Cell Biology

Russian coronavirus vaccine results have been published heres what they reveal – Australian Times

Anne Moore, University College Cork

President Vladimir Putin recently announced that a team of Russian scientists had developed a COVID-19 vaccine and that it had been approved for use by the regulators at least, in Russia.

However, the announcement caused consternation among scientists and clinicians in the rest of the world as human trials for the vaccine nicknamed Sputnik V had only started a couple of months before Putins announcement.

The results of the phase one and two human trials of this vaccine have just been published in The Lancet. So what have we learned?

First, lets look at what type of vaccine this is. The vaccine platform used in this study used adenoviruses. These common cold viruses, called Ad5 and Ad26, are made safe and are incapable of growing in the body. They only function to deliver the genetic code of one of the novel coronavirus proteins, called the spike protein, into a cell.

By injecting people with these modified adenoviruses, the immune system is stimulated to respond to the spike protein at the time of immunisation, and hopefully to respond for many years in the future, if the immunised person is exposed to the COVID-causing coronavirus, known as SARS-CoV-2.

The vaccine platform the Russians are using is not novel. Some of the leading COVID-19 vaccines use adenoviruses, including the Oxford University vaccine and an Ad26 vaccine developed by Johnson and Johnson. Following successful animal trials, both are now being tested in humans. CanSino Biologicals, a Chinese company, has also shown that its Ad5 vaccine is safe and induces immunity against the coronavirus in humans.

However, the Russian group has shown that their stable, freeze-dried preparation of the vaccine works to the same extent as their frozen liquid vaccine preparation. This is important for shipping and deploying a vaccine.

The Lancet paper outlines acceptable safety data, even with the high dose used. These safety results are not unexpected as the safety of several adenovirus-based vaccines for different diseases has been demonstrated in earlier research.

So its safe, at least in healthy people aged 18 to 60, but does it work does it protect against COVID-19?

The Russian group showed that their vaccine induces high levels of antibodies that can bind to the spike protein. But a more important measure is the level of antibodies that are functional. That is, can the antibodies prevent, or neutralise, infection of a virus into a cell?

The levels of neutralising antibodies were quite low in this study, compared with other published vaccine trials. So too were the T cell responses (the other arm of the immune systems adaptive response).

One interpretation of this is that these vaccines do not induce good neutralising protection. Alternatively, the methods used to measure these immune responses may not have been optimal. In the absence of international reference standards, we cant tell if this vaccine is better or worse compared with others.

Crucially, as with other COVID-19 vaccine clinical trials, we dont know if that level of neutralisation is enough to protect from infection and how long these antibodies remain in the blood. The publication shows responses only up to one month after immunisation. The ultimate question of whether these vaccinated people are protected against COVID-19 was not a focus of this paper.

Despite the positive results of the small phase one trial of the Sputnik V vaccine, it needs to be tested in a much larger group of people before it can be used on an entire population with confidence.

All vaccines need to be tested in large numbers of people, of different ages and ethnicities, in phase three clinical trials. Phase three trials are necessary to gain a high level of confidence that the vaccine protects against infection. They also help to tease out rare side effects that may not be evident in a small group of healthy volunteers. This final stage of testing is not one that can or should be left out.

Unfortunately, the Sputnik moniker highlights the politicisation of earnest scientific and medical efforts to develop vaccines against COVID-19. This vaccine nationalism is a source of much concern for everyone in the vaccine field who understands the power of vaccines to eliminate disease, but only when used with the acceptance of the population.

Anne Moore, Senior Lecturer in Biochemistry and Cell Biology, University College Cork

This article is republished from The Conversation under a Creative Commons license. Read the original article.

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Russian coronavirus vaccine results have been published heres what they reveal - Australian Times

Immunology

Worldwide Human Microbiome Immunology Therapeutics Industry to 2025 – The US Dominates the Global Market Landscape – PRNewswire

DUBLIN, Sept. 3, 2020 /PRNewswire/ -- The "Global Human Microbiome Immunology Therapeutics Market & Clinical Trial Insight 2025" clinical trials has been added to ResearchAndMarkets.com's offering.

