Late-life depression increases dementia risk
Late-life depression is associated with an increased risk for all-cause dementia, Alzheimer’s disease, and, most predominantly, vascular dementia, a new study shows.
A new meta-analysis extends previous research showing a link between depression and Alzheimer’s disease to late-life depression and dementia. The analysis of 23 studies concluded that those with late-life depression were significantly more likely to develop dementia (1.85 times more likely), and that the risk of developing vascular dementia was significantly greater than that of developing Alzheimer’s (2.52 vs 1.65).
Late-life depression is estimated to affect 15% of older adults (65+) in the U.S. It has been associated to social isolation, as well as poorer health.
Interestingly, another recent study has explored the difficulties of disentangling major depression and early Alzheimer’s in older adults, given the overlap in symptoms. The study, involving 120 older depressed patients, found that tests of episodic memory were most predictive of Alzheimer’s (as compared to other cognitive tests, for example, in executive function).
http://www.futurity.org/health-medicine/late-life-depression-may-boost-dementia-risk/ (Press release, 1st study)
http://newoldage.blogs.nytimes.com/2013/05/01/does-depression-contribute-to-dementia/ (Commentary, 1st study)
Alzheimer's disease symptoms more subtle in people over 80
A study involving 105 people with Alzheimer's disease and 125 healthy older adults has compared cognitive function and brain shrinkage in those aged 60-75 and those aged 80+.
It was found that the association between brain atrophy and cognitive impairment typically found in those with Alzheimer’s disease was less evident in the older group. This is partly because of the level of brain atrophy in healthy controls in that age group — there was less difference between the healthy controls and those with Alzheimer’s. Additionally, when compared to their healthy counterparts, executive function, immediate memory and attention/processing speed were less abnormal in the older group than they were in the younger group.
The finding suggests that mild Alzheimer’s in the very old may go undetected, and emphasize the importance of taking age into account when interpreting test performance and brain measures.
Diagnosis and prevalence of dementia & MCI — recent reports
Functional impairment good indicator of mild cognitive impairment
Evaluation of 816 older adults, of whom 229 had no cognitive problems, 394 had a diagnosis of amnestic mild cognitive impairment, and 193 had a diagnosis of mild Alzheimer’s, has revealed that most of those with aMCI (72%) or AD (97%) had trouble with at least one type of function on the Pfeffer Functional Activities Questionnaire. Only 8% of controls had any difficulty. In both impaired groups, those who had the most difficulty functioning also tended to score worse on cognition tests, have smaller hippocampal volumes, and carry the APOe4 gene.
Two of the ten items in the questionnaire were specific in differentiating the control group from the impaired groups. Those items concerned "remembering appointments, family occasions, holidays, and medications” and "assembling tax records, business affairs, or other papers." Only 34% of those with aMCI and 3.6% of those with AD had no difficulty with these items.
The findings suggest that even mild disruptions in daily functioning may be an important clinical indicator of disease.
Early-onset Alzheimer’s poorly diagnosed when initial symptoms aren’t memory related
Post-mortem analysis of 40 people diagnosed with early-onset Alzheimer’s has revealed that about 38% experienced initial symptoms other than memory problems, such as behavior, vision or language problems and a decline in executive function, or the ability to carry out tasks. Of these, 53% were incorrectly diagnosed when first seen by a doctor, compared to 4% of those who had memory problems. Of those with unusual initial symptoms, 47% were still incorrectly diagnosed at the time of their death.
The mean age at onset was 54.5 years (range 46-60). The average duration of the disease was 11 years, with an average diagnostic delay of 3 years.
GPs misidentify and fail to identify early dementia and MCI
A review of 30 studies involving 15,277 people seen in primary care for cognitive disorders, has found that while GPs managed to identify eight out of ten people with moderate to severe dementia, they only identified 45% of those with early dementia and mild cognitive impairment. Moreover, they were very poor at recording such diagnoses. Thus, though they recognized 45% of the MCI cases, they only recorded 11% of these cases in their medical notes. Although they identified 73% of people with dementia, they made correct annotations in medical records in only 38% of cases.
But the problem is not simply one of failing to diagnose — they were even more likely to misidentify dementia, and this was particularly true for those with depression or hearing problems.
The findings point to the need for more widespread use of simple cognitive screening tests.
Prevalence of dementia & MCI in 'oldest old' women
Data from 1,299 women enrolled in the Women Cognitive Impairment Study of Exceptional Aging suggests that the incidence of dementia almost doubles with every 5 years of age and prevalence rises from approximately 2-3% in those 65 to 75 years to 35% in those 85+.
Among those with mild cognitive impairment, amnestic multiple domain was most common (34%), followed by non-amnestic single domain (29%). Amnestic single domain (affecting only one type of cognitive function, including memory difficulty) affected 22%.
Alzheimer's disease and mixed dementia accounted for nearly 80% of dementia cases, and vascular dementia for 12.1%.
Those with dementia tended to be older, less likely to have completed high school, more likely to have reported depression, a history of stroke, and to have the APOEe4 gene.
The women in the study had an average age of 88.2 years and 27% were older than 90. 41% had clinical cognitive impairment (17.8% with dementia and 23.2% with mild cognitive impairment).
The high prevalence of cognitive impairment in this age group points to the importance of screening for cognitive disorders, particularly among high-risk groups.
Alzheimer's diagnostic guidelines updated
For the first time in 27 years, clinical diagnostic criteria for Alzheimer's disease dementia have been revised, and research guidelines updated. They mark a major change in how experts think about and study Alzheimer's disease.
The updated guidelines now cover three distinct stages of Alzheimer's disease:
- Preclinical – is currently relevant only for research. It describes the use of biomarkers that may precede the development of Alzheimer’s.
- Mild Cognitive Impairment– Current biomarkers include elevated levels of tau or decreased levels of beta-amyloid in the cerebrospinal fluid, reduced glucose uptake in the brain, and atrophy of certain brain regions. Primarily for researchers, these may be used in specialized clinical settings.
- Alzheimer's Dementia – Criteria outline ways clinicians should approach evaluating causes and progression of cognitive decline, and expand the concept of Alzheimer's dementia beyond memory loss to other aspects of cognition, such as word-finding, vision/spatial issues, and impaired reasoning or judgment.
The criteria are available at http://www.alzheimersanddementia.org/content/ncg
New test to diagnose early stage Alzheimer's disease
A new test has been developed that measures amyloid-beta oligomers in the cerebrospinal fluid, promising a reliable means of early diagnosis. In a comparison of patients with Alzheimer’s, patients with MCI that later developed into Alzheimer’s, and controls, levels of these protein fragments directly correlated with Alzheimer’s, and was more accurate than levels of the more usual amyloid plaques.
