Fight, Flight Or Freeze: How Do You Respond To Stress?

Updated Feb 10, 2025 | 07:00 AM IST

SummaryThe fight, flight, or freeze response is the body's automatic reaction to stress, triggering physiological changes like increased heart rate, tense muscles, and rapid breathing to prepare for potential danger.
Fight, Flight Or Freeze: How Do You Respond To Stress?

Image Credit: Canva

Stress is an unavoidable part of life, and while it often carries a negative connotation, it is actually a fundamental survival mechanism. When faced with a perceived threat, whether physical or emotional, the body instinctively reacts to protect itself. This automatic response is commonly known as the "fight, flight, or freeze" response. While it serves an essential function in dangerous situations, chronic activation of this response due to daily stressors can have significant consequences for mental and physical health.

The body’s response to stress is rooted in human evolution. When our ancestors encountered a predator, their nervous systems immediately prepared them to either confront the threat (fight), escape to safety (flight), or become still and unnoticed (freeze). While modern-day stressors may not include wild animals, our nervous system reacts similarly to job pressures, financial worries, or social conflicts.

According to the Cleveland Clinic, stress is the body's response to change, activating a physiological reaction that helps us adapt and protect ourselves. While short-term stress can be beneficial, prolonged exposure can lead to an overactive stress response, negatively impacting overall well-being.

The Three Stress Responses: Fight, Flight, and Freeze

1. Fight

The fight response prepares the body for direct action. When triggered, the nervous system releases adrenaline, increasing heart rate, blood pressure, and muscle tension. While this reaction once helped early humans fend off predators, today it manifests as irritability, frustration, or aggression.

For instance, the employee who has experienced too much workload may work extremely long hours just to succeed. In short term, the action may produce good results but mostly ends in burnout, anxiety, and physical illness, for example, tension headache or digestion problems.

2. Fight

The flight response triggers an intense need to remove oneself from a stressful situation. Just as our ancestors would flee from danger, modern individuals may avoid conflict, quit jobs impulsively, or detach from relationships when overwhelmed.

Flight mode is linked with restlessness and anxiety. Individuals may have a sense of needing to get up and go-pacing, changing environments constantly, or avoiding tasks that seem too overwhelming. Someone with a flight response might have the desire to change jobs constantly, relocate constantly, or become reclusive in order to avoid perceived dangers.

3. Freeze

The freeze response occurs when the nervous system perceives a threat as too overwhelming to fight or flee. Rather than taking action, individuals shut down, feeling numb, disconnected, or paralyzed by fear.

Unlike fight or flight, which involve heightened activation, freeze mode slows down physiological functions. A person experiencing freeze mode may feel physically unable to move, struggle to make decisions, or find themselves dissociating from their emotions. This can manifest in situations such as public speaking anxiety, where someone might "blank out" or feel stuck in the moment.

What Happens in the Body During A Stressful Event?

When faced with a stressor, the autonomic nervous system (ANS) activates, triggering physiological changes, including:

  • Increased heart rate and breathing: The body pumps more oxygen to muscles and the brain in case action is needed.
  • Muscle tension: The body prepares for movement, sometimes causing trembling or stiffness.
  • Dilated pupils: Vision sharpens to detect potential threats.
  • Dry mouth: Saliva production decreases as the body redirects energy to essential functions.
  • Changes in skin tone: Blood flow is directed to vital organs, sometimes making the skin appear pale or flushed.

For those experiencing the freeze response, the body undergoes a different reaction, often reducing heart rate and causing physical immobility rather than heightened activation.

Strategies for Coping and Managing the Stress Response

While the stress response is necessary for survival, frequent activation due to daily stressors can take a toll on health. Recognizing your default response—whether fight, flight, or freeze—can help in developing effective coping mechanisms.

1. Moving to a Safe Space

If possible, changing your environment can help signal to your brain that the threat has passed. Stepping outside for fresh air, finding a quiet place, or distancing yourself from overwhelming stimuli can help regulate emotions.

2. Practicing Controlled Breathing

Deep, slow breathing can be used to counteract the stress response by engaging the parasympathetic nervous system, which promotes relaxation. Techniques such as diaphragmatic breathing or the 4-7-8 method (inhale for four seconds, hold for seven, exhale for eight) can be particularly effective in calming the body.

