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SAN DIEGO – In 1906, a neuroanatomist and psychiatrist named Alois Alzheimer examined the brain of a 50-year-old woman whom he had treated for paranoia, sleep and memory problems, aggression, and confusion. His autopsy revealed plaques and tangles in her brain. The most common components of these tangles are beta-amyloid peptide (A-beta) and the microtubule binding protein tau. Over the past few decades, that finding has launched many clinical development programs and dozens of clinical trials.
To date, all but one program has failed. In 2021, amidst much controversy, FDA granted accelerated approval to Biogen’s Aduhelm, which effectively clears A-beta and tau deposits from patients’ brains. The problem is that the clinical benefit is small, and uptake has been so low that the company was forced to abandon a planned postmarketing observational trial.
Chasing the wrong target?
At a session at the 2022 Alzheimer’s Association International Conference, Raymond J. Tesi, MD, rather forcefully refuted that approach. “Amyloid and tau therapies have had 20 years to prove themselves. We have multiple cases where we’ve been able to decrease amyloid, maybe not so much tau, but certainly amyloid, and the benefits are mild at best. So I think that the Alzheimer’s drug development community, whether you look at the NIH, whether you look at academia, whether you look at biopharma, has focused on a target that has not proven itself, and it’s time to move on,” said Dr. Tesi, who is president, CEO, and chief medical officer at INmune Bio.
Later in the session,
One audience member defended the potential importance of A-beta and tau, especially in astrogliosis, which is a reaction to stress by astrocytes that attempts to limit tissue damage. The questioner suggested that it was still important to measure the effect of a novel drug on A-beta and tau. “What would be the cause of the reactive astrogliosis and microglia activation, if we are not giving a damn about amyloid and tau?” he asked.
After a bit of back and forth, Dr. Tesi replied: “We both have a religious belief here, and sooner or later we’ll get the answer.”
A diverse clinical pipeline
The session itself focused on four companies, including Dr. Tesi’s INmune Bio, which have drugs with alternative mechanisms entering the advanced stages of clinical development. That’s good news, according to Heather Snyder, PhD, who is vice president of Medical & Scientific Relations at the Alzheimer’s Association. “One of the things that I think is really important is the diversity of what’s in the clinical pipeline, and it’s not just in the very beginning anymore. We’re seeing [companies] now reporting phase 2 [studies] and planning their next stage. That’s something that as a field we should be excited about. As we understand more and more about the biology, we’re now seeing that translating into clinical trials and we’re seeing that translate through the clinical pipeline of development,” said Dr. Snyder in an interview.
Targeting neuroinflammation
Dr. Tesi kicked off the session describing INmune Bio’s focus on neuroinflammation. The company’s drug candidate targets soluble tumor necrosis factor (TNF), which the company believes is a direct cause of Alzheimer’s disease through promotion of inflammation. He noted that TNF is a primary mediator of inflammation in rheumatoid arthritis, and patients with RA have an eightfold increased risk of developing Alzheimer’s disease, compared with the general population, while patients with RA who are taking anti-TNF medication have a 60% lower risk than the general population.
The company’s TNF inhibitor XPro is also unique in that it induces remyelination in mice, while other TNF inhibitors potentially “abuse” the brain by causing demyelination. Earlier research showed that it reduces neuroinflammation, improves nerve cell survival, and improves synaptic function. The company is conducting two phase 2 clinical trials, one in patients with mild cognitive impairment (MCI) and one in mild Alzheimer’s disease. They also use the MCI Alzheimer’s Cognitive Composite (EMACC) tool for assessing outcomes rather than the more commonly used Alzheimer’s Disease Assessment Scale-Cognitive subscale (ADAS-Cog). “ADAS-Cog is like trying to make sushi with an axe. It is designed for moderate to severe disease, and trying to use it for mild (Alzheimer’s disease) or MCI is a mistake. EMACC is purpose built for mild [AD] and MCI patients,” said Dr. Tesi.
Maintaining homeostatis
Next, Hans Moebius, MD, PhD, chief medical officer of Athira Pharma, described his company’s focus on the hepatocyte growth factor (HGF) receptor, also known as tyrosine kinase MET (HGF/MET). It plays an important role in brain development and homeostasis, and it is expressed at lower levels in the frontal cortex and hippocampus of patients with Alzheimer’s disease. The company’s small-molecule drug candidate boosts the HGF/MET pathway, leading to downstream neuroprotection and neurotrophic effects. It also promotes formation of new synapses.