Review confirms early diagnosis tool
A survey of more than 100 studies involving PIB-PET, a diagnostic tool that involves injecting a radiotracer called Pittsburgh compound B into the brain via the bloodstream, and imaging the brain with positron emission tomography (PET), has confirmed its sensitivity in detecting amyloid-beta protein plaques. The tool is not yet commercially available. The study also provides strong evidence supporting the theory that accumulation of amyloid-beta protein plaques in the brain is central to the development of Alzheimer’s. The findings, that amyloid deposits appear to reach a plateau early in the disease course, may explain why Alzheimer's patients have not responded to promising experimental drugs that target amyloid. It may be that they are being administered too late.
Default mode network changes predict Alzheimer’s
Data from 848 adults of all ages has found that brain volume in the default mode network declined in both healthy and pathological aging, but the greatest decline occurred in Alzheimer’s patients and in those who progressed from mild cognitive impairment to Alzheimer’s disease. Reduced brain volumes in these regions were associated with declines in cognitive ability, the presence of Alzheimer’s biomarkers in the cerebrospinal fluid, and with carrying the “Alzheimer’s gene”, the APOE4 allele.
The findings support the idea that neurodegeneration spreads through networks of connected brain regions, in a disease specific manner.
http://www.futurity.org/faster-brain-shrinkage-flag-alzheimers/
Blood test predicts Alzheimer’s risk early
A five-year study involving 525 older adults (70+) found 46 had Alzheimer’s or aMCI and a further 28 went on to develop the conditions. The blood levels of 10 specific lipids predicted with more than 90% accuracy whether an individual would go on to develop either Alzheimer’s or aMCI within 2-3 years. The researchers speculate that the lower lipid levels could be an early indication that brain cells are beginning to lose their integrity and break down.
The continual failures in human clinical trials of promising therapies has led to a growing belief that once the cognitive symptoms of the Alzheimer’s have emerged, it may be too late to slow or reverse the neurological damage. However, treatments begun early enough may be more effective. This is why early diagnosis of Alzheimer’s risk is so critical.
http://www.futurity.org/blood-test-predicts-alzheimers-risk/
http://www.theguardian.com/science/2014/mar/09/blood-test-could-detect-early-signs-dementia
http://www.eurekalert.org/pub_releases/2014-03/gumc-bti030314.php
Loss of smell early sign of Alzheimer’s
A pilot study involving 94 older adults, of whom 18 had Alzheimer’s, 24 had MCI, 26 other dementias, and 26 were healthy controls, has found those with Alzheimer’s were significantly less able to detect the smell of peanut butter. Peanut butter was chosen because of its purity and accessibility (not because there's something special about its smell!).
The test was undertaken by the patient closing eyes and mouth and blocking one nostril, while the clinician held a ruler next to the open nostril and moved 14g of peanut butter in an open jar up the ruler one centimeter at a time, as the patient breathed out. Those in the early stages of Alzheimer’s disease showed a dramatic difference in detecting odor between the left and right nostril. The average distance at which the peanut butter was detected was 5.1 cm for the left nostril, compared to 17.4 cm for the right. The difference between these (12.4 cm) compares to an average 4.8 cm for other dementias, 1.9 for MCI, and 0 for healthy controls.
Of the 24 patients with MCI, only 10 patients showed a left nostril impairment, suggesting that this may be an indication of who will go on to develop Alzheimer’s.
http://www.futurity.org/can-peanut-butter-smell-test-confirm-alzheimers/
New biomarkers for early Alzheimer's diagnosis
Analysis of 40 spinal marrow samples, 20 of which belonged to Alzheimer’s patients, has identified six proteins in spinal fluid that can be used as markers for Alzheimer's. The analysis focused on 35 proteins that are associated with the lysosomal network — involved in cleaning and recycling beta amyloid. None of the six proteins had previously been linked to Alzheimer’s.
http://www.eurekalert.org/pub_releases/2013-10/lu-ast102313.php
Predicting if MCI will progress to Alzheimer's
A French study has predicted with 90% accuracy which patients with mild cognitive impairment would receive a clinical diagnosis of Alzheimer's disease within the following two years. The best neurological predictors were cortical thickness in two brain regions (the right anterior cingulate and middle frontal gyri), and the best cognitive predictors were deficits in both free recall and recognition episodic memory. Combining these measures achieved the highest accuracy.
http://www.eurekalert.org/pub_releases/2013-12/uom-amt120213.php
Peters, F., Villeneuve, S. & Belleville, S. 2014. Predicting Progression to Dementia in Elderly Subjects with Mild Cognitive Impairment Using Both Cognitive and Neuroimaging Predictors. Journal of Alzheimer's Disease, 38 (2) 307-318.
Diagnosing MCI at home
Following on from a previous study showing that such a virtual supermarket game administered by a trained professional can detect MCI, a small study used a modified Virtual SuperMarket Remote Assessment Routine (VSM-RAR) that was self-administered by the patient at home on their own, for a period of one month.
Using the average score over 20 assessments, the game correctly diagnosed MCI 91.8% of the time, a level of diagnostic accuracy similar to the most accurate standardized neuropsychological tests.
The study involved six patients with MCI and six healthy older adults.The level of diagnostic accuracy was better using the average score than in the previous study in which only a single score was used.
A tablet PC was provided to the participants, on which to play the game.
https://www.eurekalert.org/pub_releases/2017-02/ip-mci022317.php
Brainwaves indicate the presence and severity of Alzheimer's
Comparison of the EEGs of 27 healthy older adults, 27 individuals with mild Alzheimer's and 22 individuals with moderate cases of Alzheimer’s, has found statistically significant differences across the three groups, using an algorithm that dissects brain waves of varying frequencies.
In particular, delta modulation of the beta frequency band reliably discriminated between healthy controls and mild Alzheimer’s, and disappeared with an increase in disease severity (from mild to moderate). Increase in disease severity was also marked by the appearance of delta modulation of the theta band.
It’s hoped that the algorithm can be used not only to help detect Alzheimer’s disease early, but also to monitor its progression. The algorithm has been shared on the NeuroAccelerator.org online data analysis portal, to enable it to be used by researchers around the world.
http://www.eurekalert.org/pub_releases/2013-08/i-tae082913.php
‘Lopsided’ test scores may predict Alzheimer’s sooner
Cognitive testing for dementia has a problem in that low scores on some tests may simply reflect a person's weakness in some cognitive areas, or the presence of a relatively benign form of mild cognitive impairment (one that is not going to progress to dementia). A 2008 study found that one of every six healthy adults scored poorly on two or more of 10 tests in a brief cognitive battery. Following this up, the same researchers now show that a more holistic view might separate those who are on the path to dementia from those who are not.