3. Engaging in Physical Activity

This helps release pent-up energy and aids in the endorphin cascade, natural boosters for our mood.

4. Seeking Social Support

Relieving oneself from stress can come in many ways, but sharing it with trusted friends, a family member, or a good therapist will sure give that psychological boost of hope. Social support is an especially effective way of cushioning people against the stressors that they are subjected to in chronic forms.

When to Seek Professional Help

While occasional stress is normal, chronic activation of the fight, flight, or freeze response can indicate underlying mental health concerns, such as anxiety disorders or post-traumatic stress disorder (PTSD). If stress is affecting daily life—leading to sleep disturbances, difficulty concentrating, or persistent feelings of fear—it may be time to consult a mental health professional.

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Why Metabolic Fatty Liver Disease Is Rising as India’s Most Common Liver Condition

Updated Apr 11, 2026 | 08:59 PM IST

SummaryMASLD is strongly linked to obesity, sedentary lifestyles, and metabolic syndrome. Genetic susceptibility also plays a role — variants in genes such as PNPLA3 are associated with increased liver fat accumulation, particularly in certain Indian populations.
Why Metabolic Fatty Liver Disease Is Rising as India’s Most Common Liver Condition

Credit: Canva

Metabolism-Associated Fatty Liver Disease (MAFLD) — also termed Metabolic Dysfunction-Associated Steatotic Liver Disease (MASLD) — is defined by excess hepatic fat accumulation (>5 per cent of liver weight) in the presence of metabolic dysfunction, independent of alcohol intake. It encompasses a spectrum from simple steatosis to steatohepatitis, fibrosis, cirrhosis, and hepatocellular carcinoma.

MAFLD: Epidemiology In India

A Lancet Regional Health study found that approximately 39 per cent of Indian adults screened had fatty liver disease, making it one of the most prevalent chronic liver conditions in the country. Within India, prevalence shows regional variation driven by genetic, dietary, and socioeconomic factors.

A particularly important feature is the “lean MAFLD” phenotype — South Asians often develop fatty liver at a lower BMI due to disproportionately high visceral fat, which complicates detection based on conventional BMI screening. Currently, MASLD is the commonest cause of liver cirrhosis and hepatocellular carcinoma (HCC).

MAFLD: Causes And Risk Factors

The core drivers are components of metabolic syndrome: type 2 diabetes mellitus, obesity (particularly central adiposity), dyslipidemia, hypertension, and insulin resistance. MASLD is strongly linked to obesity, sedentary lifestyles, and metabolic syndrome.

Genetic susceptibility also plays a role — variants in genes such as PNPLA3 are associated with increased liver fat accumulation, particularly in certain Indian populations. Rapid dietary transition towards ultra-processed, high-calorie foods compounds the risk.

MAFLD: Investigations

Routine liver function tests may appear normal in early stages, and an ultrasound detects only moderate-to-severe fat accumulation. A structured approach includes:

  • Blood tests: LFTs, fasting glucose, HbA1c, lipid profile, insulin resistance indices
  • Ultrasound abdomen: First-line imaging for steatosis
  • FibroScan (Transient Elastography): Liver stiffness measurement (LSM) and controlled attenuation parameter (CAP) are standardized non-invasive tools for assessing fibrosis and steatosis.
  • Liver biopsy: Gold standard for staging steatohepatitis and fibrosis when non-invasive tests are inconclusive.

MAFLD: Treatment

No approved pharmacotherapy exists exclusively for MAFLD; management is lifestyle-centred:

  • Weight loss: 7–10 per cent body weight reduction significantly reduces hepatic steatosis and inflammation
  • Diet: Mediterranean-style diet; restrict refined carbohydrates and saturated fats
  • Exercise: Both aerobic and resistance training improve insulin sensitivity and liver fat
  • Metabolic comorbidity control: Optimise glycaemia (GLP-1 agonists show hepatic benefit), manage dyslipidaemia and hypertension
  • Emerging therapies: Resmetirom (thyroid hormone receptor-β agonist) has shown promise in MASH with fibrosis.
In 2024, India’s Union Ministry of Health and Family Welfare integrated NAFLD/MASLD into the National Program for Non-Communicable Diseases, reflecting growing policy recognition of its public health burden.

