Pulmonology

SAN FRANCISCO – A review of lung cancer cases in New York suggests that 2011 guidelines issued by the National Comprehensive Cancer Network (NCCN) have made little difference in addressing ethnic and socioeconomic disparities in lung cancer diagnosis. The review showed some progress; however, whites were still more likely than blacks and Hispanics to be diagnosed with early-stage disease even after the guidelines were released. The researchers also found a reduced incidence of lung cancer only in whites.

The guidelines call for CT screening for smokers aged 55-74 years that have a 30 pack-year history within the past 15 years and were based on a lung cancer screening trial showing that annual low-dose CT led to a 20% reduction in lung cancer deaths, compared with chest x-ray (N Eng J Med. 2011;365:395-409).

Nonwhites “aren’t always exposed to screening opportunities, and may be taken care of by providers who haven’t necessarily bought into screening or aren’t necessarily aware of it. So the downstream effects of the lack of access to screening hurts them doubly, because they’re diagnosed later and they also have disparities in access to treatment,” said Elizabeth David, MD, in an interview. Dr. David is an associate professor of surgery of University of Southern California, Los Angeles. She comoderated a session at the annual congress of the American College of Surgeons, where the research was presented.

The findings underscore the need to get the word out to primary care providers in all communities that catching lung cancer early can make all the difference to patients. “The more we can do to talk about lung cancer as a treatable disease and a cancer that can become a chronically managed medical problem for patients, rather than a death sentence, which it has the misperception of being, the more we can encourage people to seek treatment when they have a symptom, instead of being afraid and doing nothing,” said Dr. David.

The researchers considered metropolitan New York to be a good test case to examine the impact of the screening guidelines since it is socioeconomically and racially diverse. “New York presents a microcosm of what’s going on nationally in other urban areas,” said Tamar Nobel, MD, from Mount Sinai Hospital, New York, who presented the study.

The researchers analyzed records from the New York State Cancer Registry from the period 2008-201 and compared that with data from 2012-2015 (total, n = 18,284). The incidence of lung cancer declined among whites from the first period to the second, at an average annual percent change of –1.5% (95% confidence interval, –1.0% to –2.0%). A similar result was seen in Hispanics (–1.7%; 95% CI, –0.4% to –2.9%), but not among blacks (–1.2%; not significant). There was an increase among Asians/Pacific Islanders (+1.4%; 95% CI, 0.6% to 2.2%).

There were also inequalities when it came to the odds of a stage I diagnosis. Although the percentages increased in whites (+3.5%; 95% CI, 0.6%-6.4%) and blacks (+6.0%; 95% CI, 2.3%-9.7%), the median percentage was higher among whites (27.6% versus 18.2%; no overlap among 95% CIs; odds ratio, 0.62; 95% CI, 0.56-0.68). Hispanics and Asians/Pacific Islanders experienced no significant changes in their odds of a stage I diagnosis, and both groups remained significantly less likely than whites to be diagnosed with stage I disease (OR, 0.72 and 0.86, respectively, both significant).

No funding was disclosed. Dr. David and Dr. Nobel have no relevant financial disclosures.

SOURCE: Nobel T et al. ACS Clinical Congress 2019. Abstract, doi: 10.1016/j.jamcollsurg.2019.08.607.

SAN FRANCISCO – A review of lung cancer cases in New York suggests that 2011 guidelines issued by the National Comprehensive Cancer Network (NCCN) have made little difference in addressing ethnic and socioeconomic disparities in lung cancer diagnosis. The review showed some progress; however, whites were still more likely than blacks and Hispanics to be diagnosed with early-stage disease even after the guidelines were released. The researchers also found a reduced incidence of lung cancer only in whites.

The guidelines call for CT screening for smokers aged 55-74 years that have a 30 pack-year history within the past 15 years and were based on a lung cancer screening trial showing that annual low-dose CT led to a 20% reduction in lung cancer deaths, compared with chest x-ray (N Eng J Med. 2011;365:395-409).

Nonwhites “aren’t always exposed to screening opportunities, and may be taken care of by providers who haven’t necessarily bought into screening or aren’t necessarily aware of it. So the downstream effects of the lack of access to screening hurts them doubly, because they’re diagnosed later and they also have disparities in access to treatment,” said Elizabeth David, MD, in an interview. Dr. David is an associate professor of surgery of University of Southern California, Los Angeles. She comoderated a session at the annual congress of the American College of Surgeons, where the research was presented.

The findings underscore the need to get the word out to primary care providers in all communities that catching lung cancer early can make all the difference to patients. “The more we can do to talk about lung cancer as a treatable disease and a cancer that can become a chronically managed medical problem for patients, rather than a death sentence, which it has the misperception of being, the more we can encourage people to seek treatment when they have a symptom, instead of being afraid and doing nothing,” said Dr. David.

The researchers considered metropolitan New York to be a good test case to examine the impact of the screening guidelines since it is socioeconomically and racially diverse. “New York presents a microcosm of what’s going on nationally in other urban areas,” said Tamar Nobel, MD, from Mount Sinai Hospital, New York, who presented the study.

The researchers analyzed records from the New York State Cancer Registry from the period 2008-201 and compared that with data from 2012-2015 (total, n = 18,284). The incidence of lung cancer declined among whites from the first period to the second, at an average annual percent change of –1.5% (95% confidence interval, –1.0% to –2.0%). A similar result was seen in Hispanics (–1.7%; 95% CI, –0.4% to –2.9%), but not among blacks (–1.2%; not significant). There was an increase among Asians/Pacific Islanders (+1.4%; 95% CI, 0.6% to 2.2%).

There were also inequalities when it came to the odds of a stage I diagnosis. Although the percentages increased in whites (+3.5%; 95% CI, 0.6%-6.4%) and blacks (+6.0%; 95% CI, 2.3%-9.7%), the median percentage was higher among whites (27.6% versus 18.2%; no overlap among 95% CIs; odds ratio, 0.62; 95% CI, 0.56-0.68). Hispanics and Asians/Pacific Islanders experienced no significant changes in their odds of a stage I diagnosis, and both groups remained significantly less likely than whites to be diagnosed with stage I disease (OR, 0.72 and 0.86, respectively, both significant).

No funding was disclosed. Dr. David and Dr. Nobel have no relevant financial disclosures.

SOURCE: Nobel T et al. ACS Clinical Congress 2019. Abstract, doi: 10.1016/j.jamcollsurg.2019.08.607.

SAN FRANCISCO – A review of lung cancer cases in New York suggests that 2011 guidelines issued by the National Comprehensive Cancer Network (NCCN) have made little difference in addressing ethnic and socioeconomic disparities in lung cancer diagnosis. The review showed some progress; however, whites were still more likely than blacks and Hispanics to be diagnosed with early-stage disease even after the guidelines were released. The researchers also found a reduced incidence of lung cancer only in whites.

The guidelines call for CT screening for smokers aged 55-74 years that have a 30 pack-year history within the past 15 years and were based on a lung cancer screening trial showing that annual low-dose CT led to a 20% reduction in lung cancer deaths, compared with chest x-ray (N Eng J Med. 2011;365:395-409).

Nonwhites “aren’t always exposed to screening opportunities, and may be taken care of by providers who haven’t necessarily bought into screening or aren’t necessarily aware of it. So the downstream effects of the lack of access to screening hurts them doubly, because they’re diagnosed later and they also have disparities in access to treatment,” said Elizabeth David, MD, in an interview. Dr. David is an associate professor of surgery of University of Southern California, Los Angeles. She comoderated a session at the annual congress of the American College of Surgeons, where the research was presented.

The findings underscore the need to get the word out to primary care providers in all communities that catching lung cancer early can make all the difference to patients. “The more we can do to talk about lung cancer as a treatable disease and a cancer that can become a chronically managed medical problem for patients, rather than a death sentence, which it has the misperception of being, the more we can encourage people to seek treatment when they have a symptom, instead of being afraid and doing nothing,” said Dr. David.

The researchers considered metropolitan New York to be a good test case to examine the impact of the screening guidelines since it is socioeconomically and racially diverse. “New York presents a microcosm of what’s going on nationally in other urban areas,” said Tamar Nobel, MD, from Mount Sinai Hospital, New York, who presented the study.

The researchers analyzed records from the New York State Cancer Registry from the period 2008-201 and compared that with data from 2012-2015 (total, n = 18,284). The incidence of lung cancer declined among whites from the first period to the second, at an average annual percent change of –1.5% (95% confidence interval, –1.0% to –2.0%). A similar result was seen in Hispanics (–1.7%; 95% CI, –0.4% to –2.9%), but not among blacks (–1.2%; not significant). There was an increase among Asians/Pacific Islanders (+1.4%; 95% CI, 0.6% to 2.2%).

There were also inequalities when it came to the odds of a stage I diagnosis. Although the percentages increased in whites (+3.5%; 95% CI, 0.6%-6.4%) and blacks (+6.0%; 95% CI, 2.3%-9.7%), the median percentage was higher among whites (27.6% versus 18.2%; no overlap among 95% CIs; odds ratio, 0.62; 95% CI, 0.56-0.68). Hispanics and Asians/Pacific Islanders experienced no significant changes in their odds of a stage I diagnosis, and both groups remained significantly less likely than whites to be diagnosed with stage I disease (OR, 0.72 and 0.86, respectively, both significant).

No funding was disclosed. Dr. David and Dr. Nobel have no relevant financial disclosures.

SOURCE: Nobel T et al. ACS Clinical Congress 2019. Abstract, doi: 10.1016/j.jamcollsurg.2019.08.607.

The Centers for Disease Control and Prevention has announced a possible breakthrough in the hunt for the source of a nationwide outbreak of e-cigarette, or vaping, product use–associated lung injuries (EVALI): vitamin E acetate found in lung fluid of victims.

goldy/Thinkstockphotos

In a telebriefing on Friday, Anne Schuchat, MD, the CDC’s principal deputy director, provided an update on recent lab findings and on case and death numbers reported so far to the CDC. The findings and more case information were published in the Mortality and Morbidity Weekly Report.

At the telebriefing, Dr. Schuchat stated that CDC has received 29 samples of bronchoalveolar lavage (BAL) fluid from EVALI patients from 10 states and that vitamin E acetate was identified in all samples. Vitamin E acetate has already been found in some vaping devices and the discovery of the chemical in the lungs of patients increases the likelihood that this toxin is at least one source of EVALI. These findings are the first to link substances found in vaping products with biological samples from patients hospitalized with EVALI.

Tetrahydrocannabinol (THC) was found in 23 of 28 samples tested and nicotine was found in 16 of 26 samples tested. Other diluents and additives of concern (such as plant oils, medium chain triglyceride oil, petroleum distillates, and diluent terpenes) were not detected in BAL fluid specimens from EVALI patients.

BAL fluid specimens were collected from hospitalized EVALI patients in the course of their treatment, although not for the specific purpose of the CDC investigation, and sent to the CDC by public health laboratories and health departments in California, Connecticut, Hawaii, Illinois, Maryland, Michigan, Minnesota, Texas, Utah, and Wisconsin for analysis.

Dr. Schuchat stated that, as of Nov. 5, there have been 2,051 cases of EVALI reported to the CDC and 39 EVALI patients have died, with other deaths still under investigation as possibly related to EVALI. She said that the trend in new EVALI cases reported appears to be decreasing, but some states continue to see new cases. She cautioned that the lab findings of vitamin E acetate in BAL fluid do not rule out other possible compounds or ingredients that may contribute to EVALI and said the investigation will continue.
 

E-cigarette user survey

During the telebriefing, Jennifer Layden, MD, PhD, chief medical officer and state epidemiologist with the Illinois Department of Public Health (IDPH), gave an update on her department’s efforts to investigate vaping behaviors that might have led to EVALI in e-cigarette users and also to obtain more information on sources of vaping devices that could be linked to EVALI. The data were also reported in a MMWR.

