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They also show some differences in neuropathology to typical patients with Alzheimer’s disease, raising hopes of discovering novel mechanisms that might protect against memory loss in typical forms of the disease.
“We are discovering that Alzheimer’s disease has more than one form. While the typical patient with Alzheimer’s disease will have impaired memory, patients with primary progressive aphasia linked to Alzheimer’s disease are quite different. They have problems with language – they know what they want to say but can’t find the words – but their memory is intact,” said lead author Marsel Mesulam, MD.
“We have found that these patients still show the same levels of neurofibrillary tangles which destroy neurons in the memory part of the brain as typical patients with Alzheimer’s disease, but in patients with primary progressive aphasia Alzheimer’s the nondominant side of this part of the brain showed less atrophy,” added Dr. Mesulam, who is director of the Mesulam Center for Cognitive Neurology and Alzheimer’s Disease at Northwestern University, Chicago. “It appears that these patients are more resilient to the effects of the neurofibrillary tangles.”
The researchers also found that two biomarkers that are established risk factors in typical Alzheimer’s disease do not appear to be risk factors for the primary progressive aphasia (PPA) form of the condition.
“These observations suggest that there are mechanisms that may protect the brain from Alzheimer’s-type damage. Studying these patients with this primary progressive aphasia form of Alzheimer’s disease may give us clues as to where to look for these mechanisms that may lead to new treatments for the memory loss associated with typical Alzheimer’s disease,” Dr. Mesulam commented.
The study was published online in the Jan. 13 issue of Neurology.
PPA is diagnosed when language impairment emerges on a background of preserved memory and behavior, with about 40% of cases representing atypical manifestations of Alzheimer’s disease, the researchers explained.
“While we knew that the memories of people with primary progressive aphasia were not affected at first, we did not know if they maintained their memory functioning over years,” Dr. Mesulam noted.
The current study aimed to investigate whether the memory preservation in PPA linked to Alzheimer’s disease is a consistent core feature or a transient finding confined to initial presentation, and to explore the underlying pathology of the condition.
The researchers searched their database to identify patients with PPA with autopsy or biomarker evidence of Alzheimer’s disease, who also had at least two consecutive visits during which language and memory assessment had been obtained with the same tests. The study included 17 patients with the PPA-type Alzheimer’s disease who compared with 14 patients who had typical Alzheimer’s disease with memory loss.
The authors pointed out that characterization of memory in patients with PPA is challenging because most tests use word lists, and thus patients may fail the test because of their language impairments. To address this issue, they included patients with PPA who had undergone memory tests involving recalling pictures of common objects.
Patients with typical Alzheimer’s disease underwent similar tests but used a list of common words.
A second round of tests was conducted in the primary progressive aphasia group an average of 2.4 years later and in the typical Alzheimer’s disease group an average of 1.7 years later.
Brain scans were also available for the patients with PPA, as well as postmortem evaluations for eight of the PPA cases and all the typical Alzheimer’s disease cases.
Results showed that patients with PPA had no decline in their memory skills when they took the tests a second time. At that point, they had been showing symptoms of the disorder for an average of 6 years. In contrast, their language skills declined significantly during the same period. For typical patients with Alzheimer’s disease, verbal memory and language skills declined with equal severity during the study.
Postmortem results showed that the two groups had comparable degrees of Alzheimer’s disease pathology in the medial temporal lobe – the main area of the brain affected in dementia.
However, MRI scans showed that patients with PPA had an asymmetrical atrophy of the dominant (left) hemisphere with sparing of the right sided medial temporal lobe, indicating a lack of neurodegeneration in the nondominant hemisphere, despite the presence of Alzheimer’s disease pathology.
It was also found that the patients with PPA had significantly lower prevalence of two factors strongly linked to Alzheimer’s disease – TDP-43 pathology and APOE ε4 positivity – than the typical patients with Alzheimer’s disease.
The authors concluded that “primary progressive aphasia Alzheimer’s syndrome offers unique opportunities for exploring the biological foundations of these phenomena that interactively modulate the impact of Alzheimer’s disease neuropathology on cognitive function.”