The scale and scope of microbiome research activity has now become one of the fastest growing areas in biology. The relevance that it has shown for the welfare of the society and pharmaceutical industry has led to the development of a transdisciplinary environment that is however conducive to innovation with a mission to abolish the limitations in the pharmaceutical industry through excellence in microbiome research, awareness and outreach. Over the years now, gut microbiome is estimated to implicate success for the various immunotherapies.

Microbiome's role in immunology practices is to transform world-class treatment into the medicine of today and tomorrow. It is highly recognizable that the healthcare issues that mankind is facing today is now bigger than any one solution. The treatment of certain diseases requires multiple options for the treatment and ultimately prevention. Therefore, the amalgamation of two different treatment paradigms i.e. microbiome and immunology are apparently delivering some medical benefits that millions of patients were in need for long period of time. The ways in which microbiome is understood and manipulated to serve the immunological aspects has given great interest to all the researchers.

The essential and usual concept of immunology depicts targeting the immune system of the body to provoke an immune response with huge impact but then the unsuccessful implication of immunology therapies driven treatments led to an exploration of several other basic concepts that could play an important role in boosting the immune system when combined. Looking forward, the microbiome community in the gut represented beneficial patterns with respect to further research. The area of microbiome research and its combination with immunological aspect for the disease treatment has produced a real excitement in the area of medical research and specifically microbiome research.

All over the world, the amalgamation of the two has been well accepted and appreciated by the patients, physicians and the clinicians. Investigation of all the working sides of microbiome and how it plays an important role in boosting the manipulated immune cells have recently started in large numbers as the technology available in the medical field allows to capture it accurately. To facilitate the microbiome and immunology community in order to extract the best and trending opportunities that are stemmed into the microbiome research, the experts from both the relevant disciplines are analyzing it through clinical researches and surveys. Further, the area is getting supported by 86 different clinical trials getting conducted in different countries.

The Global Human Microbiome Immunology Therapeutics Market & Clinical Trial Insight 2025 report summarizes the view of the wider opportunities that are associated microbiome community for the advancement of the scientific information regarding immunology. The science that is related to microbiome has high interdisciplinary and various opportunities that somehow have remained hidden in the medical world. It is believed that the opportunities and all the desirable tangible benefits microbiome is capable of delivering when combined with immunology is large and needs coordinated and constructive approach. The call to the two different sectors i.e. microbiology and immunology is estimated to unlock the potential and promising benefits of microbiome. The approach leading to the extraction of advantages if properly embedded in the microbiome and immunology research, the future benefits will be huge

Report Highlights:

Key Topics Covered:

1. Overview of Microbiome1.1 Introduction to Microbiome1.2 History & Evolution of Microbiome

2. Role of Microbiome in Human Body

3. Microbiome: Various Forms3.1 Gut Microbiome3.2 Lung Microbiome3.3 Skin Microbiome3.4 Microbiome in Other Parts of the Body

4. Mechanism of Microbiome Activity4.1 Nature of Immune Response4.1.1 Immunosuppressive Activity4.1.2 Immunostimulatory Activity4.2 Messengers Involves in Microbiome Mechanism4.2.1 MAMPs/PAMPs4.2.2 Microbial Metabolites As Messengers4.2.3 Host Cytokines As Messengers4.2.4 Immune Cells As Messengers

5. Technological Requirement for Microbiota5.1 Technologies Used5.1.1 iChip5.1.2 Simulator of the Human Intestinal Microbial Ecosystem (SHIME)5.1.3 Gut-on-a-Chip System5.1.4 Colonic Stem Cell Construction5.2 Harnessing & Engineering the Microbiome5.2.1 Additive Approaches5.2.2 Subtractive Approaches

6. Need for Microbiome Immunology

7. Therapeutic Applications of Microbiome Immunology7.1 Microbiome Therapy7.2 Precision Medicine7.3 Drug discovery7.4 Biomarkers & Therapy Optimization

8. Human Microbiota in Infectious Diseases8.1 Infection with Clostridium Difficile8.2 Infection with Helicobacter Pylori8.3 Bacterial Vaginosis8.4 Infection with HIV