The IDPH conducted an online public survey during September 2019 to October 2019 targeting e-cigarette, or vaping, product users in Illinois. The survey was promoted via social media on the IDPH website, local health departments, and other outlets. The survey yielded 4,631 respondents who answered questions about the frequency of vaping, sources of supply, and types of substances used. The investigators were then able to compare vaping-use habits and behaviors with similar information gleaned from EVALI patients.

Among survey respondents, 94% reported using any nicotine-containing e-cigarette, or vaping, products in the past 3 months; 21% used any THC-containing products; and 11% used both THC-containing products and nicotine-containing products. THC-containing product use was highest among survey respondents aged 18-24 years (36%) and decreased with increasing age. Compared with these survey respondents, EVALI patients were more likely to report exclusive use of THC-containing products (adjusted odds ratio, 2.0; 95% confidence interval, 1.1-3.6), frequent use (more than five times per day) of these products (aOR, 3.1; 95% CI, 1.6-6.0), and obtaining these products from informal sources, such as from a dealer, off the street, or from a friend (aOR, 9.2; 95% CI, 2.2-39.4). In addition, “the odds of using Dank Vapes, a class of largely counterfeit THC-containing products, was also higher among EVALI patients” (aOR, 8.5; 95% CI, 3.8-19.0), according to the MMWR.
 

Recommendations

CDC recommends that people should not buy any type of e-cigarette, or vaping, products, particularly those containing THC, off the street. They should also refrain from modifying or adding any substances to e-cigarette, or vaping, products that are not intended by the manufacturer, including products purchased through retail establishments.

Dr. Layden concluded, “we are in a better place today than we were a few weeks ago in terms of having one very strong culprit of concern based on the lung fluid testing,” but since the specific substances causing lung injury are not yet known, the only way to assure that individuals are not at risk while the investigation continues is to consider refraining from use of all vaping products.

For more information and resources visit For the Public, For Healthcare Providers, and For Health Departments pages, as well as the CDC’s Publications and Resources page.

[email protected]

The Centers for Disease Control and Prevention has announced a possible breakthrough in the hunt for the source of a nationwide outbreak of e-cigarette, or vaping, product use–associated lung injuries (EVALI): vitamin E acetate found in lung fluid of victims.

goldy/Thinkstockphotos

In a telebriefing on Friday, Anne Schuchat, MD, the CDC’s principal deputy director, provided an update on recent lab findings and on case and death numbers reported so far to the CDC. The findings and more case information were published in the Mortality and Morbidity Weekly Report.

At the telebriefing, Dr. Schuchat stated that CDC has received 29 samples of bronchoalveolar lavage (BAL) fluid from EVALI patients from 10 states and that vitamin E acetate was identified in all samples. Vitamin E acetate has already been found in some vaping devices and the discovery of the chemical in the lungs of patients increases the likelihood that this toxin is at least one source of EVALI. These findings are the first to link substances found in vaping products with biological samples from patients hospitalized with EVALI.

Tetrahydrocannabinol (THC) was found in 23 of 28 samples tested and nicotine was found in 16 of 26 samples tested. Other diluents and additives of concern (such as plant oils, medium chain triglyceride oil, petroleum distillates, and diluent terpenes) were not detected in BAL fluid specimens from EVALI patients.

BAL fluid specimens were collected from hospitalized EVALI patients in the course of their treatment, although not for the specific purpose of the CDC investigation, and sent to the CDC by public health laboratories and health departments in California, Connecticut, Hawaii, Illinois, Maryland, Michigan, Minnesota, Texas, Utah, and Wisconsin for analysis.

Dr. Schuchat stated that, as of Nov. 5, there have been 2,051 cases of EVALI reported to the CDC and 39 EVALI patients have died, with other deaths still under investigation as possibly related to EVALI. She said that the trend in new EVALI cases reported appears to be decreasing, but some states continue to see new cases. She cautioned that the lab findings of vitamin E acetate in BAL fluid do not rule out other possible compounds or ingredients that may contribute to EVALI and said the investigation will continue.
 

E-cigarette user survey

During the telebriefing, Jennifer Layden, MD, PhD, chief medical officer and state epidemiologist with the Illinois Department of Public Health (IDPH), gave an update on her department’s efforts to investigate vaping behaviors that might have led to EVALI in e-cigarette users and also to obtain more information on sources of vaping devices that could be linked to EVALI. The data were also reported in a MMWR.

The IDPH conducted an online public survey during September 2019 to October 2019 targeting e-cigarette, or vaping, product users in Illinois. The survey was promoted via social media on the IDPH website, local health departments, and other outlets. The survey yielded 4,631 respondents who answered questions about the frequency of vaping, sources of supply, and types of substances used. The investigators were then able to compare vaping-use habits and behaviors with similar information gleaned from EVALI patients.

Among survey respondents, 94% reported using any nicotine-containing e-cigarette, or vaping, products in the past 3 months; 21% used any THC-containing products; and 11% used both THC-containing products and nicotine-containing products. THC-containing product use was highest among survey respondents aged 18-24 years (36%) and decreased with increasing age. Compared with these survey respondents, EVALI patients were more likely to report exclusive use of THC-containing products (adjusted odds ratio, 2.0; 95% confidence interval, 1.1-3.6), frequent use (more than five times per day) of these products (aOR, 3.1; 95% CI, 1.6-6.0), and obtaining these products from informal sources, such as from a dealer, off the street, or from a friend (aOR, 9.2; 95% CI, 2.2-39.4). In addition, “the odds of using Dank Vapes, a class of largely counterfeit THC-containing products, was also higher among EVALI patients” (aOR, 8.5; 95% CI, 3.8-19.0), according to the MMWR.
 

Recommendations

CDC recommends that people should not buy any type of e-cigarette, or vaping, products, particularly those containing THC, off the street. They should also refrain from modifying or adding any substances to e-cigarette, or vaping, products that are not intended by the manufacturer, including products purchased through retail establishments.

Dr. Layden concluded, “we are in a better place today than we were a few weeks ago in terms of having one very strong culprit of concern based on the lung fluid testing,” but since the specific substances causing lung injury are not yet known, the only way to assure that individuals are not at risk while the investigation continues is to consider refraining from use of all vaping products.

For more information and resources visit For the Public, For Healthcare Providers, and For Health Departments pages, as well as the CDC’s Publications and Resources page.

[email protected]

The Centers for Disease Control and Prevention has announced a possible breakthrough in the hunt for the source of a nationwide outbreak of e-cigarette, or vaping, product use–associated lung injuries (EVALI): vitamin E acetate found in lung fluid of victims.

goldy/Thinkstockphotos

In a telebriefing on Friday, Anne Schuchat, MD, the CDC’s principal deputy director, provided an update on recent lab findings and on case and death numbers reported so far to the CDC. The findings and more case information were published in the Mortality and Morbidity Weekly Report.

At the telebriefing, Dr. Schuchat stated that CDC has received 29 samples of bronchoalveolar lavage (BAL) fluid from EVALI patients from 10 states and that vitamin E acetate was identified in all samples. Vitamin E acetate has already been found in some vaping devices and the discovery of the chemical in the lungs of patients increases the likelihood that this toxin is at least one source of EVALI. These findings are the first to link substances found in vaping products with biological samples from patients hospitalized with EVALI.

Tetrahydrocannabinol (THC) was found in 23 of 28 samples tested and nicotine was found in 16 of 26 samples tested. Other diluents and additives of concern (such as plant oils, medium chain triglyceride oil, petroleum distillates, and diluent terpenes) were not detected in BAL fluid specimens from EVALI patients.

BAL fluid specimens were collected from hospitalized EVALI patients in the course of their treatment, although not for the specific purpose of the CDC investigation, and sent to the CDC by public health laboratories and health departments in California, Connecticut, Hawaii, Illinois, Maryland, Michigan, Minnesota, Texas, Utah, and Wisconsin for analysis.

Dr. Schuchat stated that, as of Nov. 5, there have been 2,051 cases of EVALI reported to the CDC and 39 EVALI patients have died, with other deaths still under investigation as possibly related to EVALI. She said that the trend in new EVALI cases reported appears to be decreasing, but some states continue to see new cases. She cautioned that the lab findings of vitamin E acetate in BAL fluid do not rule out other possible compounds or ingredients that may contribute to EVALI and said the investigation will continue.
 

E-cigarette user survey

During the telebriefing, Jennifer Layden, MD, PhD, chief medical officer and state epidemiologist with the Illinois Department of Public Health (IDPH), gave an update on her department’s efforts to investigate vaping behaviors that might have led to EVALI in e-cigarette users and also to obtain more information on sources of vaping devices that could be linked to EVALI. The data were also reported in a MMWR.

The IDPH conducted an online public survey during September 2019 to October 2019 targeting e-cigarette, or vaping, product users in Illinois. The survey was promoted via social media on the IDPH website, local health departments, and other outlets. The survey yielded 4,631 respondents who answered questions about the frequency of vaping, sources of supply, and types of substances used. The investigators were then able to compare vaping-use habits and behaviors with similar information gleaned from EVALI patients.

Among survey respondents, 94% reported using any nicotine-containing e-cigarette, or vaping, products in the past 3 months; 21% used any THC-containing products; and 11% used both THC-containing products and nicotine-containing products. THC-containing product use was highest among survey respondents aged 18-24 years (36%) and decreased with increasing age. Compared with these survey respondents, EVALI patients were more likely to report exclusive use of THC-containing products (adjusted odds ratio, 2.0; 95% confidence interval, 1.1-3.6), frequent use (more than five times per day) of these products (aOR, 3.1; 95% CI, 1.6-6.0), and obtaining these products from informal sources, such as from a dealer, off the street, or from a friend (aOR, 9.2; 95% CI, 2.2-39.4). In addition, “the odds of using Dank Vapes, a class of largely counterfeit THC-containing products, was also higher among EVALI patients” (aOR, 8.5; 95% CI, 3.8-19.0), according to the MMWR.
 

Recommendations

CDC recommends that people should not buy any type of e-cigarette, or vaping, products, particularly those containing THC, off the street. They should also refrain from modifying or adding any substances to e-cigarette, or vaping, products that are not intended by the manufacturer, including products purchased through retail establishments.

Dr. Layden concluded, “we are in a better place today than we were a few weeks ago in terms of having one very strong culprit of concern based on the lung fluid testing,” but since the specific substances causing lung injury are not yet known, the only way to assure that individuals are not at risk while the investigation continues is to consider refraining from use of all vaping products.

For more information and resources visit For the Public, For Healthcare Providers, and For Health Departments pages, as well as the CDC’s Publications and Resources page.

[email protected]

NEW ORLEANS – In the opinion of Paul A. Offit, MD, pushback against antivaccination campaigns and advocates is stronger than ever.

The shift began with the measles outbreak in Southern California in late 2014, he said. According to the Centers for Disease Control and Prevention, 125 measles cases with rash that occurred between Dec. 28, 2014, and Feb. 8, 2015, were confirmed in U.S. residents. Of these, 100 were California residents (MMWR. 2015 Feb 20;64[06];153-4).

“This outbreak spread ultimately to 25 states and involved 189 people,” Dr. Offit said at the annual meeting of the American Academy of Pediatrics. “It was in the news almost every day. As a consequence, there were measles outbreaks in New York, New Jersey, Florida, Oregon, and Texas, and Washington, which began to turn the public sentiment against the antivaccine movement.”

Even longstanding skeptics are changing their tune. Dr. Offit, professor of pediatrics in the division of infectious diseases at the Children’s Hospital of Philadelphia, cited a recent study from the Autism Science Foundation which found that 85% of parents of children with autism spectrum disorder don’t believe that vaccines cause the condition. “Although there will be parents who continue to believe that vaccines cause autism, most parents of children with autism don’t believe that,” he said. “Also, it’s a little hard to make your case that vaccines are dangerous and that you shouldn’t get them in the midst of outbreaks.”

