“I feel like I’m being poisoned.” I will never forget the night I told my parents that I thought my breast implants were the cause of a decade’s worth of unexplained medical phenomena.

What started as a sudden onset of panic attacks 7 years ago transformed into a laundry list of debilitating mental and physical ailments that I was forced to cope with daily.

The day before my explant surgery, I tallied 49 symptoms that I was actively experiencing. I had received misdiagnoses of mental health conditions, such as panic disorder, anxiety disorder, depression, PTSD, and most recently, bipolar disorder.

I struggled with bouts of extreme insomnia, where I wouldn’t sleep at all for 2 to 3 days on end.

Doctors had prescribed pretty much every combination of SSRIs, benzos, stimulants, and sleep medications on the market. The slew of debilitating side effects from these drugs landed me in the ER too many times to count.

Physically, I experienced an onset of sudden food intolerances and allergies that caused digestive issues, such as acid reflux, GERD, and gastritis.

I lived with symptoms of autoimmune diseases, such as joint pain, swollen lymph nodes, and liver and kidney dysfunction, all with no conclusive diagnosis.

My feet and hands turned purple and were ice cold to the touch. My hair fell out in clumps in the shower, and the strands that remained were dry and brittle. My blood tests showed abnormal liver and kidney function, and my kidney grew a mass twice the size of itself. I experienced other unexplained symptoms, such as skin rashes, migraines, brain fog, and numbness and tingling in extremities.

The surgery changed everything

My entire life suffered from the toxic blow of this unexplained condition. Before I got sick, I was a college senior at USC, on the Dean’s list, with an abundance of friends. I was in a healthy relationship and involved in every extracurricular activity I could fit into my overpacked schedule.

I was headed to Nashville upon graduation to pursue my dream job of working in the entertainment industry. I was free of mental and physical ailments. It was the last time I can remember being effortlessly happy. I continually asked myself, “What happened to my old life? Will I ever get it back?”

From the outside looking in, it’s hard to understand. From the inside looking out, it’s hard to explain.

It’s difficult to put into words the dichotomy my life had become because, on the outside, I looked fine, but inside, my body was waging war on itself. The truth is that this illness took everything from me that I once recognized, admired, and valued about myself. My life bore no resemblance to the version I left behind almost a decade ago.

I spent entire days stuck in bed, ruminating on to-do lists I didn’t have the energy or motivation to begin, let alone complete. I got so anxious at times that I wanted to crawl out of my skin. Each day I woke up with the hope that today would be the beginning of a new start. I put in what felt like 150% effort, while I watched others coast along.

I went to bed every night with the notion that I hadn’t achieved nearly enough. I chalked it up to another day inside a body that wouldn’t work and a mind that couldn’t stop ruminating on the pain.

I fight for my health every day in a way most people don’t understand. I’m not lazy; I am a warrior.

At the height of my illness, I was taking five prescription medications to manage the mental symptoms alone. I was taking meds to wake up, meds to concentrate, meds to relax, and meds to fall asleep.

My entire life was chemically induced, and none of my emotions felt like my own. I was also a regular in the emergency room, thanks to the physical symptoms that accompanied this illness.

Most recently, I was brought in for stroke symptoms and unexplained bleeding from my mouth. After hours of bloodwork and imaging, I was sent home with a generic, temporary Band-Aid in the form of steroids, Benadryl, and a prescription for Xanax, but no answers.

From rock bottom came the answers

I am learning to be thankful for my rock bottom, as it was the catalyst that brought me the answers I was seeking.

I went home that night, and at an all-time low, I put out a desperate Facebook post explaining my situation. I was met with a reply from a college friend, directing me to Breast Implant Illness and Healing by Nicole.

After hours of scrolling through tens of thousands of women’s stories that sounded all too familiar to me, I reached a verdict. I was sure that my breast implants were the culprit.

“Save yourself a surgery,” the plastic surgeon who fitted my implants told me when I enquired about having my 7-year-old Mentor-brand, textured, silicone breast implants removed.

“I have been in practice for over 30 years, and you are the first person who has ever wanted them taken out. You aren’t going to like the way you look without them, and you will want them put back in.”

“I strongly believe that the proper removal of my breast implants was key to my recovery.”

I still have regrets about that day. After weeks of self-conducted research, I regret not bringing him the facts I had uncovered about certain implants. Some silicone breast implants contain carcinogens, neurotoxins, and cleaning agents, among other things.

Now, I don’t claim to have an MD, but it’s hard to believe that the almost identical symptoms that myself and thousands of other women with breast implants experienced were merely a coincidence.