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Parkinson’s at 40: Why Younger Adults Are Being Diagnosed Earlier Than Before

Updated Apr 12, 2026 | 12:00 AM IST

SummaryWhile the symptoms of the disease are mostly the same at whatever age it develops, younger people will experience the disease differently due to their unique life circumstances. Managing the disease can be particularly challenging for a younger person and their family from a medical, psychological, and social standpoint.
Parkinson’s at 40: Why Younger Adults Are Being Diagnosed Earlier Than Before

Credit: Canva

Once known to affect only people over 60, Parkinson’s Disease is now increasingly being seen in young adults, especially at the age of 40, said health experts on World Parkinson’s Day today.

World Parkinson’s Day is observed every year on April 11 to raise awareness about the brain condition that causes tremors, slowness of movement, and trouble walking.

Parkinson’s is a progressive and neurodegenerative movement disorder caused by the loss of dopamine-producing brain cells.

Progressive decline in mobility is a key issue among Parkinson's patients, impacting their independence and quality of life. Other problems include slow movement, tremor, imbalance, cognitive impairment, mental health disorders, sleep disorders, and pain.

Also read: World Parkinson's Day 2026: Origin, Theme And Global Burden

Young-onset Parkinson’s Disease

According to the American Parkinson's Disease Association, a diagnosis of Parkinson’s between the ages of 21 and 50 is referred to as early-onset Parkinson’s disease, or young-onset Parkinson’s disease (YOPD).

Exposure to environmental toxins and lifestyle changes are major reasons for the rise in Parkinson's in this group.

While the symptoms of the disease are mostly the same at whatever age it develops, younger people will experience the disease differently due to their unique life circumstances. Managing the disease can be particularly challenging for a younger person and their family from a medical, psychological, and social standpoint.

"There is a perceived increase in younger-onset Parkinson’s in India. Possible reasons include better awareness and diagnosis (more neurologists, improved access to care), environmental exposures (pesticides, heavy metals), and air/water pollution. Lifestyle (sedentary habits) and urbanization-related factors may also contribute," Dr Sudhir Kumar, Neurologist at Apollo Hospitals Hyderabad, told HealthandMe.

A 2022 study, published in NPJ Parkinson's Disease, showed that the incidence of Parkinson’s disease, or the number of new cases diagnosed per year, is 50 per cent higher than previously estimated.

Instead of past estimates of 60,000 new cases of Parkinson’s disease diagnosed per year, the study determined that there are approximately 90,000 new cases of Parkinson's disease diagnosed in the US per year.

"Young-onset Parkinson’s disease (YOPD) is on the rise, mainly in the middle socio-demographic index. These countries include India, China, and some Southeast Asian countries," Dr Paresh Doshi, Director of Neurosurgery and Stereotactic & Functional Neurosurgery at Jaslok Hospital and Research Centre.

"According to one research paper, the age-standardized incidence rate has been rising at an alarming rate of 1.4 per cent per annum. To put it in perspective, if the incidence was 100/10,00,000 in 1995, it would be 153/10,00,000 in 2026," he added.

The experts noted that, along with the rising disability burden, mortality is reducing. The compound effect of all these is a larger number of YOPD patients suffering longer. Surgeries like deep-brain stimulation can help reduce these disabilities significantly.

Checklist for Parkinson’s: Signs You Should Not Ignore

Early recognition is critical, as many symptoms precede motor features by years.

Common early signs include:

  • Reduced sense of smell (anosmia)
  • Slowness of movement (bradykinesia)
  • Reduced arm swing while walking
  • Resting tremor
  • Masked facies (reduced facial expression)
  • Change in handwriting (micrographia)

Other important symptoms, which are often overlooked:

  • Constipation
  • Sleep disturbances (especially REM sleep Behavior disorder)
  • Depression or anxiety.

