from the world's big
Scientists create 10-minute test that can detect cancer anywhere in the body
The quick test would be a breakthrough in cancer treatment.
- Australian researchers find 3D nanostructures that are unique to cancer cells.
- These markers can be identified using technology that may be available on cell phones.
- Human clinical trials are next for the team.
Australian researchers claim in a new study that they developed a 10-minute test that's capable of finding cancer cells at any location in the body. If further testing achieves the same results, this accomplishment could be a real breakthrough in fighting cancer.
The potential for quick diagnoses could help detect and treat cancer early, potentially helping the outcomes for millions of people. The test works by looking for a unique DNA nanostructure that seems to be common to all types cancers. What's especially remarkable is that the variability of cancers makes finding one simple signature shared by them all very complicated.
The study carried out by researchers Dr Abu Sina, Dr Laura Carrascosa and Professor Matt Trau from the University of Queensland, looked for common markers in cancers that would be different from healthy cells.
"This unique nano-scaled DNA signature appeared in every type of breast cancer we examined, and in other forms of cancer including prostate, colorectal and lymphoma," said Dr. Sina. "The levels and patterns of tiny molecules called methyl groups that decorate DNA are altered dramatically by cancer – these methyl groups are key for cells to control which genes are turned on and off."
Professor Matt Trau, Dr Abu Sina and Dr Laura Carrascosa.
Credit: University of Queensland.
Dr. Carrascosa explained that the team made a tool that can look at what changes happen over the entire genome level of cells. In particular, what they noticed is that methyl groups in a healthy cell can be found across the whole genome while in cancer cells the genomes "are essentially barren except for intense clusters of methyl groups at very specific locations."
The team found that when clusters of methyl groups are placed in a solution, the cancer DNA fragments folded into unusual three-dimensional nanostructures. What's more - these could be made to separate if stuck to gold and other solid surfaces. This breakthrough led to the development of a test using gold nanoparticles that can change color to show if the cancer DNA is present.
Dr. Tau from the team said "this led to the creation of inexpensive and portable detection devices that could eventually be used as a diagnostic tool, possibly with a mobile phone."
This tech has proven to be 90% accurate when used on a group that included 200 human cancer samples and normal DNA. The diseases detected included breast, prostate, bowel and lymphoma cancers.
The researchers are urging caution, saying they don't know yet if what they created is "the holy grail for all cancer diagnostics." Other scientists have also expressed some skepticism, pointing to the fact this type of testing can produce false positives, leading to more expensive testing. The test is also unable to show how severe the extent of the disease is.
Despite the reservations and competitors, like a recent initiative from Johns Hopkins University to create a quick $500 blood test, the Australian researchers are optimistic that their find of "an incredibly simple universal marker of cancer" can result in "an accessible and inexpensive technology that doesn't require complicated lab-based equipment like DNA sequencing," Professor Trau shared.
Such technology could be particularly useful in rural or underdeveloped areas, where additional medical resources are not available. It can also be useful in monitoring for re-appearances of cancers.
Clinical trials on humans are next for the team.
Check out their new study in Nature Communications magazine.
Join The Daily Show comedian Jordan Klepper and elite improviser Bob Kulhan live at 1 pm ET on Tuesday, July 14!
The team caught a glimpse of a process that takes 18,000,000,000,000,000,000,000 years.
- In Italy, a team of scientists is using a highly sophisticated detector to hunt for dark matter.
- The team observed an ultra-rare particle interaction that reveals the half-life of a xenon-124 atom to be 18 sextillion years.
- The half-life of a process is how long it takes for half of the radioactive nuclei present in a sample to decay.
Gender and sexual minority populations are experiencing rising anxiety and depression rates during the pandemic.
- Anxiety and depression rates are spiking in the LGBTQ+ community, and especially in individuals who hadn't struggled with those issues in the past.
- Overall, depression increased by an average PHQ-9 score of 1.21 and anxiety increased by an average GAD-7 score of 3.11.
- The researchers recommended that health care providers check in with LGBTQ+ patients about stress and screen for mood and anxiety disorders—even among those with no prior history of anxiety or depression.