Dr. Moebius presented the results of a phase 2 trial showing that the drug, called fosgonimeton, led to significant cognitive improvement compared with placebo. The company is conducting a phase 3 clinical trial.
Type 3 diabetes?
In his talk, John Didsbury, PhD, founder and CEO of T3D Therapeutics, framed Alzheimer’s disease as a disease of metabolic dysfunction. He believes alterations to glucose and lipids in the brain cause structural changes that lead to symptoms. He pointed out that the strongest genetic Alzheimer’s disease risk factor is a mutant form of the lipid transport protein APOE4.
“What we have is dysregulated glucose energy metabolism and lipid metabolism that really cause, in our mind, the structural event changes and the stress event changes – plaques, tangles, inflammation, etc. – but these events perpetuate the dysregulated metabolism. It’s a massive positive feedback loop that many have called type 3 diabetes – a brain-specific form of diabetes,” said Dr. Didsbury.
The company’s approach is to use systems biology to identify a drug target that can bypass multiple aberrant insulin signaling pathways. Its drug candidate regulates the expression of multiple genes involved in glucose metabolism. Dr. Didsbury presented interim results from a phase 2 study showing improvement over placebo.
Focusing on neurotoxic proteins
The final presentation of the session was by Maria Maccecchini, PhD, founder, president, and CEO of Annovis Bio. The company’s drug, buntanetap, reduces expression of a range of neurotoxic proteins. The downstream effects include restoration of axonal transport, reduction of inflammation, and protection of nerve cells. The company believes that Alzheimer’s disease results from acute and chronic stress events that lead to high levels of neurotoxic proteins, which include A-beta, tau, alpha-synuclein, and TDP43. The proteins aren’t just players in Alzheimer’s disease – they are present in abnormal levels in Parkinson’s disease and a range of other brain pathologies.
“In the brain of an Alzheimer’s and of a Parkinson’s [patient], you’re going to find all four proteins. You’ll find them in different concentrations, at different time points, in different brain areas. If you just remove one, you still have the other three that cause impairment in axonal transport, and that leads to inflammation that leads to neurodegeneration,” said Dr. Maccecchini.
The company’s drug manages to reduce levels of all four proteins by binding to a segment of messenger RNA (mRNA) shared by all of them. mRNA serves as a template for protein synthesis. Under normal conditions, the neurotoxic protein concentrations are kept low because the mRNA segment remains bound to a regulatory protein that prevents synthesis from occurring. However, when stress leads to high levels of iron, this regulatory binding protein releases the mRNA segment (along with the rest of the mRNA). The freed mRNA becomes available to the cell’s protein synthesis machinery, which starts producing high levels of neurotoxic proteins. Annovis Bio’s drug improves the ability of the regulatory protein to bind to the mRNA segment, preventing protein expression even in high-iron conditions. It works on all four neurotoxic proteins because they all have the regulatory segment in their mRNA.
The drug led to improvements in phase 2 studies of Alzheimer’s disease and Parkinson’s disease, and the company is currently recruiting for a phase 3 study in Parkinson’s disease and a phase 2/3 dose-response study in Alzheimer’s disease.
Combination treatments for a complex disease
Taken together, the presentations provided a snapshot of the post–A-beta/tau Alzheimer’s development world, and the future could be messy. Alzheimer’s disease and other dementias are likely to require combination treatments, according to Dr. Snyder. “This is a complex disease, not just Alzheimer’s but other dementias. It’s not going to be a single drug, a single target. It’s going to require some type of combinatorial approach, whether that be with medication and lifestyle interventions, or risk reduction, and different medications,” she said.
The latest results are good news for that approach: “We’re seeing that maturation of the science in these trials,” said Dr. Snyder.
Cheng Fang, PhD, senior vice president of research and development at Annovis Bio, agreed with that sentiment. “I believe [Alzheimer’s disease and dementia] is a very complicated disease. I always call them diseases instead of a disease because it’s a spectrum. I don’t believe one drug can cure them all, as much as I am confident in our drug. I think it’s extremely important to encourage this kind of diverse thinking,” said Dr. Fang.
Dr. Snyder has no relevant financial disclosures. Dr. Tesi, Dr. Moebius, Dr. Didsbury, Dr. Maccecchini, and Dr. Fang are employees and in some cases stockholders of their respective companies.
