Most people are aware of type 1 and type 2 diabetes, but did you know there is a type 3 diabetes as well! It is a more obscure term. Although it is not an accepted medical diagnosis, type 3 diabetes has been discussed in the literature as a possible relationship between insulin resistance in the brain and Alzheimer's disease. This link has been described to help explain how metabolic disorders impact brain health, causing cognitive decline and dementia.

What is Type 3 Diabetes?

Type 3 diabetes is more of a misnomer because it should not be confused with type 3c diabetes, which relates to pancreatic dysfunction. The term "type 3 diabetes," on the other hand, has been loosely used by some scientists to analogously propose that Alzheimer's disease is strongly implicated with insulin resistance in the brain.

This concept was conceptualized by Dr. Suzanne de la Monte and Dr. Jack Wands of Brown University in the year 2008. This hypothesis postulated that Alzheimer's disease may be called type 3 diabetes for it bears many similarities with glucose metabolism disorder type 2 diabetes. Their concept arises from the basic principle that insulin is fundamental to blood sugar regulation, but it is also the case with the brain. When brain cells become insulin-resistant, they lose access to glucose, impairing their function.

Research published in the Journal of Diabetes Science and Technology supports this hypothesis by indicating that insulin resistance can be a significant contributor to the occurrence of dementia, also referred to as Alzheimer's. The symptoms of memory loss and diminished reasoning are associated with impaired glucose metabolism in the body, especially in the cerebral tissue.

Symptoms of Type 3 Diabetes

Although type 3 diabetes is not a "medical term," its symptoms correlate well with Alzheimer's diseases that are known to reduce the ability to think in an efficient manner and bring down brain health. These signs are:

- Loss of memory, especially short-term.

- Poor judgment and judgment ability

- Failure in recognizing people or places familiar once.

- Failure in the process of reading, writing or processing numbers

- Anxiety, agitation, or mood changes.

- Disorganized thoughts or confusion

- Lack of impulse control

As the disease advances, patients may be afflicted with severe complications including an inability to swallow or control their bodily functions. In the final stages, most patients die from fatal complications such as aspiration pneumonia.

Causes of Type 3 Diabetes

This may not be well understood with regards to type 3 diabetes, or the exact link between insulin resistance and Alzheimer's disease. Some identified contributing factors include the following:

1. Insulin Resistance

Insulin acts as an important regulatory mechanism of brain functions such as memory and cognition. The reduction in insulin signaling may impair metabolism of brain cells, thus bringing about neurodegeneration.

2. Type 2 Diabetes

These diseases show a strong relationship and those individuals diagnosed with type 2 diabetes have double chances of getting Alzheimer's. In the two, the main causes can be chronic inflammation, oxidative stress, and a defect in glucose metabolism.

3. Environmental and Lifestyle Factors

Insulin resistance associated with obesity, stress, and an unhealthy diet is considered a cause that may increase the chances of Alzheimer's disease.

Researches in Frontiers in Neuroscience and The Lancet Neurology have also highlighted that drugs used for antidiabetic medication may be crucial for the prevention or at least slowing down the course of Alzheimer's.

Treatments for Type 3 Diabetes

In 2022, in a study in Pharmaceuticals, researchers studied biomarker uptake in brain regions implicated in the faulty uptake and metabolism of blood sugar in Alzheimer’s patients.

Emerging Therapies

Research into such treatments as intranasal insulin has also been promising. Intranasal delivery of insulin directly to the brain has been reported to enhance glucose uptake by brain cells, improve memory, and boost cognitive performance. While such clinical trials have been shown to be successful, additional research is needed for safety and efficacy.

Medications

For patients being aggressive or agitated, antipsychotic drugs may be prescribed; however, therapies such as cognitive rehabilitation as well as cognitive stimulation therapy serve to preserve memory and executive function.

Lifestyle Interventions

Diet, exercise, and stress management are critical in preventing and managing insulin resistance. A review in the Journal of Alzheimer's Disease also highlighted the benefits of Kirtan Kriya meditation, which can regulate genes involved in insulin and glucose metabolism, improve sleep, and reduce inflammation.

