covid-19

Covid-19 Update

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In an article published on October 5th, the Oklahoma State Department of Health updated their recommendations for quarantine and isolation guidelines and for testing for Covid-19.

Viral testing that detects the SARS-CoV-2 (Covid-19) RNA is recommended to diagnose acute infection.  The specimen is obtained by nasal swab and results are usually available in about 24 hours.

Antibody testing, performed on blood specimens including finger stick tests, is not FDA-approved for the diagnosis of acute infection.  These tests provide little information to the individual tested, but when results are available from a large number of people, antibody tests provide public health officials with important information for assessing transmission rates in the general population.

Viral testing is recommended for:

  • Individuals with signs or symptoms consistent with Covid-19

  • Asymptomatic individuals with recent known or suspected exposure to SARS-CoV-19

  • Individuals being tested for purposes of public health surveillance for SARS-CoV-19.  

Exposed individuals should complete a 14-day quarantine period following their last 

potential exposure.  A negative test obtained during the quarantine period does NOT mean that the individual will not develop illness later in the quarantine period.

Individuals exposed to Covid-19 should wait a minimum of 2 days following their first exposure before getting their first test.  If the first test is negative, serial, or repeated tests can be helpful, as recommended by the individual’s physician.

Individuals testing positive for Covid-19 and found to have mild to moderate symptoms should immediately begin isolation and remain in isolation for 10 days after the first onset of symptoms.  A test-based strategy for ending isolation is no longer recommended.

For more information: https://www.cdc.gov/coronavirus/2019-ncov/hcp/testing-overview.html

Why Herd Immunity Alone Is NOT a Viable Option for Eradicating COVID-19

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As discussed in an earlier blog, herd immunity occurs when enough people become immune to an infectious disease, either through infection or a vaccine.   A virus will die out once uninfected individuals are rarely in contact with those that are contagious.  But achieving herd immunity by natural transmission and without a vaccine is gained at the cost of many lives.

In August, the World Health Organization’s Michael Ryan warned journalists, “We are nowhere close to the levels of immunity required to stop this disease transmitting.  We need to focus on what we can actually do now to suppress transmission and not live in hope of herd immunity being our salvation.”

Experts believe that 60-70% of Americans will need to become immune before our country reaches herd immunity.  But, according to Dr. Dale Bratzler, OU Medicine enterprise chief quality officer, “Getting to herd immunity through infection is not the direction Oklahoma wants to go right now.”   To get there, nearly 2.4 million Oklahomans would have to contract COVID-19.  Using the lowest available estimate of case fatality rate of 0.3%, this would mean more than 7,000 Oklahomans (more than ten times the current total) would die, while using the state’s current 1.27% death rate means that more than 30,000 people would die.

It is believed that, even in the absence of a vaccine, the Brazilian city of Manaus has reached herd immunity.  As of August, researchers estimated that 66% of the population had been infected.  In that city of over 2 million people, 4,000 people have died so far, a high death toll for a city where only 6% of the population is over 60.  This experience reveals “that an unmitigated outbreak will lead to very significant levels of illness and mortality,” says Bill Hanage, an epidemiologist at Harvard University, “which is what we’ve been saying since February.”

So, the consensus opinion of experts, with which I also concur, is that we do need to achieve herd immunity against COVID-19 through a combination of natural immunity due to infection AND an aggressive vaccine program.  And, while awaiting the arrival of COVID-19 vaccines, we all need to continue to wear masks, wash our hands, avoid touching our faces and maintain social distancing when appropriate.  Frequent testing and contact tracing are also needed for those who have been exposed to COVID-19.  If we do these things we will save thousands if not millions of lives.

For more information check these links

https://www.thelancet.com/journals/lancet/article/PIIS0140-67362031924-3/fulltext

https://www.inquirer.com/health/coronavirus/covid-coronavirus-herd-immunity-vaccine-20200924.html

COVID-19 in Children, Teens and Young Adults

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Children and teens can get COVID-19.  While most have mild symptoms or none at all, these groups can spread the virus that causes COVID-19 to others, including older adults,  who may be more susceptible to its effects.  And children can get severely ill, and may require hospitalization, intensive care or even the use of a ventilator.  

Who’s most at risk of acquiring the infection?  The highest risk of infection is in communities with a sizable outbreak, when people spend long amounts of time in closed, unventilated spaces where other people close by are talking or otherwise emitting virus-laden vapor, and  where people aren’t wearing masks. 

Severe illness from COVID-19 is more likely if affected youth and young adults have:

  • Asthma

  • Diabetes

  • Genetic, neurologic conditions

  • Heart disease since birth

  • Immunosuppression (weakened immune system due to certain medical conditions or being on medications that weaken the immune system)

  • Medical complexity (the presence of multiple chronic conditions that affect many parts of the body and require technology and other significant supports for daily life)

  • Obesity

Infants and young children can develop a serious condition known as multisystem inflammatory syndrome that can affect the heart, lungs, kidneys, brain, skin, eyes, or gastrointestinal organs.

