The COVID-19 pandemic may be over, but our immune systems are still feeling the impact. After years of battling constant viral threats, from COVID-19 to seasonal flu and other infections, our body’s defense system is exhausted. Many people continue to experience lingering inflammation, frequent illnesses, and slower recovery times. This extended state of immune stress has compromised us further to chronic illness, including autoimmune diseases and even neurodegenerative diseases such as Parkinson's. So why is our immune system still in trouble? And how do we give it its power back? Understanding immune exhaustion is the beginning of rebuilding our body's natural immunity.

A weakened immune system makes people more susceptible to disease, mental illnesses, and even sleep disorders. Now, new research indicates that immune system depletion may play an important role in the onset of Parkinson's disease, a degenerative neurologic disorder that compromises movement and cognition.

Role of Inflammation in Parkinson's Disease

Dysfunctional immune response is a leading cause of long-standing inflammation within the body, that has been found to contribute towards a multitude of conditions, including cardiovascular conditions, diabetes, depression, and neurodegenerative diseases such as Alzheimer's.

As people age, their immune system naturally becomes less effective. This deterioration, referred to as immune exhaustion, may be a key contributor to the onset and progression of Parkinson’s disease. Rebecca Wallings, a Parkinson’s Foundation Launch Award grant recipient and senior postdoctoral fellow at the University of Florida, believes that an accumulation of exhausted immune cells could be driving neurodegeneration in Parkinson’s patients.

How a Tired Immune System Might Affect Parkinson's?

Parkinson's disease is most commonly linked with the degeneration and loss of dopaminergic neurons—motor nerve cells that produce dopamine, an essential neurotransmitter for movement. While researchers have long suspected inflammation is involved in this neurodegeneration, the mechanisms are not yet well understood.

Wallings' study is on immune cell exhaustion, a process by which aging immune cells fail to control immune responses effectively. Her research indicates that instead of dampening inflammation in Parkinson's patients, attempts should be made to rejuvenate the immune system to regain its functionality.

Energy Deficiency in Immune Cells

One of the major findings of Wallings' work is the function of mitochondrial impairment in immune cell exhaustion. Mitochondria are commonly called the powerhouses of cells, as they are vital for generating energy. As mitochondria age and become inefficient, immune cells fail to function well, potentially accelerating neurodegeneration in Parkinson's disease.

Wallings has found that mutations in the LRRK2 gene, a recognized genetic risk factor for Parkinson's disease, are linked with defective mitochondrial function and immune cell exhaustion. Her current work includes testing various therapeutic approaches to restore mitochondrial function in immune cells with the potential to enhance the immune system and potentially prevent or treat Parkinson's disease.

Will Rejuvenating the Immune System Help in Treatment?

For decades, the standard practice in treating Parkinson's has been to suppress brain inflammation. Yet Wallings' work indicates that instead of slowing down immune responses, restoring the immune system could be a more successful strategy. By addressing mitochondrial impairment and immune resilience, researchers can potentially reverse or slow down Parkinson's disease.

Wallings is now looking into how to rejuvenate immune cells by fixing mitochondria. She studies immune cells from patients with Parkinson's as well as from healthy subjects and performs experiments on animal models to determine if rejuvenation of the immune system could result in improved disease outcomes.

Lifestyle Factors That May Affect Parkinson's Risk

While there is no cure for Parkinson's disease, some lifestyle adjustments may decrease the chances of developing the illness. Since neurodegenerative diseases are associated with chronic inflammation and immune dysfunction, developing habits that enhance immune function might prove helpful.

Diet: There is evidence to suggest that eating in accordance with the Mediterranean or MIND diets, both high in antioxidants, healthy fats, and anti-inflammatory foods, can encourage brain wellness and reduce Parkinson's risk.

Avoiding Dangerous Substances: Restricting alcohol and nicotine use can maintain a robust immune system and suppress inflammation.

Reducing Stress: Chronic stress weakens immune function, so methods such as meditation, exercise, and sufficient sleep can lead to improved overall well-being.

A new botulism outbreak in the United States linked to the now-recalled Nara Organics Whole Milk Organic powdered infant formula has led to hospitalization of at least three infants in three states, according to a notice from the Centers for Disease Control and Prevention (CDC).

The affected infants, aged between 2 and 5 months, are from California, Pennsylvania, and Washington state. All three have been hospitalized and are receiving treatment for infection caused by the bacterium Clostridium botulinum.

