Frontotemporal Dementia
Frontotemporal dementia (FTD), or frontotemporal neurocognitive disorder encompasses several types of dementia involving the frontal and temporal lobes. FTDs are broadly presented as behavioral or language disorders. The three main subtypes or variant syndromes are a behavioral variant (bvFTD) previously known as Pick's disease, and two variants of primary progressive aphasia – semantic variant (svPPA), and nonfluent variant (nfvPPA). Two rare distinct subtypes of FTD are neuronal intermediate filament inclusion disease (NIFID), and basophilic inclusion body disease. Other related disorders include corticobasal syndrome and FTD with amyotrophic lateral sclerosis (ALS) FTD-ALS also called FTD-MND.
Frontotemporal dementias are mostly early-onset syndromes that are linked to frontotemporal lobar degeneration (FTLD), which is characterized by progressive neuronal loss predominantly involving the frontal or temporal lobes, and a typical loss of over 70% of spindle neurons, while other neuron types remain intact.
FTD was first described by Arnold Pick in 1892 and was originally called Pick's disease, a term now reserved only for behavioral variant FTD which shows the presence of Pick bodies and Pick cells. Second only to Alzheimer's disease (AD) in prevalence, FTD accounts for 20% of early-onset dementia cases. Signs and symptoms typically manifest in late adulthood, more commonly between the ages of 45 and 65, approximately equally affecting men and women.
Common signs and symptoms include significant changes in social and personal behavior, apathy, blunting of emotions, and deficits in both expressive and receptive language. Currently, there is no cure for FTD, but there are treatments that help alleviate symptoms.
Signs and symptoms
Frontotemporal dementia (FTD) is an early-onset disorder that mostly occurs before the age of 65, but can begin earlier, and in 20%-25% of cases onset is later. A gradual onset and progression of changes in behavior or language deficits are reported to have begun several years prior to presentation to a neurologist.
FTD is traditionally difficult to diagnose due to the diverse nature of the associated symptoms. Signs and symptoms are classified into three groups based on the affected functions of the frontal and temporal lobes: These are behavioural variant frontotemporal dementia, semantic dementia, and progressive nonfluent aphasia. An overlap between symptoms can occur as the disease progresses and spreads through the brain regions.
The main subtypes of frontotemporal dementia are behavioral variant FTD, semantic dementia, progressive nonfluent aphasia, and FTD associated with amyotrophic lateral sclerosis. Two distinct rare subtypes are neuronal intermediate filament inclusion disease, and basophilic inclusion body disease. Related disorders are corticobasal syndrome, and progressive supranuclear palsy.
Behavioral variant frontotemporal dementia
Behavioral variant frontotemporal dementia (BvFTD) was previously known as Pick's disease, and is the most common of the FTD types. BvFTD is diagnosed four times more than the PPA variants. Behavior can change in BvFTD in either of two ways — it can change to being impulsive and disinhibited, acting in socially unacceptable ways; or it can change to being listless and apathetic.
Semantic dementia
Semantic dementia (SD) is characterized by the loss of semantic understanding, resulting in impaired word comprehension. However, speech remains fluent and grammatical.
Progressive nonfluent aphasia
Progressive nonfluent aphasia (PNFA) is characterized by progressive difficulties in speech production.
Other characteristics
In later stages of FTD, the clinical phenotypes may overlap. People with FTD tend to struggle with binge eating and compulsive behaviors. Binge eating habits are often associated with changes in food preferences (cravings for more sweets, carbohydrates), eating inedible objects and snatching food from others. Recent findings from structural MRI research have indicated that eating changes in FTD are associated with atrophy (wasting) in the right ventral insula, striatum, and orbitofrontal cortex.
People with FTD show marked deficiencies in executive functioning and working memory. Most become unable to perform skills that require complex planning or sequencing. In addition to the characteristic cognitive dysfunction, a number of primitive reflexes known as frontal release signs are often able to be elicited. Usually the first of these frontal release signs to appear is the palmomental reflex which appears relatively early in the disease course whereas the palmar grasp reflex and rooting reflex appear late in the disease course.
In rare cases, FTD can occur in people with amyotrophic lateral sclerosis (ALS) a motor neuron disease. The prognosis for people with ALS is worse when combined with FTD, shortening survival by about a year.
Genetics
A higher proportion of fontotemporal dementias seem to have a familial component than more common neurodegenerative diseases like Alzheimer's disease. More and more mutations and genetic variants are being identified all the time, so the lists of genetic influences require consistent updating.
- Tau-positive frontotemporal dementia and parkinsonism linked to chromosome 17 (FTDP-17) is caused by mutations in the MAPT gene on chromosome 17 that encodes the tau protein. It has been determined that there is a direct relationship between the type of tau mutation and the neuropathology of gene mutations. The mutations at the splice junction of exon 10 of tau lead to the selective deposition of the repetitive tau in neurons and glia. The pathological phenotype associated with mutations elsewhere in tau is less predictable with both typical neurofibrillary tangles (consisting of both 3 repeat and 4 repeat tau) and Pick bodies (consisting of 3 repeat tau) having been described. The presence of tau deposits within glia is also variable in families with mutations outside of exon 10. This disease is now informally designated FTDP-17T. FTD shows a linkage to the region of the tau locus on chromosome 17, but it is believed that there are two loci leading to FTD within megabases of each other on chromosome 17.