‘Preservation of cognition is the holy grail’
In an accompanying editorial, Seyed Ahmad Sajjadi, MD, University of California, Irvine; Sharon Ash, PhD, University of Pennsylvania, Philadelphia; and Stefano Cappa, MD, University School for Advanced Studies, Pavia, Italy, said these findings have important implications, “as ultimately, preservation of cognition is the holy grail of research in this area.”
They pointed out that the current observations imply “an uncoupling of neurodegeneration and pathology” in patients with PPA-type Alzheimer’s disease, adding that “it seems reasonable to conclude that neurodegeneration, and not mere presence of pathology, is what correlates with clinical presentation in these patients.”
The editorialists noted that the study has some limitations: the sample size is relatively small, not all patients with PPA-type Alzheimer’s disease underwent autopsy, MRI was only available for the aphasia group, and the two groups had different memory tests for comparison of their recognition memory.
But they concluded that this study “provides important insights about the potential reasons for differential vulnerability of the neural substrate of memory in those with different clinical presentations of Alzheimer’s disease pathology.”
The study was supported by the National Institute on Deafness and Communication Disorders, the National Institute of Neurological Disorders and Stroke, the National Institute on Aging, the Davee Foundation, and the Jeanine Jones Fund.
A version of this article first appeared on Medscape.com.
They also show some differences in neuropathology to typical patients with Alzheimer’s disease, raising hopes of discovering novel mechanisms that might protect against memory loss in typical forms of the disease.
“We are discovering that Alzheimer’s disease has more than one form. While the typical patient with Alzheimer’s disease will have impaired memory, patients with primary progressive aphasia linked to Alzheimer’s disease are quite different. They have problems with language – they know what they want to say but can’t find the words – but their memory is intact,” said lead author Marsel Mesulam, MD.
“We have found that these patients still show the same levels of neurofibrillary tangles which destroy neurons in the memory part of the brain as typical patients with Alzheimer’s disease, but in patients with primary progressive aphasia Alzheimer’s the nondominant side of this part of the brain showed less atrophy,” added Dr. Mesulam, who is director of the Mesulam Center for Cognitive Neurology and Alzheimer’s Disease at Northwestern University, Chicago. “It appears that these patients are more resilient to the effects of the neurofibrillary tangles.”
The researchers also found that two biomarkers that are established risk factors in typical Alzheimer’s disease do not appear to be risk factors for the primary progressive aphasia (PPA) form of the condition.
“These observations suggest that there are mechanisms that may protect the brain from Alzheimer’s-type damage. Studying these patients with this primary progressive aphasia form of Alzheimer’s disease may give us clues as to where to look for these mechanisms that may lead to new treatments for the memory loss associated with typical Alzheimer’s disease,” Dr. Mesulam commented.
The study was published online in the Jan. 13 issue of Neurology.
PPA is diagnosed when language impairment emerges on a background of preserved memory and behavior, with about 40% of cases representing atypical manifestations of Alzheimer’s disease, the researchers explained.
“While we knew that the memories of people with primary progressive aphasia were not affected at first, we did not know if they maintained their memory functioning over years,” Dr. Mesulam noted.
The current study aimed to investigate whether the memory preservation in PPA linked to Alzheimer’s disease is a consistent core feature or a transient finding confined to initial presentation, and to explore the underlying pathology of the condition.
The researchers searched their database to identify patients with PPA with autopsy or biomarker evidence of Alzheimer’s disease, who also had at least two consecutive visits during which language and memory assessment had been obtained with the same tests. The study included 17 patients with the PPA-type Alzheimer’s disease who compared with 14 patients who had typical Alzheimer’s disease with memory loss.
The authors pointed out that characterization of memory in patients with PPA is challenging because most tests use word lists, and thus patients may fail the test because of their language impairments. To address this issue, they included patients with PPA who had undergone memory tests involving recalling pictures of common objects.
Patients with typical Alzheimer’s disease underwent similar tests but used a list of common words.