Data from 395 clinical patients (aged 60+) and 135 healthy older adults has revealed that, while the cognitively normal produce a pattern of scores on 13 cognitive tests that fits a bell-shaped curve, those experiencing some level of dementia produce a more skewed pattern. Increasingly lower scores and degree of positive skew was also associated with worsening dementia.
http://www.futurity.org/lopsided-cognition-may-predict-early-alzheimers/
http://www.eurekalert.org/pub_releases/2013-11/jhm-jhr111113.php
Smell tests provide early evidence of dementia
In the past few months, several studies have come out showing the value of three different tests of people's sense of smell for improving the accuracy of MCI and Alzheimer's diagnosis, or pointing to increased risk. The studies also add to growing evidence that a decline in sense of smell is an early marker for mild cognitive impairment and Alzheimer’s. Indeed, it appears that this sensory loss is a very early symptom, preceding even the shrinking of the entorhinal cortex (the first brain region to show signs of atrophy).
Smell test improves accuracy of MCI & Alzheimer's diagnosis
A simple, commercially available test known as the Sniffin' Sticks Odor Identification Test, in which subjects must try to identify 16 different odors, was given to 728 older adults, as well as a standard cognitive test (the Montreal Cognitive Assessment).
The participants had already been evaluated by doctors and classified as being healthy (292 subjects), having MCI (174: 150 aMCI, 24 naMCI), or having Alzheimer's (262).
It was found that, while the cognitive test alone correctly classified 75% of people with MCI, the number rose to 87% when the sniff test results were added. Diagnosis of Alzheimer's, and of subtypes within MCI, was also improved.
The smell test normally takes 5 to 8 minutes to administer; the researchers are trying to get it down to 3 minutes, to encourage greater use.
A new smell test
Another recent study validates a new smell test which is rather more complicated. The test was developed because the standard University of Pennsylvania Smell Identification Test doesn’t take into account the great variation in olfactory ability among healthy individuals. The ability of normal individuals to recognize and discriminate between odors can vary by as much as 40 times!
The new test is actually four tests:
- In the OPID (Odor Percept IDentification)-10 test, participants are presented with 10 odors (menthol, clove, leather, strawberry, lilac, pineapple, smoke, soap, grape, lemon) for two seconds each. They are then asked whether the scent is familiar and given a choice of four of the 10 words from which are asked to pick the best one that describes the odor.
- The Odor Awareness Scale (OAS) assesses their overall attention to environmental odors and how they are affected emotionally and behaviorally by scents.
- The OPID-20 test includes an additional 10 odors (banana, garlic, cherry, baby powder, grass, fruit punch, peach, chocolate, dirt, orange). Participants are first asked whether a presented odor was included in the OPID-10 test and then asked which word best describes the odor. Their ability to remember odors from the first test determines their POEM (Percepts of Odor Episodic Memory) score.
- In the Odor Discrimination (OD) test, participants are presented with two consecutive odors and asked whether they were different or the same, a process that is repeated 12 times with different paired scents.
The study involved 183 older adults, of whom 70 were cognitively normal, 74 tested normal but were concerned about their cognitive abilities, 29 had MCI and 10 had been diagnosed with possible or probable Alzheimer's disease.
Results of the OPID-20 test significantly differentiated among the four groups of participants, and those results correlated with the thinning of the hippocampus and the entorhinal cortex. Participants' ability to remember a previously presented aroma, as reflected in the POEM score, was also significant, with participants with Alzheimer's disease performing at no better than chance.
POEM scores of the two cognitively normal groups were compared with what would have been predicted based on their ability to identify and differentiate between odors, as reflected in the OAS and OD tests. Poor POEM performers were more likely to have the ‘Alzheimer's gene’ (APOEe4), showed thinning of the entorhinal cortex, and poorer cognitive performance over time.
Validation of UPSIT
However, two 2016 studies support the use of the University of Pennsylvania Smell Identification Test (UPSIT), and suggest it may offer a practical, low-cost alternative to other tests.
In one study, UPSIT was administered to 397 older adults (average age 80) without dementia, who were also given an MRI scan to measure the thickness of the entorhinal cortex (the first brain region to be affected by Alzheimer's disease). After four years, 50 participants (12.6%) had developed dementia, and nearly 20% had signs of cognitive decline.
Low UPSIT scores, but not entorhinal cortical thickness, were significantly associated with dementia and Alzheimer's disease, and with cognitive impairment. Entorhinal cortical thickness was significantly associated with UPSIT score in those who transitioned from MCI to dementia.
In other words, it looks like impairment in odor identification precedes thinning in the entorhinal cortex.
In another study, UPSIT was administered to 84 older adults, of whom 58 had MCI, as well as either beta amyloid PET scanning or analysis of cerebrospinal fluid. After six months, 67% had signs of memory decline, and this was predicted by amyloid-beta levels (assessed by either method), but not UPSIT score. However, participants with a score of less than 35 were more than three times as likely to have memory decline as those with higher UPSIT scores.
The researchers suggest the association wasn’t as strong in this study because of the younger age of participants (median age 71), their higher education, and the short follow-up.
https://www.eurekalert.org/pub_releases/2016-12/uops-psc122016.php
https://www.eurekalert.org/pub_releases/2016-11/mgh-atr111416.php
http://www.eurekalert.org/pub_releases/2016-07/cumc-stm072516.php
New biomarker shows Alzheimer's disease long before symptoms
Analysis of mitochondrial DNA (mtDNA) in the cerebrospinal fluid has found that both symptomatic Alzheimer’s patients and asymptomatic patients at risk of Alzheimer’s showed a significant decrease in levels of circulating cell-free mtDNA in the CSF. Patients with frontotemporal dementia did not display this.
Moreover, this potential biomarker occurred at least a decade before signs of dementia manifested, preceding the appearance of amyloid-beta and tau — suggesting not simply that it might be used as a very early sign of developing Alzheimer’s, but that the pathological process of Alzheimer's disease starts earlier than previously thought.
http://www.eurekalert.org/pub_releases/2013-08/cg-nbc081213.php
Tau-amyloid ratio predicts MCI
Initial findings from an analysis of cerebrospinal fluid taken between 1995 and 2005 from 265 middle-aged healthy volunteers, of whom 75% had a close family member with Alzheimer’s disease, has found that the ratios of phosphorylated tau and amyloid-beta could predict mild cognitive impairment more than five years before symptom onset — the more tau and less amyloid-beta, the more likely MCI will develop. The rate of change in the ratio over time was also predictive — the more rapidly the ratio of tau to amyloid-beta went up, the more likely the eventual development of MCI.
The drop in amyloid-beta is thought to be because it is getting trapped in the plaques characteristic of Alzheimer’s.
http://www.futurity.org/spinal-fluid-test-may-predict-alzheimers/
Down Syndrome risk of Alzheimer’s connected to white matter integrity
Brain scans of 10 persons with Down syndrome but no dementia, 10 persons with Down syndrome and dementia, and 10 healthy controls, have revealed a linear correlation between cognitive ability and compromised white matter connections in the frontal lobes among those with Down syndrome. Those with higher cognitive ability and motor skill coordination had healthier white matter integrity, and those with additional dementia showed the most deterioration.