Perhaps the greatest pushback against antivaccination efforts has been made in the legal arena. In 2019 alone, legislators in California banned parents from not vaccinating their kids because of personal beliefs, while lawmakers in New York repealed the religious exemption to vaccinate, those in Maine repealed the religious and philosophical exemption, those in New Jersey required detailed written explanation for religious exemption, and those in Washington State repealed the philosophical exemption for the MMR vaccine.

Pushback also is apparent on various social media platforms. For example, Dr. Offit said, Pinterest restricts vaccine search results to curb the spread of misinformation, YouTube removes ads from antivaccine channels, Amazon Prime has pulled antivaccination documentaries from its video service, and Facebook has taken steps to curb misinformation about vaccines. “With outbreaks and with children suffering, the media and public sentiment has largely turned against those who are vehemently against vaccines,” he said. “I’m talking about an angry, politically connected, lawyer-backed group of people who are conspiracy theorists, [those] who no matter what you say, they’re going to believe there’s a conspiracy theory to hurt their children and not believe you. When that group becomes big enough and you start to see outbreaks like we’ve seen, then it becomes an issue. That’s where it comes down to legislation. Is it your inalienable right as a U.S. citizen to allow your child to catch and transmit a potentially fatal infection? That’s what we’re struggling with now.”

When meeting with parents who are skeptical about vaccines or refuse their children to have them, Dr. Offit advises clinicians to “go down swinging” in favor of vaccination. He shared how his wife, Bonnie, a pediatrician who practices in suburban Philadelphia, counsels parents who raise such concerns. “The way she handled it initially was to do the best she could to eventually get people vaccinated,” he said. “She was successful about one-quarter of the time. Then she drew a line. She started saying to parents, ‘Look; don’t put me in a position where you are asking me to practice substandard care. I can’t send them out of this room knowing that there’s more measles out there, knowing that there’s mumps out there, knowing that there’s whooping cough out there, knowing that there’s pneumococcus and varicella out there. If this child leaves this office and is hurt by any of those viruses or bacteria and I knew I could have done something to prevent it, I couldn’t live with myself. If you’re going to let this child out without being vaccinated I can’t see you anymore because I’m responsible for the health of this child.’ With that [approach], she has been far more successful. Because at some level, if you continue to see that patient, you’re tacitly agreeing that it’s okay to [not vaccinate].”

In 2000, Dr. Offit and colleagues created the Vaccine Education Center at Children’s Hospital of Philadelphia, which provides complete, up-to-date, and reliable information about vaccines to parents and clinicians. It summarizes the purpose of each vaccine, and the relative risks and benefits in easy-to-read language. The CDC also maintains updated information about vaccines and immunizations on its web site. For his part, Dr. Offit tells parents that passing on an opportunity to vaccinate their child is not a risk-free choice. “If you choose not to get a vaccine you probably will get away with it, but you might not,” he said. “You are playing a game of Russian roulette. It may not be five empty chambers and one bullet, but maybe it’s 100,000 empty chambers and one bullet. There’s a bullet there.”

Dr. Offit reported having no relevant financial disclosures.

[email protected]

NEW ORLEANS – In the opinion of Paul A. Offit, MD, pushback against antivaccination campaigns and advocates is stronger than ever.

The shift began with the measles outbreak in Southern California in late 2014, he said. According to the Centers for Disease Control and Prevention, 125 measles cases with rash that occurred between Dec. 28, 2014, and Feb. 8, 2015, were confirmed in U.S. residents. Of these, 100 were California residents (MMWR. 2015 Feb 20;64[06];153-4).

“This outbreak spread ultimately to 25 states and involved 189 people,” Dr. Offit said at the annual meeting of the American Academy of Pediatrics. “It was in the news almost every day. As a consequence, there were measles outbreaks in New York, New Jersey, Florida, Oregon, and Texas, and Washington, which began to turn the public sentiment against the antivaccine movement.”

Even longstanding skeptics are changing their tune. Dr. Offit, professor of pediatrics in the division of infectious diseases at the Children’s Hospital of Philadelphia, cited a recent study from the Autism Science Foundation which found that 85% of parents of children with autism spectrum disorder don’t believe that vaccines cause the condition. “Although there will be parents who continue to believe that vaccines cause autism, most parents of children with autism don’t believe that,” he said. “Also, it’s a little hard to make your case that vaccines are dangerous and that you shouldn’t get them in the midst of outbreaks.”

Perhaps the greatest pushback against antivaccination efforts has been made in the legal arena. In 2019 alone, legislators in California banned parents from not vaccinating their kids because of personal beliefs, while lawmakers in New York repealed the religious exemption to vaccinate, those in Maine repealed the religious and philosophical exemption, those in New Jersey required detailed written explanation for religious exemption, and those in Washington State repealed the philosophical exemption for the MMR vaccine.

Pushback also is apparent on various social media platforms. For example, Dr. Offit said, Pinterest restricts vaccine search results to curb the spread of misinformation, YouTube removes ads from antivaccine channels, Amazon Prime has pulled antivaccination documentaries from its video service, and Facebook has taken steps to curb misinformation about vaccines. “With outbreaks and with children suffering, the media and public sentiment has largely turned against those who are vehemently against vaccines,” he said. “I’m talking about an angry, politically connected, lawyer-backed group of people who are conspiracy theorists, [those] who no matter what you say, they’re going to believe there’s a conspiracy theory to hurt their children and not believe you. When that group becomes big enough and you start to see outbreaks like we’ve seen, then it becomes an issue. That’s where it comes down to legislation. Is it your inalienable right as a U.S. citizen to allow your child to catch and transmit a potentially fatal infection? That’s what we’re struggling with now.”

When meeting with parents who are skeptical about vaccines or refuse their children to have them, Dr. Offit advises clinicians to “go down swinging” in favor of vaccination. He shared how his wife, Bonnie, a pediatrician who practices in suburban Philadelphia, counsels parents who raise such concerns. “The way she handled it initially was to do the best she could to eventually get people vaccinated,” he said. “She was successful about one-quarter of the time. Then she drew a line. She started saying to parents, ‘Look; don’t put me in a position where you are asking me to practice substandard care. I can’t send them out of this room knowing that there’s more measles out there, knowing that there’s mumps out there, knowing that there’s whooping cough out there, knowing that there’s pneumococcus and varicella out there. If this child leaves this office and is hurt by any of those viruses or bacteria and I knew I could have done something to prevent it, I couldn’t live with myself. If you’re going to let this child out without being vaccinated I can’t see you anymore because I’m responsible for the health of this child.’ With that [approach], she has been far more successful. Because at some level, if you continue to see that patient, you’re tacitly agreeing that it’s okay to [not vaccinate].”

In 2000, Dr. Offit and colleagues created the Vaccine Education Center at Children’s Hospital of Philadelphia, which provides complete, up-to-date, and reliable information about vaccines to parents and clinicians. It summarizes the purpose of each vaccine, and the relative risks and benefits in easy-to-read language. The CDC also maintains updated information about vaccines and immunizations on its web site. For his part, Dr. Offit tells parents that passing on an opportunity to vaccinate their child is not a risk-free choice. “If you choose not to get a vaccine you probably will get away with it, but you might not,” he said. “You are playing a game of Russian roulette. It may not be five empty chambers and one bullet, but maybe it’s 100,000 empty chambers and one bullet. There’s a bullet there.”

Dr. Offit reported having no relevant financial disclosures.

[email protected]

NEW ORLEANS – In the opinion of Paul A. Offit, MD, pushback against antivaccination campaigns and advocates is stronger than ever.

The shift began with the measles outbreak in Southern California in late 2014, he said. According to the Centers for Disease Control and Prevention, 125 measles cases with rash that occurred between Dec. 28, 2014, and Feb. 8, 2015, were confirmed in U.S. residents. Of these, 100 were California residents (MMWR. 2015 Feb 20;64[06];153-4).

“This outbreak spread ultimately to 25 states and involved 189 people,” Dr. Offit said at the annual meeting of the American Academy of Pediatrics. “It was in the news almost every day. As a consequence, there were measles outbreaks in New York, New Jersey, Florida, Oregon, and Texas, and Washington, which began to turn the public sentiment against the antivaccine movement.”

Even longstanding skeptics are changing their tune. Dr. Offit, professor of pediatrics in the division of infectious diseases at the Children’s Hospital of Philadelphia, cited a recent study from the Autism Science Foundation which found that 85% of parents of children with autism spectrum disorder don’t believe that vaccines cause the condition. “Although there will be parents who continue to believe that vaccines cause autism, most parents of children with autism don’t believe that,” he said. “Also, it’s a little hard to make your case that vaccines are dangerous and that you shouldn’t get them in the midst of outbreaks.”

Perhaps the greatest pushback against antivaccination efforts has been made in the legal arena. In 2019 alone, legislators in California banned parents from not vaccinating their kids because of personal beliefs, while lawmakers in New York repealed the religious exemption to vaccinate, those in Maine repealed the religious and philosophical exemption, those in New Jersey required detailed written explanation for religious exemption, and those in Washington State repealed the philosophical exemption for the MMR vaccine.

Pushback also is apparent on various social media platforms. For example, Dr. Offit said, Pinterest restricts vaccine search results to curb the spread of misinformation, YouTube removes ads from antivaccine channels, Amazon Prime has pulled antivaccination documentaries from its video service, and Facebook has taken steps to curb misinformation about vaccines. “With outbreaks and with children suffering, the media and public sentiment has largely turned against those who are vehemently against vaccines,” he said. “I’m talking about an angry, politically connected, lawyer-backed group of people who are conspiracy theorists, [those] who no matter what you say, they’re going to believe there’s a conspiracy theory to hurt their children and not believe you. When that group becomes big enough and you start to see outbreaks like we’ve seen, then it becomes an issue. That’s where it comes down to legislation. Is it your inalienable right as a U.S. citizen to allow your child to catch and transmit a potentially fatal infection? That’s what we’re struggling with now.”

When meeting with parents who are skeptical about vaccines or refuse their children to have them, Dr. Offit advises clinicians to “go down swinging” in favor of vaccination. He shared how his wife, Bonnie, a pediatrician who practices in suburban Philadelphia, counsels parents who raise such concerns. “The way she handled it initially was to do the best she could to eventually get people vaccinated,” he said. “She was successful about one-quarter of the time. Then she drew a line. She started saying to parents, ‘Look; don’t put me in a position where you are asking me to practice substandard care. I can’t send them out of this room knowing that there’s more measles out there, knowing that there’s mumps out there, knowing that there’s whooping cough out there, knowing that there’s pneumococcus and varicella out there. If this child leaves this office and is hurt by any of those viruses or bacteria and I knew I could have done something to prevent it, I couldn’t live with myself. If you’re going to let this child out without being vaccinated I can’t see you anymore because I’m responsible for the health of this child.’ With that [approach], she has been far more successful. Because at some level, if you continue to see that patient, you’re tacitly agreeing that it’s okay to [not vaccinate].”

In 2000, Dr. Offit and colleagues created the Vaccine Education Center at Children’s Hospital of Philadelphia, which provides complete, up-to-date, and reliable information about vaccines to parents and clinicians. It summarizes the purpose of each vaccine, and the relative risks and benefits in easy-to-read language. The CDC also maintains updated information about vaccines and immunizations on its web site. For his part, Dr. Offit tells parents that passing on an opportunity to vaccinate their child is not a risk-free choice. “If you choose not to get a vaccine you probably will get away with it, but you might not,” he said. “You are playing a game of Russian roulette. It may not be five empty chambers and one bullet, but maybe it’s 100,000 empty chambers and one bullet. There’s a bullet there.”

Dr. Offit reported having no relevant financial disclosures.

[email protected]

While lung cancer is generally on the decline among both sexes, men have a ways to go to catch up with women, according to the Centers for Disease Control and Prevention.

From 2007 to 2016, rates dropped among both sexes in metropolitan and nonmetropolitan areas, according to Mary Elizabeth O’Neil, MPH, and colleagues. Their report is in Morbidity and Mortality Weekly Report (MMWR Morb Mortal Wkly Rep. 2019 Nov 8;68[44];993-8). But lung cancer incidence in 2016 was still 40% higher among men than among women, said Ms. O’Neil, an epidemiologist at the CDC.