There is a growing body of research suggesting that breast implants can cause autoimmune disorders in some women. The Food and Drug Administration (FDA) released a worldwide recall of Allergan textured breast implants last month in a bid “to protect women from breast implant-associated anaplastic large cell lymphoma.”

If you have breast implants, don’t panic. First, focus on identification of your symptoms and then move to explant.

I strongly believe that the proper removal of my breast implants was key to my recovery. An international list of recommended explant surgeons can be found here.

The detoxification process can take up to 2 years, so even though I have removed the source of my suffering, the symptoms still come and go like a clingy house guest who doesn’t pick up on social cues.

Recovery and rediscovering myself

I am now 2 months post-op and am already seeing improvements. Before my surgery, I had bloodwork done, and my liver enzymes were indicative of someone with lifelong alcohol dependency. Recently, my bloodwork has miraculously normalized.

The symptoms seem to be falling away one by one. The physical symptoms I mentioned, such as skin rashes, stroke symptoms, flu symptoms, and liver and kidney issues, have all gone. I have lost 30 pounds already, all of which was inflammation weight. I have even started weening myself off of antidepressants, as I feel so much stronger mentally.

For the first time in a decade, when I look in the mirror, I recognize the person staring back at me. We all have the same hours in a day, and this illness has taught me how to live them with purpose, to treasure every alert moment, and relish every second of pain free bliss. My perspective is shifting from hopeless to limitless.

The best part about recovery is when we get to rediscover ourselves, to find our passion, and to find our purpose.

I am still learning how to be thankful for my struggle because, without it, I wouldn’t have stumbled across my strength. I am learning that I’m not a victim for sharing my story, but a survivor setting the world on fire with my truth.

I am no longer ashamed of my journey, as I have emerged with an appreciation, a sensitivity, and an understanding of life that fills me with compassion, gentleness, and a deep loving concern for others.

In a society that profits from your self-doubt, liking yourself is a rebellious act.

I have learned the hard way never to let external factors dictate my sense of self-worth. If you needed to hear this today, you are beautiful just the way you are.

Your sheer existence is a miracle, and the sooner you accept that and start creating your life accordingly, the better.

In this special feature, we collate some of the most intriguing hypertension studies from 2019. We particularly focus on nutrition, risk factors, and hypertension’s relationship with dementia.

Today, in the United States, around 1 in 3 adults has high blood pressure, which doctors also call hypertension.

Hypertension increases the risk of cardiovascular events, such as stroke and coronary disease, and, if doctors don’t treat it, it can reduce lifespan.

Because it is worryingly prevalent, and because the physical ramifications can be significant, scientists are plowing a great deal of effort into understanding hypertension.

Although people first identified hypertension as a medical condition thousands of years ago, scientists are still picking away at the details.

Research that scientists completed in 2019 has thrown out some exciting and, in some cases, unexpected findings. For instance, a paper appearing in February concluded that, for women over 80 years of age, having “normal” blood pressure had an increased risk of mortality when compared with individuals with high blood pressure.

Elsewhere, Greek scientists concluded that napping might help reduce blood pressure. “Midday sleep appears to lower blood pressure levels at the same magnitude as other lifestyle changes,” explains one of the researchers, Dr. Manolis Kallistratos.

Another surprising study, which scientists presented at the 83rd Annual Scientific Meeting of the Japanese Circulation Society, concluded that needing to urinate multiple times at night might be a sign of hypertension.

The role of nutrition

The food that we eat has a huge impact on our overall health; that goes without saying. The America Heart Association, for instance, suggest that eating a diet rich in fruits and vegetables and avoiding products with high levels of salt and fat can help keep blood pressure in check.

Over the past few years, interest in nutrition, in general, has skyrocketed. More and more, scientists are focusing on individual foods or food compounds that can directly benefit health. So, although poor diet is a well-known risk factor for hypertension, researchers in 2019 drilled down deeper.

Specific foods and supplements

One study appearing in 2019 investigated the impact of consuming walnuts on blood pressure. It concluded that the individuals who ate an experimental walnut-heavy diet experienced a significant reduction in blood pressure.

In these types of studies, it is worth digging a little deeper; often, industry or organizations who might stand to benefit from positive results are funding them. The walnut study above, for instance, was partly funded by the California Walnut Commission.

This observation does not mean that we should dismiss the results out of hand, but it provides pause for thought.

Another recent study concentrated on spirulina, which is the dried biomass of a bacterium called Spirulina platensis. Manufacturers can add it to foods, and some people take it as a supplement.

Earlier experiments hinted at spirulina’s potential to reduce hypertension, and in the most recent study, they attempted to find out why this might be.