Can Type 3 Diabetes Be Prevented?

Although type 3 diabetes is not officially recognized, its connection to Alzheimer’s disease underscores the importance of proactive measures for brain health. Some prevention strategies include:

1. Healthy Diet

Consuming a balanced diet rich in antioxidants, whole grains, and healthy fats may support brain health.

2. Regular Exercise

Physical activity improves insulin sensitivity, reduces inflammation, and enhances overall metabolic health.

3. Stress Reduction

Mindfulness practices, including meditation, have been shown to lower stress levels, which can reduce the risk of cognitive decline.

The term type 3 diabetes brings out the complex relationship between metabolic disorders and brain health. Even though it is not a recognized medical condition, the concept emphasizes the crucial role of insulin in brain function and its possible contribution to Alzheimer's disease. Continued research will hopefully provide hope for therapies such as intranasal insulin and lifestyle modifications.

Kidney disease is one of those conditions where myths quietly cause a lot of damage. Misinformation about symptoms, diet, medicines, and treatment can delay diagnosis, worsen kidney health, and prevent people from taking simple steps that could protect their kidneys early on.

Myth: Kidney disease is rare.

Fact: It’s actually quite common, but many people don’t even know they have it.

Myth: You’ll feel it if something is wrong.

Fact: Early chronic kidney disease (CKD) is usually silent, and symptoms often appear only after significant damage has already occurred.

Even something as simple as a slightly raised creatinine is often ignored.

Fact: Even mild elevations can signal a meaningful loss of kidney function.

Myth: Dialysis cures kidney disease.

Fact: Dialysis does not cure kidney disease. It only replaces some kidney functions to help keep the body in balance.

Myth: If dialysis is needed in Acute Kidney Injury (AKI), it means lifelong dialysis.

Fact: Dialysis in AKI may be temporary. In advanced CKD, however, it is often long-term or lifelong unless a kidney transplant is performed.

Diet myths don’t help either

Myth: More water is always better.

Fact: Hydration is important, but too much water isn’t helpful for everyone—especially in advanced CKD, where fluid intake may need to be restricted.

Myth: All kidney patients should eat the same diet.

Fact: Kidney diets are highly individualized. High-protein diets, often seen as healthy, can increase stress on damaged kidneys. Plant-based proteins can be a suitable alternative in many cases.

Myth: Herbal or indigenous remedies can cure or prevent kidney disease.

Fact: Many of these remedies are unregulated and may actually worsen kidney damage because of hidden toxins or heavy metals.

Myth: Painkillers are harmless.

Fact: Regular use of medicines like NSAIDs can quietly damage the kidneys over time.

At the end of the day, kidney disease isn’t just about treatment—it’s about awareness. Getting the facts right can make all the difference.

There are many components of weather that are reported to affect migraine, such as barometric pressure, humidity, temperature, and seasons. A drop in pressure (often before a storm) can create a pressure imbalance between the environment and the sinuses/inner ear, stimulating nerves and causing headaches.

Rapid shifts in temperature or intense cold/heat can trigger migraine attacks. Both high humidity and very dry air can trigger migraine symptoms. Bright Sunlight or Intense sun exposure, especially reflecting off snow or water, is a significant trigger for migraine.

Weather Changes: Brain Imbalances

Weather changes can cause chemical imbalances in the brain, specifically affecting serotonin levels, which are involved in migraine development. They can also cause inflammation or a "pressure difference" in the sinuses.

Both spring/summer (due to heat and allergens) and winter (due to cold/dry air) can trigger migraines and sinus problems. While many studies report weather as a trigger, some studies suggest that our perception of the trigger can exceed the actual statistical impact.

Often, it is a combination of factors, such as allergies in the spring or the flu in autumn, that triggers the headache, rather than just the air pressure.

Maintaining a migraine diary for at least 90 days helps identify specific weather patterns that trigger your attacks.

