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Covid cases rising again: India Records 12,847 New Covid Cases In 24 Hours is it a wave?

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The beyond couple of days have seen a progressive rise in Covid cases in India, with 12,213 new cases recorded on June 16—a 39 percent surge from the other day. This is the most elevated spike in cases since mid-February and the initial time since February 26 that day today numbers crossed the 10,000 mark. Two states are seeing a critical jump in numbers — Maharashtra and Kerala. While Maharashtra recorded 4,024 new cases, Kerala saw 3,488 new infections. Together, they had the largest number of largest cases as on June 16.

But experts say this isn’t a ‘wave’ rather an endemic spike, which will go back and forth frequently since Covid-19 neither disappeared nor is probably going to. While India had a break from big numbers, the world has been reeling under the onslaught of Omicron’s sub-variants. Curiously, the way that India was hit by a BA.2 variant wave, whose later sub-variants are now causing surges in South Africa and the US, could be one reason we haven’t seen a comparable spike. It could also simply underreporting of numbers as many currently really like to step through a home test, which frequently goes unrecorded. “People are not wearing masks or keeping up with social distancing. Many don’t want to take their booster dose. Subsequently, when the past immunity disappears or new variants come up, we will see a rise,” says Dr Farah Ingale, internal medicine specialists at Fortis Hospital in Navi Mumbai’s Vashi.

The circumstance in Mumbai is worrying. As per BMC (Brihanmumbai Municipal Corporation) information, everyday cases in the city rise by just about 950% from mid-May to June 12. In excess of 100 Covid patients were hospitalized on June 12 in Mumbai, the most noteworthy single-day figure in four months. The city has additionally revealed three cases of the BA.4 variants and one of the BA.5 variants, and reportedly also of BA.2.12.1—all sub-variants of Omicron that have caused waves in different regions of the world. Specialists say this could be an warning sign for other cities too.

Whether there is a wave or not, doctors say the pandemic is still on and Covid is out there —evolving, infecting and claiming lives. Given the advances in medical understanding of the infection, alongside the developing accessibility and viability of Covid vaccines, the world is presently obviously better ready to take on Covid. However, it stays fundamental that we don’t underestimate the virus, or our wellbeing, for granted and keep on following Covid-appropriate behaviour.

India reported at least 12,847 new Covid cases as of now, carrying the country’s COVID-19 count to 4,32,70,577.
India’s dynamic COVID-19 caseload at present stands at 63,063, the Health Ministry said.
With 14 new Covid-related fatalities on Friday, nation’s absolute number of deaths rise to 5,24,817.
With 7,985 recoveries as of now, the absolute recoveries have reached 4,26,82,697.
The everyday positivity rate remains at 2.35 percent while the week after week positivity rate at 2.38 percent. The national recovery rate was 98.65 percent. The cumulative Covid vaccine doses administered across India has exceeded 195.67 crore.

Health

Nutrition and Its Role in Preventing Chronic Diseases

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Nutrition plays a pivotal role in maintaining overall health and preventing chronic diseases. The food we consume directly impacts our body’s ability to function optimally and ward off illnesses. Chronic diseases such as heart disease, diabetes, obesity, and certain types of cancer are closely linked to dietary habits. By adopting a balanced and nutritious diet, individuals can significantly reduce their risk of developing these conditions and improve their quality of life.

Understanding Chronic Diseases and Their Dietary Links

Chronic diseases are long-term health conditions that often develop gradually and persist for years. While genetics and environmental factors contribute to their onset, lifestyle choices—especially diet—play a significant role. Some key dietary factors influencing chronic disease risk include:

  • Excessive Calorie Intake: Overeating leads to obesity, which is a major risk factor for diabetes, heart disease, and certain cancers.
  • High Saturated and Trans Fat Consumption: These fats contribute to high cholesterol levels and increase the risk of cardiovascular diseases.
  • Excessive Sugar and Refined Carbohydrates: These can lead to insulin resistance and type 2 diabetes.
  • Low Fiber Intake: Insufficient dietary fiber is linked to digestive issues, high cholesterol, and increased risk of colon cancer.
  • Inadequate Micronutrients: Deficiencies in vitamins and minerals weaken the immune system and impair bodily functions.

