All posts by medical

Embryology

Embryology, LEGOS AND geocaching among activities at Youth Building – Uniontown Herald Standard

Visitors to the Youth Building during this years Fayette County Fair at the Fayette County Fairgrounds in Dunbar Township will have opportunities to see an embryology project, build Lego structures that reflect local landmarks and participate in geocaching as well as learn about 4-H.

Jennifer Deichert, Penn State Extension assistant, explained this years programs are being set up to run in blocks of time to allow fairgoers more flexibility to stop by anytime during these segments to learn about the subjects being presented.

The embryology project, which will be available in an area of the building throughout the fair, teaches life development. The project, which has been undertaken in several local schools through the years, uses chicken eggs that hatch into young chicks.

A program called Explore Embryology with 4-H will be available from 3 to 6 p.m. Friday, July 28 where presenters will be able to explain the process and answers questions to those who visit.

Well let them look at the little chicks and talk about opportunities in 4-H, said Deichert.

Explore Geocaching with 4-H will be presented with Williams Energy from noon to 4 p.m. July 31 to Aug. 4. Geocaching is a hobby in which a participant uses a GPS to search for hidden items called geocaches. Deichert said participants will learn how to geocache to find sites and exhibits throughout the fair.

Steel City LEGO User Group returns with building activities from 10 a.m. to 7 p.m. Sunday, July 30.

Im real excited. (Steel City LUG founder) Josh Hall will be here on Sunday with challenges that relate to something in the Laurel Highlands, Deichert said.

Without revealing specific commands, those challenges include:

Jumonville cross Participants will be asked to make a replica of the Great Cross of Christ that is a local landmark at this Christian camp in North Union Township.

Fallingwater Participants will be challenged to build a cantilever porch based on the concept used at Frank Lloyd Wrights internationally known Fallingwater in Mill Run.

Cave Those participating will be asked to build a cave similar to Laurel Caverns in Farmington, home to Pennsylvanias largest cave.

National Road markers Participants will try building a replica of the markers that denoted miles along the National Road, Americas first federal highway, that runs through Somerset, Fayette and Washington counties in Pennsylvania.

The 4-H Robotics Club will help with the LEGOS program and have their own demonstration from 1 to 2:30 p.m. Sunday, July 30. The club will also host LEGO challenges from 4 to 6 p.m. Tuesday, Aug. 1 and Thursday, Aug. 3.

Carnegie Science Center returns with a liquid nitrogen Make It and Take It activity from 2 to 5 p.m. on Friday, Aug. 4.

Other programs being held in the Youth Building during the fair include:

Explore STEM with 4-H from 3-6 p.m. Monday, July 31, and 2-5 p.m. Wednesday, Aug. 2.

Explore Agriculture and Plant Science with 4-H, 2-5 p.m., Tuesday, Aug. 1; Cloverbud Day: Activities for youths ages 5-8, 2-5 p.m., Friday, Aug. 4 and Explore Health with 4-H, 3-6 p.m., Saturday, Aug. 5.

Agriculture-related videos will run in the Youth Building during the fair.

In addition, GoPro cameras will be available to 4-H members to use for filming a video about the fair. Deichert noted one of this years new clubs is a 4-H Video Production Club.

A Fayette County tourism grant is providing funds for a television with a DVD player to show the agricultural videos as well as 10 GPS units for geocaching, LEGOS for the building challenges and GoPro cameras.

The Youth Building is also the site of the opening ceremony for the 63rd annual Fayette County Fair during which Bill Jackson, fair board president, welcomes the public and introduces fair board members, visiting officials and this years candidates for fair queen. The ceremony takes place at 6:30 p.m. on Thursday, July 28.

4-H clubs will have to set up displays about their clubs, 2-5 p.m., Thursday, and 10 a.m. to 5 p.m., Friday, that will be judged later in competition.

The Youth Building will also hold the popular Pennsylvania Preferred Chocolate Cake and Cookie competition Sunday. Entries are accepted from 9 a.m. to noon with judging at 1 p.m.

On Sunday, the 4-H Robotics Club will have a demonstration, 1-2:30 p.m., while the annual 4-H Fashion Show is scheduled for 3 p.m. and the 4-H Communication Contest is slated for 5 p.m.