The CDC noted that on June 13, Nara Organics recalled all Nara Organics Whole Milk Organic Infant Formula products, including all lot numbers and both can sizes. The products were sold online and at major retailers nationwide.

“Testing of opened cans of Nara Organics brand formula and unopened Nara Organics product samples is underway, and results are expected in the coming weeks,” the CDC said.

This is the second recent outbreak of infant botulism linked to powdered formula. Earlier this year, investigators from the California Department of Public Health, working with federal officials and other state health departments, identified 51 suspected or confirmed cases of infant botulism across 19 states between March 2022 and December 2025. Those infants had consumed ByHeart infant formula.

What Parents And Caregivers Should Do

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The CDC has urged parents and caregivers to immediately stop using any Nara Organics Whole Milk Organic Infant Formula.

If you have unopened cans of the recalled formula, throw them away or return them. Parents should also wash any items and surfaces that may have come into contact with the formula with hot, soapy water or in the dishwasher.

Seek immediate medical attention if your infant consumed the recalled formula and develops any of the following symptoms:

• Poor feeding
• Loss of head control
• Difficulty swallowing
• Decreased facial expression

Symptoms of infant botulism can take several weeks to appear. Parents whose infants consumed the recalled formula should monitor them for symptoms for up to one month after their last exposure.

What Is Botulism?

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Botulism is a rare but serious illness caused by a toxin produced by the bacterium Clostridium botulinum. The toxin attacks the nervous system and can lead to life-threatening complications if not treated promptly.

Botulism is considered a medical emergency because it can cause paralysis and breathing difficulties.

Types of Botulism

There are several forms of botulism, including:

• Foodborne botulism
• Wound botulism
• Iatrogenic botulism
• Inhalation botulism
• Infant botulism

Infant botulism is the most common form in babies between 2 and 8 months old. It occurs when Clostridium botulinum spores grow in a baby's intestines and produce toxin. Honey and contaminated soil are known sources of exposure.

Symptoms of Infant Botulism

Symptoms typically begin 18 to 36 hours after exposure and may include:

• Constipation is often the first sign
• Weak or floppy movements
• Weak cry
• Drooling
• Drooping eyelids
• Difficulty feeding or sucking
• Progressive paralysis

Infant botulism often begins with constipation but is usually first recognized through feeding difficulties, a weak or altered cry, and poor head control.

If left untreated, the illness can progress to severe paralysis, breathing difficulties, and prolonged hospitalization.

Blood disorders are often misunderstood; many people think that all serious blood-related conditions are a form of cancer. This misunderstanding is particularly common when it comes to sickle cell disease. Both sickle cell disease and blood cancers affect blood cells and can lead to significant health complications, but they are fundamentally different, with distinct causes, treatment approaches, and long-term outcomes. Understanding these differences is important not only for patients and their families but also for awareness and ensuring timely medical care.

Sickle cell disease is an inherited genetic disorder that develops in a person who inherits abnormal hemoglobin genes from both parents. Hemoglobin is the protein in red blood cells responsible for carrying oxygen throughout the body. People with sickle cell disease have red blood cells that become rigid and crescent or "sickle" shaped instead of their normal round structure. These abnormal cells can block blood vessels, reduce oxygen delivery to tissues, and break down more rapidly than healthy red blood cells. As a result, patients may experience chronic anemia, episodes of severe pain, recurrent infections, organ damage, and other complications.

How Blood Cancers Differ From Sickle Cell Disease

Blood cancers are cancers that originate in the blood-forming tissues, such as the bone marrow and lymphatic system. The most common types include leukemia, lymphoma, and multiple myeloma. Unlike sickle cell disease, blood cancers are generally not inherited and are caused by DNA mutations that occur during a person's lifetime. These mutations cause abnormal blood cells to grow, crowding out healthy cells and interfering with the body's ability to fight infections, carry oxygen, or control bleeding.

The two conditions are different, but some symptoms may overlap. For instance, tiredness, weakness, recurrent infections, and anemia can occur in both sickle cell disease and certain blood cancers. However, the underlying reasons are entirely different. In sickle cell disease, symptoms arise because of abnormal hemoglobin and sickling of red blood cells. In blood cancers, symptoms result from the uncontrolled growth of malignant cells within the bone marrow or lymphatic system.

Difference in Diagnosis And Treatment

Diagnoses for both diseases differ. Sickle cell disease is usually identified through specialized blood tests that detect abnormal hemoglobin. In many cases, it can be diagnosed early in childhood. Blood cancers require a combination of blood investigations, bone marrow examinations, imaging studies, and specialized laboratory tests to establish the diagnosis and determine the specific cancer subtype.