- FTD caused by FTLD-TDP43 has numerous genetic causes. Some cases are due to mutations in the GRN gene, also located on chromosome 17. Others are caused by VCP mutations, although these patients present with a complex picture of multisystem proteinopathy that can include amyotrophic lateral sclerosis, inclusion body myopathy, Paget's disease of bone, and FTD. The most recent addition to the list is a hexanucleotide repeat expansion in intron 1 of C9ORF72. Only one or two cases have been reported describing TARDBP (the TDP-43 gene) mutations in a clinically pure FTD (FTD without MND).
- Several other genes have been linked to this condition. These include CYLD, OPTN, SQSTM1 and TBK1. These genes have been implicated in the autophagy pathway.
- No genetic causes of FUS pathology in FTD have yet been reported.
Pathology
There are three main histological subtypes found at post-mortem: FTLD-tau, FTLD-TDP, and FTLD-FUS. In rare cases, patients with clinical FTD were found to have changes consistent with Alzheimer's disease on autopsy. The most severe brain atrophy appears to be associated with behavioral variant FTD, and corticobasal degeneration.
With regard to the genetic defects that have been found, repeat expansion in the C9orf72 gene is considered a major contribution to frontotemporal lobar degeneration, although defects in the GRN and MAPT genes are also associated with it.
Diagnosis
Structural MRI scans often reveal frontal lobe and/or anterior temporal lobe atrophy but in early cases the scan may seem normal. Atrophy can be either bilateral or asymmetric. Registration of images at different points of time (e.g., one year apart) can show evidence of atrophy that otherwise (at individual time points) may be reported as normal. Many research groups have begun using techniques such as magnetic resonance spectroscopy, functional imaging and cortical thickness measurements in an attempt to offer an earlier diagnosis to the FTD patient. Fluorine-18-fluorodeoxyglucose positron emission tomography (FDG-PET) scans classically show frontal and/or anterior temporal hypometabolism, which helps differentiate the disease from Alzheimer's disease. The PET scan in Alzheimer's disease classically shows biparietal hypometabolism. Meta-analyses based on imaging methods have shown that frontotemporal dementia mainly affects a frontomedial network discussed in the context of social cognition or 'theory of mind'. This is entirely in keeping with the notion that on the basis of cognitive neuropsychological evidence, the ventromedial prefrontal cortex is a major locus of dysfunction early on in the course of the behavioural variant of frontotemporal degeneration. The language subtypes of frontotemporal lobar degeneration (semantic dementia and progressive nonfluent aphasia) can be regionally dissociated by imaging approaches in vivo.
The confusion between Alzheimer's and FTD is justifiable due to the similarities between their initial symptoms. Patients do not have difficulty with movement and other motor tasks. As FTD symptoms appear, it is difficult to differentiate between a diagnosis of Alzheimer's disease and FTD. There are distinct differences in the behavioral and emotional symptoms of the two dementias, notably, the blunting of emotions seen in FTD patients. In the early stages of FTD, anxiety and depression are common, which may result in an ambiguous diagnosis. However, over time, these ambiguities fade away as this dementia progresses and defining symptoms of apathy, unique to FTD, start to appear.
Recent studies over several years have developed new criteria for the diagnosis of behavioral variant frontotemporal dementia (bvFTD).The confirmatory diagnosis is made by brain biopsy, but other tests can be used to help, such as MRI, EEG, CT, and physical examination and history. Six distinct clinical features have been identified as symptoms of bvFTD.
- Disinhibition
- Apathy/Inertia
- Loss of Sympathy/Empathy
- Perseverative/compulsive behaviors
- Hyperorality
- Dysexecutive neuropsychological profile
Of the six features, three must be present in a patient to diagnose one with possible bvFTD. Similar to standard FTD, the primary diagnosis stems from clinical trials that identify the associated symptoms, instead of imaging studies. The above criteria are used to distinguish bvFTD from disorders such as Alzheimer's and other causes of dementia. In addition, the new criteria allow for a diagnostic hierarchy distinguished possible, probable, and definite bvFTD based on the number of symptoms present.
Neuropsychological tests
The progression of the degeneration caused by bvFTD may follow a predictable course. The degeneration begins in the orbitofrontal cortex and medial aspects such as ventromedial cortex. In later stages, it gradually expands its area to the dorsolateral cortex and the temporal lobe. Thus, the detection of dysfunction of the orbitofrontal cortex and ventromedial cortex is important in the detection of early stage bvFTD. As stated above, a behavioural change may occur before the appearance of any atrophy in the brain in the course of the disease. Because of that, image scanning such as MRI can be insensitive to the early degeneration and it is difficult to detect early-stage bvFTD.
In neuropsychology, there is an increasing interest in using neuropsychological tests such as the Iowa gambling task or Faux Pas Recognition test as an alternative to imaging for the diagnosis of bvFTD. Both the Iowa gambling task and the Faux Pas test are known to be sensitive to dysfunction of the orbitofrontal cortex.