Seasonal Allergies And Sinus

Seasonal allergies do not cause migraine attacks, but migraine is commonly misdiagnosed as a sinus headache, because some symptoms can overlap. It is common for migraine to be associated with forehead and facial pressure over the sinuses, as well as a blocked or runny nose.

However, sinus issues may be accompanied by a fever rather than a migraine. Migraines can cause activation of the nerves in the face (referred to as cranial autonomic activation), which can lead to the blocked, congested feeling.

How To Stay Safe

If weather changes are a trigger for you, this can be difficult to avoid, and beyond your control, but it can be useful to keep an eye on the weather forecast. A preventive treatment may be needed to reduce the overall sensitivity to such changes, allowing you more freedom to plan your daily activities. When you think the weather might increase the risk, it is useful to treat early to shorten and completely stop the migraine attack.

Attacks that are treated early will have fewer debilitating symptoms by not becoming fully developed and severe. Drink enough water to make up for extra fluid loss on warmer days and during physical activities.

Consider taking water with you when out to remain well hydrated and to compensate for excessive sweating. Consider staying indoors during the peak hours of brightness if that is an option.

If going out, be prepared by wearing protective sunglasses or a hat to minimize glare and light. Use a humidifier to maintain indoor humidity between 40-50% to prevent nasal passages from drying out, especially in winter.

Psilocybin is the active ingredient found in magic mushrooms, and a new study shows that just one high dose (25 mg) is enough to cause alterations in the brain’s structures and help improve mental health.

The changes could explain why some people report psychological benefits from the experience, revealed the study published in the journal Nature Communications. The study found that the effect may last for up to a month after the experience.

In the study, researchers from the University of California, San Francisco, and Imperial College London argue that the effect may lead to “subsequent improvements in mental health”.

"Psychedelic means 'psyche-revealing,' or making the psyche visible," said senior author Robin Carhart-Harris, Professor of Neurology at UCSF.

"Our data shows that such experiences of psychological insight relate to an entropic quality of brain activity and how both are involved in causing subsequent improvements in mental health. It suggests that the trip—and its correlates in the brain—is a key component of how psychedelic therapy works," Carhart-Harris added.

How A Psychedelic Trip Improved Brain Health

Psilocybin has been the subject of several studies in people that have found it appears to alleviate symptoms of depression and anxiety. It has also shown promise in addiction medicine.

In the latest study on 28 people, none had a diagnosed mental health condition. The team gave the participants a 1 mg dose of psilocybin, which the researchers regarded as a placebo, and then monitored them with electroencephalography (EEG), which records brain activity from electrodes on the scalp.

One month after the placebo, the subjects were given 25 mg of psilocybin, a dose capable of eliciting a strong psychedelic trip.

After each experiment, the researchers measured the participants’ psychological insight, well-being, and cognitive ability. They also examined brain activity with functional MRI (fMRI) and brain connectivity with diffusion tensor imaging (DTI).

The results showed that within 60 minutes of taking the 25 mg dose of psilocybin, the EEG revealed higher entropy — which means that the brain was processing a richer body of information under the psychedelic.

A month later, the researchers looked at their subjects' brains with DTI, which measures the diffusion of water along neural tracts in the brain, and found that they were denser and had more integrity. This is the opposite of what happens in aging, which makes these tracts more diffuse.

Also Read: Ibogaine: Why Donald Trump Is Pushing US FDA To Fast-track This Psychedelic

While the result is a never-before-seen sign of how psychedelics can change the brain, the researchers cautioned that more work needs to be done to better understand the meaning of this change.

The participants noted that they had experienced more psychological insight after taking the 25 mg of psilocybin than they had after the 1 mg placebo, and noted "feeling optimistic about the future".

A month after the study, they also did better on a test of cognitive flexibility.

"Psilocybin seems to loosen up stereotyped patterns of brain activity and give people the ability to revise entrenched patterns of thought," said Taylor Lyons, a research associate at Imperial College London and the first author of the paper. "The fact that these changes track with insight and improved well-being is especially exciting."

The findings could improve treatment for people with mental illness with psilocybin, for example, by ensuring that the right dosage is used to produce the right amount of brain entropy to promote insight.