Young adults age 18-34, in whom the numbers of COVID-19 cases have been rising rapidly, are also at risk for complications from COVID-19, especially if they fall into one or more of the groups detailed above.  When young adults are hospitalized due to symptoms of the infection, 21% require ICU admission, 10% require mechanical ventilation (the use of a ventilator) and 2.7% die.

Young adults are also more likely than children or adults 65 and older to develop prolonged, post COVID-19 infection symptoms.  Termed “long-haulers,” these patients can suffer from a diabolical grab bag of symptoms, including chronic fatigue, shortness of breath, unrelenting fevers, gastrointestinal problems, lost sense of smell, hallucinations, short-term-memory loss, bulging veins, bruising, gynecological problems, and erratic heartbeat. 

Symptoms of Covid-19 are similar in all age groups and include:

  • Fever

  • Cough

  • Shortness of breath or difficulty breathing

  • Fatigue (tiredness)

  • Sore throat

  • Runny or stuffy nose

  • Muscle pain or body aches

  • Headache

  • Vomiting and/or diarrhea.

  • Significant loss of taste and/or smell

If you think you might be infected with COVID-19 seek medical advice about testing and treatment.

COVID-19 affects all age groups, can be mild or deadly at any age, and can cause prolonged symptoms even after recovery from the acute illness.  Our best current protections are to wear masks when appropriate, avoid crowds, wash our hands frequently, avoid touching our faces and maintain social distancing in public.  The use of vaccines that will become available in the coming months will greatly help to further mitigate the spread of this disease.

For more information: 

https://www.cdc.gov/coronavirus/2019-ncov/daily-life-coping/children/symptoms.html

Vaccines: How They're Developed, How They Work and When We Can Expect a COVID Vaccine

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By Dr. Andrea Klemes , MDVIP

Since the coronavirus pandemic began in early 2020, we've heard a lot about vaccines. There have been promises for quick vaccine development as well as warnings about how long it really takes to develop a safe, effective vaccine. 

You’ve also probably heard that a coronavirus vaccine is necessary for us to return to normal. The good news? Surprising progress has been made in creating vaccines for COVID-19. As of now, there are more than 160 vaccines in various stages of development, and many are already into the human testing phase. While the path to success is still uncertain, never in human history have so many scientists and resources been devoted to a single public health crisis. 

In July, multiple vaccine manufacturers released preliminary data from phase 1 studies that showed new vaccines are well tolerated and created antibodies. This is good news because it shows success in human subjects; in phase 1 trials, small groups of people receive the vaccine. The vaccine is currently in a later phase of development, where it is being tested on thousands of people. 

While it’s good news, there’s a long way to go. Here’s a quick primer on how vaccines work, how they’re developed and where we stand developing a vaccine for the current coronavirus outbreak.

How Vaccines Work

Vaccines work by mimicking a virus or bacteria that enters the immune system to build up antibodies. Ironically, vaccines are one of our oldest modern medical treatments. The first effective vaccination — to smallpox — was developed in the late 18th century. Over the last 220 years, scientists have advanced the process and effectiveness for vaccines. 

Modern vaccines are simple in concept: Create a synthetic compound that behaves like a real live pathogen that doesn’t cause illness. The compound will instead provoke the immune system to create antibodies that teach the body to react quickly and forcefully if the real pathogen invades the body. 

Antibodies are an essential part of your immune system. When a pathogen, like bacteria or a virus, invades your body, antibodies bind to the invader and neutralize it, minimizing its damage. Your body came with some antibodies, which were passed from your mother. But most antibodies are developed over time when you’re exposed to pathogens. Vaccines make that natural process happen without infecting you with a real virus or bacteria.

How Vaccines Are Made

There are four basic types of vaccines, but regardless of the type, the process to produce safe and effective vaccines is typically long and difficult. When we’re not in crisis mode, vaccine labs can take anywhere from 10 to 15 years to develop a new vaccine. Of course, when we’re in the throes of a pandemic, labs generally move quicker. For example, during the mumps outbreak, a vaccine was generated in four years – the quickest in U.S. history.

Labs are currently working on an even faster timetable, with hopes that a COVID-19 vaccine might be available by the end of 2020 or by the middle of next year. 

The reason it takes so long it that there are five phases of vaccine development:

  • Exploration: In this stage, drug companies investigate different approaches to the vaccine. Historically, this phase lasts between two and four years; however, evolving technology has help quicken the pace of this phase for some vaccines, including COVID-19. Another factor that has helped speed up the exploratory stage of the COVID-19 vaccine is information sharing among scientists; for example, scientists genetically mapped the virus as early as January — something that would have taken much longer 10 or 20 years ago. Also, since COVID-19 is similar to SARS — another coronavirus that caused a six-month pandemic in 2003 — scientists working on the COVID-19 vaccine were able to learn those working on the SARS vaccine — a significant head start.     