Adults with Down Syndrome are known to be at high risk of developing Alzheimer’s after age 40.
http://www.eurekalert.org/pub_releases/2014-04/uok-nrs040714.php
Brain changes linked with Alzheimer's years before symptoms appear
A very long-running study involving 290 people at risk of Alzheimer's has found that, in those 81 people who developed MCI or dementia, subtle changes in cognitive test scores were evident 11 to 15 years before the onset of clear cognitive impairment. They also showed increases in the rate of change of tau protein in cerebrospinal fluid an average of 34.4 years (for t-tau, or total Tau) and 13 years (for a modified version called p-tau) before the beginning of cognitive impairment.
https://www.eurekalert.org/pub_releases/2019-05/jhm-bcl051419.php
Memory complaints linked to higher risk of MCI & dementia
Data from 6257 older adults (aged 55-90) evaluated from 2005-2012 has revealed that concerns about memory should be taken seriously, with subjective complaints associated with a doubled risk of developing mild cognitive impairment or dementia, and subjective complaints supported by a loved one being associated with a fourfold risk. Complaints by a loved one alone were also associated with a doubled risk. Among those with MCI, subjective complaints supported by a loved one were associated with a threefold risk of converting to dementia.
Of the 4414 initially cognitively normal, 14% developed MCI or dementia over the course of the study (around 5 years); of the 1843 with MCI, 41% progressed to dementia.
http://www.futurity.org/worry-about-memory-predicts-alzheimer%E2%80%99s-risk/
Tracking preclinical Alzheimer's progression
New research supports the classification system for preclinical Alzheimer’s proposed two years ago. The classification system divides preclinical Alzheimer's into three stages:
Stage 1: Levels of amyloid beta begin to decrease in the spinal fluid. This indicates that the substance is beginning to form plaques in the brain.
Stage 2: Levels of tau protein start to increase in the spinal fluid, indicating that brain cells are beginning to die. Amyloid beta levels are still abnormal and may continue to fall.
Stage 3: In the presence of abnormal amyloid and tau biomarker levels, subtle cognitive changes can be detected by neuropsychological testing.
Long-term evaluation of 311 cognitively healthy older adults (65+) found 31% with preclinical Alzheimer’s, of whom 15% were at stage 1, 12% at stage 2, and 4% at stage 3. This is consistent with autopsy studies, which have shown that around 30% of cognitively normal older adults die with some preclinical Alzheimer's pathology in their brain. Additionally, 23% were diagnosed with suspected non-Alzheimer pathophysiology (SNAP), 41% as cognitively normal, and 5% as unclassified.
Five years later, 2% of the cognitively normal, 5% of those with SNAP, 11% of the stage 1 group, 26% of the stage 2 group, and 56% of the stage 3 group had been diagnosed with symptomatic Alzheimer's.
http://www.eurekalert.org/pub_releases/2013-09/wuso-apt092313.php
Atypical form of Alzheimer's disease more common than thought
Analysis of 1,821 Alzheimer’s brains has found that 11% of them actually suffered from a variant called hippocampal sparing Alzheimer’s. This subtype has been neither well recognized nor treated appropriately, but is now revealed to be relatively common.
The variant often produces symptoms that are substantially different from the most commonly known form of Alzheimer’s (e.g., frequent and sometimes profane angry outbursts, feelings that their limbs do not belong to them and are controlled by an "alien" unidentifiable force, or visual disturbances in the absence of eye problems), and because their memory is often little affected, they’re often misdiagnosed — often with frontotemporal dementia, or corticobasal syndrome. The problem mostly affects males, and at a much younger age than normal for Alzheimer’s. Correct diagnosis is particularly important because there is evidence that some Alzheimer’s drugs may work better with this variant than they do with the normal form.
The study was presented at the annual meeting of the American Academy of Neurology in Philadelphia, May 2014.
http://www.eurekalert.org/pub_releases/2014-05/mc-afo050114.php
New retinal test for early Alzheimer's disease
A study has shown new technology can quickly and non-invasively detect reduced blood capillaries in the back of the eye that are an early indication of Alzheimer's. It also shows that these signs can help distinguish between Alzheimer's and MCI.
The study compared the retinas of 39 Alzheimer's patients, 37 people with MCI, and 133 cognitively healthy people. The Alzheimer's group had loss of small retinal blood vessels at the back of the eye and a specific layer of the retina was thinner when compared to people with MCI and healthy people. The differences in density were statistically significant after researchers controlled for factors including age and sex.
It's been known that patients with Alzheimer's had decreased retinal blood flow and vessel density but it had not been known if these changes were also present in individuals with early Alzheimer's or aMCI.
Larger datasets are required to validate the marker.
https://www.eurekalert.org/pub_releases/2019-04/nu-ere040519.php
https://www.eurekalert.org/pub_releases/2019-03/aaoo-nss030719.php
Early detection and treatment of Alzheimer's makes a difference
A Finnish project (ALSOVA) has been following 240 patient-caregiver pairs, where the patient had very mild or mild Alzheimer's disease at the beginning of the study and had a family caregiver. A three-year follow-up of 115 patients has found that those diagnosed and treated very early were able to manage their everyday activities longer and suffered from less psychological and behavioral symptoms, compared to those diagnosed later.
http://www.eurekalert.org/pub_releases/2013-07/uoef-eda071813.php
Older news items (pre-2010) brought over from the old website
Diagnosis & assessment
Dementia often undiagnosed
A study involving 553 patients of 34 primary care physicians affiliated with three Portland-area managed health care plans has confirmed previous research finding that many older patients showing signs of dementia are not being diagnosed. The study found that only 18% of mildly impaired patients and 34.8% of moderately-to-severely impaired patients were clinically evaluated for dementia, and that none of the mildly impaired patients and just 4.3% of the more severely impaired patients were offered dementia medication.
Boise, L., Neal, M. B., & Kaye, J. (2004). Dementia Assessment in Primary Care: Results From a Study in Three Managed Care Systems. The Journals of Gerontology Series A: Biological Sciences and Medical Sciences, 59(6), M621–M626. doi:10.1093/gerona/59.6.M621
http://www.eurekalert.org/pub_releases/2004-07/ohs-sdo071504.php
Life expectancy following diagnosis of Alzheimer’s depends on age at diagnosis
A new study reveals that the life span of people with Alzheimer's disease depends greatly on the age of the person when Alzheimer's disease is diagnosed. The study indicates that the median survival of patients with Alzheimer's disease could range from 8.3 years for those diagnosed at age 65 to 3.4 years for those diagnosed at age 90. There were no significant differences between men and women. The average length of time between the onset of symptoms and the diagnosis of Alzheimer's was 2.8 years.
