Population aging and the consequent change in the profile of the age pyramid are already a reality the world over. One undeniable effect of this aging process is the significant increase in the number of people with Alzheimer’s disease (AD), which is the most common form of dementia, accounting for around 50% - 60% of all cases. AD tends to affect people in their 60 s, becoming progressively more commonplace in older age groups. It is an incurable disease, and patients can live for many years taking medication on a daily basis. This study shows that research into AD is on the rise around the world because the pharmaceutical industry and research institutions are seeking new types of drugs to treat and even cure Alzheimer’s patients. By analyzing patent documents, we map out the potential future treatments for this disease, indicating the leading countries and drugs companies that have invested most in a bid to accelerate progress towards new discoveries about the disease and the development of new drugs.
Population aging is a global phenomenon, as developing countries start to see their average life expectancy rising to levels similar to those of developed countries in Europe and North America, where 22% of the population is already 60 years of age or over (on average). This worldwide demographic trend (
According to data published by Alzheimer’s Disease International, 2014 [
As this is an incurable condition that is associated with increased life expectancy and external factors, not all of which have been fully identified, Alzheimer’s disease is one of the most significant and challenging areas of biomedical research in the world today. In view of the fact that a high and rising proportion of the population, especially old people, is likely to suffer from this disease [
The risk is real to anyone over the age of 65: 5% of people over this age have AD, and this figure rises to 40% amongst the over-80s [
More than a century ago, a German doctor called Alois Alzheimer (1864-1915) discovered lesions in the brain of a patient that had never been observed before. In a 1907 publication he reported a case of impaired brain function that caused dementia [
It has been shown that the beta-amyloid plaques attached to the outside of neurons affect the activity of kinase enzymes, which consequently add an excessive quantity of phosphate to the tau protein, triggering alterations in it and the formation of fibrillary tangles and their build-up inside neurons [
AD is now recognized as a public health issue [
As Alzheimer’s disease is a major health issue that is only likely to increase with time (around 4.6 million new cases are reported each year [
The first medication approved by the U.S. Food and Drug Administration [
The drugs approved and used for Alzheimer’s treatment are shown in
The treatments available for AD are not capable of checking the progression of the disease. As such, research centers and drug companies are keen to discover new medications to modify the metabolism of amyloid substance in some way or to prevent the formation of neurofibrillary tangles, which are found in patients’ brains and are responsible for the advance of the disease. However, this is an as yet unresolved challenge for science, as the mechanisms involved in the development of AD, although much studied, are not yet fully understood [
In this technology foresight study, we analyzed patent documents for treatments for Alzheimer’s disease. The methodology involved searching patent documents because the information they contain provides the best indication of the state of technological innovation in terms of research and development, as they directly reflect the interests of and trends in the pharmaceutical industry. The foresight methodology used in this study involved three stages. First, we selected the most appropriate database for the objectives of this study. We then searched this database and retrieved data on patent applications for drugs to treat Alzheimer’s disease. Finally, we pro-
Drug | Class and Indication | Mechanism of Action | Common Adverse Effects |
---|---|---|---|
Donepezil (FDA-approved in 1996) | Cholinesterase inhibitor prescribed to treat symptoms of mild-to-moderate and moderate-to-severe AD | Prevents the breakdown of acetylcholine in the brain | Nausea, vomiting, diarrhea |
Galantamine (FDA-approved in 2001) | Cholinesterase inhibitor prescribed to treat symptoms of mild-to-moderate AD | Prevents the breakdown of acetylcholine and stimulates nicotinic receptors to release more acetylcholine in the brain | Nausea, vomiting, diarrhea, loss of appetite, weight loss |
Rivastigmine (FDA-approved in 2000) | Cholinesterase inhibitor prescribed to treat symptoms of mild-to-moderate AD | Prevents the breakdown of acetylcholine and butyrylcholine in the brain | Nausea, vomiting, diarrhea, loss of appetite, weight loss, muscle weakness |
Memantine (FDA-approved in 2003) | N-methyl-D-aspartate antagonist prescribed to treat symptoms of moderate-t-severe AD | Blocks the toxic effects associated with excess glutamate and regulates glutamate activation | Dizziness, headache, constipation, confusion |
cessed and analyzed the data retrieved. The different stages are shown in
We chose the Derwent Innovation Index (DII) database to search for patent documents, as this is one of the databases that can be accessed from the Brazilian Ministry of Education’s CAPES portal. It was picked for this purpose because it is internationally recognized and contains over 11 million patent documents filed, published, and sometimes granted in over 40 countries since 1963. One of its main advantages is that for each patent there is a concise abstract written by an expert on the subject. It is also possible to access the primary patent records, which facilitates the retrieval of all the information.