4-H entries for a variety of projects are being accepted 8 a.m. to 5 p.m., Monday, July 31, with judging from 9 a.m. to 1 p.m. on Tuesday, Aug. 1.

The LH Literacy Van is slated to visit the Youth Building from 10 a.m. to 7 p.m., Friday, Aug. 4.

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Embryology, LEGOS AND geocaching among activities at Youth Building - Uniontown Herald Standard

Physiology

Fit For You: Men vs. Women in Endurance Sports – WUWM

Lake Effect's Audrey Nowakowski with Dr. Sandra Hunter of Marquette University's Exercise Science Program.

The battle of the sexes has been long documented - especially in sports. Women have made tremendous strides in both novice and professional competitions, but the question of attaining a truly even playing field remains uncertain.

When it comes to sports performance, things are not equal. Men are generally stronger and faster than women thanks to their physiology. However there have been claims made over the years that the longer an event goes -- think ultra-marathon or even longer -- the more advantages women have over men.

Women have broken through to either win or set records in major endurance competitions such as ultramarathons, World's Toughest Mudder, and the Trans Am. But are these victories exceptions rather than the rule? Dr. Sandra Hunter of Marquette University's Exercise Science Program has been studying the sex differences in sports for more more than two decades - long enough to compile a great deal of data.

She states that overall, in most sports that require power or some type on endurance, the best men will always outperform the best women. There is overlap where a lot of women can perform better than men, says Hunter, but "in terms of endurance, the maximal oxygen consumption - that capacity for men is better due to larger hearts, bigger muscle mass, more hemoglobin, and less body fat to carry."

If women aren't competing at the same rates and the participation is less, we really won't and don't understand the true physiological sex differences and what's relevant for women.

Hunter notes that there is about a 10-12% difference in world records between men and women across the board. "That's just the bottom line, and it's always going to make it difficult for women to outdo men."

Her researchshows that while men may succeed more in endurance sports, women are less fatigue-able than men if you get them to perform a very particular exercise at the same intensity as a man. Women's arms and lower limb muscles consistently outperform men's due to the different makeup of muscle fibers. "Women on average have more fatigue resistant muscle fibers then men," says Hunter.

There are two approaches to understanding the sex difference, according to Hunter: one is to bring men and women into the research laboratory to research physiology, and the other approach is to take real-world performance data and try to understand physiology based on that data.

The latter method of research is not as accurate because the records of women's performances in sporting events have not been compiled as long as men's. Hunter notes that women could not officially compete in marathons until the 1970s, therefore the amount of records compiled is clearly not equal.

"The reality is you get less women and less men competing in those [endurance] events, so you get more of these anomalies that occur," notes Hunter.

She also states that women are not studied or included in research as often as men. This not only has big implications for sports research, but for medical research as well. Hunter says that some male researchers she has met express their reluctance to study women because they are uncomfortable in dealing with menstrual cycles. She says the menstrual cycle in fact has very little impact on a woman's performance.

"The differences across the menstrual cycle for a woman...are much less than the differences between men and women," Hunter explains. "They're just small fluctuations and they really have very limited effect on some of the more pertinent issues of strength and fatigue-ability. So I think it's more perception and that we just have got to start including women more than men in a lot of these studies."

Another claim Hunter has proven wrong is the notion that men are more competitive than women. "We do studies in my lab where we actually measure the ability of the brain to activate the muscle, and there's zip differences between men in women. That in fact women are equally motivated to perform maximal contractions just as much as men are," says Hunter. She notes that women try just as hard as men, but women also historically have had fewer opportunities to participate in exercise and some sports events such as the marathon. Hunter adds that women in general tend to participate less in exercise than men, although it's not clear why. It could be attributed to the myriad of other responsibilities and priorities that men may not share in their daily lives.

It's not like women are less than men or men are less than women. I talk about this not because I think women are more important, but because they're just as important.

Just as motivation doesn't differ between the sexes, nor does the age at which men and women peak in performance. According to Hunter, the average age of peak performance is 29 for both men and women. She came upon this discovery after a Runners World journalist asked her about age and performance after the 2008 Beijing Olympics - the woman who won the marathon was 38 years old while the man was only 21 years old.

Hunter says the real issue is not about definitively proving which sex is "better" through physiological tests. The bottom line is "if women aren't competing at the same rates and the participation is less, we really won't and don't understand the true physiological sex differences and what's relevant for women."