Key Nutritional Strategies for Preventing Chronic Diseases

  1. Adopting a Balanced Diet: A well-rounded diet that includes fruits, vegetables, whole grains, lean proteins, and healthy fats provides essential nutrients and minimizes disease risk.
  2. Increasing Fiber Intake: Consuming fiber-rich foods such as whole grains, legumes, and vegetables helps regulate blood sugar levels, lower cholesterol, and improve gut health.
  3. Limiting Sugar and Processed Foods: Reducing intake of sugary drinks, snacks, and highly processed foods can prevent weight gain and lower the risk of metabolic disorders.
  4. Choosing Healthy Fats: Incorporating unsaturated fats from sources like nuts, seeds, and olive oil supports heart health while avoiding trans fats found in fried and processed foods.
  5. Maintaining Proper Hydration: Drinking enough water supports metabolic processes and helps maintain healthy weight.
  6. Monitoring Portion Sizes: Eating appropriate portions prevents overeating and helps maintain a healthy body weight.

Evidence-Based Benefits of Proper Nutrition

  1. Reduced Risk of Heart Disease: Diets rich in omega-3 fatty acids, fiber, and antioxidants help reduce cholesterol and blood pressure.
  2. Improved Glycemic Control: Balanced meals with low glycemic index foods prevent blood sugar spikes and reduce the risk of diabetes.
  3. Weight Management: Healthy eating habits help achieve and maintain an ideal weight, minimizing the risk of obesity-related diseases.
  4. Lower Cancer Risk: Antioxidants found in fruits and vegetables combat oxidative stress, reducing the risk of certain cancers.
  5. Enhanced Longevity: Nutrient-dense diets promote overall health and increase life expectancy.

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Poor Sleep During Pregnancy to Problems with the Development of the Child: Study

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According to a recent study in the Journal of Clinical Endocrinology and Metabolism, pregnant women who don’t get enough sleep are more likely to give birth to infants who have delayed neurodevelopment.

According to the study, babies born to pregnant women who slept fewer than seven hours a day on average had serious neurodevelopmental problems, with boys being especially at risk. Pregnancy-related sleep deprivation has been associated with impairments in the children’s emotional, behavioral, motor, cognitive, and language development.

Additionally, elevated C-peptide levels in the umbilical cord blood of these kids were discovered, which suggests that insulin manufacturing has changed. One result of the pancreas’ production of insulin is C-peptide.

Additionally, the study demonstrated that disorders like impaired glucose tolerance, insulin resistance, and gestational diabetes—all of which were previously linked to inadequate sleep during pregnancy—can affect a child’s neurodevelopment.

The study team clarified that maternal glucose metabolism during pregnancy may influence fetal insulin secretion, which in turn may effect neurodevelopment, even if they were unable to conclusively demonstrate that sleep deprivation actually causes neurodevelopmental abnormalities.

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Heart Shape and Genetic Risk for Cardiovascular Diseases are Linked in a Study

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A recent international study found that genetics plays a role in the architecture of the heart and might be used to predict the risk of cardiovascular illnesses.

Researchers from Queen Mary University of London, King’s College London, University College London, University of Zaragoza, and Complexo Hospitalario Universitario A Coruña are the first to use machine learning and advanced 3D imaging to investigate the genetic basis of the left and right ventricles of the heart.

Previous studies mostly concentrated on the size, volume, and individual chambers of the heart. By examining both ventricles simultaneously, the team was able to capture the heart’s more complex, multifaceted form.

This novel method of investigating shape has improved our knowledge of the molecular processes connecting heart shape to cardiovascular illness and resulted in the identification of new genes linked to the heart.

One of the main causes of death in the UK and around the world is cardiovascular disease. The results of this study may alter the way that the risk of heart disease is assessed. A risk score for heart disease can be derived from genetic data pertaining to heart shape, thereby enabling earlier and more individualized evaluation in clinical settings.

This study offers fresh insights into our understanding of the risk of heart disease. Although we’ve long known that the heart’s size and volume are important, we’re learning more about genetic risks by looking at the heart’s shape. This finding may give doctors useful new resources to help them make more accurate and early disease predictions.

Patricia B. Munroe, a Queen Mary molecular medicine professor and study co-author

The scientists created 3D models of the ventricles using cardiovascular MRI images from more than 40,000 people from the UK Biobank, a comprehensive biological database and research resource that contains genetic and health data from half a million UK participants. They discovered 11 shape characteristics that best capture the main variances in heart shape through statistical analysis.

45 distinct regions of the human genome were connected to various heart morphologies by further genetic study. It was previously unknown that 14 of these regions influenced cardiac characteristics.

Dr. Richard Burns, a statistical geneticist at Queen Mary, stated, “This study sets an important foundation for the exploration of genetics in both ventricles” “The study confirms that combined cardiac shape is influenced by genetics, and demonstrates the usefulness of cardiac shape analysis in both ventricles for predicting individual risk of cardiometabolic diseases alongside established clinical measures.”

In addition to opening the door to more research on how these findings could be applied in clinical practice, this study represents an exciting new chapter in our understanding of how genetics affect the heart and could ultimately help millions of people at risk of heart disease.

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