Rather than narrowly focusing on the “just stop smoking” message, “a comprehensive approach to lung cancer prevention and control includes such population-based strategies as screening for tobacco dependence, promoting tobacco cessation, implementing comprehensive smoke-free laws, testing all homes for radon and using proven methods to lower high radon levels, and reducing exposure to lung carcinogens such as asbestos.” According to the authors of the report, “increasing the implementation of these strategies, particularly among persons living in nonmetropolitan counties, might help to reduce disparities in the decline of lung cancer incidence.”

The recommendation is based on data extracted from the U.S. Cancer Statistics Database for 2007-2016. The data cover 97% of the population.

In nonmetropolitan counties in 2007, incidence rates among men were 60% higher (99 vs. 61 per 100,000). Although rates decreased in both sexes, they were still elevated compared with women in 2016 (82 vs. 58 per 100,000; 40%).

Over the 10-year period, the rate declined more among men than among women (–2.9% vs. –1.5%) in metropolitan areas. The pattern repeated in nonmetropolitan areas (–2.1% and –0.5%, respectively).

There were different declines in different age groups by region, the authors noted.

Men aged 45-54 years in metropolitan areas experienced the largest decline (–5.2%).

Among women, the largest decline occurred in metropolitan areas among those aged 35-44 years (–5%). In nonmetropolitan areas, women in this age group experienced a 3.6% decline and women aged 65-74 years, a 1.3% decline.

Among persons aged 35-54 years, incidence rates in nonmetropolitan and metropolitan counties did not differ by sex but were higher in nonmetropolitan counties than in metropolitan counties.

There were also overall changes in smoking patterns. According to 2017 data from the National Health Interview Survey data, more adults in metropolitan areas than nonmetropolitan areas smoked (23% versus 13%) but fewer had tried to quit (50% vs. 56%). Successful quitting attempts also were lower (5% vs. 9%).

Although it is a large contributing factor, smoking is not the only risk factor for lung cancer, the authors wrote. About 10%-15% of lung cancer patients have never smoked tobacco. Nonsmoked tobacco products and second-hand exposure to cigarette smoke are risks, as are indoor radon and asbestos exposure.

Clinicians can help improve this scenario by screening at each office visit, the authors said. The recommendation is based on U.S. Preventive Services Task Force guidance.

“Lung cancer screening is recommended for adults at high risk for developing lung cancer because of their age and cigarette smoking history. Screening efforts can identify lung cancer in its early stages and provide an important opportunity to promote tobacco smoking cessation.”

However, lack of insurance among residents of nonmetropolitan areas may hamper access to these services, they said. In those regions, “a higher percentage of residents aged less than 65 years report being uninsured compared with those in metropolitan areas.”

[email protected]

SOURCE: O’Neil ME et al. MMWR Morb Mortal Wkly Rep. 2019 Nov 8: 68(44);993-8.

While lung cancer is generally on the decline among both sexes, men have a ways to go to catch up with women, according to the Centers for Disease Control and Prevention.

From 2007 to 2016, rates dropped among both sexes in metropolitan and nonmetropolitan areas, according to Mary Elizabeth O’Neil, MPH, and colleagues. Their report is in Morbidity and Mortality Weekly Report (MMWR Morb Mortal Wkly Rep. 2019 Nov 8;68[44];993-8). But lung cancer incidence in 2016 was still 40% higher among men than among women, said Ms. O’Neil, an epidemiologist at the CDC.

Rather than narrowly focusing on the “just stop smoking” message, “a comprehensive approach to lung cancer prevention and control includes such population-based strategies as screening for tobacco dependence, promoting tobacco cessation, implementing comprehensive smoke-free laws, testing all homes for radon and using proven methods to lower high radon levels, and reducing exposure to lung carcinogens such as asbestos.” According to the authors of the report, “increasing the implementation of these strategies, particularly among persons living in nonmetropolitan counties, might help to reduce disparities in the decline of lung cancer incidence.”

The recommendation is based on data extracted from the U.S. Cancer Statistics Database for 2007-2016. The data cover 97% of the population.

In nonmetropolitan counties in 2007, incidence rates among men were 60% higher (99 vs. 61 per 100,000). Although rates decreased in both sexes, they were still elevated compared with women in 2016 (82 vs. 58 per 100,000; 40%).

Over the 10-year period, the rate declined more among men than among women (–2.9% vs. –1.5%) in metropolitan areas. The pattern repeated in nonmetropolitan areas (–2.1% and –0.5%, respectively).

There were different declines in different age groups by region, the authors noted.

Men aged 45-54 years in metropolitan areas experienced the largest decline (–5.2%).

Among women, the largest decline occurred in metropolitan areas among those aged 35-44 years (–5%). In nonmetropolitan areas, women in this age group experienced a 3.6% decline and women aged 65-74 years, a 1.3% decline.

Among persons aged 35-54 years, incidence rates in nonmetropolitan and metropolitan counties did not differ by sex but were higher in nonmetropolitan counties than in metropolitan counties.

There were also overall changes in smoking patterns. According to 2017 data from the National Health Interview Survey data, more adults in metropolitan areas than nonmetropolitan areas smoked (23% versus 13%) but fewer had tried to quit (50% vs. 56%). Successful quitting attempts also were lower (5% vs. 9%).

Although it is a large contributing factor, smoking is not the only risk factor for lung cancer, the authors wrote. About 10%-15% of lung cancer patients have never smoked tobacco. Nonsmoked tobacco products and second-hand exposure to cigarette smoke are risks, as are indoor radon and asbestos exposure.

Clinicians can help improve this scenario by screening at each office visit, the authors said. The recommendation is based on U.S. Preventive Services Task Force guidance.

“Lung cancer screening is recommended for adults at high risk for developing lung cancer because of their age and cigarette smoking history. Screening efforts can identify lung cancer in its early stages and provide an important opportunity to promote tobacco smoking cessation.”

However, lack of insurance among residents of nonmetropolitan areas may hamper access to these services, they said. In those regions, “a higher percentage of residents aged less than 65 years report being uninsured compared with those in metropolitan areas.”

[email protected]

SOURCE: O’Neil ME et al. MMWR Morb Mortal Wkly Rep. 2019 Nov 8: 68(44);993-8.

While lung cancer is generally on the decline among both sexes, men have a ways to go to catch up with women, according to the Centers for Disease Control and Prevention.

From 2007 to 2016, rates dropped among both sexes in metropolitan and nonmetropolitan areas, according to Mary Elizabeth O’Neil, MPH, and colleagues. Their report is in Morbidity and Mortality Weekly Report (MMWR Morb Mortal Wkly Rep. 2019 Nov 8;68[44];993-8). But lung cancer incidence in 2016 was still 40% higher among men than among women, said Ms. O’Neil, an epidemiologist at the CDC.

Rather than narrowly focusing on the “just stop smoking” message, “a comprehensive approach to lung cancer prevention and control includes such population-based strategies as screening for tobacco dependence, promoting tobacco cessation, implementing comprehensive smoke-free laws, testing all homes for radon and using proven methods to lower high radon levels, and reducing exposure to lung carcinogens such as asbestos.” According to the authors of the report, “increasing the implementation of these strategies, particularly among persons living in nonmetropolitan counties, might help to reduce disparities in the decline of lung cancer incidence.”

The recommendation is based on data extracted from the U.S. Cancer Statistics Database for 2007-2016. The data cover 97% of the population.

In nonmetropolitan counties in 2007, incidence rates among men were 60% higher (99 vs. 61 per 100,000). Although rates decreased in both sexes, they were still elevated compared with women in 2016 (82 vs. 58 per 100,000; 40%).

Over the 10-year period, the rate declined more among men than among women (–2.9% vs. –1.5%) in metropolitan areas. The pattern repeated in nonmetropolitan areas (–2.1% and –0.5%, respectively).

There were different declines in different age groups by region, the authors noted.

Men aged 45-54 years in metropolitan areas experienced the largest decline (–5.2%).

Among women, the largest decline occurred in metropolitan areas among those aged 35-44 years (–5%). In nonmetropolitan areas, women in this age group experienced a 3.6% decline and women aged 65-74 years, a 1.3% decline.

Among persons aged 35-54 years, incidence rates in nonmetropolitan and metropolitan counties did not differ by sex but were higher in nonmetropolitan counties than in metropolitan counties.

There were also overall changes in smoking patterns. According to 2017 data from the National Health Interview Survey data, more adults in metropolitan areas than nonmetropolitan areas smoked (23% versus 13%) but fewer had tried to quit (50% vs. 56%). Successful quitting attempts also were lower (5% vs. 9%).

Although it is a large contributing factor, smoking is not the only risk factor for lung cancer, the authors wrote. About 10%-15% of lung cancer patients have never smoked tobacco. Nonsmoked tobacco products and second-hand exposure to cigarette smoke are risks, as are indoor radon and asbestos exposure.

Clinicians can help improve this scenario by screening at each office visit, the authors said. The recommendation is based on U.S. Preventive Services Task Force guidance.

“Lung cancer screening is recommended for adults at high risk for developing lung cancer because of their age and cigarette smoking history. Screening efforts can identify lung cancer in its early stages and provide an important opportunity to promote tobacco smoking cessation.”

However, lack of insurance among residents of nonmetropolitan areas may hamper access to these services, they said. In those regions, “a higher percentage of residents aged less than 65 years report being uninsured compared with those in metropolitan areas.”

[email protected]

SOURCE: O’Neil ME et al. MMWR Morb Mortal Wkly Rep. 2019 Nov 8: 68(44);993-8.

The most rural counties in the United States had higher percentages of potentially preventable deaths from the five leading causes of mortality, compared with the most urban counties during 2010-2017, according to study published in CDC’s Morbidity and Mortality Weekly Report.

These leading causes of death comprised heart disease, cancer, unintentional injury, chronic lower respiratory disease, and stroke and accounted for approximately 1.7 million deaths or 61% of all deaths in 2017.

The study presents estimates, percentages, and annual percent changes for potentially excess deaths by urban-rural classification from heart disease, cancer, unintentional injury, chronic lower respiratory disease, and stroke. Urban-rural categories were identified using the National Center for Health Statistics 2013 urban-rural classification scheme for counties.

The report’s main findings include the following statistics:

• In 2010, 28.7% of deaths from cancer in the most rural counties were potentially preventable, compared with 17.9% in the most urban counties. By 2017, 21.7% of cancer deaths in the most rural counties were potentially preventable, compared with 3.2% in the most urban counties.
• In 2010, 45.1% of deaths from heart disease in the most rural counties were potentially preventable, compared with 33.5% in the most urban counties. By 2017, 44.9% of deaths from heart disease in the most rural counties were potentially preventable, compared with 28.0% in the most urban counties.
• In 2010, 60.9% of deaths from unintentional injury in the most rural counties were potentially preventable, compared with 25.4% in the most urban counties. By 2017, 64.1% of deaths from unintentional injury in the most rural counties were potentially preventable, compared with 47.8% in the most urban counties.
• In 2010, 54.3% of deaths from chronic lower respiratory disease (such as COPD) in the most rural counties were potentially preventable, compared with 23.4% in the most urban counties. By 2017, 57.1% of deaths from chronic lower respiratory disease in the most rural counties were potentially preventable, compared with 13% in the most urban counties.
• In 2010, 41.6% of deaths from stroke in the most rural counties were potentially preventable, compared with 31.7% in most urban areas. By 2017, 37.8% of deaths from stroke in the most rural counties were potentially preventable, compared with 27.4% most urban counties.

“This report demonstrates the value of analyzing potentially excess deaths according to the six 2013 [National Center for Health Statistics] urban-rural county classifications. Reporting trends in potentially excess deaths over an 8-year period highlights differences over time, independent of traditional underlying structural, environmental, and genetic factors,” wrote Macarena C. Garcia, DrPH, and coauthors.