A second round of tests was conducted in the primary progressive aphasia group an average of 2.4 years later and in the typical Alzheimer’s disease group an average of 1.7 years later.
Brain scans were also available for the patients with PPA, as well as postmortem evaluations for eight of the PPA cases and all the typical Alzheimer’s disease cases.
Results showed that patients with PPA had no decline in their memory skills when they took the tests a second time. At that point, they had been showing symptoms of the disorder for an average of 6 years. In contrast, their language skills declined significantly during the same period. For typical patients with Alzheimer’s disease, verbal memory and language skills declined with equal severity during the study.
Postmortem results showed that the two groups had comparable degrees of Alzheimer’s disease pathology in the medial temporal lobe – the main area of the brain affected in dementia.
However, MRI scans showed that patients with PPA had an asymmetrical atrophy of the dominant (left) hemisphere with sparing of the right sided medial temporal lobe, indicating a lack of neurodegeneration in the nondominant hemisphere, despite the presence of Alzheimer’s disease pathology.
It was also found that the patients with PPA had significantly lower prevalence of two factors strongly linked to Alzheimer’s disease – TDP-43 pathology and APOE ε4 positivity – than the typical patients with Alzheimer’s disease.
The authors concluded that “primary progressive aphasia Alzheimer’s syndrome offers unique opportunities for exploring the biological foundations of these phenomena that interactively modulate the impact of Alzheimer’s disease neuropathology on cognitive function.”
‘Preservation of cognition is the holy grail’
In an accompanying editorial, Seyed Ahmad Sajjadi, MD, University of California, Irvine; Sharon Ash, PhD, University of Pennsylvania, Philadelphia; and Stefano Cappa, MD, University School for Advanced Studies, Pavia, Italy, said these findings have important implications, “as ultimately, preservation of cognition is the holy grail of research in this area.”
They pointed out that the current observations imply “an uncoupling of neurodegeneration and pathology” in patients with PPA-type Alzheimer’s disease, adding that “it seems reasonable to conclude that neurodegeneration, and not mere presence of pathology, is what correlates with clinical presentation in these patients.”
The editorialists noted that the study has some limitations: the sample size is relatively small, not all patients with PPA-type Alzheimer’s disease underwent autopsy, MRI was only available for the aphasia group, and the two groups had different memory tests for comparison of their recognition memory.
But they concluded that this study “provides important insights about the potential reasons for differential vulnerability of the neural substrate of memory in those with different clinical presentations of Alzheimer’s disease pathology.”
The study was supported by the National Institute on Deafness and Communication Disorders, the National Institute of Neurological Disorders and Stroke, the National Institute on Aging, the Davee Foundation, and the Jeanine Jones Fund.
A version of this article first appeared on Medscape.com.
They also show some differences in neuropathology to typical patients with Alzheimer’s disease, raising hopes of discovering novel mechanisms that might protect against memory loss in typical forms of the disease.
“We are discovering that Alzheimer’s disease has more than one form. While the typical patient with Alzheimer’s disease will have impaired memory, patients with primary progressive aphasia linked to Alzheimer’s disease are quite different. They have problems with language – they know what they want to say but can’t find the words – but their memory is intact,” said lead author Marsel Mesulam, MD.
“We have found that these patients still show the same levels of neurofibrillary tangles which destroy neurons in the memory part of the brain as typical patients with Alzheimer’s disease, but in patients with primary progressive aphasia Alzheimer’s the nondominant side of this part of the brain showed less atrophy,” added Dr. Mesulam, who is director of the Mesulam Center for Cognitive Neurology and Alzheimer’s Disease at Northwestern University, Chicago. “It appears that these patients are more resilient to the effects of the neurofibrillary tangles.”
The researchers also found that two biomarkers that are established risk factors in typical Alzheimer’s disease do not appear to be risk factors for the primary progressive aphasia (PPA) form of the condition.
“These observations suggest that there are mechanisms that may protect the brain from Alzheimer’s-type damage. Studying these patients with this primary progressive aphasia form of Alzheimer’s disease may give us clues as to where to look for these mechanisms that may lead to new treatments for the memory loss associated with typical Alzheimer’s disease,” Dr. Mesulam commented.