Faux Pas Recognition test is intended to measure one’s ability to detect faux pas types of social blunders (accidentally make a statement or an action that offends others). It is suggested that people with orbitofrontal cortex dysfunction show a tendency to make social blunders due to a deficit in self-monitoring. Self-monitoring is the ability of individuals to evaluate their behaviour to make sure that their behaviour is appropriate in particular situations. The impairment in self-monitoring leads to a lack of social emotion signals. The social emotions such as embarrassment are important in the way that they signal the individual to adapt social behaviour in an appropriate manner to maintain relationships with others. Though patients with damage to the OFC retain intact knowledge of social norms, they fail to apply it to actual behaviour because they fail to generate social emotions that promote adaptive social behaviour.
The other test, the Iowa gambling task, is a psychological test intended to simulate real-life decision making. The underlying concept of this test is the somatic marker hypothesis. This hypothesis argues that when people have to make complex uncertain decisions, they employ both cognitive and emotional processes to assess the values of the choices available to them. Each time a person makes a decision, both physiological signals and evoked emotion (somatic marker) are associated with their outcomes and it accumulates as experience. People tend to choose the choice which might produce the outcome reinforced with positive stimuli, thus it biases decision-making towards certain behaviours while avoiding others. It is thought that somatic marker is processed in orbitofrontal cortex.
The symptoms observed in bvFTD are caused by dysfunction of the orbitofrontal cortex, thus these two neuropsychological tests might be useful in detecting the early stage bvFTD. However, as self-monitoring and somatic marker processes are so complex, it likely involves other brain regions. Therefore, neuropsychological tests are sensitive to the dysfunction of orbitofrontal cortex, yet not specific to it. The weakness of these tests is that they do not necessarily show dysfunction of the orbitofrontal cortex.
In order to solve this problem, some researchers combined neuropsychological tests which detect the dysfunction of orbitofrontal cortex into one so that it increases its specificity to the degeneration of the frontal lobe in order to detect the early-stage bvFTD. They invented the Executive and Social Cognition Battery which comprises five neuropsychological tests.
- Iowa gambling task
- Faux Pas test
- Hotel task
- Mind in the Eyes
- Multiple Errands Task
The result has shown that this combined test is more sensitive in detecting the deficits in early bvFTD.
Management
Currently, there is no cure for FTD. Treatments are available to manage the behavioral symptoms. Disinhibition and compulsive behaviors can be controlled by selective serotonin reuptake inhibitors (SSRIs). Although Alzheimer's and FTD share certain symptoms, they cannot be treated with the same pharmacological agents because the cholinergic systems are not affected in FTD.
Because FTD often occurs in younger people (i.e. in their 40s or 50s), it can severely affect families. Patients often still have children living in the home.
Prognosis
Symptoms of frontotemporal dementia progress at a rapid, steady rate. Patients suffering from the disease can survive for 2–20 years. Eventually patients will need 24-hour care for daily function.
CSF leaks are a known cause of reversible frontotemporal dementia.
History
Frontotemporal dementia was first described by Pick in 1892. In 1989, Snowden suggested the term “semantic dementia” to describe the patient with predominant left temporal atrophy and aphasia that Pick described. The first research criteria for FTD “Clinical and neuropathological criteria for frontotemporal dementia. The Lund and Manchester Groups,” was developed in 1994. The clinical diagnostic criteria were revised in the late 1990s, when the FTD spectrum was divided into a behavioral variant, a nonfluent aphasia variant and a semantic dementia variant. The most recent revision of the clinical research criteria was by International Behavioural Variant FTD Criteria Consortium (FTDC) in 2011.
Notable cases
Notable cases of bvFTD when mostly were referred to as Pick's disease.
- Don Cardwell (1935–2008), Major League Baseball pitcher
- Jerry Corbetta (1947–2016), frontman, organist and keyboardist of American psychedelic rock band Sugarloaf
- Ted Darling (1935–1996), Buffalo Sabres television announcer
- Robert W. Floyd (1936–2001), computer scientist
- Lee Holloway (born 1981), co-founder of Cloudflare
- Colleen Howe (1933–2009), sports agent and hockey team manager, known as "Mrs. Hockey"
- Ralph Klein (1942–2013), former premier of Alberta, Canada
- Kevin Moore (1958–2013), English footballer
- Ernie Moss (born 1949), English footballer
- Nic Potter (1951–2013), British bassist for Van der Graaf Generator
- Christina Ramberg (1946–1995), American painter associated with the Chicago Imagists
- Pat Moran (1947-2011), British record producer, singer and Mellotron player with progressive rock band Spring
- David Rumelhart (1942–2011), American cognitive psychologist
- Colin Savage, father of footballer Robbie Savage
- Sir Nicholas Wall (1945–2017), English judge
- Mark Wirtz (1943-2020), pop musician, composer and producer
- Kazi Nazrul Islam (1899-1976), notable Bengali poet and National Poet of Bangladesh
See also
- Alcoholic dementia
- Lewy body dementia
- Logopenic progressive aphasia
- Proteopathy
- Transportin 1
- Vascular dementia