SAN DIEGO – In 1906, a neuroanatomist and psychiatrist named Alois Alzheimer examined the brain of a 50-year-old woman whom he had treated for paranoia, sleep and memory problems, aggression, and confusion. His autopsy revealed plaques and tangles in her brain. The most common components of these tangles are beta-amyloid peptide (A-beta) and the microtubule binding protein tau. Over the past few decades, that finding has launched many clinical development programs and dozens of clinical trials.
To date, all but one program has failed. In 2021, amidst much controversy, FDA granted accelerated approval to Biogen’s Aduhelm, which effectively clears A-beta and tau deposits from patients’ brains. The problem is that the clinical benefit is small, and uptake has been so low that the company was forced to abandon a planned postmarketing observational trial.
Chasing the wrong target?
At a session at the 2022 Alzheimer’s Association International Conference, Raymond J. Tesi, MD, rather forcefully refuted that approach. “Amyloid and tau therapies have had 20 years to prove themselves. We have multiple cases where we’ve been able to decrease amyloid, maybe not so much tau, but certainly amyloid, and the benefits are mild at best. So I think that the Alzheimer’s drug development community, whether you look at the NIH, whether you look at academia, whether you look at biopharma, has focused on a target that has not proven itself, and it’s time to move on,” said Dr. Tesi, who is president, CEO, and chief medical officer at INmune Bio.
Later in the session,
One audience member defended the potential importance of A-beta and tau, especially in astrogliosis, which is a reaction to stress by astrocytes that attempts to limit tissue damage. The questioner suggested that it was still important to measure the effect of a novel drug on A-beta and tau. “What would be the cause of the reactive astrogliosis and microglia activation, if we are not giving a damn about amyloid and tau?” he asked.
After a bit of back and forth, Dr. Tesi replied: “We both have a religious belief here, and sooner or later we’ll get the answer.”
A diverse clinical pipeline
The session itself focused on four companies, including Dr. Tesi’s INmune Bio, which have drugs with alternative mechanisms entering the advanced stages of clinical development. That’s good news, according to Heather Snyder, PhD, who is vice president of Medical & Scientific Relations at the Alzheimer’s Association. “One of the things that I think is really important is the diversity of what’s in the clinical pipeline, and it’s not just in the very beginning anymore. We’re seeing [companies] now reporting phase 2 [studies] and planning their next stage. That’s something that as a field we should be excited about. As we understand more and more about the biology, we’re now seeing that translating into clinical trials and we’re seeing that translate through the clinical pipeline of development,” said Dr. Snyder in an interview.
Targeting neuroinflammation
Dr. Tesi kicked off the session describing INmune Bio’s focus on neuroinflammation. The company’s drug candidate targets soluble tumor necrosis factor (TNF), which the company believes is a direct cause of Alzheimer’s disease through promotion of inflammation. He noted that TNF is a primary mediator of inflammation in rheumatoid arthritis, and patients with RA have an eightfold increased risk of developing Alzheimer’s disease, compared with the general population, while patients with RA who are taking anti-TNF medication have a 60% lower risk than the general population.
The company’s TNF inhibitor XPro is also unique in that it induces remyelination in mice, while other TNF inhibitors potentially “abuse” the brain by causing demyelination. Earlier research showed that it reduces neuroinflammation, improves nerve cell survival, and improves synaptic function. The company is conducting two phase 2 clinical trials, one in patients with mild cognitive impairment (MCI) and one in mild Alzheimer’s disease. They also use the MCI Alzheimer’s Cognitive Composite (EMACC) tool for assessing outcomes rather than the more commonly used Alzheimer’s Disease Assessment Scale-Cognitive subscale (ADAS-Cog). “ADAS-Cog is like trying to make sushi with an axe. It is designed for moderate to severe disease, and trying to use it for mild (Alzheimer’s disease) or MCI is a mistake. EMACC is purpose built for mild [AD] and MCI patients,” said Dr. Tesi.
Maintaining homeostatis
Next, Hans Moebius, MD, PhD, chief medical officer of Athira Pharma, described his company’s focus on the hepatocyte growth factor (HGF) receptor, also known as tyrosine kinase MET (HGF/MET). It plays an important role in brain development and homeostasis, and it is expressed at lower levels in the frontal cortex and hippocampus of patients with Alzheimer’s disease. The company’s small-molecule drug candidate boosts the HGF/MET pathway, leading to downstream neuroprotection and neurotrophic effects. It also promotes formation of new synapses.