Study findings<p>For the study, <a href="https://link.springer.com/article/10.1007/s11606-020-05970-4" target="_blank">published in the Journal of General Internal Medicine</a><em>, </em>Flentje and her team evaluated survey responses from nearly 2,300 individuals who identified as being in the lesbian, gay, bisexual, transgender, and queer (LGBTQ+) community. Most of the participants were white, while nearly 19 percent identified as a racial or ethnic minority. Multiple genders were represented with cisgender women (27.2 percent) and men (24.6 percent) making up a majority of the participants. Sixty-three percent had been assigned female at birth. For the most part, participants identified their sexual orientations as queer (40.3 percent), gay (36.5 percent), and bisexual (30.3 percent).</p><p>The JGIM study participants were recruited from the 18,000-participant <a href="https://pridestudy.org/" target="_blank">PRIDE Study</a> (Population Research in Identity and Disparities for Equality), which is the first large-scale, long-term national study focusing on American adults who identify as LGBTQ+. It conducts annual questionnaires to understand factors related to health and disease in this population. </p><p>Participants filled out an annual questionnaire (starting in June 2019) and a COVID-19 impact survey this past spring. Flentje noted that on an individual level, some people may not have experienced a big change in anxiety or depression levels, but for others there was. Overall, depression increased by a <a href="https://patient.info/doctor/patient-health-questionnaire-phq-9" target="_blank">PHQ-9 score</a> of 1.21, putting it at 8.31 on average. Anxiety went up by a <a href="https://www.mdcalc.com/gad-7-general-anxiety-disorder-7" target="_blank">GAD-7</a> score of 3.11 to an average of 8.89. Interestingly, the average PHQ-9 scores for those who screened positive for depression at the first 2019 survey decreased by 1.08. Those who screened negative for depression saw their PHQ-9 scores increase by 2.17 on average. As for anxiety, researchers detected no GAD-7 change among the study participants who screened positive for anxiety in the first survey, but did see an overall increase of 3.93 among those who had initially been evaluated as negative for the disorder. </p>
Risks among gender and sexual minorities<span style="display:block;position:relative;padding-top:56.25%;" class="rm-shortcode" data-rm-shortcode-id="fc3fd1ae68b77bbbf58a6995638d6d65"><iframe type="lazy-iframe" data-runner-src="https://www.youtube.com/embed/EnUqDjCqg0A?rel=0" width="100%" height="auto" frameborder="0" scrolling="no" style="position:absolute;top:0;left:0;width:100%;height:100%;"></iframe></span><p>The LGBTQ+ community is a vulnerable population to mental health concerns because of their fear of stigmatization and previous discriminatory experiences.</p> <p>Previous research by the Human Rights Campaign has found "that LGBTQ Americans are more likely than the <a href="https://medicalxpress.com/tags/general+population/" target="_blank">general population</a> to live in poverty and lack access to adequate medical care, paid <a href="https://medicalxpress.com/tags/medical+leave/" target="_blank">medical leave</a>, and basic necessities during the pandemic," said researcher Tari Hanneman, director of the health and aging program at the campaign.</p> <p>"Therefore, it is not surprising to see this increase in anxiety and depression among this population," Hanneman said in the release. "This study highlights the need for <a href="https://medicalxpress.com/tags/health+care+professionals/" target="_blank">health care professionals</a> to support, affirm and provide <a href="https://medicalxpress.com/tags/critical+care/" target="_blank">critical care</a> for the LGBTQ community to manage and maintain their mental health, as well as their physical health, during this pandemic."</p>
What should health care providers do?<p>The authors of the study recommend that health care providers check in with LGBTQ+ patients about stress and screen for mood and anxiety disorders in members of that community—even among those with no prior history of anxiety or depression.</p><p>As cases of COVID-19 continue to mount, the sustained social distancing, potential isolation, economic precariousness, and personal illness, grief, and loss are bound to have increased and varied impacts on mental health. Effective treatments may include individual therapy and medications as well as more large-scale coronavirus support programs like peer-led groups and mindfulness practices. </p><p>"It will be important to find out what happens over time and to identify who is most at risk, so we can be sure to roll out public health interventions to support the mental health of our communities in the best and most effective ways," said Flentje.</p>
What we know about black holes is both fascinating and scary.
- When it comes to black holes, science simultaneously knows so much and so little, which is why they are so fascinating. Focusing on what we do know, this group of astronomers, educators, and physicists share some of the most incredible facts about the powerful and mysterious objects.
- A black hole is so massive that light (and anything else it swallows) can't escape, says Bill Nye. You can't see a black hole, theoretical physicists Michio Kaku and Christophe Galfard explain, because it is too dark. What you can see, however, is the distortion of light around it caused by its extreme gravity.
- Explaining one unsettling concept from astrophysics called spaghettification, astronomer Michelle Thaller says that "If you got close to a black hole there would be tides over your body that small that would rip you apart into basically a strand of spaghetti that would fall down the black hole."