The strategy used was to search for keywords in the titles and abstracts and the International Patent Classification (IPC) of the claim. The period covered was from 1995 to 2012 because of the 18-month period in which patent applications remain confidential. The keywords used were “Alzheimer” and “drug.” The IPC class was selected to pick up patent applications of real interest to the analysis, namely subclass A61P 25/28, which is for drugs for treating neurodegenerative disorders of the central nervous system, e.g. nootropic agents, cognition enhancers, drugs for treating Alzheimer’s disease or other forms of dementia.
Once retrieved, the patent applications were exported to the VantagePoint® commercial software package, 8.0 version. This text mining tool is very useful for analyzing raw data because it enables large quantities of data to be processed and allows the data to be manipulated so that the information can be harmonized. In the case of patents, one company will often have different names in the assignee or inventors field, but this was standardized at this stage. Another important function is the cleaning filter, which can be used to eliminate any duplicates of documents and terms that cause ambiguity.
Having harmonized the data, we were able to extract some basic information on the subject of interest, such as the total number of documents retrieved, the main research areas, and the leading countries and companies in the development of the technology, and could make an analysis of developments in the technology sector.
Using the methodology set forth above, we retrieved 3,919 patent applications for drugs to treat Alzheimer’s disease from the DII database. Analyzing these data, we found that the number of patent applications filed in this area first started to grow towards the end of the 1990s, becoming significant in number as of the beginning of this century. A graphic representation of the trend in patent applications for treatments for Alzheimer’s disease is given in
We should recall that patent documents are kept confidential for 18 months after they are filed, and there is also a time lag before they are indexed in databases. As such, the 2011 and 2012 figures do not necessarily represent a real drop-off in interest in the area. The number of patents for drugs for Alzheimer’s disease treatment has risen in line with the growth in the number of cases around the world. As this is a chronic, incurable condition that normally develops at a slow pace, and patients can take daily medications for 20 years or longer, the drug industry has every interest in researching it [
The leading country in this area is the United States (
One important objective of a study of this kind is to find out what the main assignees of the patents in the sector are.
The drugs approved and used for treating Alzheimer’s disease have the capacity to intervene pharmacologically in the cognitive symptoms characteristic of the disease, but the benefits associated with their use are still limited, which is why research into new drugs continues apace. The analysis of the patent documents for AD drugs that already exist on the market shows that they are often for new means of administering and delivering the drugs with fewer side-effects. The significant quantitative results can be seen in
Other therapeutic approaches are being researched, some of which are very promising. Much of this research is geared towards finding more effective treatments that retard the progress of the disease or even cure it. It is hoped that drugs capable of modifying the natural evolution of Alzheimer’s disease will constitute the next generation of AD treatments [
There are some drugs currently in use and many under development that are designed to retard the progression of AD, but there is no treatment capable of completely checking its progress. As one of the purposes of stem-cell therapy is to regenerate or replace tissue, this area of study has been cited as a new way forward for future treatments. Research involving the injection of stem cells into areas of the brain that trigger AD symptoms is being conducted [
Gene therapy, whereby functional genes are introduced into cells with defective genes, is also a promising approach. Experimental and pre-clinical studies have focused on the use of gene therapy for treating AD, bringing new hope for patients [
Recent studies have shown that lithium salts may exert neuroprotective effects. In in vitro experiments, lithium has been found to improve neuronal viability through a combination of mechanisms, which include the inhibition of apoptosis, regulation of autophagy, increased mitochondrial function, and the synthesis of neurotrophic factors. It is believed that long-term lithium treatment can really retard the progression of cognitive and functional deficits, while also attenuating tau protein hyperphosphorylation, which is implicated in the onset of the disease. Although more research is required in this area, lithium treatment is a promising potential area because it could yield disease-modifying effects [
Currently used to control cholesterol levels, statins have been studied for their potential in treating Alzheimer’s disease because some researchers believe that when statins reduce cholesterol, they may actually alter the metabolism of the beta-amyloid protein precursor, reducing its production and preventing the formation of the plaques responsible for the onset of the disease [
Treatment involving vaccines has also been studied with an eye to preventing or retarding the development of the disease in at-risk individuals before or in the first stages of cognitive decline with the hope of stimulating the immune system to prevent beta-amyloid clumping. It is hoped that such vaccines will clear any build-up of amyloid-beta (abeta) peptides in the brain, inhibiting their neurotoxic action. Immunotherapy involves inoculation with humanized monoclonal antibodies with high specificity to abeta peptides. These antibodies clump together, favoring the elimination of these toxic substances. However, it was found in some trials that the vaccines caused brain inflammation, which is being investigated, since vaccines are still among the most promising therapies for the future [
One of the likeliest causes of AD is thought to be oxidative stress. Researchers are therefore trying to find out whether it is possible to improve protection against the disease through the increased ingestion of antioxidants.
