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  • Growing Pains in Kids and How to Spot Benign Night Leg Aches and Recognize Red Flag Signs to Call the Doctor

    Growing Pains in Kids and How to Spot Benign Night Leg Aches and Recognize Red Flag Signs to Call the Doctor

    Growing pains are a common reason children complain of leg pain at night, and they can be distressing for caregivers to witness. In many cases, these benign night leg aches are harmless, but knowing how to recognize their typical pattern and the red‑flag signs to call the doctor helps adults decide when reassurance is enough and when medical advice is needed.

    Understanding growing pains allows families to respond calmly while remaining alert to symptoms that may suggest something more serious.

    What Are Growing Pains in Children?

    Growing pains, often referred to as benign nocturnal limb pains, describe a pattern of leg pain occurring in otherwise healthy children.

    These pains are considered benign because they are not associated with damage to the bones or joints and do not interfere with normal growth. They most commonly affect children between about 3 and 12 years of age, with many cases appearing in the preschool and early school years.

    What Do Growing Pains Feel Like?

    Children with growing pains usually report a dull ache or throbbing sensation deep in the legs. The discomfort typically affects the calves, shins, thighs, or the area behind the knees rather than the joints themselves.

    Benign night leg aches often involve both legs or alternate sides from one episode to another, which is a typical feature. The pain usually appears late in the day, in the evening, or during the night and often resolves by morning, leaving the child pain-free during the day.

    Caregivers often find that gentle massage, stretching, or warm compresses ease the discomfort and help the child settle back to sleep.

    Children with growing pains can run, play, and participate in their usual daytime activities without a limp or persistent stiffness. This combination of night-time pain with normal function the next day is one of the most important clues that the pain is likely benign.

    At What Age Do Growing Pains Usually Start?

    Growing pains usually begin in early childhood. Many children first experience symptoms between ages 3 and 5, and some have a second phase between ages 8 and 12.

    Not every child has benign night leg aches, and those who do may experience them intermittently over several months or years. Pain-free intervals are common, and the pattern tends to be episodic rather than constant.

    Are Night-Time Leg Aches in Children Normal?

    Night-time leg pain can be alarming, but growing pains are one of the most frequent causes of recurrent leg aches in otherwise healthy children. In this context, benign night leg aches are generally considered a normal variation rather than a sign of disease.

    Are Growing Pains Normal in Children?

    For many children, growing pains are a normal part of development and are not a marker of arthritis, joint damage, or abnormal growth. Despite the name, they are not directly caused by bone stretching.

    They may relate to muscle fatigue, overuse after active days, or a heightened sensitivity to pain in some children. The key point is that the child is otherwise well and active, according to Cleveland Clinic.

    Why Do a Child’s Legs Hurt at Night but Are Fine by Morning?

    A hallmark of benign night leg aches is the timing: pain appears when the child is resting or asleep and disappears by morning. The child can walk and play normally the next day without limp or weakness.

    This pattern distinguishes growing pains from many other conditions, which tend to cause pain or stiffness in the morning, during activity, or throughout the day.

    How to Tell If It’s Really “Benign” Growing Pains

    Recognizing the typical pattern of growing pains helps caregivers decide when reassurance is reasonable and when medical input is needed.

    Typical Features of Benign Night Leg Aches

    Typical signs that point toward benign growing pains include:

    • Pain in the muscles of the legs rather than in the joints
    • Involvement of both legs or alternating sides
    • Episodes occurring in the late afternoon, evening, or at night
    • Pain-free periods in between episodes
    • Relief with massage, stretching, warmth, or cuddling
    • Normal walking, running, and playing during the day

    When most of these features are present, the pain is more likely to represent growing pains than a more serious condition.

    How Can Caregivers Tell If Leg Pain Is Serious?

    Leg pain that does not fit the classic pattern of benign night leg aches deserves closer attention. Warning signs include pain that is constant or present during the day, pain that worsens over time, or pain centered on one specific spot on a bone or joint.

    A child who limps, avoids using a leg, or has morning stiffness is not showing the usual pattern of growing pains. These differences form part of the red‑flag signs to call the doctor, as per Mayo Clinic.