Only time will tell whether the sex difference can be measured appropriately once men and women are equally incorporated in competitive sports. "Then we'll really see what those differences are," says Hunter. "And those differences should be celebrated. It's not like women are less than men or men are less than women. I talk about this not because I think women are more important, but because they're just as important. And I think that is a really key thing to remember."

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Fit For You: Men vs. Women in Endurance Sports - WUWM

Physiology

WWU students find octopus study a garden of delights – Walla Walla Union-Bulletin

Id like to be under the sea

In an octopus garden in the shade

Hed let us in, knows where weve been

In his octopus garden in the shade

Ringo Starr, 1969, Octopuss Garden

Its all about octopuses this summer in Walla Walla University assistant professor of biology Kirt Onthanks lab. The images to the right are screen shots from his Octopodium YouTube Channel.

Anyone can follow along with Kirt and his students during the current session at the WWU Marine Biology Station at Rosario Beach in Anacortes, Wash. Subscribe to Octopodium at ubne.ws/2tIyi0Y,which has collections of videos from several seasons.

Kirts bio on the WWU website notes hes particularly interested in ecological physiology and behavioral ecology of marine invertebrates, especially cephalopods (squid, octopus and nautilus fall in this molluscan class).

All living things must bring to bear specific physiological adaptations to survive and thrive in the environments in which they find themselves. I am particularly interested how cephalopods physiology, which is similar to that of slugs, snails and clams, has enabled this group of marine invertebrates to be active, mobile predators that compete with vertebrates. I am also interested in adaptations, behavioral and physiological to dynamic, changing environments, such as hydrothermal vents, he said in his bio.

Etcetera appears in daily and Sunday editions. Annie Charnley Eveland can be reached at annieeveland@wwub.com or afternoons at 526-8313.

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WWU students find octopus study a garden of delights - Walla Walla Union-Bulletin

Physiology

Smart textiles to assess pilot physiology – TEVO – Textile Evolution (subscription)

Smart textiles to assess pilot physiology

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Smart textiles to assess pilot physiology - TEVO - Textile Evolution (subscription)

Genetics

Hendrix Genetics announce new US turkey hatchery investment – Poultry World (subscription)

Investment to the tune of US$25m has been announced by Hendrix Genetics in the form of a new commercial turkey hatchery in South Dakota, United States.

The hatchery will provide up to 30m day-old Hybrid poults and lead to the addition of 100 new temporary and permanent jobs at the site at Beresford.

The new hatchery will have the capacity for 35m hatching eggs and will be fitted with cutting edge equipment to ensure the highest biosecurity and poult quality.

Dave Libertini, Hendrix Genetics managing director, said: The new hatchery allows us to continue to deliver on our core focus of providing top quality genetics that match the needs of the market and our customers. Photo: ANP / Justin Sullivan

It is part of a substantial investment plan by Hendrix, which includes new hatcheries, egg production facilities and a modern transportation fleet and follows previous investments in grandparent facilities in Kansas and Nebraska.

Dave Libertini, Hendrix Genetics managing director, said: The new hatchery allows us to continue to deliver on our core focus of providing top quality genetics that match the needs of the market and our customers. This is a critical component of our plan to modernise the commercial turkey distribution infrastructure in the USA.

Matt McCready, Hendrix Genetics director of business development, added the hatchery would join the network of owned, aligned and contracted hatchery capacity set up to supply the strong demand for Hybrid genetics in the USA.

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Hendrix Genetics announce new US turkey hatchery investment - Poultry World (subscription)

Genetics

Genetics May Dictate A Kid’s View of the World (Nature – MedPage Today

Genetics may play a larger role how children see the world, and how that world is altered when a child has autism, a small observational study found.

Researchers writing in Nature examined 250 typically developing toddlers who watched videos of someone speaking or children playing where they could look at either the eyes, mouth, body or surrounding objects. Identical twins tended to look at the same thing, and looked at the subject's eyes and mouth at the same time compared to non-identical twins and non-sibling pairs. But when examining a group of children with autism, those children looked at the subject's eyes and mouth much less.

The authors said that their findings could lead to more findings about which genes are involved in social engagement and how autism may have the ability to interrupt these genetic pathways.