Antioxidants can protect brain cells against damage caused by the toxicity of free radicals. Some research is therefore being done into the ingestion of vitamin E, an antioxidant also known as alpha-tocopherol. Vitamin E has been found to prevent the oxidative damage induced by beta-amyloid in cell cultures, delaying memory deficits in animal models.
Resveratrol, a polyphenol that occurs in abundance in grapes and red wine, also has antioxidant properties, providing neuroprotection. Studies have associated the moderate ingestion of wine with a reduced risk of developing AD. It is believed that resveratrol has powerful anti-amyloidogenic activity.
Other antioxidants also being tested as future drugs are selegiline, vitamin C, selenium, and carotene [
Some studies have associated this sex steroid with Alzheimer’s disease, showing that the loss of estrogen associated with menopause could be linked to its development, because estrogen has a major neuroprotective and neuromodulatory role. Using oophorectomized animals, researchers have demonstrated that estrogen induces changes in the metabolism of serotonin in areas of the brain that involve cognition. Although several studies have investigated this effect, there is still a good deal of controversy about the effectiveness of steroids as a treatment for AD [
Drugs with other mechanisms are also being researched as potential treatments. There is evidence that substances called secretase inhibitors have the capacity to block beta-amyloid formation. Studies using gamma- and beta-secretases are being done in different parts of the world. These enzymes are believed to be fundamental in the genesis of the beta-amyloid protein. Treatments using these secretase inhibitors could retard the advance of the disease, since this process involves reducing the production of beta-amyloid, responsible for the formation of the amyloid plaques that are implicated in the disease [
Curcumin is an anti-inflammatory molecule present in the turmeric root. Epidemiological data demonstrate that there are 4.4 times fewer people in their 70s with AD in India, where turmeric consumption is high, than in the United States. This fact has intrigued the scientific community, and some researchers have demonstrated in in vitro studies that curcumin is indeed capable of fragmenting beta-amyloid plaques. As such, its effect on these plaques is being investigated as a potential future treatment [
Another possible treatment for Alzheimer’s disease is based on docosahexaenoic acid (DHA). This omega-3 polyunsaturated acid encountered in fish and seaweed and is strongly involved in the formation of the cell membranes of nerve cells, especially synaptic membranes. Researchers have found that newborn rats with DHA deficit present a low cognitive performance, and demonstrate space and time disorientation and impaired learning capacity and memory. It has been shown that DHA is an essential fatty acid for the development of the fetal brain, and researchers suggest that a diet rich in DHA could provide protection for the brain against the production of beta-amyloid [
Recent evidence indicates that valproic acid―a widely used mood stabilizer―has significant neuroprotective potential for Alzheimer’s disease. Studies on laboratory animals suggest that valproic acid protects neurons against beta-amyloid protein and the damage induced by glutamate, because it helps stabilize intracellular levels of calcium. These findings suggest that valproic acid is a promising agent for combatting the disease [
Some patients seek out unconventional methods to treat the symptoms of Alzheimer’s disease. One such treatment is ginkgo biloba, a herb that contains two components believed to have medicinal effects: flavonoids and terpenoids with antioxidant properties. Ginkgo biloba has been used in China for millennia and some studies have associated it with cognitive enhancement. Although some patent documents cite ginkgo biloba as a possible AD treatment, its efficacy is yet to be proven [
Population aging is a global reality and one of the biggest challenges for public health, since the higher proportion of old people is directly linked to the rising prevalence of little-understood diseases, like Alzheimer’s disease. Although AD affects a relatively high proportion of the population and has been investigated from a number of different angles, there are as yet no treatments capable of effectively altering the progression of the disease. In view of its complexity, the development of more effective, safer therapeutic options is one of the most hotly pursued goals of international biomedical science. Few drugs have been developed for the treatment of the disease, and none is yet capable of preventing its advance or curing it. With a view to meeting the needs of Alzheimer’s patients, the drug industry and research centers the world over are seeking out new ways of understanding the disease in order to discover safe, effective drugs. Through this patent analysis we were able to demonstrate the different research underway into substances with neuroprotective, genetic, immunological, anti- inflammatory, and antioxidant properties with a view to designing new chemicals with novel properties to serve as more effective treatments. The discovery of drugs capable of modifying the natural progression of the disease and effective mechanisms for its early diagnosis are the future of the treatment of Alzeimer’s disease and the source of hope for a cure for its patients.
Karinne MarietaCarvalho,EduardoWinter,Adelaide Maria deSouza Antunes, (2015) Analysis of Technological Developments in the Treatment of Alzheimer’s Disease through Patent Documents. Intelligent Information Management,07,268-281. doi: 10.4236/iim.2015.75022