The scientists concluded that a protein that the digestion of spirulina produces causes blood vessels to relax. The authors hope that this protein, known as SP6, might one day be useful in the treatment of hypertension.

Preservatives, additives, and water

Rather than focus on specific foods, a further study looked at the impact of buying food from local retailers rather than supermarkets.

The authors theorized that by eating local produce, individuals would avoid consuming the various preservatives and additives that keep food “fresh” over long distances.

Although the study was relatively small, the authors found that after 6 months, those who consumed local produce had lower levels of visceral fat, improved depression scores, and reduced systolic blood pressure.

Approaching from a different angle, a team of scientists recently asked whether drinking water that is high in minerals might reduce blood pressure.

To investigate, they focused on people living in a coastal region of Bangladesh. Drinking water there varies in salinity. In areas of high salinity, the water contains greater quantities of sodium, which we know increases blood pressure. However, the same water also includes more magnesium and calcium, both of which reduce blood pressure.

The authors concluded that higher salinity levels decreased blood pressure overall; they write that “the [blood pressure]-lowering effects of [calcium] and [magnesium] counteracted the harmful effects of [sodium].

Causes and risk factors

Some risk factors for hypertension are fairly well established; they include drinking excessive amounts of alcohol, smoking tobacco, stress, and obesity. However, because high blood pressure is so common, there are likely to be many more factors at play.

Similarly, although scientists know which lifestyle and dietary factors influence blood pressure, they are not entirely sure how they cause the changes.

Understanding why and how blood pressure arises in some people and not others is essential and could, potentially, lead to innovative ways of treating or preventing hypertension.

Some scientists are exploring possible risk factors which, at face value, seem unlikely. For instance, one paper, appearing in the Journal of Public Health in June, examined the role of where people live.

Earlier studies found an association between exposure to air pollution and hypertension risk, and this latest work confirms those earlier suspicions and takes it a step further.

As expected, the researchers found a relationship between air pollution and hypertension; however, the increase in risk was only significant for those who were living in multi-family homes, such as blocks of flats.

The authors believe that this might be due to several factors, for instance, living in close quarters with other people may be more stressful or more noisy. This study provides a glimpse of the complex realm of potential elements that might influence blood pressure.

Oral hygiene

Bizarrely, one group of scientists recently investigated how mouthwash might influence hypertension risk.

Publishing their findings in the journal Frontiers in Cellular and Infection Microbiology, the authors conclude that mouthwash kills “good bacteria” in the mouth. These good bacteria produce nitric oxide (NO), which is important for blood vessel health.

NO acts as a vasodilator, which means it causes the muscles that line blood vessels to relax, thereby widening the vessels and reducing blood pressure.

In particular, the scientists concentrated on the chemical chlorhexidine, which they found in some mouthwashes.

According to the authors, they demonstrated that “twice-daily chlorhexidine usage was associated with a significant increase in systolic blood pressure after 1 week of use, and recovery from use resulted in an enrichment in nitrate-reducing bacteria on the tongue.”

Still focusing on the oral region, a 2019 review looked for links between gum disease and hypertension. They showed that individuals with severe periodontitis — a form of gum disease — had a 49% increased risk of hypertension.

Senior author Prof. Francesco D’Aiuto explains their results in a nutshell: “We observed a linear association — the more severe periodontitis is, the higher the probability of hypertension.”

The role of zinc

Another project investigated the role of zinc in maintaining blood pressure at healthy levels. Over the years, researchers have noted links between low zinc levels and an increased risk of high blood pressure, but the precise mechanism has been tough to pin down.

The latest research identified the key player in this interaction between zinc and blood pressure; according to the authors, the sodium chloride cotransporter (NCC) in the kidney is the lynchpin. The NCC is responsible for pumping sodium back into the body, thereby preventing it from being excreted in the urine.

Zinc interacts with the NCC: when zinc is present, the NCC is less active, meaning that the body retains less sodium. This is important because high sodium levels — from consuming too much salt, for instance — are factors in increasing the risk of hypertension.

The authors hope that this new knowledge will help improve treatment and write:

“Understanding the specific mechanisms by which [zinc deficiency] contributes to [blood pressure] dysregulation may have an important effect on the treatment of hypertension in chronic disease settings.”

Hypertension and dementia

Scientists have identified a relationship between hypertension and vascular dementia. The association makes sense because vascular dementia can occur following stroke, and hypertension is a risk factor for stroke.

However, it also appears that hypertension might increase the risk of other types of dementia, including Alzheimer’s disease.

A study appearing in June this year found that a common blood pressure drug — nilvadipine — slowed the progress of Alzheimer’s disease by improving blood flow in the brain.