2017-07-12T15:19:16-0400

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Genetics May Dictate A Kid's View of the World (Nature - MedPage Today

Anatomy

Letter: Opinions are like certain parts of our anatomy | The Verde … – Verde Independent

Editor:

I started out to write a simple letter of thanks to all the people who protected and served over the 4th of July Holiday.

I understand that our personal safety relies on certain occupations fulfilling their duties, no matter what. I thank them for their dedication.

This started me wondering how many how many around me can not quite grasp the true significance of this holiday, but want to. (Maybe they dont.) I would strongly suggest picking up a copy of the book The 5000 Leap Year by W. Cleon Skousen.

It spells out the truly unique, while not perfect, opportunities our founders gave us. It is a good place to state. I can not help but feel that if the founders dropped in on us, today, they would be ashamed.

The wanted us to grow and seek out our potential. Not to retreat into some safe space while muttering homilies about our entitlements or past wrongs. History is for learning from and to grow, not to be used to manufacture strife.

Not one hurled insult or unprovoked attack will chance a single moment of history. But, they will impede our growth into the society our founders hoped or us. That Life, Liberty, and the Pursuit Happiness thing, not the you got it, I want it, therefore I am entitled to take it thing.

I can almost see the fingers waging now; you dont know, you cant understand, I feel. But, that just proves my point. I have not written about something I do not understand or believe in.

Its not my opinion, it is there to see in the documents and correspondences left for us by the founders. On the other hand many will make the mistake of thinking they know me based on this tiny bit of scribbling.

Most opinions are formed form little to no facts or in consensuses with the opinons of others (also with out verification). It does not take much these days to form one. To paraphrase; opinions are like certain parts of our anatomy, everyone has them, but few know how they got there.

Just another out of step, old timer.

Wesley Girard

Camp Verde

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Letter: Opinions are like certain parts of our anatomy | The Verde ... - Verde Independent

Anatomy

15 ‘Grey’s Anatomy’ cast members in roles you’ve forgotten – Hidden Remote

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Photo Credit: Greys Anatomy/ABC Image Acquired from ABC

Ever feel like you got that dj vu moment or the feeling like youve seen an actor before? It happens in so many shows, and Greys Anatomy was certainly one of them.

While Greys Anatomy was the major role for a number of the cast members, it hasnt been the only one. Theyve all starred in a TV show or movie that youve likely forgotten.

This isnt just about the main stars of the show. Ill look into some of the guest stars that you just know youd seen in another show. Did you remember these roles that the Greys Anatomy cast had been in?

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15 'Grey's Anatomy' cast members in roles you've forgotten - Hidden Remote

Embryology

More women are freezing their eggs for a *way* different reason than we thought – HelloGiggles

More women are freezing their eggs because men are mostly trash, according to study "); } AFP/Getty Images

A new study out of Yale University found that more women are freezing their eggs after graduating from college and finding that there just arent any quality men to partner up with. This man deficit, as the study puts it, flies right in the face of other recent studies that assumed more women were freezing their eggs so that they could pursue their career and wanted to buy themselves some time to stack their dough. To be honest, theres nothing wrong with either reason: If you think you want kids at some point in your life, but not anytime soon,freezing your eggs is not a bad way to go.

The study interviewed 150women at eight IVF clinics in the U.S. and Israel, between June 2014 and August 2016. When asked why they were doing it, 90 percent of respondents said that they justcouldnt find a suitable partner.

Study authorMarcia Inhorn elaborated at theEuropean Society of Human Reproduction and Embryology conference in Geneva, Switzerland. She said,Women lamented the missing men in their lives, viewing egg freezing as a way to buy time while on the continuing online search for a committed partner. The desire to find a man who wanted to settle down, so to speak, was more common in women who were highly educated. The results, Inhorn says, show that women are outpacing their male peers, which is a phenomenon thats been brewing for some time.

The new survey is interesting. But it was merely 150 women at a handful of clinics, all in the same demographic, and mostly in their late 30s or 40s.Women are freezing their eggs more than they used to, likely thanks to better medical science and less stigma remember it wasnt until 2012 that theAmerican Society for Reproductive Medicinetook away the experimental label from the procedure.

Despite the high price tag, women are taking advantage of science, much like they did with birth control and emergency contraception, pretty much as soon as it was available. Now that they are freezing their eggs, though, the need to place women who do so in a box, like Cant Find A Man or Selfishly Wants A Career is not the way to go. However you interpret the results of studies like this, there still seems to be a lot of judgement about why women choose to freeze their eggs.