Dr. Moebius presented the results of a phase 2 trial showing that the drug, called fosgonimeton, led to significant cognitive improvement compared with placebo. The company is conducting a phase 3 clinical trial.
Type 3 diabetes?
In his talk, John Didsbury, PhD, founder and CEO of T3D Therapeutics, framed Alzheimer’s disease as a disease of metabolic dysfunction. He believes alterations to glucose and lipids in the brain cause structural changes that lead to symptoms. He pointed out that the strongest genetic Alzheimer’s disease risk factor is a mutant form of the lipid transport protein APOE4.
“What we have is dysregulated glucose energy metabolism and lipid metabolism that really cause, in our mind, the structural event changes and the stress event changes – plaques, tangles, inflammation, etc. – but these events perpetuate the dysregulated metabolism. It’s a massive positive feedback loop that many have called type 3 diabetes – a brain-specific form of diabetes,” said Dr. Didsbury.
The company’s approach is to use systems biology to identify a drug target that can bypass multiple aberrant insulin signaling pathways. Its drug candidate regulates the expression of multiple genes involved in glucose metabolism. Dr. Didsbury presented interim results from a phase 2 study showing improvement over placebo.
Focusing on neurotoxic proteins
The final presentation of the session was by Maria Maccecchini, PhD, founder, president, and CEO of Annovis Bio. The company’s drug, buntanetap, reduces expression of a range of neurotoxic proteins. The downstream effects include restoration of axonal transport, reduction of inflammation, and protection of nerve cells. The company believes that Alzheimer’s disease results from acute and chronic stress events that lead to high levels of neurotoxic proteins, which include A-beta, tau, alpha-synuclein, and TDP43. The proteins aren’t just players in Alzheimer’s disease – they are present in abnormal levels in Parkinson’s disease and a range of other brain pathologies.
“In the brain of an Alzheimer’s and of a Parkinson’s [patient], you’re going to find all four proteins. You’ll find them in different concentrations, at different time points, in different brain areas. If you just remove one, you still have the other three that cause impairment in axonal transport, and that leads to inflammation that leads to neurodegeneration,” said Dr. Maccecchini.
The company’s drug manages to reduce levels of all four proteins by binding to a segment of messenger RNA (mRNA) shared by all of them. mRNA serves as a template for protein synthesis. Under normal conditions, the neurotoxic protein concentrations are kept low because the mRNA segment remains bound to a regulatory protein that prevents synthesis from occurring. However, when stress leads to high levels of iron, this regulatory binding protein releases the mRNA segment (along with the rest of the mRNA). The freed mRNA becomes available to the cell’s protein synthesis machinery, which starts producing high levels of neurotoxic proteins. Annovis Bio’s drug improves the ability of the regulatory protein to bind to the mRNA segment, preventing protein expression even in high-iron conditions. It works on all four neurotoxic proteins because they all have the regulatory segment in their mRNA.
The drug led to improvements in phase 2 studies of Alzheimer’s disease and Parkinson’s disease, and the company is currently recruiting for a phase 3 study in Parkinson’s disease and a phase 2/3 dose-response study in Alzheimer’s disease.
Combination treatments for a complex disease
Taken together, the presentations provided a snapshot of the post–A-beta/tau Alzheimer’s development world, and the future could be messy. Alzheimer’s disease and other dementias are likely to require combination treatments, according to Dr. Snyder. “This is a complex disease, not just Alzheimer’s but other dementias. It’s not going to be a single drug, a single target. It’s going to require some type of combinatorial approach, whether that be with medication and lifestyle interventions, or risk reduction, and different medications,” she said.
The latest results are good news for that approach: “We’re seeing that maturation of the science in these trials,” said Dr. Snyder.
Cheng Fang, PhD, senior vice president of research and development at Annovis Bio, agreed with that sentiment. “I believe [Alzheimer’s disease and dementia] is a very complicated disease. I always call them diseases instead of a disease because it’s a spectrum. I don’t believe one drug can cure them all, as much as I am confident in our drug. I think it’s extremely important to encourage this kind of diverse thinking,” said Dr. Fang.
Dr. Snyder has no relevant financial disclosures. Dr. Tesi, Dr. Moebius, Dr. Didsbury, Dr. Maccecchini, and Dr. Fang are employees and in some cases stockholders of their respective companies.
