of the functional outcomes and underlying pathophysiological mechanisms of this disorder might inform the development of care pathways involving compensatory coping strategies.

Declaration of interest

None.

MCQs

  1. 1 Compared with early-onset depression, late-onset depression is associated with:

    1. a lower suicide rates

    2. b less treatment resistance

    3. c lower incidence of hypochondriasis

    4. d higher neuroticism

    5. e cognitive impairment.

  2. 2 Compared with late-onset depression, early-onset depression is more associated with:

    1. a frontal lobe dysfunction

    2. b attentional problems

    3. c executive dysfunction

    4. d episodic memory dysfunction

    5. e temporal lobe dysfunction.

  3. 3 In dementia:

    1. a depression may mimic its symptoms and signs

    2. b late-onset depression is not associated with APOE e4

    3. c depression is not a risk factor

    4. d late-onset depression is always a prodrome of Alzheimer's disease

    5. e late-onset depression is a prodrome of vascular dementia.

  4. 4 In terms of aetiology, early-onset depression can be more associated than late-onset depression with:

    1. a family history

    2. b vascular disease

    3. c reduced hippocampal volume

    4. d smaller prefrontal lobe volume

    5. e smaller caudate nuclear volume.

  5. 5 It is true to say that:

    1. a early-onset depression always has a better outcome than late-onset depression

    2. b oxidative stress leads to neuronal cell death

    3. c ECT is not associated with irreversible memory problems

    4. d it is not possible to clinically monitor cognitive effects of ECT

    5. e late-onset depression is not associated with vascular dementia.

MCQ answers

1 2 3 4 5
a F a F a T a T a F
b F b F b F b F b T
c F c F c F c F c F
d F d T d F d F d F
e T e F e F e F e F

Acknowledgement

We thank Drs D. Yadav and S. Mukunda for their help in the literature search.