The treatment approaches for these disorders reflect these differences. Management of sickle cell disease focuses on preventing complications, controlling symptoms, reducing pain crises, preventing infections, and improving quality of life. Certain patients may benefit from advanced therapies, including stem cell transplantation and emerging gene-based treatments.

Why Awareness Matters

Blood cancer treatment depends on the type and stage of disease and may require chemotherapy, targeted therapy, immunotherapy, stem cell transplantation, radiation therapy, or newer cellular therapies such as CAR-T cell therapy. The treatment plan is individual-based, depending on factors such as the specific cancer subtype, disease burden, patient age, pre-existing conditions, and overall health.

While medical advances are transforming outcomes for both conditions, improved screening infrastructure and programs, better care, advances in transplantation, targeted therapies and innovative cellular treatments are helping patients live longer and healthier than ever before. That said, awareness remains the first step towards better outcomes. Knowing the differences between sickle cell disease and blood cancers can help reduce confusion, support early diagnosis, and timely intervention.

(By Dr. Narendra Agrawal, Sr. Consultant – Hemato Oncology & Bone Marrow Transplant, Rajiv Gandhi Cancer Institute & Research Centre (RGCIRC), New Delhi)

GLP-1 drugs like Ozempic, Mounjaro, and Wegovy may not only aid weight loss and improve diabetes control but could also help men with obesity improve their fertility, according to new research.

Obesity is a well-established risk factor for infertility in both men and women. The findings, presented at ENDO 2026, the Endocrine Society's annual meeting in Chicago, suggest that GLP-1 medications do not harm male hormones or fertility, even with long-term use.

Researchers from the University Hospitals Coventry and Warwickshire and Warwick Medical School in the UK found that GLP-1 drugs may improve testosterone levels and sperm quality in men with obesity-related low testosterone while addressing the underlying metabolic effects of obesity.

"This work supports a shift away from prescribing testosterone replacement in men with obesity and low testosterone and toward treating the underlying cause—excess weight and poor metabolic health—which can naturally restore hormone levels and preserve fertility," said lead researcher and endocrinologist Pratibha Natesh of Warwick Medical School.

What Did The Study Find?

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The researchers analyzed published randomized controlled trials comparing GLP-1 medications with either placebo or other treatments in men aged 18 to 65 years.

The review focused primarily on changes in testosterone and other hormones involved in testicular function. Researchers also evaluated sperm quality, body weight, blood sugar levels, cholesterol, and overall metabolic health.

To minimize bias, two independent reviewers assessed the studies, with five clinical trials meeting the eligibility criteria.

Overall, the findings showed that GLP-1 drugs had no negative impact on reproductive hormones, sexual function, or sperm quality.

For instance, a 24-week study of semaglutide found improvements in sperm morphology and cholesterol levels while maintaining stable testosterone and hormone levels.

Another 16-week study of liraglutide in men with obesity-related low testosterone showed increases in testosterone and associated reproductive hormones. Participants also experienced better overall health outcomes compared with those receiving testosterone replacement therapy alone.

More Research Needed

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Despite the encouraging findings, Natesh cautioned that the number of available studies remains small and results vary across trials. Larger, well-designed studies are needed to better understand the effects of GLP-1 drugs on male fertility.

She also emphasized that most of the reproductive benefits observed are likely indirect and that GLP-1 medications have not been evaluated as treatments for male infertility or hypogonadism.

Nevertheless, the researchers hope the findings will help patients and physicians make more informed decisions about GLP-1 medications used for weight management and diabetes treatment.

"Improving metabolic health can have positive effects far beyond weight alone," Natesh said.

What Are GLP-1 Drugs

GLP-1 receptor agonists are medications to control high blood sugar in people with type 2 diabetes.

These therapies help by:

• Increasing insulin release when blood sugar rises
• Delaying stomach emptying
• Reducing appetite
• Decreasing glucagon production
• Improving weight loss

Dr. Uthra, a diabetologist and Sr. consultant at Dr.Mohan’s Diabetes Speciality Centre, in Chennai, told HealthandMe that while GLP-1 therapies help control blood sugar, beyond this, these treatment regimens provide many more benefits.

Research shows that these medications can reduce the risk of major cardiovascular events such as heart attack and stroke.

In addition, GLP-1 therapies help in weight reduction. Obesity is also linked to diabetes and heart disease. Hence, GLP-1 therapies help to reduce weight and the risk of developing heart diseases, the expert said.