“Because of increasing percentages of potentially excess deaths in recent years for certain causes of death and certain demographic groups, these data can be used, with traditional rate comparisons, by public health practitioners who are involved in planning interventions. Comparing the findings in this report with data from tools such as the CDC Interactive Atlas of Heart Disease and Stroke might help identify the social determinants, health care infrastructures, and public policies that could increase or decrease numbers of deaths in specific nonmetropolitan areas,” they added.

The study authors did not disclose any potential conflicts of interest.
 

[email protected]

SOURCE: Garcia MC et al. MMWR Morb Mortal Wkly Rep. 2019 Nov 8: 68(10);1-11.

The most rural counties in the United States had higher percentages of potentially preventable deaths from the five leading causes of mortality, compared with the most urban counties during 2010-2017, according to study published in CDC’s Morbidity and Mortality Weekly Report.

These leading causes of death comprised heart disease, cancer, unintentional injury, chronic lower respiratory disease, and stroke and accounted for approximately 1.7 million deaths or 61% of all deaths in 2017.

The study presents estimates, percentages, and annual percent changes for potentially excess deaths by urban-rural classification from heart disease, cancer, unintentional injury, chronic lower respiratory disease, and stroke. Urban-rural categories were identified using the National Center for Health Statistics 2013 urban-rural classification scheme for counties.

The report’s main findings include the following statistics:

• In 2010, 28.7% of deaths from cancer in the most rural counties were potentially preventable, compared with 17.9% in the most urban counties. By 2017, 21.7% of cancer deaths in the most rural counties were potentially preventable, compared with 3.2% in the most urban counties.
• In 2010, 45.1% of deaths from heart disease in the most rural counties were potentially preventable, compared with 33.5% in the most urban counties. By 2017, 44.9% of deaths from heart disease in the most rural counties were potentially preventable, compared with 28.0% in the most urban counties.
• In 2010, 60.9% of deaths from unintentional injury in the most rural counties were potentially preventable, compared with 25.4% in the most urban counties. By 2017, 64.1% of deaths from unintentional injury in the most rural counties were potentially preventable, compared with 47.8% in the most urban counties.
• In 2010, 54.3% of deaths from chronic lower respiratory disease (such as COPD) in the most rural counties were potentially preventable, compared with 23.4% in the most urban counties. By 2017, 57.1% of deaths from chronic lower respiratory disease in the most rural counties were potentially preventable, compared with 13% in the most urban counties.
• In 2010, 41.6% of deaths from stroke in the most rural counties were potentially preventable, compared with 31.7% in most urban areas. By 2017, 37.8% of deaths from stroke in the most rural counties were potentially preventable, compared with 27.4% most urban counties.

“This report demonstrates the value of analyzing potentially excess deaths according to the six 2013 [National Center for Health Statistics] urban-rural county classifications. Reporting trends in potentially excess deaths over an 8-year period highlights differences over time, independent of traditional underlying structural, environmental, and genetic factors,” wrote Macarena C. Garcia, DrPH, and coauthors.

“Because of increasing percentages of potentially excess deaths in recent years for certain causes of death and certain demographic groups, these data can be used, with traditional rate comparisons, by public health practitioners who are involved in planning interventions. Comparing the findings in this report with data from tools such as the CDC Interactive Atlas of Heart Disease and Stroke might help identify the social determinants, health care infrastructures, and public policies that could increase or decrease numbers of deaths in specific nonmetropolitan areas,” they added.

The study authors did not disclose any potential conflicts of interest.
 

[email protected]

SOURCE: Garcia MC et al. MMWR Morb Mortal Wkly Rep. 2019 Nov 8: 68(10);1-11.

The most rural counties in the United States had higher percentages of potentially preventable deaths from the five leading causes of mortality, compared with the most urban counties during 2010-2017, according to study published in CDC’s Morbidity and Mortality Weekly Report.

These leading causes of death comprised heart disease, cancer, unintentional injury, chronic lower respiratory disease, and stroke and accounted for approximately 1.7 million deaths or 61% of all deaths in 2017.

The study presents estimates, percentages, and annual percent changes for potentially excess deaths by urban-rural classification from heart disease, cancer, unintentional injury, chronic lower respiratory disease, and stroke. Urban-rural categories were identified using the National Center for Health Statistics 2013 urban-rural classification scheme for counties.

The report’s main findings include the following statistics:

• In 2010, 28.7% of deaths from cancer in the most rural counties were potentially preventable, compared with 17.9% in the most urban counties. By 2017, 21.7% of cancer deaths in the most rural counties were potentially preventable, compared with 3.2% in the most urban counties.
• In 2010, 45.1% of deaths from heart disease in the most rural counties were potentially preventable, compared with 33.5% in the most urban counties. By 2017, 44.9% of deaths from heart disease in the most rural counties were potentially preventable, compared with 28.0% in the most urban counties.
• In 2010, 60.9% of deaths from unintentional injury in the most rural counties were potentially preventable, compared with 25.4% in the most urban counties. By 2017, 64.1% of deaths from unintentional injury in the most rural counties were potentially preventable, compared with 47.8% in the most urban counties.
• In 2010, 54.3% of deaths from chronic lower respiratory disease (such as COPD) in the most rural counties were potentially preventable, compared with 23.4% in the most urban counties. By 2017, 57.1% of deaths from chronic lower respiratory disease in the most rural counties were potentially preventable, compared with 13% in the most urban counties.
• In 2010, 41.6% of deaths from stroke in the most rural counties were potentially preventable, compared with 31.7% in most urban areas. By 2017, 37.8% of deaths from stroke in the most rural counties were potentially preventable, compared with 27.4% most urban counties.

“This report demonstrates the value of analyzing potentially excess deaths according to the six 2013 [National Center for Health Statistics] urban-rural county classifications. Reporting trends in potentially excess deaths over an 8-year period highlights differences over time, independent of traditional underlying structural, environmental, and genetic factors,” wrote Macarena C. Garcia, DrPH, and coauthors.

“Because of increasing percentages of potentially excess deaths in recent years for certain causes of death and certain demographic groups, these data can be used, with traditional rate comparisons, by public health practitioners who are involved in planning interventions. Comparing the findings in this report with data from tools such as the CDC Interactive Atlas of Heart Disease and Stroke might help identify the social determinants, health care infrastructures, and public policies that could increase or decrease numbers of deaths in specific nonmetropolitan areas,” they added.

The study authors did not disclose any potential conflicts of interest.
 

[email protected]

SOURCE: Garcia MC et al. MMWR Morb Mortal Wkly Rep. 2019 Nov 8: 68(10);1-11.

ILLUSTRATIVE CASE

A 60-year-old woman who is generally healthy except for a history of recurrent urinary tract infections presents to the emergency department with fever, hypotension, and altered mental status, meeting criteria for septic shock. During her resuscitation, supplemental oxygen is administered. Standard treatment calls for a minimum SpO₂ (saturation of peripheral oxygen) > 90%. What should your SpO₂ goal be?

Use of supplemental oxygen in the acute care of the critically ill adult is a common practice in pre-hospital, emergency department (ED), and hospitalized settings.^2,3 Despite their prevalence, guidelines about appropriate oxygen concentration and target SpO₂ levels are often conflicting or vague.^3-5

Excessive oxygen supplementation in acute illness may be harmful and cause increased risk of hypercapnic respiratory failure, delayed recognition of clinical deterioration, and oxygen toxicity.^2,6 The perception of oxygen safety persists despite these findings, and it likely contributes to the ongoing practice of liberal oxygen supplementation in the acutely ill adult.^2,7,8

STUDY SUMMARY

Liberal supplemental O₂ linked to increased mortality

The Improving Oxygen Therapy in Acute illness (IOTA) study was a systematic review and meta-analysis of 25 randomized controlled trials (RCTs) that compared liberal vs conservative oxygen strategies for acutely ill adults (N = 16,037; median age = 64 years; range = 28-76 years). Patients with sepsis, critical illness, stroke, trauma, myocardial infarction, or cardiac arrest, and patients who had emergency surgery were included. Studies were excluded if they involved patients who had chronic respiratory illness or psychiatric diseases, were receiving extracorporeal membrane oxygenation, were undergoing elective surgeries, were being treated with hyperbaric oxygen therapy, or were pregnant.

The outcomes studied were mortality (in-hospital, at 30 days, and at the longest ­follow-up) and morbidity (disability measured by the modified Rankin Scale at longest follow-up, risk of hospital-acquired pneumonia, risk of any hospital-acquired infection, and hospital length of stay).

Liberal supplemental oxygen, above an SpO₂ range of 94% to 96%, increased mortality during inpatient stays (relative risk [RR] = 1.21; 95% confidence interval [CI], 1.03-1.43; N = 15,071), at 30 days (RR = 1.14; 95% CI, 1.01-1.29; N = 15,053), and at longest follow-up (RR = 1.10; 95% CI, 1.00-1.20; N = 15,754; median = 90 days; range = 14,365 days). There was no difference in morbidity outcomes between groups.

While it’s difficult to define a specific target SpO₂ range, the number needed to harm when using a liberal oxygen approach (SpO₂ > 96%) resulting in 1 death was 71 (95% CI, 37-1000).

Continue to: WHAT'S NEW

High-quality evidence points to the dangers of liberal O₂ therapy

This comprehensive meta-analysis is the first high-quality evidence to suggest that liberal use of oxygen in acutely ill adults above a specific SpO₂ level increases all-cause mortality. Previous small RCTs and observational studies have examined the effect of liberal oxygen only on specific presenting conditions, thus making more generalizable conclusions challenging.^9-12

CAVEATS

Varied definitions of “liberal” and “conservative”

This review included studies with variable ranges of SpO₂ defined as liberal vs conservative supplementation. However, in all of these, SpO₂ above 96% was correlated with unfavorable outcomes.

This meta-analysis is the first high-quality evidence to suggest that liberal use of oxygen in acutely ill adults above a specific SpO₂ level increases all-cause mortality.

The study excluded 2 potentially important patient groups: patients with chronic respiratory diseases and pregnant patients. Increased oxygen supplementation in patients with chronic respiratory diseases in noncritical settings has been shown to be deleterious.^13-15 While this study does not address the issue of oxygen supplementation in acutely ill patients with chronic respiratory disease, use should be considered with caution. The results from this study may not be generalizable to women who are pregnant.

CHALLENGES TO IMPLEMENTATION

Reversing the tide

Liberal oxygen administration continues to be practiced in many health care settings. The main challenges to implementing the conclusions of this study are these pervasive practices.

ACKNOWLEDGMENT

The PURLs Surveillance System was supported in part by Grant Number UL1RR024999 from the National Center For Research Resources, a Clinical Translational Science Award to the University of Chicago. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Center For Research Resources or the National Institutes of Health.

ILLUSTRATIVE CASE

A 60-year-old woman who is generally healthy except for a history of recurrent urinary tract infections presents to the emergency department with fever, hypotension, and altered mental status, meeting criteria for septic shock. During her resuscitation, supplemental oxygen is administered. Standard treatment calls for a minimum SpO₂ (saturation of peripheral oxygen) > 90%. What should your SpO₂ goal be?

Use of supplemental oxygen in the acute care of the critically ill adult is a common practice in pre-hospital, emergency department (ED), and hospitalized settings.^2,3 Despite their prevalence, guidelines about appropriate oxygen concentration and target SpO₂ levels are often conflicting or vague.^3-5

Excessive oxygen supplementation in acute illness may be harmful and cause increased risk of hypercapnic respiratory failure, delayed recognition of clinical deterioration, and oxygen toxicity.^2,6 The perception of oxygen safety persists despite these findings, and it likely contributes to the ongoing practice of liberal oxygen supplementation in the acutely ill adult.^2,7,8

STUDY SUMMARY

Liberal supplemental O₂ linked to increased mortality

The Improving Oxygen Therapy in Acute illness (IOTA) study was a systematic review and meta-analysis of 25 randomized controlled trials (RCTs) that compared liberal vs conservative oxygen strategies for acutely ill adults (N = 16,037; median age = 64 years; range = 28-76 years). Patients with sepsis, critical illness, stroke, trauma, myocardial infarction, or cardiac arrest, and patients who had emergency surgery were included. Studies were excluded if they involved patients who had chronic respiratory illness or psychiatric diseases, were receiving extracorporeal membrane oxygenation, were undergoing elective surgeries, were being treated with hyperbaric oxygen therapy, or were pregnant.