  • Preclinical: Once researchers develop a vaccine candidate, it’s tested in cell cultures and animals to see if it triggers an immune response without damaging cells. This takes about a year. And if the vaccine doesn’t work, researchers circle back to the exploration phase. But it is successful, it moves on the testing phase. 

  • Testing: Vaccines are tested through clinical trials – research studies that evaluate the effectiveness and safety of vaccines, medications, medical devices, surgical procedures or behavioral interventions on a group of people. Most trials start with a small group people (phase 1), and they go well, are expanded to include a moderate size group of people (phase 2) and then a large group (phase 3). Of course, if issues arise during clinical trials, the vaccine reverts to the preclinical phase.  

  • Regulatory review: If clinical trials go well, the drug company submits a Biologics License Application and product label for the vaccine. In the United States, applications and labels are sent to the U.S. Food and Drug Administration (FDA). In the U.S., this process takes about 10 months, although in a circumstance such as the COVID-19 pandemic, the process will probably be accelerated. 

  • Production: Once the drug manufacturers have been given a green light, they can begin producing the vaccine. In the U.S., the FDA continues overseeing the production of the vaccine. 

Where COVID-19 Vaccines Stand

At the end of July there were 23 vaccines in clinical testing and another 137 in pre-clinical development, according to the World Health Organization. 

Dr. Erica Saphire, an infectious disease authority and professor at La Jolla Institute for Immunology, recently told MDVIP affiliates that the earliest a vaccine may be available is January 2021, but it's more likely that a viable vaccine won’t be available until July 2021 or later. Even when one is available, it will take time to get the vaccine manufactured and distributed. Of course, once a vaccine is available, healthcare workers, first responders and those at the highest risk – nursing home patients, for example — will probably be the first to have access to the vaccine. 

Until a vaccine is available, continue to take precautions such as wearing a face mask and social distancing to lower your risk of contracting COVID-19. And continue working closely with your MDVIP-affiliated physician to help you control chronic conditions and maintain a strong immune system that can lower your chances of developing serious complications should you catch COVID-19.
 

COVID-19: Why Do Some People Develop Life Threatening Complications?

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By Janet Tiberian, MA, MPH, CHES

Since early 2020, medical and public health professionals have been scrambling to understand COVID-19. So far, a majority of those whose infections were confirmed with testing — 80 percent — had mild symptoms and recovered with little medical intervention, which is obviously great news. But 15 percent developed serious symptoms and another 5 percent had life-threatening symptoms, which experts attributed to having an underlying condition. According to the CDC, the most common underlying health conditions involved in severe COVID-19 cases are: 

Cardiovascular disease - 32 percent 
Diabetes - 30 percent 
Chronic lung disease - 18 percent

The CDC reported that if you are hospitalized, your chances of being moved into the intensive care unit (ICU) are higher than 50 percent.(There are risk factors beyond your control that also up your risk for complications: The greatest number of severe cases, requiring hospitalizations, occurred among people older than 50, according to study published in The Lancet Infectious Diseases. And a study published in Nature found that men and racial and ethnic minorities also were more vulnerable.)

If you have cardiovascular disease, diabetes or chronic lung disease like chronic asthma, chronic bronchitis or emphysema, it’s important to understand how complications can arise if you have contracted COVID-19 and some steps you can take to help lower your risk of developing severe complications.  

Cardiovascular Disease and Risk for COVID-19 Complications

If you have cardiovascular disease, your risk for a heart attack hikes seven times following a viral infection. Why? Viruses promote inflammation, which can inflame the heart muscle (myocarditis), disrupting its ability to pump blood and throwing off normal heart rhythm. Inflammation also stimulates fatty plaques that have accumulated along the inner surface of heart vessels to dislodge, forming a partial or full blockage of the blood vessel. As a result, oxygen-rich blood is cut off from heart, causing heat cells to die -- which damages the heart -- and raising the risk for a heart attack.  Inflammation also fosters blood clotting, while restricting body’s ability to dissolve clots. Again, this raises your risk for a heart attack (or stroke). And inflammation can lead to breathing complications, ultimately making the heart work harder and damaging the heart muscle.“Managing cardiovascular disease and its risk factors such as high blood pressure, high LDLs and triglycerides, smoking and obesity should be a priority right now,” says Bernard Kaminetsky, MD, medical director, MDVIP. “There are too many serious complications associated with COVID-19 and vascular issues. Make sure you visit your doctor regularly, take your medications as prescribed and live a heart-healthy lifestyle.”

