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.

The NHS will not be automatically inviting all men above a certain age to check for prostate cancer, unlike the approach for some other cancers. The UK National Screening Committee has suggested that the prostate-specific antigen (PSA) test should only be actively offered to men carrying the BRCA gene mutation, which increases their risk. Still, men can request a PSA test from their GP in certain situations.

Olympic cycling hero Sir Chris Hoy, who has received a terminal diagnosis, is among those campaigning for men with known risk factors to be invited for a PSA test at a certain age, even if they do not have any symptoms.

Prostate Cancer Screening: What Is The PSA Test?

A prostate-specific antigen (PSA) test checks the level of PSA in your blood. PSA is a protein produced by the prostate, a small gland in the male reproductive system located just below the bladder. The prostate produces the fluid part of semen.

The NHS says the test might be suggested if you notice symptoms that could point to prostate cancer, such as:

• urinating more often than usual, feeling a sudden urge to pee, or waking up frequently at night to urinate
• blood in your urine
• difficulty getting or maintaining an erection

However, for most men, urinary symptoms are caused by something other than cancer.

A PSA test is usually carried out at a hospital or GP surgery by a nurse or other healthcare professional. Men are asked to avoid certain activities for 48 hours before the test, as these can temporarily raise PSA levels and affect the result. Activities to avoid include anything that leaves you out of breath, like strenuous exercise.

If a man’s PSA level comes back high, they may be offered a repeat test to see if the levels remain raised. If they do, the GP may refer them to a specialist for further investigations, such as a biopsy or an MRI scan.

Prostate Cancer Screening: Why Is The PSA Screening So Controversial?

PSA levels can rise for many reasons, including minor infections, and around 75% of men with a raised PSA do not have prostate cancer. A high reading can lead to referrals for unnecessary biopsies or MRI scans, or treatment for tumours that might never have caused harm.

The PSA test can also miss aggressive cancers. Research has shown that roughly 15% of men with a normal PSA result may actually have prostate cancer.

Prostate Cancer Screening: Who Can Currently Get The PSA Test?

Routine PSA testing is not offered as standard on the NHS. You might be offered a test if a doctor suspects symptoms that could indicate prostate cancer. Men undergoing treatment for a prostate condition may be offered regular PSA checks to monitor how treatment is progressing.

Men aged 50 and over can request a PSA test from their GP, even without symptoms. Campaigners say many men are unaware that they are at higher risk of prostate cancer and should be actively encouraged to think about having a PSA check.

Prostate Cancer Screening: Who Else Could Get It?

If the UK National Screening Committee’s recommendation is approved by the Government next year, men with the BRCA gene mutation could also be invited for a PSA test. Men who think a family member might have had the BRCA gene mutation can request a genetic test on the NHS to find out.

Usually, when your muscle hurts, it's just from working out too hard, pulling a muscle, or getting a bruise. The pain is normal and goes away after a while. However, the National Health Service (NHS) wants people to know that some types of muscle pain are not normal and could be a medical emergency.

Muscle cramps and pain are considered normal; you may have hurt your leg by a fall, stretched your muscles wrong etc. However, not all pain is harmless and it can lead to more serious consequences. Here is how you identify whether your muscle pain is in dangerous territory or not.

Signs You Should See A Doctor Immediately

NHS explains that one should get help right away if your muscle pain feels like:

• A "burning pain" (like something hot is inside your leg or arm).
• A "deep ache" that feels very intense and goes deep into the muscle.

It's a major red flag if this pain gets much worse when you try to move the sore body part. If you have these symptoms, doctors worry it could be a serious problem called Compartment Syndrome.

What is Compartment Syndrome?

The strong, thin layer of tissue which holds your muscles is called fascia. A compartment is just one of these tight bundles of muscle, blood vessels, and nerves.

Compartment syndrome happens when something causes a lot of swelling or bleeding inside that bundle. Because the fascia around the muscle doesn't stretch easily, the pressure inside the compartment goes up very fast.

This high pressure squeezes the blood vessels and nerves, stopping blood from flowing properly. When blood can't get in to bring oxygen or out to remove waste, the muscle tissue starts to die. That's what causes the severe pain.