SAN DIEGO – In 1906, a neuroanatomist and psychiatrist named Alois Alzheimer examined the brain of a 50-year-old woman whom he had treated for paranoia, sleep and memory problems, aggression, and confusion. His autopsy revealed plaques and tangles in her brain. The most common components of these tangles are beta-amyloid peptide (A-beta) and the microtubule binding protein tau. Over the past few decades, that finding has launched many clinical development programs and dozens of clinical trials.
To date, all but one program has failed. In 2021, amidst much controversy, FDA granted accelerated approval to Biogen’s Aduhelm, which effectively clears A-beta and tau deposits from patients’ brains. The problem is that the clinical benefit is small, and uptake has been so low that the company was forced to abandon a planned postmarketing observational trial.
Chasing the wrong target?
At a session at the 2022 Alzheimer’s Association International Conference, Raymond J. Tesi, MD, rather forcefully refuted that approach. “Amyloid and tau therapies have had 20 years to prove themselves. We have multiple cases where we’ve been able to decrease amyloid, maybe not so much tau, but certainly amyloid, and the benefits are mild at best. So I think that the Alzheimer’s drug development community, whether you look at the NIH, whether you look at academia, whether you look at biopharma, has focused on a target that has not proven itself, and it’s time to move on,” said Dr. Tesi, who is president, CEO, and chief medical officer at INmune Bio.
Later in the session,
One audience member defended the potential importance of A-beta and tau, especially in astrogliosis, which is a reaction to stress by astrocytes that attempts to limit tissue damage. The questioner suggested that it was still important to measure the effect of a novel drug on A-beta and tau. “What would be the cause of the reactive astrogliosis and microglia activation, if we are not giving a damn about amyloid and tau?” he asked.
After a bit of back and forth, Dr. Tesi replied: “We both have a religious belief here, and sooner or later we’ll get the answer.”
A diverse clinical pipeline
The session itself focused on four companies, including Dr. Tesi’s INmune Bio, which have drugs with alternative mechanisms entering the advanced stages of clinical development. That’s good news, according to Heather Snyder, PhD, who is vice president of Medical & Scientific Relations at the Alzheimer’s Association. “One of the things that I think is really important is the diversity of what’s in the clinical pipeline, and it’s not just in the very beginning anymore. We’re seeing [companies] now reporting phase 2 [studies] and planning their next stage. That’s something that as a field we should be excited about. As we understand more and more about the biology, we’re now seeing that translating into clinical trials and we’re seeing that translate through the clinical pipeline of development,” said Dr. Snyder in an interview.
Targeting neuroinflammation
Dr. Tesi kicked off the session describing INmune Bio’s focus on neuroinflammation. The company’s drug candidate targets soluble tumor necrosis factor (TNF), which the company believes is a direct cause of Alzheimer’s disease through promotion of inflammation. He noted that TNF is a primary mediator of inflammation in rheumatoid arthritis, and patients with RA have an eightfold increased risk of developing Alzheimer’s disease, compared with the general population, while patients with RA who are taking anti-TNF medication have a 60% lower risk than the general population.
The company’s TNF inhibitor XPro is also unique in that it induces remyelination in mice, while other TNF inhibitors potentially “abuse” the brain by causing demyelination. Earlier research showed that it reduces neuroinflammation, improves nerve cell survival, and improves synaptic function. The company is conducting two phase 2 clinical trials, one in patients with mild cognitive impairment (MCI) and one in mild Alzheimer’s disease. They also use the MCI Alzheimer’s Cognitive Composite (EMACC) tool for assessing outcomes rather than the more commonly used Alzheimer’s Disease Assessment Scale-Cognitive subscale (ADAS-Cog). “ADAS-Cog is like trying to make sushi with an axe. It is designed for moderate to severe disease, and trying to use it for mild (Alzheimer’s disease) or MCI is a mistake. EMACC is purpose built for mild [AD] and MCI patients,” said Dr. Tesi.
Maintaining homeostatis
Next, Hans Moebius, MD, PhD, chief medical officer of Athira Pharma, described his company’s focus on the hepatocyte growth factor (HGF) receptor, also known as tyrosine kinase MET (HGF/MET). It plays an important role in brain development and homeostasis, and it is expressed at lower levels in the frontal cortex and hippocampus of patients with Alzheimer’s disease. The company’s small-molecule drug candidate boosts the HGF/MET pathway, leading to downstream neuroprotection and neurotrophic effects. It also promotes formation of new synapses.