Diabetes and Risk for COVID-19 Complications

People with diabetes, in general, are much more likely to experience life-threatening complications of COVID-19. Whether you have type 2 or type 1 diabetes, the key to lowering your risk for complications from COVID-19 is keeping your diabetes under control, according to the American Diabetes Association. High blood sugar can affect the body’s ability to fight off infection. And viruses can often cause blood sugar spikes, creating diabetic complications and leaving the body weaker in its fight against infection.Viral infections also cause inflammation in people with diabetes — which can exacerbate complications. Finally, older people with diabetes often have other illnesses like heart disease – the number one complication of diabetes – that put them at additional risk. “The best advice I can give people with diabetes is to work with your doctor to keep it under control,” says Kaminetsky. “Well-managed diabetes tends to reduce the risk for severe complications.” 

Lung Disease and Risk for COVID-19 Complications

Chronic lung conditions such as asthma, bronchitis, emphysema, cystic fibrosis and pulmonary fibrosis tend to increase inflammation, lower immunity, trigger lung microbiome imbalances, cause lung damage and produce excessive mucus. And if you contract a respiratory virus like COVID-19, more inflammation is generated and the air sacs of the lungs fill with fluid, raising the risk for acute respiratory distress syndrome — or ARDS — a life-threatening breathing condition. Fluid-filled air sacs also means less oxygen can be transferred into the blood, making the heart work harder to deliver oxygenated blood to organs, potentially damaging the heart muscle. Experts also believe ACE2 receptors are to blame. ACE2 receptors are protein that live on the surface of cells throughout the body, including the respiratory tract. SARS-CoV-2, the virus that causes COVID-19, replicates and spreads throughout your body by injecting its genetic material into ACE2 receptors. Some studies have found people who smoke and those with chronic obstructive pulmonary disorder have more ACE2 receptors than people without lung disease, which puts them at greater risk for COVID-19 complications.“Pulmonary patients should adhere to the standard advice for minimizing their COVID-19 risk, plus follow their treatment plans to the letter and keep their immune systems strong by eating plenty of vegetables and fruit, getting between seven and eight hours of sleep, exercising regularly and managing stress,” Kaminetsky says. 

Work with your primary care physician to diagnose, treat and control chronic conditions. Because they see fewer patients, MDVIP-affiliated physicians like Dr. Brent Laughlin have more time to work with patients who have chronic conditions like diabetes, heart disease and chronic lung conditions.

The Oklahoma State Medical Association Urges Caution, Common Sense to Prevent Spread of COVID-19 at Large Gatherings

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Oklahoma City (June 17, 2020) – While the state gears up for more large events, including Saturday’s campaign rally for President Trump, the Oklahoma State Medical Association is urging people to use caution and common sense to decrease infection spread during public gatherings. The medical community’s concern is prompted by recent COVID-19 spikes throughout Oklahoma, some of which have been traced to large gatherings and a loosening of public health restrictions as Oklahoma completes its final phase of re-opening.

As Tulsa prepares for the upcoming Presidential visit, the state is dealing with a significant spike in the number of positive coronavirus cases. In fact, the Oklahoma State Health Department has reported almost 1,300 new cases this past week alone. Over the weekend, public health officials in Tulsa implored event organizers to reconsider hosting large gatherings that could contribute to even more disease spread.

“Though the desire to participate in the political process is commendable, it is certainly our hope that state and national leaders will heed the warnings of the public health community and work with both Mayor Bynum and the Tulsa County Health Department to find ways to mitigate health risks while preserving the right to peaceably assemble. This could include moving the venue outdoors, having multiple smaller venue events, and having a virtual attendance option” said George Monks, M.D., president of the Oklahoma State Medical Association. “However, if events like these are going to proceed, we strongly encourage those who choose to gather to implement common- sense measures, such as wearing face masks, maintaining as much distance as possible from others and using hand sanitizer or washing frequently. In addition, the duration of such events should be kept to a minimum in order to lower possible risk of virus transmission.”

In addition to addressing the need for caution surrounding large events, Dr. Monks also called for Oklahomans to help prevent the everyday spread of coronavirus by embracing common-sense guidelines from the CDC, which include wearing masks in public and cleaning hands frequently.“

The climb in positive numbers over the six weeks since the state began reopening have shown that this virus is still very active. While it is necessary for Oklahomans to leave the house for shopping, doctors’ visits and work, it is also important to be mindful not only of your own health but also that of those in your community. When faced with overwhelming odds, Oklahomans work together for the betterment of our communities, emerging from crisis even stronger than before. This weekend, the eyes of the world will be on Tulsa, and this is our opportunity to once again embrace the Oklahoma Standard by working together to protect the health of our fellow Oklahomans.”

The state’s largest physician advocacy group, the Oklahoma State Medical Association represents over 4,000 physicians, residents and medical students.

Media Contact: Jennifer Dennis-Smith dennis-smith@okmed.org 405-412-2540