Brookmeyer, R., Corrada, M.M., Curriero, F.C. & Kawas, C. 2002. Survival Following Diagnosis of Alzheimer Disease, Archives of Neurology, 59, 1764-1767.
http://www.eurekalert.org/pub_releases/2002-11/jhub-lef111502.php
New tests
Biomarker signatures predict conversion from MCI to Alzheimer's
Cerebrospinal fluid samples from 410 volunteers (100 with mild Alzheimer’s; 196 with MCI; 114 cognitively normal older adults) has revealed that concentrations of amyloid beta-42 peptide and tau protein successfully assessed brain status and predicted development. The test diagnosed Alzheimer’s with 96% accuracy; ruled out Alzheimer’s with 95% accuracy; and predicted the conversion from MCI to Alzheimer’s with 82% accuracy.
Shaw, L.M. et al. 2009. Cerebrospinal fluid biomarker signature in Alzheimer's disease neuroimaging initiative subjects. Annals of Neurology, Published Online March 18 2009.
http://www.eurekalert.org/pub_releases/2009-03/uops-pmp031609.php
Computers better at diagnosing Alzheimer's
A new method has been developed that allows a standard computer to spot the differences between brain scans from patients with proven Alzheimer’s disease and people with no signs of the disease at all. The accuracy is better than the 86% correct diagnostic rate of best clinical practice. The method was also better at distinguishing Alzheimer’s from fronto-temporal dementia. The findings may help ensure that patients are diagnosed earlier, increasing treatment options.
Klöppel, S. et al 2008. Automatic classification of MR scans in Alzheimer's disease. Brain, 131, 681-689.
http://www.eurekalert.org/pub_releases/2008-02/wt-ccb022108.php
Portable device quickly detects early Alzheimer's
A new device may allow patients to take a brief, inexpensive test that could be administered as part of a routine yearly checkup at a doctor’s office to detect mild cognitive impairment (MCI) — often the earliest stage of Alzheimer’s. The device, called DETECT, takes about ten minutes to run through a battery of visual and auditory stimuli such as pictures and words that assess cognitive abilities relative to age, gauging reaction time and memory capabilities. Its software can track cognitive capabilities year to year during annual appointments. Moreover, because the device blocks outside sound and light from the patient’s environment, it can be administered in virtually any setting, providing more consistent results. Preliminary analysis gives the test similar accuracy to the 90-minute “Gold Standard” pen and paper test. The device is expected to be commercialized later this year.
http://www.eurekalert.org/pub_releases/2008-01/giot-pdq011608.php
New diagnostic criteria for Alzheimer's disease
An international group of Alzheimer’s disease (AD) experts have proposed new diagnostic criteria for Alzheimer’s. The existing criteria were published in 1984. To meet the new criteria for probable AD, patients must show progressive memory loss over more than six months, plus at least one or more of the supportive biomarker criteria. These include: atrophy in a particular part of the brain shown by MRI, abnormal biomarker proteins in the cerebrospinal fluid, a specific pattern on PET of the brain, and a genetic mutation for AD within the immediate family.
Dubois, B. et al. 2007. Research criteria for the diagnosis of Alzheimer's disease: revising the NINCDS–ADRDA criteria. Lancet Neurology, 6, 734-746.
http://www.eurekalert.org/pub_releases/2007-07/l-ndc070607.php
Protein 'fingerprint' in spinal fluid could spot Alzheimer's disease early
In a pilot study, a panel of 23 protein biomarkers in cerebrospinal fluid has been found to be over 90% sensitive in identifying people with Alzheimer's disease.
Finehout, E.J. et al. 2006. Cerebrospinal fluid proteomic biomarkers for Alzheimer's disease (pNA). Annals of Neurology, published online ahead of print December 13
http://www.eurekalert.org/pub_releases/2006-12/cuns-pi120706.php
New reliable test for Alzheimer's
A new test for Alzheimer’s promises a reliable means of diagnosing Alzheimer’s in a living patient. Combined with clinical assessment, testing blood flow in a specific region of the brain may boost the degree of diagnostic certainty in difficult cases from 90% to almost 100%. The test involves use of single-photon emission computed tomography (SPECT) — a radioisotope test that produces a three-dimensional picture of the amount of blood flowing in certain regions of the brain — to identify a characteristic sign of Alzheimer's disease (reduced blood flow in the posterior cingulate cortex) and distinguish it from a group of illnesses known as frontotemporal diseases, which comprise the second-leading cause of dementia in the elderly. The test did fail to identify Alzheimer’s patients with an atypical form of Alzheimer’s known as tangle-predominant AD. This form of Alzheimer’s also appears to be resistant to drugs currently used to help treat Alzheimer’s. Evidence of shrinkage in brain structures such as the hippocampus and parietal cortex is also central to diagnosing Alzheimer's. This atrophy can be seen on a standard MRI.
Bonte, F.J., Harris, T.S., Roney, C.A. & Hynan, L.S. 2004. Differential Diagnosis Between Alzheimer's and Frontotemporal Disease by the Posterior Cingulate Sign. Journal of Nuclear Medicine, 45 (5), 771-4.
http://www.eurekalert.org/pub_releases/2004-05/uots-rin050404.php
http://www.eurekalert.org/pub_releases/2004-05/sonm-sis050504.php
New diagnostic marker for Alzheimer's disease
A mouse study has unexpectedly revealed that a protein that senses changes in calcium levels can be used to estimate the extent of cognitive deficits caused by toxic amyloid peptides found in Alzheimer brains. The discovery came about when researchers found that those mice with learning and memory deficits had not only the expected high level of amyloid peptides in their brains, but also had very low levels of a protein called calbindin that binds calcium and regulates functions in granule cells, located in the dentate gyrus (a region that plays an important role in memory formation). Examination of autopsy brain tissue from Alzheimer sufferers has confirmed this finding. It is hoped that this will prove a valuable diagnostic marker.