References

Alexopoulos, G. S., Meyers, B. S., Young, R. C. et al (1993) The course of geriatric depression with reversible dementia: a controlled study. American Journal of Psychiatry, 150, 16931699.Google ScholarPubMed
Alexopoulos, G. S., Meyers, B. S., Young, R. C. et al (1997) ‘Vascular depression’ hypothesis. Archives of General Psychiatry, 54, 915922.CrossRefGoogle ScholarPubMed
American Psychiatric Association (2001) ECT Task Force of the American Psychiatric Association: The Practice of Electroconvulsive Therapy. American Psychiatric Press.Google Scholar
Ayuso-Mateos, J. L., Vázque-Barquero, J. L., Dowrick, C. et al (2001) Depressive disorders in Europe: prevalence figures from the ODIN study. British Journal of Psychiatry, 179, 308316.CrossRefGoogle ScholarPubMed
Baldwin, R. C. & O'Brien, J. (2002) Vascular basis of late-onset depressive disorder. British Journal of Psychiatry, 180, 157160.CrossRefGoogle ScholarPubMed
Baldwin, R. C. & Tomenson, B. (1995) Depression in later life. A comparison of symptoms and risk factors in early and late onset cases. British Journal of Psychiatry, 167, 649652.CrossRefGoogle ScholarPubMed
Baldwin, R. & Wild, R. (2004) Management of depression in later life. Advances in Psychiatric Treatment, 10, 131139.CrossRefGoogle Scholar
Baldwin, R., Jeffries, S., Jackson, A. et al (2004) Treatment response in late-onset depression: relationship to neuropsychological, neuroradiological and vascular risk factors. Psychological Medicine, 34, 125136.CrossRefGoogle ScholarPubMed
Baldwin, R., Jeffries, S., Jackson, A. et al (2005) Neurological findings in late-onset depressive disorder: comparison of individuals with and without depression. British Journal of Psychiatry, 186, 308313.CrossRefGoogle ScholarPubMed
Bellini, M. & Matteucci, V. (2001) Late onset depression and suicide outcome. Archives of Gerontology and Geriatrics, 33, 3742.CrossRefGoogle Scholar
Bell-McGinty, S., Butters, M. A., Meltzer, C. C. et al (2002) Brain morphometric abnormalities in geriatric depression: long-term neurobiological effects of illness duration. American Journal of Psychiatry, 159, 14241427.CrossRefGoogle ScholarPubMed
Brodaty, H., Harris, L., Peters, K. et al (1993) Prognosis of depression in the elderly. A comparison with younger patients. British Journal of Psychiatry, 163, 589596.CrossRefGoogle ScholarPubMed
Brodaty, H., Luscombe, G., Gordon, P. et al (2001) Early and late onset depression in old age. Different aetiologies, same phenomenology. Journal of Affective Disorders, 66, 225236.CrossRefGoogle ScholarPubMed
Caine, E. D., Lyness, J. M. & King, D. A. (1994) Clinical and etiological heterogeneity of mood disorders in elderly patients. In Diagnosis and Treatment of Depression in Late Life: Results of the NIH Consensus Development Conference (eds Lon, S., Schneider, M. D., Reynolds, C. F. et al) pp. 2353. American Psychiatric Press.Google Scholar
Dahabra, S., Ashton, H. C., Bahrainain, M. et al (1998) Structural and functional abnormalities in elderly patients clinically recovered from early- and late-onset depression. Biological Psychiatry, 44, 3446.CrossRefGoogle ScholarPubMed
Elderkin-Thompson, V., Kumar, A., Bilker, W. B. et al (2003) Neuropsychological deficits among patients with late-onset minor and major depression. Archives of Clinical Neuropsychology, 18, 529549.CrossRefGoogle ScholarPubMed
Fountoulakis, K. N., O'Hara, R., Iacovides, A. et al (2003) Unipolar late-onset depression. A comprehensive review. Annals of General Hospital Psychiatry, 2, 11 (doi: 10.1186/1475-2832-2-11).CrossRefGoogle ScholarPubMed
Gallassi, R., Di Sarro, R., Morreale, A. et al (2006) Memory impairment in patients with late-onset major depression: the effect of antidepressant therapy. Journal of Affective Disorders, 91, 243250.CrossRefGoogle ScholarPubMed
Grace, J. & O'Brien, J. T. (2003) Association of life events and psychosocial factors with early but not late onset depression in the elderly: implications for possible differences in aetiology. International Journal of Geriatric Psychiatry, 18, 473478.CrossRefGoogle Scholar
Gurland, B. J. (1976) The comparative frequency of depression in various adult age groups. Journal of Gerontology, 31, 283292.CrossRefGoogle ScholarPubMed
Hein, S., Bonsignore, M., Barkow, K. et al (2003) Lifetime depressive and somatic symptoms as preclinical markers of late-onset depression. European Archives of Psychiatry and Clinical Neuroscience, 253, 1621.CrossRefGoogle ScholarPubMed
Hickie, I., Scott, E., Naismith, S. et al (2001) Late-onset depression: genetic, vascular and clinical contributions. Psychological Medicine, 31, 14031412.CrossRefGoogle ScholarPubMed
Hickie, I., Naismith, S., Ward, P. B. et al (2005) Reduced hippocampal volumes and memory loss in patients with early- and late-onset depression. British Journal of Psychiatry, 186, 197202.CrossRefGoogle ScholarPubMed
Holroyd, S. & Duryee, J. J. (1997) Differences in geriatric psychiatry outpatients with early- vs late-onset depression. International Journal of Geriatric Psychiatry, 12, 11001106.3.0.CO;2-5>CrossRefGoogle ScholarPubMed
Hopkinson, G. (1964) A genetic study of affective illness in patients over 50. British Journal of Psychiatry, 110, 244254.CrossRefGoogle ScholarPubMed