Specifically, the research team showed that people who took the medication had a 20% increase in blood flow in the hippocampus, a brain region vital for memory and learning, in comparison to those who did not take nilvadipine.

Patterns throughout life

Other scientists have looked at fluctuations in blood pressure and their possible role in dementia. For instance, one investigation that recruited participants who were living with Alzheimer’s disease found that the condition progressed quicker in those whose blood pressure fluctuated most.

“More fluctuations [in blood pressure] might affect whether cognitive function declines more slowly or rapidly.”

Senior author Dr. Jurgen Claassen

With a similar theme, another group of scientists observed the pattern of blood pressure across decades. The authors summarize their findings:

“[A] pattern of sustained hypertension from middle to late life and a pattern of midlife hypertension followed by late-life hypotension were associated with an increased risk for subsequent dementia, compared with participants who maintained normal blood pressure.”

Another project that charted hypertension over a lifespan found that individuals with high or rising blood pressure between 36 and 53 years of age were more likely to have white matter lesions and a smaller brain volume in later life.

The authors hope that these findings will inspire both doctors and the public to check and take charge of their blood pressure sooner rather than later.

As 2020 rolls into view, hypertension is sure to stay high on the medical research agenda. As science gradually untangles hypertension’s causes and mechanisms, managing and minimizing this highly prevalent condition must draw ever closer.

In a new study, researchers have found the mechanisms through which high levels of blood lipids could lead to inflammation and, over time, more serious consequences, such as organ damage.

Inflammation is both caused by and a risk factor for many conditions. These include obesity, diabetes, and cardiovascular problems.

One of the greatest reasons for inflammation is infection. When the body senses that dangerous foreign microorganisms, such as bacteria, have entered it, it unleashes an immune response. Inflammation is a key part of that response.

This turn of events is natural and usually helps maintain a state of health. Sometimes, however, inflammation occurs for reasons other than infection, and it may persist abnormally, leading to different types of damage.

In a new study, the results of which feature in the journal Nature Immunology

,Dr. Timo Speer and colleagues — from Saarland University in Saarbrücken, Germany — closed in on a factor that they say causes unhealthful inflammation: high triglyceride levels, which are a measure of blood fat.

The study uncovered the mechanisms through which high blood fat can lead to inflammation — which, in turn, can affect other biological processes, potentially leading to organ and blood vessel damage.

High blood fats linked to higher death risk

The researchers conducted their study first in vitro, and then in mouse models, before studying the relevant mechanisms in human participants. They focused their research on a key inflammasome complex: nod-like receptor family pyrin domain-containing 3 (NLRP3).

This is a protein complex that plays a crucial role in activating the body’s immune response. Dr. Speer and team wanted to find out what could mistakenly set NLRP3 into motion. Their preliminary efforts revealed that abnormally high lipid levels — and, specifically, high levels of triglycerides — were responsible for harmful inflammation.

How? The researchers found that apolipoprotein C3 — a protein the liver secretes that is also present on triglyceride-rich lipoproteins — activates NLRP3, thereby triggering inflammation.

In mouse models, high apolipoprotein C3 concentrations led to organ damage, the researchers saw.

Working with human participants — some with chronic kidney disease and some with a history of heart attack — the researchers found that higher apolipoprotein C3 may contribute to kidney damage as well as vascular problems.

High apolipoprotein C3 levels were also associated with an increased risk of mortality from all causes.

“Our work has involved studying a special group of lipids, the triglycerides. We’ve been able to show that when these naturally occurring fats are present at elevated concentrations they can alter our defence cells in such a way that the body reacts as if responding to a bacterial infection,” explains Dr. Speer.

“This leads to inflammation, which, if it becomes chronic, can damage the kidneys or cause atherosclerosis — the narrowing of arteries due to a buildup of deposits on the inner arterial wall. And atherosclerosis is one of the main causes of heart attacks and strokes.”

Dr. Timo Speer

These findings, the researchers argue, suggest that by targeting excessive apolipoprotein C3, specialists may eventually be able to fight unhealthful inflammation.

It will also be important, they say, to focus on the ways in which diet can affect levels of blood fats. “Put another way, we can now say that adopting a low fat diet can significantly extend the life expectancy of high risk patients, such as those with diabetes or those whose blood pressure is too high,” notes Dr. Speer.

This is because blood triglyceride levels tend to increase in people with high fat diets.

“As a result of biochemical changes, the triglycerides develop toxic properties that activate the body’s innate immune system. This initiates a series of self-destructive processes, including those in which the walls of the arteries are attacked and the blood vessels become occluded, reducing blood flow,” Dr. Speer adds.