    Red-Flag Signs to Call the Doctor

    Although growing pains themselves are benign, certain features suggest a need for medical evaluation. Caregivers should watch for red‑flag signs to call the doctor, including:

    • Pain in only one leg that keeps returning to the same area
    • Pain that is constant, not just at night
    • Visible swelling, redness, warmth, or deformity of a joint or bone
    • A new limp, refusal to walk, or difficulty bearing weight
    • Pain after an injury that remains severe or localized
    • Associated symptoms such as fever, unexplained weight loss, night sweats, unusual tiredness, or the child appearing unwell

    If any of these signs occur, contacting the child’s doctor is advisable to rule out infection, injury, inflammatory disease, or, more rarely, serious illnesses affecting the bones or blood.

    Urgent or emergency care is needed if a child cannot stand or walk at all due to leg pain, has sudden severe pain with redness or swelling, or has high fever combined with leg pain. These scenarios fall outside the expected pattern of growing pains and require prompt assessment.

    Growing Pains: Supporting Comfort and Knowing When to Seek Help

    Growing pains and benign night leg aches are part of the normal experience for many children and often resolve over time without affecting growth, joint health, or long-term function.

    Recognizing the typical pattern, night-time muscle pain in both legs, normal movement by day, and relief with simple comfort measures, reassures caregivers that these are likely benign.

    Staying aware of the red‑flag signs to call the doctor, such as persistent one-sided pain, swelling, limping, or systemic symptoms, ensures that children who need further evaluation receive it promptly. With a clear understanding of growing pains, families can balance reassurance and vigilance while supporting a child’s comfort and wellbeing.

    Frequently Asked Questions

    1. Can growing pains affect just one leg sometimes?

    Growing pains are typically felt in both legs or alternate sides; persistent pain in only one leg is less typical and should be discussed with a pediatrician.

    2. Do growing pains happen every night?

    They usually come and go, with pain-free days or weeks in between; nightly pain over a long period is not typical and may need medical review.

    3. Can hydration or nutrition help reduce growing pains?

    Staying well hydrated and eating a balanced diet supports overall muscle and bone health, but there is no single nutrient proven to prevent growing pains.

    4. Are growing pains linked to a child’s height later in life?

    No, growing pains do not predict how tall a child will become and are not linked to abnormal growth or final adult height.



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  • New Mpox Signs and How to Spot the Contagious Rash

    New Mpox Signs and How to Spot the Contagious Rash

    Monkeypox, now more commonly referred to as mpox, remains a significant public health concern in 2026 due to evolving knowledge about its symptoms and transmission patterns. This article provides an updated and comprehensive overview of monkeypox symptoms, signs, and the contagious rash associated with the virus. Understanding the latest developments in symptom presentation is crucial for timely recognition and prevention strategies.

    What Are the Common Monkeypox Symptoms in 2026?

    Monkeypox symptoms often begin within 3 to 21 days after exposure to the virus. Early signs typically resemble flu-like symptoms such as fever, headache, muscle aches, chills, exhaustion, and swollen lymph nodes, which are a distinctive feature of mpox compared to similar illnesses. Fatigue and back pain may also occur during this phase. After these initial symptoms, a contagious rash usually appears within 2 to 4 days.

    The rash may start as flat red spots and progress to raised bumps, pustules filled with fluid, and eventually crust over and fall off as scabs. The rash commonly appears on the face, hands, feet, genitals, anus, and sometimes inside the mouth, according to the World Health Organization. The entire symptom duration often lasts 2 to 4 weeks, although immunocompromised individuals may experience a prolonged course.​

    How Does the Mpox Rash Present and Why Is It Contagious?

    The contagious rash is a hallmark of monkeypox infection and is characterized by multiple stages. It begins as macules, flat, discolored spots, then evolves into papules (raised lesions), vesicles (small fluid-filled blisters), pustules (pus-filled blisters), and finally crusts that dry up and fall off after healing. The rash can be itchy or painful and may appear in clusters or spread widely over the body.

    Its appearance can be similar to other viral rashes such as chickenpox or herpes, which sometimes complicates diagnosis. The contagiousness of the rash arises from direct contact with the lesions or the fluid inside the blisters, as well as through respiratory droplets and contaminated materials like bedding or clothing. Proper isolation and hygiene measures are essential to prevent spread during the rash stage.​

    Are There Any New Mpox Signs to Watch For in 2026?