Inhorn did add that women were happy to be taking control of their fertility. She said, Almost all of the women that I spoke to were glad that theyd done it. They felt it had given them some measure of control, a kind of peace of mind, and it actually took the desperation out of dating and feeling like they were under the pressure of the biological clock.

Take Kaitlyn Bristowe, for example, who found her fianc on The Bachelorette (talk about a fairy tale!). The 31-year-old is happily engaged and employed, but decided to take advantage of her options. Im taking control of my future! she said in a tweet when a fan asked her why she was at a fertility clinic. Bristowe added, As a woman theres always pressure to have babies, and this puts my mind at ease for when IM ready.

Given the expensive nature of IVF treatments, its a privilege to be able to make that kind of choice, and many women who would like to take advantage of science, simply cannot. Its nice that as a society were finally starting to examine why women are choosing to freeze their eggs, now that the procedure is more common and accessible to some segments of the population. Lets do more science! But lets not assume that if women were able to freeze their eggs decades ago that they wouldnt have and that it might not have anything to do with men at all.

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More women are freezing their eggs for a *way* different reason than we thought - HelloGiggles

Cell Biology

How Cambridge scientists are exploring the incredible transport system inside our cells – Cambridge Independent (registration)

PUBLISHED: 18:49 12 July 2017 | UPDATED: 18:52 12 July 2017

Paul Brackley

Simon Bullock, cell biology group leader at the MRC LMB in Cambridge, in the fly lab preparing for an open day

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Our cells may be tiny but they are a hive of activity.

Simon Bullock, at the MRC Laboratory of Molecular Biology in Cambridge, is studying what is going on within them.

The department I work in, the cell biology division, is trying to understand how cells and tissues are organised, and there is also a strong interest in how those processes go wrong in human disease, he says.

My research team works on how components are transported within cells by tiny machines called motor proteins. These proteins can walk along tracks within the cell, dragging associated cargo as they go, Simon explains.

Its the cellular equivalent of a railway system, sorting different components to the right places at the right times. This transport process operates in all cells but is particularly important in our nerve cells. Thats because these cells, called neurons, stretch over long distances and consequently rely on a very efficient haulage system within them.

The components being transported are many and various but Simons team have dedicated most of their time to exploring the sorting of ribonucleic acid molecules. These RNAs convey the genetic code in our DNA to another type of machine that reads the code and produces specific proteins from it.

Weve really focused on understanding how these RNAs are targeted to different regions of the cell by motor proteins because that dictates where a protein is made and functions, says Simon.

But the transport system we are studying is important for many other processes in cells. For example, different compartments of the cell need to exchange materials, and this is often done by small membrane-bound structures called vesicles. These vesicles are also moved through the cell by motor proteins.

Moving components around cells by motor proteins, which can take up to 100 steps per second along the track, is much more efficient than having them float around the inside of our cells until they reach their destination.

Each cell has a structure which we call the cytoskeleton, says Simon. Its made up of different types of filaments. As well as providing structural support for the cell, the filaments are used as tracks for the motors.

There are different types of tracks in our cellular railway system some are the equivalent of an inter-city route while others are more akin to a local branch line.

Microtubules are one of the types of tracks. They are used for most long-distance transport in animal cells.

The other kind of track is actin, which is very important in cells for a number of processes. In terms of transport, actin is mostly used for short-distance delivery after cargo has left the microtubules, explains Simon.

The microtubules are hollow tubes, and the motor proteins move along the outside of them.

Some of the motors step in a hand-over-hand fashion, moving in a straight path along one part of the tube. Others appear to have a more chaotic walk, which might allow them to move around obstacles in their path, Simon adds.

While this transport system is essential for normal cell functioning, unfortunately for us it can also be used by some very unpleasant hitchhikers.

We know that the motor proteins in our cells are not just important for trafficking our own cellular components, they are also hijacked by viruses like HIV, rabies and herpes. The viruses have evolved a way to stick to the motors, because this helps them get to where they need to be in the cell, for instance to replicate, says Simon.

One potential long-term benefit of research on motor proteins is that we might have a better understanding of how to block the viral proteins binding to them and thus combat infection.