The outcomes studied were mortality (in-hospital, at 30 days, and at the longest ­follow-up) and morbidity (disability measured by the modified Rankin Scale at longest follow-up, risk of hospital-acquired pneumonia, risk of any hospital-acquired infection, and hospital length of stay).

Liberal supplemental oxygen, above an SpO₂ range of 94% to 96%, increased mortality during inpatient stays (relative risk [RR] = 1.21; 95% confidence interval [CI], 1.03-1.43; N = 15,071), at 30 days (RR = 1.14; 95% CI, 1.01-1.29; N = 15,053), and at longest follow-up (RR = 1.10; 95% CI, 1.00-1.20; N = 15,754; median = 90 days; range = 14,365 days). There was no difference in morbidity outcomes between groups.

While it’s difficult to define a specific target SpO₂ range, the number needed to harm when using a liberal oxygen approach (SpO₂ > 96%) resulting in 1 death was 71 (95% CI, 37-1000).

Continue to: WHAT'S NEW

High-quality evidence points to the dangers of liberal O₂ therapy

This comprehensive meta-analysis is the first high-quality evidence to suggest that liberal use of oxygen in acutely ill adults above a specific SpO₂ level increases all-cause mortality. Previous small RCTs and observational studies have examined the effect of liberal oxygen only on specific presenting conditions, thus making more generalizable conclusions challenging.^9-12

CAVEATS

Varied definitions of “liberal” and “conservative”

This review included studies with variable ranges of SpO₂ defined as liberal vs conservative supplementation. However, in all of these, SpO₂ above 96% was correlated with unfavorable outcomes.

This meta-analysis is the first high-quality evidence to suggest that liberal use of oxygen in acutely ill adults above a specific SpO₂ level increases all-cause mortality.

The study excluded 2 potentially important patient groups: patients with chronic respiratory diseases and pregnant patients. Increased oxygen supplementation in patients with chronic respiratory diseases in noncritical settings has been shown to be deleterious.^13-15 While this study does not address the issue of oxygen supplementation in acutely ill patients with chronic respiratory disease, use should be considered with caution. The results from this study may not be generalizable to women who are pregnant.

CHALLENGES TO IMPLEMENTATION

Reversing the tide

Liberal oxygen administration continues to be practiced in many health care settings. The main challenges to implementing the conclusions of this study are these pervasive practices.

ACKNOWLEDGMENT

The PURLs Surveillance System was supported in part by Grant Number UL1RR024999 from the National Center For Research Resources, a Clinical Translational Science Award to the University of Chicago. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Center For Research Resources or the National Institutes of Health.

ILLUSTRATIVE CASE

A 60-year-old woman who is generally healthy except for a history of recurrent urinary tract infections presents to the emergency department with fever, hypotension, and altered mental status, meeting criteria for septic shock. During her resuscitation, supplemental oxygen is administered. Standard treatment calls for a minimum SpO₂ (saturation of peripheral oxygen) > 90%. What should your SpO₂ goal be?

Use of supplemental oxygen in the acute care of the critically ill adult is a common practice in pre-hospital, emergency department (ED), and hospitalized settings.^2,3 Despite their prevalence, guidelines about appropriate oxygen concentration and target SpO₂ levels are often conflicting or vague.^3-5

Excessive oxygen supplementation in acute illness may be harmful and cause increased risk of hypercapnic respiratory failure, delayed recognition of clinical deterioration, and oxygen toxicity.^2,6 The perception of oxygen safety persists despite these findings, and it likely contributes to the ongoing practice of liberal oxygen supplementation in the acutely ill adult.^2,7,8

STUDY SUMMARY

Liberal supplemental O₂ linked to increased mortality

The Improving Oxygen Therapy in Acute illness (IOTA) study was a systematic review and meta-analysis of 25 randomized controlled trials (RCTs) that compared liberal vs conservative oxygen strategies for acutely ill adults (N = 16,037; median age = 64 years; range = 28-76 years). Patients with sepsis, critical illness, stroke, trauma, myocardial infarction, or cardiac arrest, and patients who had emergency surgery were included. Studies were excluded if they involved patients who had chronic respiratory illness or psychiatric diseases, were receiving extracorporeal membrane oxygenation, were undergoing elective surgeries, were being treated with hyperbaric oxygen therapy, or were pregnant.

The outcomes studied were mortality (in-hospital, at 30 days, and at the longest ­follow-up) and morbidity (disability measured by the modified Rankin Scale at longest follow-up, risk of hospital-acquired pneumonia, risk of any hospital-acquired infection, and hospital length of stay).

Liberal supplemental oxygen, above an SpO₂ range of 94% to 96%, increased mortality during inpatient stays (relative risk [RR] = 1.21; 95% confidence interval [CI], 1.03-1.43; N = 15,071), at 30 days (RR = 1.14; 95% CI, 1.01-1.29; N = 15,053), and at longest follow-up (RR = 1.10; 95% CI, 1.00-1.20; N = 15,754; median = 90 days; range = 14,365 days). There was no difference in morbidity outcomes between groups.

While it’s difficult to define a specific target SpO₂ range, the number needed to harm when using a liberal oxygen approach (SpO₂ > 96%) resulting in 1 death was 71 (95% CI, 37-1000).

Continue to: WHAT'S NEW

High-quality evidence points to the dangers of liberal O₂ therapy

This comprehensive meta-analysis is the first high-quality evidence to suggest that liberal use of oxygen in acutely ill adults above a specific SpO₂ level increases all-cause mortality. Previous small RCTs and observational studies have examined the effect of liberal oxygen only on specific presenting conditions, thus making more generalizable conclusions challenging.^9-12

CAVEATS

Varied definitions of “liberal” and “conservative”

This review included studies with variable ranges of SpO₂ defined as liberal vs conservative supplementation. However, in all of these, SpO₂ above 96% was correlated with unfavorable outcomes.

This meta-analysis is the first high-quality evidence to suggest that liberal use of oxygen in acutely ill adults above a specific SpO₂ level increases all-cause mortality.

The study excluded 2 potentially important patient groups: patients with chronic respiratory diseases and pregnant patients. Increased oxygen supplementation in patients with chronic respiratory diseases in noncritical settings has been shown to be deleterious.^13-15 While this study does not address the issue of oxygen supplementation in acutely ill patients with chronic respiratory disease, use should be considered with caution. The results from this study may not be generalizable to women who are pregnant.

CHALLENGES TO IMPLEMENTATION

Reversing the tide

Liberal oxygen administration continues to be practiced in many health care settings. The main challenges to implementing the conclusions of this study are these pervasive practices.

ACKNOWLEDGMENT

The PURLs Surveillance System was supported in part by Grant Number UL1RR024999 from the National Center For Research Resources, a Clinical Translational Science Award to the University of Chicago. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Center For Research Resources or the National Institutes of Health.

Infection with the measles virus appears to reduce immunity to other pathogens, according to a paper published in Science.

CDC/Molly Kurnit, M.P.H.

The hypothesis that the measles virus could cause “immunological amnesia” by impairing immune memory is supported by early research showing children with measles had negative cutaneous tuberculin reactions after having previously tested positive.

“Subsequent studies have shown decreased interferon signaling, skewed cytokine responses, lymphopenia, and suppression of lymphocyte proliferation shortly after infection,” wrote Michael Mina, MD, from Brigham and Women’s Hospital in Boston, and coauthors.

“Given the variation in the degree of immune repertoire modulation we observed, we anticipate that future risk of morbidity and mortality after measles would not be homogeneous but would be skewed toward individuals with the most severe elimination of immunological memory,” they wrote. “These findings underscore the crucial need for continued widespread vaccination.”

In this study, researchers compared the levels of around 400 pathogen-specific antibodies in blood samples from 77 unvaccinated children, taken before and 2 months after natural measles infection, with 5 unvaccinated children who did not contract measles. A total of 34 the children experienced mild measles, and 43 had severe measles.

They found that the samples taken after measles infection showed “substantial” reductions in the number of pathogen epitopes, compared with the samples from children who did not get infected with measles.

This amounted to approximately a 20% mean reduction in overall diversity or size of the antibody repertoire. However, in children who experienced severe measles, there was a median loss of 40% (range, 11%-62%) of antibody repertoire, compared with a median of 33% (range, 12%-73%) range in children who experienced mild infection. Meanwhile, the control subjects retained approximately 90% of their antibody repertoire over a similar or longer time period. Some children lost up to 70% of antibodies for specific pathogens.

The study did find increases in measles virus–specific antigens in children both after measles infection and MMR vaccination. However the authors did not detect any changes in total IgG, IgA, or IgM levels.

“These results suggest that, rather than a simple loss of total IgG, there is a restructuring of the antibody repertoire after measles,” Dr. Mina and associates wrote.

They also noted that controls who received the MMR vaccine showed a marked increase in overall antibody repertoire.

In a separate investigation reported in Science Immunology, Velislava N. Petrova, PhD, of the Wellcome Sanger Institute in Cambridge, England, and coauthors investigated genetic changes in 26 unvaccinated children from the Netherlands who previously had measles to determine if B-cell impairment can lead to measles-associated immunosuppression. Their antibody genes were sequenced before any symptoms of measles developed and roughly 40 days after rash. Two control groups also were sequenced accordingly: vaccinated adults and three unvaccinated children from the same community who were not infected with measles.

Naive B cells from individuals in the vaccinated and uninfected control groups showed high correlation of immunoglobulin heavy chain (IgVH-J) gene frequencies across time periods (R2 = 0.96 and 0.92, respectively) but no significant differences in gene expression (P greater than .05). At the same time, although B-cell frequencies in measles patients recovered to levels before infection, they had significant changes in IgVH-J gene frequencies (P = .01) and decreased correlation in gene expression (R2 = 0.78).

In addition, individuals in the control groups had “a stable genetic composition of B memory cells” but no significant changes in the third complementarity-determining region (CDR3) lengths or mutational frequency of IgVH-J genes (P greater than .05). B memory cells in measles patients, however, showed increases in mutational frequency (P = .0008) and a reduction in CDR3 length (P = .017) of IgVH genes, Dr. Petrova and associates reported.

The study by Mina et al. was supported by grants from various U.S., European, and Finnish foundations and national organizations. Some of the coauthors had relationships with biotechnology and pharmaceutical companies, and three reported a patent holding related to technology used in the study. The study by Petrova et al. was funded by grants to the investigators from various Indonesian and German organizations and the Wellcome Trust. The authors reported no conflicts of interest.
 

SOURCES: Mina M et al. Science. 2019 Nov 1;366:599-606; Petrova VN et al. Sci Immunol. 2019 Nov 1. doi: 10.1126/sciimmunol.aay6125.

Infection with the measles virus appears to reduce immunity to other pathogens, according to a paper published in Science.

CDC/Molly Kurnit, M.P.H.

The hypothesis that the measles virus could cause “immunological amnesia” by impairing immune memory is supported by early research showing children with measles had negative cutaneous tuberculin reactions after having previously tested positive.

“Subsequent studies have shown decreased interferon signaling, skewed cytokine responses, lymphopenia, and suppression of lymphocyte proliferation shortly after infection,” wrote Michael Mina, MD, from Brigham and Women’s Hospital in Boston, and coauthors.

“Given the variation in the degree of immune repertoire modulation we observed, we anticipate that future risk of morbidity and mortality after measles would not be homogeneous but would be skewed toward individuals with the most severe elimination of immunological memory,” they wrote. “These findings underscore the crucial need for continued widespread vaccination.”