    Recent observations in 2026 highlight some variations in monkeypox symptomatology. While classic symptoms such as fever, swollen lymph nodes, and rash remain predominant, there is an increased reporting of rectal pain or proctitis in some patients without an initial visible rash.

    Ulcers or lesions in the mouth and genital area have also been noted more frequently, which suggests potential new clinical presentations to be aware of. Additionally, some mpox cases involve milder symptoms without the typical widespread rash, making awareness of subtle mpox signs, including localized lesions, important for early diagnosis and intervention.​

    How Long Are Mpox Symptoms and Rash Contagious?

    The mpox incubation period ranges from 3 to 21 days, during which a person is not contagious. Contagiousness begins with the onset of symptoms, particularly once the rash develops. The rash remains contagious until all scabs have fallen off and the skin underneath has healed completely, which typically takes 2 to 4 weeks, as per the Centers for Disease Control and Prevention.

    During this period, the virus can spread through close physical contact and contact with contaminated objects. Isolation is recommended for infected individuals until the contagious rash phase resolves fully to prevent transmission to others.​

    When Should You See a Doctor About Monkeypox Symptoms?

    Medical consultation is advised if someone develops a new or unexplained rash, especially if accompanied by fever, swollen lymph nodes, or flu-like symptoms and there is a possibility of exposure to mpox. Early diagnosis can be confirmed through laboratory testing of lesion samples.

    Healthcare providers may recommend supportive treatments to manage symptoms, since there is no universally approved cure for monkeypox. Vaccines and antiviral medications are available in some cases for prevention and treatment, particularly for those at higher risk or with severe disease. Prompt medical attention helps reduce complications and limits the spread of infection.​

    This updated view on monkeypox symptoms in 2026 underscores the importance of recognizing the full clinical spectrum, including the characteristic contagious rash and emerging signs. Public awareness and timely medical care remain critical to controlling mpox outbreaks and safeguarding community health.

    Frequently Asked Questions

    1. What vaccines are currently recommended for monkeypox prevention in 2026?

    Vaccination remains one of the most effective prevention measures against monkeypox. The JYNNEOS vaccine is widely recommended, especially for those at higher risk of exposure, with two doses administered four weeks apart for optimal protection. Some regions also use ACAM2000 and other vaccines authorized for outbreak response.​

    2. Can someone transmit monkeypox if they have no visible rash or symptoms?

    Yes, it is possible for infected individuals to transmit mpox virus before symptoms appear or even with very mild symptoms that go unnoticed. This asymptomatic or presymptomatic transmission underscores the importance of awareness and preventive measures such as vaccination and avoiding close contact with potentially infected individuals.​

    3. What hygiene practices help reduce the transmission of mpox?

    Frequent handwashing with soap and water or alcohol-based hand sanitizers is critical. Avoiding direct contact with lesions or contaminated materials, wearing masks in crowded or healthcare settings, and maintaining clean living environments are recommended to minimize the risk of exposure to the contagious rash and respiratory droplets.​

    4. How are healthcare settings managing infection control for monkeypox patients?

    Healthcare providers implement strict infection prevention and control protocols including the use of personal protective equipment (PPE), careful cleaning and disinfection of surfaces, proper handling of contaminated linens and waste, and isolation of patients until their contagious rash fully resolves. These measures help prevent secondary transmission in clinical settings.



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  • How Misinterpreting Data Fuels Fake Science News and How to Spot It

    How Misinterpreting Data Fuels Fake Science News and How to Spot It

    In the digital age, the accurate interpretation of scientific data is more critical than ever, yet science misinformation continues to spread widely. This misinformation, often fueled by the misinterpretation of data, can distort public understanding, cause harm, and undermine trust in credible science.

    By exploring how data misuse fuels fake science news and misinformation, this article aims to equip readers with the tools to interpret data correctly and identify misleading information confidently.

    What Is Data Misinterpretation in Science?

    Data misinterpretation occurs when scientific findings or statistics are misunderstood, presented out of context, or selectively reported. This can happen accidentally through errors or a lack of scientific literacy, or intentionally to push specific agendas. Misinterpreted data leads to misinformation when claims presented contradict the accepted scientific consensus or oversimplify complex findings.

    For instance, cherry-picking favorable results or ignoring uncertainty can distort the reality of a scientific issue. It is crucial to distinguish misinformation, false or misleading information spread without harmful intent, from disinformation, which is deliberately deceptive, and fake science news, which deliberately fabricates or misrepresents scientific facts.​

    Why Does Data Misinterpretation Lead to Misinformation?