Palop, J.J. et al. 2003. Neuronal depletion of calcium-dependent proteins in the dentate gyrus is tightly linked to Alzheimer's disease-related cognitive deficits. PNAS, 100, 9572-9577.
http://www.eurekalert.org/pub_releases/2003-07/uoc--bcs071003.php
A new portable device might be able to screen for Alzheimer's
NeuroGraph™, a portable device that provides an almost instantaneous reading of brain activity and can swiftly detect differences from the norm, offers enormous commercial potential as a screening device for Alzheimer’s disease. It might also be useful in pharmaceutical trials, to test the efficacy of new drugs on brain activity against drugs already on the market.
http://www.eurekalert.org/pub_releases/2001-09/oonr-da091901.php
New home-safety assessment scale for people with dementia living at home
A pan-Canadian team of researchers designed, tested and validated the first "Home-safety Assessment Scale for People with Dementia Living at Home" (S.A.S.). The SAS has been tested and validated among 175 patients in English and French, in both urban and rural areas. "Thanks to the SAS, physicians, nurses, family helpers, social workers, physiotherapists and occupational therapists can now evaluate in a few minutes the risks of accidents in any particular home."
http://www.eurekalert.org/pub_releases/2001-09/mu-nha091401.php
Diagnosing Alzheimer's
It is not always easy for doctors to know whether a patient is suffering from Alzheimer's disease or some other form of dementia. A new study suggests tracking a patient's circadian rhythm (the daily cycle of body temperature change and activity) may lead not only to better diagnosis but also to better therapy for the devastating sleep disturbances that often accompany dementia. The study looked at the circadian rhythms of 38 dementia patients over six years. Some had Alzheimer's; others had what is known as fronto-temporal degeneration. Patients with Alzheimer's reached their temperature peak much later in the day than healthy people. People with fronto-temporal dementia had a normal temperature rhythm, but their activity levels peaked much earlier compared with levels of healthy people. And while people with fronto-temporal degeneration did have restful periods, these were much rarer with Alzheimer's. Their work, the researchers said, may help doctors who have tried to treat insomnia in dementia patients with melatonin and light therapy, in an effort to "reset" their biological clocks.
Harch, P. G., Kriedt, C., Van Meter, K. W., & Sutherland, R. J. (2007). Hyperbaric oxygen therapy improves spatial learning and memory in a rat model of chronic traumatic brain injury. Brain Research, 1174, 120–129. doi:10.1016/j.brainres.2007.06.105
http://www.nytimes.com/2001/04/17/health/17VITA-5.html
New guidelines for diagnosis and treatment of Alzheimer's
Experts reviewed more than a thousand studies to develop new guidelines for physicians for diagnosis and treatment of Alzheimer's. The recommendations include topics ranging from how to recognize early signs of Alzheimer's, how to diagnose, when medication is most effective and what types of support can improve the quality of life for patients and caregivers.
"It's important to remember there are choices available that can make a difference in your life or the life of your husband, grandmother, neighbor or anyone you care about who has Alzheimer's disease," said neurologist Steven DeKosky, MD, co-author of the guidelines. Early diagnosis is important because research shows current medication and care options are most effective in people with mild to moderate Alzheimer's disease. While Alzheimer's disease has no cure, medication can improve quality of life and cognitive functions–including memory, thought and reasoning– particularly among people who are mildly to moderately affected. Regular routines and activities such as mild exercise or walking can help with behavioral symptoms. In addition, education and support for caregivers can improve the well-being of both the person with Alzheimer's disease and the caregiver.
While the comprehensive guidelines were developed for physician use, a summary is available to help patients and their families better understand the options to discuss with their doctor.
Petersen, R. C., Stevens, J. C., Ganguli, M., Tangalos, E. G., Cummings, J. L., & DeKosky, S. T. (2001). Practice parameter: Early detection of dementia: Mild cognitive impairment (an evidence-based review) Report of the Quality Standards Subcommittee of the American Academy of Neurology. Neurology, 56(9), 1133–1142. doi:10.1212/WNL.56.9.1133
Knopman, D. S., DeKosky, S. T., Cummings, J. L., Chui, H., Corey–Bloom, J., Relkin, N., … Stevens, J. C. (2001). Practice parameter: Diagnosis of dementia (an evidence-based review) Report of the Quality Standards Subcommittee of the American Academy of Neurology. Neurology, 56(9), 1143–1153. doi:10.1212/WNL.56.9.1143
Doody, R. S., Stevens, J. C., Beck, C., Dubinsky, R. M., Kaye, J. A., Gwyther, L., … Cummings, J. L. (2001). Practice parameter: Management of dementia (an evidence-based review) Report of the Quality Standards Subcommittee of the American Academy of Neurology. Neurology, 56(9), 1154–1166. doi:10.1212/WNL.56.9.1154
http://www.eurekalert.org/pub_releases/2001-05/AAoN-Ngee-0605101.php
Scans
PET scans may improve accuracy of dementia diagnosis
A study involving 66 patients with mild dementia or mild cognitive impairment, who were diagnosed with either Alzheimer's disease, frontotemporal dementia or dementia with Lewy bodies, by three specialists, had these diagnoses changed more than 25% of the time after PET imaging. The findings point to the importance of using PET scans to accurately diagnose the type of dementia.
Frey, K. et al. 2009. PET neurochemical vs. clinical phenotypes in mild-early dementia. Presented at the SNM's 56th Annual Meeting, June 13-17, 2009. Scientific Paper 251.
http://www.eurekalert.org/pub_releases/2009-06/sonm-psm061409.php
Technique shows brain aging before symptoms appear
A new chemical marker called FDDNP, which binds to plaque and tangle deposits in the brain, has enabled PET scans to reveal exactly where these abnormal protein deposits are accumulating, and has found that older age correlated with higher concentrations of FDDNP in the medial and lateral temporal regions of the brain, areas involved with memory, where plaques and tangles usually collect. Of the 76 study volunteers, 34 carried the ‘Alzheimer’s gene’. This group demonstrated higher FDDNP levels in the frontal region of the brain than those without the gene variant. Thirty-six of the volunteers had mild cognitive impairment, and these had higher measures of FDDNP in the medial temporal brain regions than normal volunteers. Those who had both MCI and the APOE-4 gene also had higher concentrations of FDDNP in the medial temporal brain regions than those who had MCI but not APOE-4. The pilot study offers hope of early diagnosis of brain impairment, before symptoms show themselves.
Small, G.W. et al. 2009. Influence of Cognitive Status, Age, and APOE-4 Genetic Risk on Brain FDDNP Positron-Emission Tomography Imaging in Persons Without Dementia. Archives of General Psychiatry, 66(1), 81-87.
http://www.eurekalert.org/pub_releases/2009-01/uoc--uat010509.php
MRI brain scans accurate in early diagnosis of Alzheimer's disease
Adding to the growing body of evidence indicating MRI brain scans provide valuable diagnostic information about Alzheimer's disease, a study in which a new visual rating system for evaluating the severity of shrinkage in the medial temporal lobe was used on brain scans of 260 people has found that scores accurately distinguished those with Alzheimer’s from those with mild cognitive impairment and those without memory problems. The test also accurately predicted those who would move from one group to another within a year or two.