Dr. Moebius presented the results of a phase 2 trial showing that the drug, called fosgonimeton, led to significant cognitive improvement compared with placebo. The company is conducting a phase 3 clinical trial.
Type 3 diabetes?
In his talk, John Didsbury, PhD, founder and CEO of T3D Therapeutics, framed Alzheimer’s disease as a disease of metabolic dysfunction. He believes alterations to glucose and lipids in the brain cause structural changes that lead to symptoms. He pointed out that the strongest genetic Alzheimer’s disease risk factor is a mutant form of the lipid transport protein APOE4.
“What we have is dysregulated glucose energy metabolism and lipid metabolism that really cause, in our mind, the structural event changes and the stress event changes – plaques, tangles, inflammation, etc. – but these events perpetuate the dysregulated metabolism. It’s a massive positive feedback loop that many have called type 3 diabetes – a brain-specific form of diabetes,” said Dr. Didsbury.
The company’s approach is to use systems biology to identify a drug target that can bypass multiple aberrant insulin signaling pathways. Its drug candidate regulates the expression of multiple genes involved in glucose metabolism. Dr. Didsbury presented interim results from a phase 2 study showing improvement over placebo.
Focusing on neurotoxic proteins
The final presentation of the session was by Maria Maccecchini, PhD, founder, president, and CEO of Annovis Bio. The company’s drug, buntanetap, reduces expression of a range of neurotoxic proteins. The downstream effects include restoration of axonal transport, reduction of inflammation, and protection of nerve cells. The company believes that Alzheimer’s disease results from acute and chronic stress events that lead to high levels of neurotoxic proteins, which include A-beta, tau, alpha-synuclein, and TDP43. The proteins aren’t just players in Alzheimer’s disease – they are present in abnormal levels in Parkinson’s disease and a range of other brain pathologies.
“In the brain of an Alzheimer’s and of a Parkinson’s [patient], you’re going to find all four proteins. You’ll find them in different concentrations, at different time points, in different brain areas. If you just remove one, you still have the other three that cause impairment in axonal transport, and that leads to inflammation that leads to neurodegeneration,” said Dr. Maccecchini.
The company’s drug manages to reduce levels of all four proteins by binding to a segment of messenger RNA (mRNA) shared by all of them. mRNA serves as a template for protein synthesis. Under normal conditions, the neurotoxic protein concentrations are kept low because the mRNA segment remains bound to a regulatory protein that prevents synthesis from occurring. However, when stress leads to high levels of iron, this regulatory binding protein releases the mRNA segment (along with the rest of the mRNA). The freed mRNA becomes available to the cell’s protein synthesis machinery, which starts producing high levels of neurotoxic proteins. Annovis Bio’s drug improves the ability of the regulatory protein to bind to the mRNA segment, preventing protein expression even in high-iron conditions. It works on all four neurotoxic proteins because they all have the regulatory segment in their mRNA.
The drug led to improvements in phase 2 studies of Alzheimer’s disease and Parkinson’s disease, and the company is currently recruiting for a phase 3 study in Parkinson’s disease and a phase 2/3 dose-response study in Alzheimer’s disease.
Combination treatments for a complex disease
Taken together, the presentations provided a snapshot of the post–A-beta/tau Alzheimer’s development world, and the future could be messy. Alzheimer’s disease and other dementias are likely to require combination treatments, according to Dr. Snyder. “This is a complex disease, not just Alzheimer’s but other dementias. It’s not going to be a single drug, a single target. It’s going to require some type of combinatorial approach, whether that be with medication and lifestyle interventions, or risk reduction, and different medications,” she said.
The latest results are good news for that approach: “We’re seeing that maturation of the science in these trials,” said Dr. Snyder.
Cheng Fang, PhD, senior vice president of research and development at Annovis Bio, agreed with that sentiment. “I believe [Alzheimer’s disease and dementia] is a very complicated disease. I always call them diseases instead of a disease because it’s a spectrum. I don’t believe one drug can cure them all, as much as I am confident in our drug. I think it’s extremely important to encourage this kind of diverse thinking,” said Dr. Fang.
Dr. Snyder has no relevant financial disclosures. Dr. Tesi, Dr. Moebius, Dr. Didsbury, Dr. Maccecchini, and Dr. Fang are employees and in some cases stockholders of their respective companies.
AT AAIC 2022