    The rapid spread of information through social media and other online platforms accelerates the sharing of misinterpreted data. Sensationalized headlines, oversimplified summaries, or the omission of important methodological details make science news more attention-grabbing but less accurate.

    This competition for human attention prioritizes shocking or emotionally charged content over nuanced truth. As a result, misinformation rooted in misunderstood scientific data can quickly become dominant in public discourse. This phenomenon not only misleads individuals but also erodes confidence in science itself, making collective action on important issues such as public health and climate change more challenging.​

    How Can You Spot Misinterpreted Data or Fake Science News?

    Critical thinking and careful evaluation are key to recognizing faulty interpretations of data. Here are some tips:

    • Verify Original Sources: Ensure the data comes directly from reputable scientific studies or institutions, rather than secondary summaries.
    • Context Matters: Assess whether the data are presented in their full context, including sample size, methods, limitations, and uncertainty.
    • Beware Cherry-Picking: Look out for the selective use of data points that support a claim while ignoring contradictory evidence.
    • Credibility Check: Consider the expertise and reliability of the source reporting the scientific claims.
    • Statistical Literacy: Understand basic statistics to spot misuse, such as confusing correlation with causation or misunderstanding p-values.
    • Sensational Headlines: Be cautious of oversimplified or dramatic titles that may misrepresent the actual findings.​

    What Are Common Signs of Science Misinformation?

    Fake science news or misinformation often resembles legitimate scientific reporting but lacks rigor. Common signs include exaggerated claims, ignoring contradictory data, and reliance on anecdotal evidence.

    Misinformation frequently uses complex jargon to sound authoritative but does not explain the underlying data or methodology. It may also exploit societal fears or biases to gain traction, leading to the spread of falsehoods that appear plausible but are factually incorrect.​

    How Can Interpreting Data Correctly Improve Science Communication?

    Enhancing scientific literacy and data interpretation skills improves the public’s ability to discern credible science from misinformation. Scientific communication benefits when complex data is explained accurately, including both the strengths and uncertainties of the findings.

    Educators, journalists, and scientists can help by using clear language, providing context, and promoting skepticism toward unverified claims. Tools like critical appraisal checklists and inoculation against misinformation tactics help build resilience against fake science news. These efforts support informed decision-making and foster trust in scientific institutions.​

    What Are the Challenges in Combating Science Misinformation?

    Misinformation thrives in a fast-changing digital environment marked by algorithmic amplification and echo chambers. Social media bots and coordinated campaigns can rapidly spread disinformation. Additionally, gaps in public access to reliable scientific information, as well as language or cultural barriers, exacerbate the problem.

    Correcting misinformation is difficult since repeated exposure strengthens false beliefs, and retractions rarely reach as wide an audience. Finally, societal mistrust and political polarization pose significant hurdles to effective science communication and to the mitigation of misinformation.​

    Data misinterpretation is a major driver of science misinformation and fake science news, posing considerable challenges to public understanding and trust in science. By recognizing the signs of misinterpreted data and adopting critical evaluation strategies, individuals can better navigate the complex information landscape.

    Strengthening science education and promoting transparent, accurate scientific communication are essential to combating misinformation and building a society that values evidence-based knowledge.

    This comprehensive approach supports the goal of ensuring that the public has access to truthful and reliable scientific information, empowering informed choices on critical issues affecting health and the environment in today’s information age.

    Frequently Asked Questions

    1. How does science misinformation impact the economy?

    Science misinformation disrupts markets, damages brand reputations, and increases costs for fact-checking and misinformation policing, leading to financial losses for businesses.​

    2. Are certain communities more vulnerable to science misinformation?

    Yes, groups facing language barriers, low digital literacy, or systemic mistrust are more exposed and susceptible to science misinformation.​

    3. What role does social media play in spreading fake science news?

    Social media amplifies fake science news through sharing, algorithm-driven content, and echo chambers, making misinformation spread faster and wider.​

    4. How effective are fact-checking and psychological inoculation in combating science misinformation?

    Fact-checking and inoculation help correct false beliefs and build resistance, but face challenges such as limited reach and varying audience susceptibility.



    Originally published on Science Times

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