Nevertheless, he concludes that he and his colleagues “hope that their results will help in developing new strategies for treating and preventing these life threatening diseases.”

Both flu (influenza) and cold are caused by viruses, and they can have similar symptoms. So how do we know if a person has the flu or a bad cold? In this article, we explain the differences.

Cold and influenza are the most common illnesses in humans.

. Every year, 5-20 percent of the population of America develop flu symptoms.

The main difference between cold and flu is that, generally, symptoms of the flu are usually a lot more severe.

Each year, more than 200,000 people are hospitalized because of flu complications; flu is responsible for around 23,600 deaths every year.

Fast facts on colds vs. flu:

• Colds and flu share many of the same symptoms; the major difference being flu is often worse, and accompanied by a high fever.
• According to the Centers for Disease Control and Prevention (CDC), the average adult will have 2-3 colds every year.
• The rhinovirus is the most common cause of cold.

The difference between cold and flu

Cold and flu are caused by different viruses, and, in general, the symptoms of flu are worse. Also, there are less likely to be serious complications from cold, such as pneumonia and bacterial infections.

The main difference between cold and flu symptoms is that flu more commonly includes fever; the fever can be 100 degrees Fahrenheit or higher and last for 3-5 days.

The extreme fatigue associated with flu can persist for weeks. Cold symptoms are generally milder and last about 1 week.

Also, runny nose or nasal congestion is more common with cold than flu.

Vomiting is another key difference; vomiting is not normally associated with the common cold but can be present in flu.

Although the differences above are generally true, without conducting special tests, it is impossible to know for sure whether it is flu or cold. For instance, it is possible to have flu without fever.

What is a cold?

Almost everybody is familiar with the sensation of having a cold. Colds affect both warm and cool climates equally, and the average person will have had many colds from infancy all the way until later life.

Symptoms include a runny nose, sore throat, coughing and sneezing, watery eyes, a headache, and body aches. There is no cure, except for resting and drinking plenty of fluids, but the cold should pass within 7-10 days.

There is normally no need to visit a doctor, but a person with a weakened immune system is more prone to developing pneumonia as a complication

To avoid catching or spreading a cold, people should wash their hands regularly and make sure they sneeze into a tissue or handkerchief, or into their elbow. This is the most hygienic as it stops the spread of germs, which cannot live on clothing or surfaces like they can on skin.

What is flu?

There are three types of flu virus, influenza A, influenza B, and influenza C. Types A and B are the ones that cause seasonal epidemics. One of the key symptoms of flu is feeling feverish or having a temperature of 100 degrees Fahrenheit or above. However, not everyone with the flu will have a fever.

Other symptoms include:

• headaches or body aches
• vomiting, nausea, and possibly diarrhea, especially in children
• a sore throat and a cough
• fatigue
• chills and shivering
• a congested or runny nose

A common cold is less likely to cause a high fever. With a cold, symptoms such as a runny nose or throat irritation will normally improve within a few days.

How to treat flu

The CDC note that the majority of people who have the flu do not need medical attention. Most can remain at home and avoid contact with other people to prevent the disease from spreading. However, the following treatments are available:

• Over-the-counter medications – these can reduce fever. Tylenol can help people with flu feel more comfortable while they recover. Tylenol is also available to purchase online.
• Prescription antiviral flu drugs – these are also available from a physician. They are for people who are at high risk of serious complications and are not normally necessary for effective treatment. They can only be given within a certain amount of time from symptom onset.
• Home remedies – to alleviate symptoms, home remedies such as steam inhalation, nourishing foods like chicken soup, keeping warm, and other comfort measures can be used.

A physician will be able to decide if antivirals are needed. People who tend to be at greater risk include infants under the age of 2, people aged 65 years and older, and pregnant women.

Emergency warning signs for flu

Patients should seek medical help if they notice any of the emergency warning signs.

Warning signs in infants include difficulty breathing, having no appetite, and not producing tears when they cry, or having fewer wet diapers than usual.

Severe symptoms in older children include:

• breathing problems
• bluish skin color
• not drinking enough fluids
• not waking up or interacting
• being so irritable that they do not want to be held
• fever with a rash

If flu-like symptoms improve but then return with fever and a worse cough, the parent should consult a physician.

Anti-flu vaccines and other types of protection

The best way to protect against the flu is by having an annual vaccination, as this helps the body to build up the immune system so that it can fight off the virus more quickly.

The flu vaccine is recommended during pregnancy as it has been proven safe. If flu occurs during pregnancy, it can have serious complications for the unborn child and the mother.