Viruses can evolve very quickly to prevent a drug binding but this is less of an issue when the virus must preserve the target site in order to interact with a motor in the cell.

Work on motors might also shed light on what goes wrong in neurodegenerative diseases.

One of the earliest things that appears to go wrong in neurodegenerative diseases is transport of cargo along microtubules. It has been speculated that stimulating the transport process could alleviate some of the problems associated with neurodegeneration, says Simon.

However, we are really at the early stages of trying to understand the basic biology of how transport processes work, and translating the results into medicines will be challenging and take a long time.

Simons team use a range of techniques to study the basic biology of transport processes. One line of research involves fruit flies, which can have their genes changed very quickly and easily.

We have been doing a lot of imaging of the cells of fruit flies, says Simon. Part of that has involved labelling cargoes to make them fluorescent, which includes using a protein initially identified in jellyfish by other researchers. We fuse the fluorescent protein to the cargo and then we can use our microscopes to watch it being moved by motors with the cell.

Simons colleagues at the MRC Laboratory of Molecular Biology have also made use of the institutes 5million cryo-electron microscopes to help them put together the first complete 3D model of one of these tiny motors, known as dynein.

This family of motor proteins move along microtubules to transport cargoes, including proteins and RNAs, to different parts of our cells.

Dynein is also known to be involved with many diseases, including viral infections.

Andrew Carters group in the LMBs structural studies division collaborated with Alexander Birds group at the Max Planck Institute in Dortmund on the work.

On its own, dynein does not move for long distances it acts like a train with its brakes on. But once bound to a protein complex called dynactin and proteins on the cargo, it forms a formidable transport machine capable of taking thousands of steps without stopping. Disrupting this process can cause defects in the formation of the brain, leading to learning disabilities or certain forms of epilepsy. The work by Andrew and his colleagues shows how dynein is held in an inactive state and how it is triggered to move only after the cargo is loaded.

Research at the taxpayer-funded Medical Research Council facility is driven by a remit to improve our understanding of human biology and the lab, which last month attracted 2,000 people to an open day at its Cambridge Biomedical Campus home, has an incredible 10 Nobel Prizes to its name.

A lot of major scientific discoveries have been driven by curiosity, observes Simon. People often didnt set out to make a specific discovery but they followed their interests. They saw something unexpected and that led to a completely new line of research. Curiosity-driven research continues to be really important.

Nonetheless, the benefits of translating this research into treatments through collaborating with pharmaceutical companies are clear. With AstraZeneca building its global HQ and R&D facility over the road from the LMB, the opportunities for collaboration will only increase. LMB and AstraZeneca have already been collaborating closely on some projects, as the Cambridge Independent has reported.

I think having AstraZeneca as our neighbours will be fantastic, says Simon. The expertise at AstraZeneca and LMB are highly complementary and there is lots of room for synergy.

Bringing microscopic life into our schools to inspire pupils

Simon Bullock was drawn into biology as a teenager by what he observed when he peered down a microscope.

Rather than learning details of how biochemical reactions work, it was seeing a water fleas heartbeat that really got me hooked. And I still love looking down a microscope in my work, he says.

Simon and colleagues at the MRC Laboratory of Molecular Biology have developed a project that aims to offer younger children the opportunity to be amazed by life at a microscopic level.

Microscopes4Schools is a hands-on science outreach activity for primary school children, now led by Mathias Pasche and delivered by volunteer scientists from the LMB.

They visit local schools to provide a short interactive talk about cells and microscopy, which is followed by a practical hands-on session where pupils can use high-quality educational microscopes to look at different biological samples such as banana cells, water fleas and even their own cheek cells.

Its about giving children an experience that could spark an interest in science, said Simon.

A basic microscope can cost 40, while a higher-quality one will set you back about 300. Budgetary pressures mean that many pupils dont otherwise get to use a microscope until they are in secondary school or sixth-form although parents can inspire their children if they have a microscope at home.

Things that are moving are great for children, said Simon. In summer you can get some pond water and see a lot of life. You can also look at bacteria in yoghurt, or pond weed from an aquarium.

You can find out more about Microscopes4Schools and find valuable resources on experiments on the Microscopes4Schools website.

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How Cambridge scientists are exploring the incredible transport system inside our cells - Cambridge Independent (registration)