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The Gut-Brain Axis: How Diet May Influence Parkinson’s Disease

Updated Apr 11, 2026 | 02:00 PM IST

SummaryGut-targeted interventions are promising adjuncts to conventional Parkinson's therapy, improving patients' quality of life. Changes in the gut microbiome may influence inflammation, α-synuclein aggregation, and symptom progression.
The Gut-Brain Axis: How Diet May Influence Parkinson’s Disease

Credit: Canva

Parkinson’s Disease is traditionally characterized by motor symptoms such as tremor and dyskinesia, although non-motor symptoms, in particular gastrointestinal (GI) symptoms such as constipation and incomplete emptying, are often the first markers of the disease and may precede the motor symptoms by years.

GI dysfunction is reported in approximately 70-80 per cent of Parkinson’s patients, mediated in large part through the gut-brain axis (GBA).

Speaking to HealthandMe, Dr Paresh Doshi, Director of Neurosurgery and Stereotactic and Functional Neurosurgery at Jaslok Hospital and Research Center, GBA, is an established two-way network that links the GI tract and the central nervous system (CNS). The connection is multifaceted, involving the vagus nerve, the enteric nervous system (ENS), the immune system, and a vast number of microbial metabolites and neuroendocrine signals.

“Constipation is seen in 66 per cent of Parkinson’s patients, attributed to disordered central and peripheral parasympathetic disruption, and can lead to alteration of the gut microbiome, which in turn worsens constipation, starting a feedback loop,” the doctor explained.

What Parkinson’s Patients Must Eat

Dr Sudhir Kumar, Neurologist at Apollo Hospitals Hyderabad, told HealthandMe that changes in the gut microbiome may influence inflammation, α-synuclein aggregation, and symptom progression.

Practical dietary principles for Parkinson’s patients include:

  • Prefer fiber-rich, plant-based foods (vegetables, fruits, whole grains), which support gut microbiota
  • Include fermented foods (curd, buttermilk), which may improve microbial diversity
  • Reduce ultra-processed and pro-inflammatory foods
  • Ensure adequate hydration (helps reduce the risk of constipation, a common non-motor symptom)
  • Protein timing matters: Levodopa competes with amino acids for absorption.
Hence, lowering protein intake at breakfast and lunch and shifting the bulk of protein to dinner can improve drug response in selected patients with motor fluctuations.

These gut-targeted interventions are promising adjuncts to conventional Parkinson's therapy, and improving patient quality of life.

Parkinson’s Treatment With Dance, Art

Beyond gut-brain axis, research has proven that unconventional therapy, like dance and art, can improve Parkinson’s treatment.

A 2024 study published in the Scientific Reports found that tango, particularly Argentine tango, improved Parkinson's symptoms like thinking problems or balance issues. It also led to a significant improvement in recognizing emotions on people's faces.

Dr Kumar said dance therapy improves balance, gait, and coordination; provides rhythmic cueing, which enhances motor performance, and improves mood and motivation (dopamine-related pathways).

Similarly, art therapy has been shown to improve overall visual-cognitive skills and visual exploration strategies as well as general motor function in patients with Parkinson’s. The changes in brain connectivity highlight a functional reorganization of visual networks, as revealed by a study published in Parkinsonism & Related Disorders.

Dr Kumar said art and creative therapies are also helpful in enhancing cognitive engagement. It may help with executive function and emotional well-being and provide a non-verbal outlet for expression. However, these therapies work best as adjuncts, not replacements, to standard treatment, the expert noted.

World Parkinson’s Day 2026

World Parkinson's Day is observed annually on April 11 to raise global awareness of Parkinson’s disease, the world's fastest-growing neurodegenerative disorder.

It highlights the need for early diagnosis, research, and support for the nearly 10 million people living with the condition. The day marks the birthday of Dr. James Parkinson, who first described the disease in 1817.

The theme of World Parkinson's Day 2026 is "Bridge the Care Gap." It reflects a critical challenge that persists despite advances in medical research: many people living with Parkinson's still lack consistent access to specialist care, affordable treatment, and integrated support systems.

Parkinson's disease affected 11.9 million people in 2021 and will affect 25.2 million people globally by 2050, representing an alarming 112 per cent rise.

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