Hughes, D. C., Blazer, D. G. & George, L. K. (1988) Age differences in life events: a multivariate controlled analysis. International Journal of Aging and Human Development, 27, 207220.CrossRefGoogle ScholarPubMed
Janssen, J., Beekman, A. T. F., Comijs, H. C. et al (2006) Late-life depression: the differences between early- and late-onset illness in a community-based sample. International Journal of Geriatric Psychiatry, 21, 8693.CrossRefGoogle Scholar
Kaimal, A. B. & Nair, U. V. (2005) Organic brain dysfunction in late-onset depression. British Journal of Psychiatry, 187, 288.CrossRefGoogle ScholarPubMed
Kalayam, B. & Alexopoulos, G. S. (1999) Prefrontal dysfunction and treatment response in geriatric depression. Archives of General Psychiatry, 56, 713718.CrossRefGoogle ScholarPubMed
Kempermann, G. & Kronenberg, G. (2003) Depressed new neurons: adult hippocampal neurogenesis and a cellular hypothesis of major depression. Biological Psychiatry, 54, 499503.CrossRefGoogle Scholar
Krishnan, K. R. R. (1991) Organic basis of depression in the elderly. Annual Review of Medicine, 42, 261266.CrossRefGoogle Scholar
Lloyd, A. J., Ferrier, I. N., Barber, R. et al (2004) Hippocampal volume change in depression: late- and early-onset illness compared. British Journal of Psychiatry, 184, 488495.CrossRefGoogle ScholarPubMed
Lockwood, K. A., Alexopoulos, G. S., Kakuma, T. et al (2000) Subtypes of cognitive impairment in depressed older adults. American Journal of Geriatric Psychiatry, 8, 3.CrossRefGoogle ScholarPubMed
Maier, W., Litchtermann, D., Heun, R. et al (1991) Unipolar depression in the aged. Determinants of familial aggregation. Journal of Affective Disorders, 23, 5361.CrossRefGoogle ScholarPubMed
Mendlewicz, J. & Baron, M. (1981) Morbidity risks in subtypes of unipolar depressive illness: differences between early and late onset forms. British Journal of Psychiatry, 139, 463466.CrossRefGoogle ScholarPubMed
Meyers, B. S. & Greenberg, R. (1986) Late-life delusional depression. Journal of Affective Disorders, 11, 133137.CrossRefGoogle ScholarPubMed
Miller, M. D., Lenze, E. J., Dew, M. A. et al (2002) Effect of cerebrovascular risk factors on depression treatment outcome in later life. American Journal of Geriatric Psychiatry, 10, 592598.CrossRefGoogle ScholarPubMed
National Collaborating Centre for Mental Health (2004) Depression: Management of Depression in Primary and Secondary Care. Clinical Guideline 23. NICE (http://guidance.nice.org.uk/CG23/?c=91523).Google Scholar
Navarro, V., Gasto, C., Lomena, F. et al (2004) Prognostic value of frontal functional neuroimaging in late-onset severe major depression. British Journal of Psychiatry, 184, 306311.CrossRefGoogle ScholarPubMed
Nebes, R., Pollock, B. G., Houck, P. R. et al (2003) Persistence of cognitive impairment in geriatric patients following antidepressant treatment: a randomised, double-blind clinical trail with nortriptyline and paroxetine. Journal of Psychiatric Research, 37, 99108.CrossRefGoogle Scholar
Rapp, M. A., Dahlman, K., Sano, M. et al (2005) Neuropsychological differences between late-onset and recurrent geriatric major depression. American Journal of Psychiatry, 162, 691698.CrossRefGoogle ScholarPubMed
Reinhard, H., Martin, K. & Andreas, P. (2000) Distinction of early- and late-onset depression in the elderly by their lifetime symptomatology. International Journal of Geriatric Psychiatry, 15, 11381142.Google Scholar
Reynolds, C. F., Dew, M. A. & Frank, E. (1998) Effects of age at onset of first lifetime episode of recurrent major depression on treatment response and illness course in elderly patients. American Journal of Psychiatry, 155, 795799.Google ScholarPubMed
Robertson, H. & Pryor, R. (2006) Memory and cognitive effects of ECT: informing and assessing patients. Advances in Psychiatric Treatment, 12, 228238.CrossRefGoogle Scholar
Sackheim, H. A. (2000) Memory and ECT: from polarization to reconciliation. Journal of ECT, 16, 8797.CrossRefGoogle Scholar
Sapolsky, R. M., Krey, L. C. & McEwen, B. S. (1986) The neuroendocrinology of stress and aging: the glucocorticoid cascade hypothesis. Endocrine Reviews, 7, 284301.CrossRefGoogle ScholarPubMed
Simpson, S., Baldwin, R. C., Jackson, A. et al (1998) Is subcortical disease associated with a poor response to antidepressants? Neurological, neuropsychological and neuroradiological findings in late-life depression. Psychological Medicine, 28, 10151026.CrossRefGoogle ScholarPubMed
Sternberg, D. F. & Jarvik, M. E. (1976) Memory functions in depression. Archives of General Psychiatry. 33, 219224.CrossRefGoogle ScholarPubMed
Sweeney, J. A., Kmiec, J. A. & Kupfer, D. J. (2000) Neuropsychologic impairments in bipolar and unipolar mood disorders on the CANTAB neurocognitive battery. Biological Psychiatry, 48, 674684.CrossRefGoogle ScholarPubMed
Van den Berg, M. D., Oldehinkel, A. J., Bouhuys, A. L. et al (2001) Depression in later life. Three etiological different subgroups. Journal of Affective Disorders, 65, 1926.CrossRefGoogle ScholarPubMed
van Reekum, R., Simard, M., Clarke, D. et al (1999) Late-life depression as a possible predictor of dementia, cross-sectional and short-term follow-up results. American Journal of Geriatric Psychiatry, 7, 151159.Google ScholarPubMed
Figure 0

Table 1 Clinical differences between late- and early-onset depression

Figure 1

Table 2 Aetiology

Submit a response

eLetters

No eLetters have been published for this article.