In this study, researchers compared the levels of around 400 pathogen-specific antibodies in blood samples from 77 unvaccinated children, taken before and 2 months after natural measles infection, with 5 unvaccinated children who did not contract measles. A total of 34 the children experienced mild measles, and 43 had severe measles.

They found that the samples taken after measles infection showed “substantial” reductions in the number of pathogen epitopes, compared with the samples from children who did not get infected with measles.

This amounted to approximately a 20% mean reduction in overall diversity or size of the antibody repertoire. However, in children who experienced severe measles, there was a median loss of 40% (range, 11%-62%) of antibody repertoire, compared with a median of 33% (range, 12%-73%) range in children who experienced mild infection. Meanwhile, the control subjects retained approximately 90% of their antibody repertoire over a similar or longer time period. Some children lost up to 70% of antibodies for specific pathogens.

The study did find increases in measles virus–specific antigens in children both after measles infection and MMR vaccination. However the authors did not detect any changes in total IgG, IgA, or IgM levels.

“These results suggest that, rather than a simple loss of total IgG, there is a restructuring of the antibody repertoire after measles,” Dr. Mina and associates wrote.

They also noted that controls who received the MMR vaccine showed a marked increase in overall antibody repertoire.

In a separate investigation reported in Science Immunology, Velislava N. Petrova, PhD, of the Wellcome Sanger Institute in Cambridge, England, and coauthors investigated genetic changes in 26 unvaccinated children from the Netherlands who previously had measles to determine if B-cell impairment can lead to measles-associated immunosuppression. Their antibody genes were sequenced before any symptoms of measles developed and roughly 40 days after rash. Two control groups also were sequenced accordingly: vaccinated adults and three unvaccinated children from the same community who were not infected with measles.

Naive B cells from individuals in the vaccinated and uninfected control groups showed high correlation of immunoglobulin heavy chain (IgVH-J) gene frequencies across time periods (R2 = 0.96 and 0.92, respectively) but no significant differences in gene expression (P greater than .05). At the same time, although B-cell frequencies in measles patients recovered to levels before infection, they had significant changes in IgVH-J gene frequencies (P = .01) and decreased correlation in gene expression (R2 = 0.78).

In addition, individuals in the control groups had “a stable genetic composition of B memory cells” but no significant changes in the third complementarity-determining region (CDR3) lengths or mutational frequency of IgVH-J genes (P greater than .05). B memory cells in measles patients, however, showed increases in mutational frequency (P = .0008) and a reduction in CDR3 length (P = .017) of IgVH genes, Dr. Petrova and associates reported.

The study by Mina et al. was supported by grants from various U.S., European, and Finnish foundations and national organizations. Some of the coauthors had relationships with biotechnology and pharmaceutical companies, and three reported a patent holding related to technology used in the study. The study by Petrova et al. was funded by grants to the investigators from various Indonesian and German organizations and the Wellcome Trust. The authors reported no conflicts of interest.
 

SOURCES: Mina M et al. Science. 2019 Nov 1;366:599-606; Petrova VN et al. Sci Immunol. 2019 Nov 1. doi: 10.1126/sciimmunol.aay6125.

Infection with the measles virus appears to reduce immunity to other pathogens, according to a paper published in Science.

CDC/Molly Kurnit, M.P.H.

The hypothesis that the measles virus could cause “immunological amnesia” by impairing immune memory is supported by early research showing children with measles had negative cutaneous tuberculin reactions after having previously tested positive.

“Subsequent studies have shown decreased interferon signaling, skewed cytokine responses, lymphopenia, and suppression of lymphocyte proliferation shortly after infection,” wrote Michael Mina, MD, from Brigham and Women’s Hospital in Boston, and coauthors.

“Given the variation in the degree of immune repertoire modulation we observed, we anticipate that future risk of morbidity and mortality after measles would not be homogeneous but would be skewed toward individuals with the most severe elimination of immunological memory,” they wrote. “These findings underscore the crucial need for continued widespread vaccination.”

In this study, researchers compared the levels of around 400 pathogen-specific antibodies in blood samples from 77 unvaccinated children, taken before and 2 months after natural measles infection, with 5 unvaccinated children who did not contract measles. A total of 34 the children experienced mild measles, and 43 had severe measles.

They found that the samples taken after measles infection showed “substantial” reductions in the number of pathogen epitopes, compared with the samples from children who did not get infected with measles.

This amounted to approximately a 20% mean reduction in overall diversity or size of the antibody repertoire. However, in children who experienced severe measles, there was a median loss of 40% (range, 11%-62%) of antibody repertoire, compared with a median of 33% (range, 12%-73%) range in children who experienced mild infection. Meanwhile, the control subjects retained approximately 90% of their antibody repertoire over a similar or longer time period. Some children lost up to 70% of antibodies for specific pathogens.

The study did find increases in measles virus–specific antigens in children both after measles infection and MMR vaccination. However the authors did not detect any changes in total IgG, IgA, or IgM levels.

“These results suggest that, rather than a simple loss of total IgG, there is a restructuring of the antibody repertoire after measles,” Dr. Mina and associates wrote.

They also noted that controls who received the MMR vaccine showed a marked increase in overall antibody repertoire.

In a separate investigation reported in Science Immunology, Velislava N. Petrova, PhD, of the Wellcome Sanger Institute in Cambridge, England, and coauthors investigated genetic changes in 26 unvaccinated children from the Netherlands who previously had measles to determine if B-cell impairment can lead to measles-associated immunosuppression. Their antibody genes were sequenced before any symptoms of measles developed and roughly 40 days after rash. Two control groups also were sequenced accordingly: vaccinated adults and three unvaccinated children from the same community who were not infected with measles.

Naive B cells from individuals in the vaccinated and uninfected control groups showed high correlation of immunoglobulin heavy chain (IgVH-J) gene frequencies across time periods (R2 = 0.96 and 0.92, respectively) but no significant differences in gene expression (P greater than .05). At the same time, although B-cell frequencies in measles patients recovered to levels before infection, they had significant changes in IgVH-J gene frequencies (P = .01) and decreased correlation in gene expression (R2 = 0.78).

In addition, individuals in the control groups had “a stable genetic composition of B memory cells” but no significant changes in the third complementarity-determining region (CDR3) lengths or mutational frequency of IgVH-J genes (P greater than .05). B memory cells in measles patients, however, showed increases in mutational frequency (P = .0008) and a reduction in CDR3 length (P = .017) of IgVH genes, Dr. Petrova and associates reported.

The study by Mina et al. was supported by grants from various U.S., European, and Finnish foundations and national organizations. Some of the coauthors had relationships with biotechnology and pharmaceutical companies, and three reported a patent holding related to technology used in the study. The study by Petrova et al. was funded by grants to the investigators from various Indonesian and German organizations and the Wellcome Trust. The authors reported no conflicts of interest.
 

SOURCES: Mina M et al. Science. 2019 Nov 1;366:599-606; Petrova VN et al. Sci Immunol. 2019 Nov 1. doi: 10.1126/sciimmunol.aay6125.

References

1. Lewis N, McCaffrey K, Sage K, et al. E-cigarette use, or vaping, practices and characteristics among persons with associated lung injury — Utah, April–October 2019. MMWR Morb Mortal Wkly Rep. 2019;68. https://www.cdc.gov/mmwr/volumes/68/wr/mm6842e1.htm?s_cid=mm6842e1_w. Published October 22, 2019. Accessed October 24, 2019.
2. Siegal DA, Jatlaoui TC, Koumans EH, et al. Update: interim guidance for health care providers evaluating and caring for patients with suspected e-cigarette, or vaping, product use associated lung injury – United States, October 2019. MMWR Morb Mortal Wkly Rep. 2019;68:919-927.
3. Centers for Disease Control and Prevention. Outbreak of lung injury associated with e-cigarette use, or vaping. https://www.cdc.gov/tobacco/basic_information/e-cigarettes/severe-lung-disease.html. Updated October 17, 2019. Accessed October 24, 2019.

References

1. Lewis N, McCaffrey K, Sage K, et al. E-cigarette use, or vaping, practices and characteristics among persons with associated lung injury — Utah, April–October 2019. MMWR Morb Mortal Wkly Rep. 2019;68. https://www.cdc.gov/mmwr/volumes/68/wr/mm6842e1.htm?s_cid=mm6842e1_w. Published October 22, 2019. Accessed October 24, 2019.
2. Siegal DA, Jatlaoui TC, Koumans EH, et al. Update: interim guidance for health care providers evaluating and caring for patients with suspected e-cigarette, or vaping, product use associated lung injury – United States, October 2019. MMWR Morb Mortal Wkly Rep. 2019;68:919-927.
3. Centers for Disease Control and Prevention. Outbreak of lung injury associated with e-cigarette use, or vaping. https://www.cdc.gov/tobacco/basic_information/e-cigarettes/severe-lung-disease.html. Updated October 17, 2019. Accessed October 24, 2019.

References

1. Lewis N, McCaffrey K, Sage K, et al. E-cigarette use, or vaping, practices and characteristics among persons with associated lung injury — Utah, April–October 2019. MMWR Morb Mortal Wkly Rep. 2019;68. https://www.cdc.gov/mmwr/volumes/68/wr/mm6842e1.htm?s_cid=mm6842e1_w. Published October 22, 2019. Accessed October 24, 2019.
2. Siegal DA, Jatlaoui TC, Koumans EH, et al. Update: interim guidance for health care providers evaluating and caring for patients with suspected e-cigarette, or vaping, product use associated lung injury – United States, October 2019. MMWR Morb Mortal Wkly Rep. 2019;68:919-927.
3. Centers for Disease Control and Prevention. Outbreak of lung injury associated with e-cigarette use, or vaping. https://www.cdc.gov/tobacco/basic_information/e-cigarettes/severe-lung-disease.html. Updated October 17, 2019. Accessed October 24, 2019.

Mint is the most popular flavor among school students who use Juul e-cigarettes, according to data from the 2019 Monitoring the Future study.

Almost half (47.1%) of the 12th graders who had used Juul e-cigarettes in the past 30 days reported that mint was the flavor they most often used, compared with 23.8% for mango and 8.6% for fruit, which is a combination of flavors, Adam M. Leventhal, PhD, of the University of Southern California, Los Angeles, and associates wrote in JAMA.

Mint was also the flavor most often used by 10th graders (43.5%), with mango again second at 27.3%, and fruit third at 10.8%. Eighth-grade students switched mango (33.5%) and mint (29.2%) but had fruit third again at 16.0%, the investigators reported, based on data for 1,739 respondents to the Monitoring the Future survey who had used a vaping product within the past 30 days.

Juul has suspended sales of four – mango, fruit, creme, and cucumber – of its original eight flavors, Dr. Leventhal and associates noted, and e-cigarette flavors other than tobacco, menthol, and mint have been prohibited by some local municipalities.

“The current findings raise uncertainty whether regulations or sales suspensions that exempt mint flavors are optimal strategies for reducing youth e-cigarette use,” they wrote.

As this article was being written, the Wall Street Journal had just reported that the Food and Drug Administration will ban mint and all other e-cigarette flavors except tobacco and menthol.

[email protected]

SOURCE: Leventhal AM et al. JAMA. 2019 Nov 5. doi: 10.1001/jama.2019.17968.

Mint is the most popular flavor among school students who use Juul e-cigarettes, according to data from the 2019 Monitoring the Future study.

Almost half (47.1%) of the 12th graders who had used Juul e-cigarettes in the past 30 days reported that mint was the flavor they most often used, compared with 23.8% for mango and 8.6% for fruit, which is a combination of flavors, Adam M. Leventhal, PhD, of the University of Southern California, Los Angeles, and associates wrote in JAMA.

Mint was also the flavor most often used by 10th graders (43.5%), with mango again second at 27.3%, and fruit third at 10.8%. Eighth-grade students switched mango (33.5%) and mint (29.2%) but had fruit third again at 16.0%, the investigators reported, based on data for 1,739 respondents to the Monitoring the Future survey who had used a vaping product within the past 30 days.