Duara, R. et al. 2008. Medial temporal lobe atrophy on MRI scans and the diagnosis of Alzheimer disease. Neurology, 71, 1986-1992.
http://www.eurekalert.org/pub_releases/2008-12/uosf-mbs121808.php
Study validates Pittsburgh Compound-B in identifying Alzheimer's disease toxins
Previous research demonstrating that Pittsburgh Compound-B (PiB) binds to beta-amyloid deposits has involved only the autopsied brains of patients afflicted with Alzheimer’s. A new study correlated PiB-identified beta-amyloid deposits in a living patient with post-mortem autopsy results 10 months later, confirming that PiB allows accurate assessment of the amount of beta-amyloid plaques in brains of people afflicted with Alzheimer’s. A further study of the autopsied brains of 27 other patients with confirmed Alzheimer’s confirmed that PiB binds almost exclusively to beta-amyloid.
Ikonomovic, M.D. et al. 2008. Post-mortem correlates of in vivo PiB-PET amyloid imaging in a typical case of Alzheimer's disease. Brain Advance Access, published on March 12, 2008.
Full text at http://brain.oxfordjournals.org/cgi/content/abstract/awn016v1
http://www.eurekalert.org/pub_releases/2008-03/uops-svp032608.php
Brain scans show early Alzheimer's disease in people with memory problems
PET scans performed on the brains of 13 elderly men and women with mild cognitive impairment (MCI) and 14 elderly people without memory problems found that those with MCI had as much as 39% more PIB uptake in some parts of the brain than people without MCI, and about half of the MCI patients had PIB uptake in the Alzheimer's disease range. MCI subjects with at least one APOE 4 allele tended to have higher PIB uptake than MCI subjects without APOE 4. PIB is an imaging agent that allows amyloid plaque to be seen and measured.
Kemppainen, N.M. et al. 2007. PET amyloid ligand [11C]PIB uptake is increased in mild cognitive impairment. Neurology, 68, 1603-1606.
http://www.eurekalert.org/pub_releases/2007-05/aaon-bs050107.php
Compound shows promise for early detection of Alzheimer's disease
A new molecular marker called FDDNP has been found to track the progression of Alzheimer’s in PET scans more effectively than other markers, giving hope of earlier, more accurate diagnosis of the disease.
Small, G.W. et al. 2006. PET of Brain Amyloid and Tau in Mild Cognitive Impairment. The New England Journal of Medicine, 355 (25), 2652-63.
http://www.eurekalert.org/pub_releases/2006-12/nioa-nic121906.php
http://www.eurekalert.org/pub_releases/2006-12/uoc--nit121506.php
Non-invasive MRI technique distinguishes between Alzheimer's and frontotemporal dementia
A new study has found that a non-invasive imaging technique called arterial spin labeling is just as accurate and much faster and cheaper compared to invasive scanning techniques in distinguishing Alzheimer's disease from frontotemporal dementia (FTD). Frontotemporal dementia is the second-most common dementia after Alzheimer's disease. The present study aimed simply at differentiating the two types of dementia; further research needs to be done to confirm that the technique can be used to diagnose an individual patient.
The results were presented at the first International Conference on Prevention of Dementia, held June 18-21 in Washington, D.C.
http://www.eurekalert.org/pub_releases/2005-06/uoc--nmt061605.php
New computer program may enable early prediction of Alzheimer's risk
Researchers have developed a brain scan-based computer program that quickly and accurately measures metabolic activity in the hippocampus, a key brain region that shrinks with the development of Alzheimer’s. The study followed 53 normal subjects aged 54 to 80 for at least 9 years and in some cases for as long as 24 years, and found that hippocampal glucose metabolism was significantly reduced on the first scan of those 25 individuals who would later experience cognitive decline related to either mild cognitive impairment or to Alzheimer's. The findings bring hope of being able to predict who will develop Alzheimer’s at least 9 years ahead of symptoms.
Mosconi, L., Tsui, W-H., De Santi, S., Li, J., Rusinek, H., Convit, A., Li, Y., Boppana, M. & de Leon, M.J. 2005. Reduced hippocampal metabolism in MCI and AD: Automated FDG-PET image analysis. Neurology, 64, 1860-1867.
http://www.eurekalert.org/pub_releases/2005-06/nyum-ncp061505.php
Expert system gives non-experts diagnostic accuracy of Alzheimer's disease from PET scans
A computer program has been developed that enhances the diagnostic accuracy of PET scans with Alzheimer's patients. A PET scan is a very reliable noninvasive test, but only in the hands of an experienced investigator. The new program enables even inexperienced doctors to diagnose reliably, hopefully enabling diagnosis to occur earlier.
Siessmeier, T., Oehm, S., Drzezga, A., Fellgiebel, A., Schreckenberger, M., Uthman, T. & Bartenstein, P. 2005. Use of an Expert System for the Diagnosis of Suspected Alzheimer's Disease (AD) With FDG PET. Presented at the Society of Nuclear Medicine's 52nd Annual Meeting in Toronto; Scientific Poster Abstract 155
http://www.eurekalert.org/pub_releases/2005-06/sonm-esd061605.php
Pet scans detect brain differences in people at risk for Alzheimer's
Brain imaging of 32 participants, mostly in their 60s and 70s, has found clear differences in brain function between healthy people who carry a genetic risk factor for Alzheimer's disease and those who lack the factor. More research is needed before it's known for certain if the difference is an early sign of Alzheimer's.
Scarmeas, N., Habeck, C., Anderson, K.E., Hilton, J., Devanand, D.P., Pelton, G.H., Tabert, M.H., Flynn, J., Park, A., Ciappa, A., Tycko, B. & Stern, Y. 2004. Altered PET Functional Brain Responses in Cognitively Intact Elderly Persons at Risk for Alzheimer Disease (Carriers of the {epsilon}4 Allele). American Journal of Geriatric Psychiatry, 12, 596-605.
http://www.eurekalert.org/pub_releases/2004-11/cuco-psd111904.php
Rate of brain volume loss predicts dementia
A new study has found that rates of total brain volume loss may help identify patients with mild cognitive impairment who are at high risk of developing dementia. The study followed 55 people over 14 years, and found that loss of volume in the hippocampus predicted which mildly cognitively impaired individuals would stay stable and which would decline to Alzheimer's with 70% accuracy, while the rate of total brain volume loss was 62% accurate in predicting cognitive outcome. Combining both variables produced the strongest model: 75% accuracy. The discovery could help doctors plan early treatment strategies and prevention studies.
The study was presented at the 56th annual meeting of the American Academy of Neurology in San Francisco.
http://www.eurekalert.org/pub_releases/2004-04/ohs-osr042804.php
New PET technique improves accuracy of early diagnosis of Alzheimer's
A new study identifies a new Positron Emission Tomography (PET) scanning technique that may increase the already high accuracy of PET in diagnosing Alzheimer’s at a very early stage. Altered brain connections between the entorhinal cortex and both hemispheres of the brain can be clearly identified with 18F-FDG PET. The entorhinal cortex is a critical site for learning and memory. It now appears that most of its connections to the neocortex in both hemispheres are destroyed at a very early stage of Alzheimer’s.