What Are The Symptoms of Compartment Syndrome?

It's important to watch out for these symptoms, especially if they follow an injury or intense activity:

Intense Pain: The pain is severe, much worse than normal soreness. It might feel like a deep, burning ache inside the muscle.

Worse with Movement: If you try to move the sore arm or leg, the pain gets instantly and much worse.

Swelling: The muscle might look puffy, or it might feel rock-hard or tight to the touch.

Odd Sensations: You might feel numbness, a pins-and-needles feeling, or feel weak in your hand or foot.

Tightness: The area feels so tight you have trouble moving it normally.

How is Compartment Syndrome Treated?

If the problem is sudden and severe (Acute Compartment Syndrome), it is an emergency, and doctors must act right away.

The Surgery (Fasciotomy)

The surgeon makes a long cut through the tough skin (the muscle cover) that is squeezing the muscle. This immediately releases the pressure, allowing blood to flow normally again to the muscle and nerves.

Recovery

Afterward, you'll need pain medication, and sometimes a skin graft (taking skin from another part of your body) to cover the large wound. You will also need physiotherapy to help the muscle get back its full movement and strength. Since the pain here is linked to exercise, treatment usually starts with changes to your routine:

• Stop activities that trigger the pain. For example, if running hurts, try riding a bike or swimming instead.
• Use anti-inflammatory medicines (like ibuprofen) to ease the discomfort.
• A physical therapist will teach you special stretches and strengthening moves.
• If you run, wearing special shoe inserts might help.
• If these easy changes don't work after a few months, your doctor might then suggest a small surgery.

Researchers found how a cell’s energy source could affect depression and anxiety. The new study published in JNeurosci, led by Southern Medical University, was done on male mice. Researchers discovered that the adenosine triphosphate (ATP), which is the cell’s main energy source and a vital chemical messenger that helps communication between neurons, plays a part in depression and anxiety.

Because good brain cell communication is vital for controlling feelings, the study focused on the hippocampus, a brain area linked to memory, stress, and feeling depressed.

For years, scientists have looked for reasons behind mental health issues like depression and anxiety. While we may know that mental health disorders are caused due to different reasons, researchers have looked into how depression and anxiety stressors are communicated to the brain.

Mental health disorders do not have a single cause. According to the UK Mind organization, there are many different factors that can cause depression or trigger it. Things like childhood depression, life events, physical health problems, family history. So, understanding how this changes in mood and heightened emotions are communicated to the brain, could help us learn more about the root causes of depression as well.

How Does Stress Affect Depression And Anxiety?

Researchers studied what happened to ATP in the hippocampus when mice were under stress. They found that male mice who became more anxious or depressed after long-term stress also had lower levels of ATP.

These mice also had less of a key protein called connexin 43 (Cx43). Think of Cx43 as a tiny door that lets ATP out of cells so it can be used for communication. When Cx43 is low, ATP can't be released properly.

To prove that low ATP release was the problem, researchers did two things:

They lowered Cx43 (the "door") in healthy mice that hadn't been stressed. Even without stress, lowering Cx43 caused the mice to act depressed and anxious, and their ATP levels dropped. This showed that just blocking the ATP release was enough to cause mood problems.

They put Cx43 back (fixed the "door") in the stressed, depressed mice. When they did this, the ATP levels went back up, and the mice's anxious and depressed behaviors got much better.

What Causes Depression and Anxiety?

The lead researcher, Gao, explained that this is the first time scientists have shown that low ATP release in the hippocampus drives both depression and anxiety—suggesting they share one single biological cause.

This is important because depression and anxiety often happen together and are hard to treat at the same time. The study suggests that future treatments could focus on improving ATP signaling by fixing or opening the Cx43 "door," potentially helping people with both conditions at once. The team plans to study female mice next to see if the same process happens in both sexes. Researchers mentioned how these finding can lead to better treatment options for people who have depression and anxiety. More focused studies will also help reveal how mental health issues are different in men and women, as they expand the research across sexes.