The study was published online in the Jan. 13 issue of Neurology.
PPA is diagnosed when language impairment emerges on a background of preserved memory and behavior, with about 40% of cases representing atypical manifestations of Alzheimer’s disease, the researchers explained.
“While we knew that the memories of people with primary progressive aphasia were not affected at first, we did not know if they maintained their memory functioning over years,” Dr. Mesulam noted.
The current study aimed to investigate whether the memory preservation in PPA linked to Alzheimer’s disease is a consistent core feature or a transient finding confined to initial presentation, and to explore the underlying pathology of the condition.
The researchers searched their database to identify patients with PPA with autopsy or biomarker evidence of Alzheimer’s disease, who also had at least two consecutive visits during which language and memory assessment had been obtained with the same tests. The study included 17 patients with the PPA-type Alzheimer’s disease who compared with 14 patients who had typical Alzheimer’s disease with memory loss.
The authors pointed out that characterization of memory in patients with PPA is challenging because most tests use word lists, and thus patients may fail the test because of their language impairments. To address this issue, they included patients with PPA who had undergone memory tests involving recalling pictures of common objects.
Patients with typical Alzheimer’s disease underwent similar tests but used a list of common words.
A second round of tests was conducted in the primary progressive aphasia group an average of 2.4 years later and in the typical Alzheimer’s disease group an average of 1.7 years later.
Brain scans were also available for the patients with PPA, as well as postmortem evaluations for eight of the PPA cases and all the typical Alzheimer’s disease cases.
Results showed that patients with PPA had no decline in their memory skills when they took the tests a second time. At that point, they had been showing symptoms of the disorder for an average of 6 years. In contrast, their language skills declined significantly during the same period. For typical patients with Alzheimer’s disease, verbal memory and language skills declined with equal severity during the study.
Postmortem results showed that the two groups had comparable degrees of Alzheimer’s disease pathology in the medial temporal lobe – the main area of the brain affected in dementia.
However, MRI scans showed that patients with PPA had an asymmetrical atrophy of the dominant (left) hemisphere with sparing of the right sided medial temporal lobe, indicating a lack of neurodegeneration in the nondominant hemisphere, despite the presence of Alzheimer’s disease pathology.
It was also found that the patients with PPA had significantly lower prevalence of two factors strongly linked to Alzheimer’s disease – TDP-43 pathology and APOE ε4 positivity – than the typical patients with Alzheimer’s disease.
The authors concluded that “primary progressive aphasia Alzheimer’s syndrome offers unique opportunities for exploring the biological foundations of these phenomena that interactively modulate the impact of Alzheimer’s disease neuropathology on cognitive function.”
‘Preservation of cognition is the holy grail’
In an accompanying editorial, Seyed Ahmad Sajjadi, MD, University of California, Irvine; Sharon Ash, PhD, University of Pennsylvania, Philadelphia; and Stefano Cappa, MD, University School for Advanced Studies, Pavia, Italy, said these findings have important implications, “as ultimately, preservation of cognition is the holy grail of research in this area.”
They pointed out that the current observations imply “an uncoupling of neurodegeneration and pathology” in patients with PPA-type Alzheimer’s disease, adding that “it seems reasonable to conclude that neurodegeneration, and not mere presence of pathology, is what correlates with clinical presentation in these patients.”
The editorialists noted that the study has some limitations: the sample size is relatively small, not all patients with PPA-type Alzheimer’s disease underwent autopsy, MRI was only available for the aphasia group, and the two groups had different memory tests for comparison of their recognition memory.
But they concluded that this study “provides important insights about the potential reasons for differential vulnerability of the neural substrate of memory in those with different clinical presentations of Alzheimer’s disease pathology.”
The study was supported by the National Institute on Deafness and Communication Disorders, the National Institute of Neurological Disorders and Stroke, the National Institute on Aging, the Davee Foundation, and the Jeanine Jones Fund.
A version of this article first appeared on Medscape.com.