Mosconi, L., Pupi, A., De Cristofaro, M.T.R., Fayyaz, M. & Herholz, K. 2004. Functional Interactions of the Entorhinal Cortex: An 18F-FDG PET Study on Normal Aging and Alzheimer's Disease. Journal of Nuclear Medicine, 45 (3), 382-392.
http://www.eurekalert.org/pub_releases/2004-03/sonm-nss031104.php
New technique allows sight of amyloid plaque in living brains
The first human study has now been completed of a compound that, through PET scanning, enables researchers to see the amyloid plaque deposits in the brains of Alzheimer’s sufferers. The compound has been dubbed Pittsburgh Compound B (PIB), and should be a very useful new tool in Alzheimer’s research.
Klunk, W.E. et al. 2004. Imaging brain amyloid in Alzheimer's disease with Pittsburgh Compound-B. Annals of Neurology, 55 (3), 306-319.
http://www.eurekalert.org/pub_releases/2004-01/uopm-uop012104.php
Hippocampal damage seen in those with alcoholic memory disorder and those with Alzheimer's
A comparison between the brains of five men with alcoholic Korsakoff's syndrome and the brains of men with Alzheimer's disease as well as the brains of healthy men, found that the brains of all Korsakoff's patients and Alzheimer's patients were comparable in significant volume loss in the hippocampus. Greater hippocampal damage (for Korsakoff's patients) and smaller hippocampal size (for Alzheimer’s) was correlated with poorer memory performance. It is suggested that, although there are of course a number of differences between these disorders, the nature of the memory impairment may be the same. Awareness of the similarities may help detection of both disorders.
Sullivan, E.V. & Marsh, L. 2003. Hippocampal volume deficits in alcoholic Korsakoff’s syndrome. Neurology, 61, 1716-1719.
http://www.eurekalert.org/pub_releases/2003-12/aaon-seu121503.php
Imaging techniques help distinguish between Alzheimer's and vascular dementia
A combination of magnetic resonance imaging (MRI) and MR spectroscopy has enabled researchers to differentiate between Alzheimer’s and dementia caused by poor blood flow (vascular dementia). Comparison of the brains of those with Alzheimer’s, those who had suffered subcortical ischemic vascular dementia (SIVD), and those belonging to cognitively normal older adults, also found significant differences in the chemical signature of various brain regions, leading researchers to suggest that in patients with SIVD, there may only be neuronal dysfunction rather than neuronal loss, offering hope for recovery of neuronal function in these areas. More research is needed to confirm these results.
Schuff, N. et al. 2003. Different patterns of N-acetylaspartate loss in subcortical ischemic vascular dementia and AD. Neurology, 61, 358-364.
Activity in the mediotemporal lobe lower in elderly with poor memory
An imaging study has revealed that, although there is no difference on standard MRI scans,scans showing the amount of oxygen (and thus activity) find that elderly persons with a poor memory have less activity in the mediotemporal lobe when storing new information than elderly persons with a normally functioning memory.This more sensitive scan may help early diagnosis of Alzheimer's.
The research was done as part of a doctoral thesis by Dr Sander Daselaar.
http://www.eurekalert.org/pub_releases/2003-03/nofs-svp032103.php
PET scans can help early diagnosis of Alzheimer's
Early diagnosis of Alzheimer’s is becoming more and more important, with the arrival of drugs and therapies which can help slow the progression of the disease, if caught early. A new study reveals that PET scans may be able to identify Alzheimer’s, and distinguish it from other dementias.
Initial results were presented recently at the International Conference on Alzheimer's Disease and Related Disorders.
http://www.eurekalert.org/pub_releases/2002-11/uomh-sit110102.php
Value of PET scans in diagnosing Alzheimer’s
A new study has measured the advantage of early diagnosis of Alzheimer’s using PET scanning. The study compared the use of two strategies for diagnosing Alzheimer's: clinical evaluation using the American Academy of Neurology (AAN) 2001 recommendations, and the same with the addition of a PET scan. They concluded that, although both approaches accurately diagnosed most Alzheimer's patients, the appropriate use of PET reduced erroneous diagnoses by half. A review of the literature suggested conventional methods would falsely attribute symptoms to early Alzheimer's in 23 cases out of 100, and overlook eight cases. Analysis suggested that incorporating PET scans would have prevented 11 of the 23 false positives and five of the eight false negatives. The researchers estimated that PET could cut unnecessary drug therapy by half (48%) and reduce months in a nursing home by 62%.
Cummings, J.L. 2002. 2-Deoxy-2-[18F]Fluoro-D-Glucose Positron Emission Tomography in Alzheimer's Diagnosis: Time for Technology Transfer, Molecular Imaging and Biology, 4 (6), 385-386.
http://www.eurekalert.org/pub_releases/2002-10/uoc--uss100402.php
MRI brain scan may detect Alzheimer's disease decades before first symptoms
MRI scans of the brain may detect Alzheimer’s disease decades before the first clinical signs of dementia occur, according to a study revealing that shrinkage of the hippocampus occurs very early in the disease process.
Gosche, K.M., Mortimer, J.A., Smith, C.D., Markesbery, W.R. & Snowdon, D.A. 2002. Hippocampal volume as an index of Alzheimer neuropathology: Findings from the Nun Study. Neurology, 58, 1476-1482.
http://www.eurekalert.org/pub_releases/2002-05/uosf-mbs052302.php
Brain scans predict cognitive impairment
A three-year study of 48 healthy people from 60 to 80 years old, by New York University School of Medicine researchers, predicted which healthy elderly men and women would develop memory impairment based on scans of their brains. At the beginning of the study, everyone scored within the normal range on a battery of tests typically used to detect early loss of memory and other mental skills. However, PET scans revealed a reduction in glucose metabolism in an area of the brain called the entorhinal cortex among 12 people. Three years later, 11 of these people had experienced mild cognitive impairment and one had developed Alzheimer's disease. "Our work extends the use of PET scanning to identifying in normal aging subjects the earliest metabolic abnormalities that may lead to the memory losses referred to as mild cognitive impairment (MCI). The diagnosis of MCI carries a high risk for future Alzheimer's disease."
Leon, M. J. de, Convit, A., Wolf, O. T., Tarshish, C. Y., DeSanti, S., Rusinek, H., … Fowler, J. (2001). Prediction of cognitive decline in normal elderly subjects with 2-[18F]fluoro-2-deoxy-d-glucose/positron-emission tomography (FDG/PET). Proceedings of the National Academy of Sciences, 98(19), 10966–10971. doi:10.1073/pnas.191044198
http://www.eurekalert.org/pub_releases/2001-09/nyum-bps090701.php