Juul has suspended sales of four – mango, fruit, creme, and cucumber – of its original eight flavors, Dr. Leventhal and associates noted, and e-cigarette flavors other than tobacco, menthol, and mint have been prohibited by some local municipalities.

“The current findings raise uncertainty whether regulations or sales suspensions that exempt mint flavors are optimal strategies for reducing youth e-cigarette use,” they wrote.

As this article was being written, the Wall Street Journal had just reported that the Food and Drug Administration will ban mint and all other e-cigarette flavors except tobacco and menthol.

[email protected]

SOURCE: Leventhal AM et al. JAMA. 2019 Nov 5. doi: 10.1001/jama.2019.17968.

Mint is the most popular flavor among school students who use Juul e-cigarettes, according to data from the 2019 Monitoring the Future study.

Almost half (47.1%) of the 12th graders who had used Juul e-cigarettes in the past 30 days reported that mint was the flavor they most often used, compared with 23.8% for mango and 8.6% for fruit, which is a combination of flavors, Adam M. Leventhal, PhD, of the University of Southern California, Los Angeles, and associates wrote in JAMA.

Mint was also the flavor most often used by 10th graders (43.5%), with mango again second at 27.3%, and fruit third at 10.8%. Eighth-grade students switched mango (33.5%) and mint (29.2%) but had fruit third again at 16.0%, the investigators reported, based on data for 1,739 respondents to the Monitoring the Future survey who had used a vaping product within the past 30 days.

Juul has suspended sales of four – mango, fruit, creme, and cucumber – of its original eight flavors, Dr. Leventhal and associates noted, and e-cigarette flavors other than tobacco, menthol, and mint have been prohibited by some local municipalities.

“The current findings raise uncertainty whether regulations or sales suspensions that exempt mint flavors are optimal strategies for reducing youth e-cigarette use,” they wrote.

As this article was being written, the Wall Street Journal had just reported that the Food and Drug Administration will ban mint and all other e-cigarette flavors except tobacco and menthol.

[email protected]

SOURCE: Leventhal AM et al. JAMA. 2019 Nov 5. doi: 10.1001/jama.2019.17968.

NEW ORLEANS – Robotic bronchoscopy with shape-sensing technology performed more effectively in comparison with standard techniques for localizing and puncturing nodules in the periphery of the lung.

A prospective study in a cadaver model showed that robotic bronchoscopy targeted nodules more effectively than electromagnetic navigation or an ultrathin bronchoscope with radial endobronchial ultrasound (UTB-rEBUS).

“This is really the first study to randomize, blind, and compare procedural outcomes between existing technologies in advanced bronchoscopy,” said Lonny Yarmus, DO, of Johns Hopkins Medicine in Baltimore.

Dr. Yarmus described this study, PRECISION-1, at the annual meeting of the American Society of Chest Physicians. The study was designed to compare the following:

• UTB-rEBUS (3.0 mm outer diameter and 1.7 mm working channel).
• Electromagnetic navigation bronchoscopy (Superdimension version 7.1).
• Robotic bronchoscopy (3.5 mm outer diameter and 2.0-mm working channel).

With all methods, a 21-gauge needle was used. For each nodule, UTB-rEBUS was done first to eliminate potential localization bias. The subsequent order of electromagnetic navigation and robotic bronchoscopy was determined based on block randomization.

Eight bronchoscopists performed a total of 60 procedures using each of the methods to target 20 nodules implanted in cadavers. The nodules were distributed across all lobes, 80% were in the outer third of the lung, and 50% had a positive bronchus sign on computed tomography (CT). The mean nodule size was 16.5 plus or minus 1.5 mm.

The study’s primary endpoint was the ability to localize and puncture target nodules within a maximum of three attempts per method. This includes center, peripheral, and distal punctures of nodules. Cone-beam CT was used to confirm that needles punctured the target lesions. The bronchoscopists were blinded to cone-beam CT results, and a blinded, independent investigator assessed whether nodule punctures were successful. The primary endpoint was met in 25% of UTB-rEBUS procedures, 45% of electromagnetic navigation procedures, and 80% of robotic bronchoscopy procedures.

The study’s secondary endpoint was localization success, which was defined as navigation to within needle biopsy distance of the nodule. This includes center, peripheral, and distal punctures of nodules, as well as adjacent punctures (touching the nodule but not within it). The secondary endpoint was met in 35% of UTB-rEBUS procedures, 65% of electromagnetic navigation procedures, and 90% of robotic bronchoscopy procedures.

The researchers also assessed successful navigation, which was defined as the provider localizing with software or radial ultrasound and passing the needle to make a biopsy attempt. Navigation was successful in 65% of UTB-rEBUS procedures, 85% of electromagnetic navigation procedures, and 100% of robotic bronchoscopy procedures.

“Utilization of robotic bronchoscopy with shape-sensing technology can significantly increase the ability to localize and puncture lesions when compared with standard existing technologies,” Dr. Yarmus said in closing.

He did note that this research was done in a cadaveric model, so “prospective, randomized, and comparative in vivo studies are needed.”

This study was funded by the Association of Interventional Pulmonary Program Directors. Dr. Yarmus disclosed government and societal funding and relationships with Boston Scientific, Veran, Medtronic, Intuitive, Auris, Erbe, Olympus, BD, Rocket, Ambu, Inspire Medical, and AstraZeneca.

[email protected]

SOURCE: Yarmus L et al. CHEST 2019. Abstract, doi: 10.1016/j.chest.2019.08.311.

NEW ORLEANS – Robotic bronchoscopy with shape-sensing technology performed more effectively in comparison with standard techniques for localizing and puncturing nodules in the periphery of the lung.

A prospective study in a cadaver model showed that robotic bronchoscopy targeted nodules more effectively than electromagnetic navigation or an ultrathin bronchoscope with radial endobronchial ultrasound (UTB-rEBUS).

“This is really the first study to randomize, blind, and compare procedural outcomes between existing technologies in advanced bronchoscopy,” said Lonny Yarmus, DO, of Johns Hopkins Medicine in Baltimore.

Dr. Yarmus described this study, PRECISION-1, at the annual meeting of the American Society of Chest Physicians. The study was designed to compare the following:

• UTB-rEBUS (3.0 mm outer diameter and 1.7 mm working channel).
• Electromagnetic navigation bronchoscopy (Superdimension version 7.1).
• Robotic bronchoscopy (3.5 mm outer diameter and 2.0-mm working channel).

With all methods, a 21-gauge needle was used. For each nodule, UTB-rEBUS was done first to eliminate potential localization bias. The subsequent order of electromagnetic navigation and robotic bronchoscopy was determined based on block randomization.

Eight bronchoscopists performed a total of 60 procedures using each of the methods to target 20 nodules implanted in cadavers. The nodules were distributed across all lobes, 80% were in the outer third of the lung, and 50% had a positive bronchus sign on computed tomography (CT). The mean nodule size was 16.5 plus or minus 1.5 mm.

The study’s primary endpoint was the ability to localize and puncture target nodules within a maximum of three attempts per method. This includes center, peripheral, and distal punctures of nodules. Cone-beam CT was used to confirm that needles punctured the target lesions. The bronchoscopists were blinded to cone-beam CT results, and a blinded, independent investigator assessed whether nodule punctures were successful. The primary endpoint was met in 25% of UTB-rEBUS procedures, 45% of electromagnetic navigation procedures, and 80% of robotic bronchoscopy procedures.

The study’s secondary endpoint was localization success, which was defined as navigation to within needle biopsy distance of the nodule. This includes center, peripheral, and distal punctures of nodules, as well as adjacent punctures (touching the nodule but not within it). The secondary endpoint was met in 35% of UTB-rEBUS procedures, 65% of electromagnetic navigation procedures, and 90% of robotic bronchoscopy procedures.

The researchers also assessed successful navigation, which was defined as the provider localizing with software or radial ultrasound and passing the needle to make a biopsy attempt. Navigation was successful in 65% of UTB-rEBUS procedures, 85% of electromagnetic navigation procedures, and 100% of robotic bronchoscopy procedures.

“Utilization of robotic bronchoscopy with shape-sensing technology can significantly increase the ability to localize and puncture lesions when compared with standard existing technologies,” Dr. Yarmus said in closing.

He did note that this research was done in a cadaveric model, so “prospective, randomized, and comparative in vivo studies are needed.”

This study was funded by the Association of Interventional Pulmonary Program Directors. Dr. Yarmus disclosed government and societal funding and relationships with Boston Scientific, Veran, Medtronic, Intuitive, Auris, Erbe, Olympus, BD, Rocket, Ambu, Inspire Medical, and AstraZeneca.

[email protected]

SOURCE: Yarmus L et al. CHEST 2019. Abstract, doi: 10.1016/j.chest.2019.08.311.

NEW ORLEANS – Robotic bronchoscopy with shape-sensing technology performed more effectively in comparison with standard techniques for localizing and puncturing nodules in the periphery of the lung.

A prospective study in a cadaver model showed that robotic bronchoscopy targeted nodules more effectively than electromagnetic navigation or an ultrathin bronchoscope with radial endobronchial ultrasound (UTB-rEBUS).

“This is really the first study to randomize, blind, and compare procedural outcomes between existing technologies in advanced bronchoscopy,” said Lonny Yarmus, DO, of Johns Hopkins Medicine in Baltimore.

Dr. Yarmus described this study, PRECISION-1, at the annual meeting of the American Society of Chest Physicians. The study was designed to compare the following:

• UTB-rEBUS (3.0 mm outer diameter and 1.7 mm working channel).
• Electromagnetic navigation bronchoscopy (Superdimension version 7.1).
• Robotic bronchoscopy (3.5 mm outer diameter and 2.0-mm working channel).

With all methods, a 21-gauge needle was used. For each nodule, UTB-rEBUS was done first to eliminate potential localization bias. The subsequent order of electromagnetic navigation and robotic bronchoscopy was determined based on block randomization.

Eight bronchoscopists performed a total of 60 procedures using each of the methods to target 20 nodules implanted in cadavers. The nodules were distributed across all lobes, 80% were in the outer third of the lung, and 50% had a positive bronchus sign on computed tomography (CT). The mean nodule size was 16.5 plus or minus 1.5 mm.

The study’s primary endpoint was the ability to localize and puncture target nodules within a maximum of three attempts per method. This includes center, peripheral, and distal punctures of nodules. Cone-beam CT was used to confirm that needles punctured the target lesions. The bronchoscopists were blinded to cone-beam CT results, and a blinded, independent investigator assessed whether nodule punctures were successful. The primary endpoint was met in 25% of UTB-rEBUS procedures, 45% of electromagnetic navigation procedures, and 80% of robotic bronchoscopy procedures.

The study’s secondary endpoint was localization success, which was defined as navigation to within needle biopsy distance of the nodule. This includes center, peripheral, and distal punctures of nodules, as well as adjacent punctures (touching the nodule but not within it). The secondary endpoint was met in 35% of UTB-rEBUS procedures, 65% of electromagnetic navigation procedures, and 90% of robotic bronchoscopy procedures.

The researchers also assessed successful navigation, which was defined as the provider localizing with software or radial ultrasound and passing the needle to make a biopsy attempt. Navigation was successful in 65% of UTB-rEBUS procedures, 85% of electromagnetic navigation procedures, and 100% of robotic bronchoscopy procedures.

“Utilization of robotic bronchoscopy with shape-sensing technology can significantly increase the ability to localize and puncture lesions when compared with standard existing technologies,” Dr. Yarmus said in closing.

He did note that this research was done in a cadaveric model, so “prospective, randomized, and comparative in vivo studies are needed.”

This study was funded by the Association of Interventional Pulmonary Program Directors. Dr. Yarmus disclosed government and societal funding and relationships with Boston Scientific, Veran, Medtronic, Intuitive, Auris, Erbe, Olympus, BD, Rocket, Ambu, Inspire Medical, and AstraZeneca.

[email protected]

SOURCE: Yarmus L et al. CHEST 2019. Abstract, doi: 10.1016/j.chest.2019.08.311.