9. The Human Microbiota & Liver Diseases9.1 Non-Alcoholic Fatty Liver Disease (NAFLD)9.2 Alcoholic Liver Diseases (ALD)9.3 Liver Fibrosis & Cirrhosis

10. The Human Microbiota & Metabolic Disorders10.1 Obesity10.2 Type 2 Diabetes

11. The Human Microbiota & Other Diseases11.1 Microbiota & Allergic Diseases11.2 Microbiota & Psychiatric Diseases

12. Microbiome in Immuno Oncology12.1 Role of Microbiome in Immuno Oncology12.2 Microbiome Mechanism in Oncogenesis & Tumor Suppression

13. Microbiome Application by Cancer Types13.1 Gastric Cancer13.2 Colorectal Cancer13.3 Esophageal Cancer13.4 Hepatocellular Carcinoma13.5 Melanoma13.6 Solid Tumors

14. Industrial Approaches of Microbiome Therapy in Oncology14.1 Bacterial Approaches14.1.1 Fecal Microbiota Transplantation (FMT)14.1.2 Synthetic Bacteria14.1.3 Microbial Culture14.2 Microbiome as Vaccine14.3 Microbiome as Small Molecules14.4 Microbiome Therapy using Phage Virus

15. Global Human Microbiome Market Analysis15.1 Overview15.2 Human Microbiome Market Segmentation15.2.1 Regional Segmentation15.2.2 Disease Based Segmentation15.2.3 Segmentation by Application

16. Clinical Pipeline of Microbiome Based Therapy16.1 Microbiome Modulators in Clinical Trial16.2 Cancer Related Clinical Trials16.2.1 Preclinical & Discovery Phase16.2.2 Active Clinical Trials16.3 Clinical Trial Related To FMT16.3.1 Clinical Trial for Recurrent C. difficile16.3.2 Clinical Trial for Inflammatory Bowel Disease (IBD)16.3.3 Other FMT Related Clinical Trials

17. Global Microbiome Modulators Clinical Pipeline By Company, Indication & Phase17.1 Research17.2 Preclinical17.3 Clinical17.4 Phase-I17.5 Phase-I/II17.6 Phase-II17.7 Phase-II/III17.8 Phase-III

18. Marketed Microbiome Modulators Clinical Insight18.1 Sodium Oligomannurarate - Shanghai Green Valley Pharmaceutical18.2 Miya-BM

19. Global Microbiome Immunology Therapeutics Market Growth Drivers

20. Microbiome Technology - Investments, Acquisitions & Collaborations by Leading Microbiome Companies

21. Blockades in the Microbiome Immunology Market21.1 Stable Engraftment21.2 Development of Clinically Relevant Sensors21.3 Robustness and Evolutionary Stability of Genetic Circuits21.4 Regulation, Safety and Biocontainment

22. Global Microbiome Immunology Market Future Panorama

23. Competitive Landscape23.1 4D Pharma23.2 AbbVie23.3 AstraZeneca plc23.4 Biocodex23.5 Bristol Mayer Squibb23.6 Corebiome/Diversigen23.7 Elogi Bioscience23.8 Enterome23.9 Ferring Pharmaceuticals23.10 Finch Therapeutics23.11 Maat Pharma23.12 Merck23.13 Microbiome Therapeutics23.14 Novartis23.15 OpenBiome23.16 Pfizer23.17 Rebiotix23.18 Second Genome23.19 Seres Therapeutics23.20 Symberix23.21 Takeda Pharmaceuticals23.22 Vedanta Bioscience

For more information about this clinical trials report visit https://www.researchandmarkets.com/r/u5kzzz

Research and Markets also offers Custom Research services providing focused, comprehensive and tailored research.

Media Contact:

Research and Markets Laura Wood, Senior Manager [emailprotected]

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Worldwide Human Microbiome Immunology Therapeutics Industry to 2025 - The US Dominates the Global Market Landscape - PRNewswire

Anatomy

Whats Most Difficult About Playing A Doctor On Grey’s …

One of the things that medical shows, especially, have really tried to do is have an emphasis on how things actually work in a hospital and in surgery when such details are shown on camera. The goal, of course, is to have the procedures, equipment used, potential complications and everything else on Grey's Anatomy be as realistic as possible, so that viewers can really get into the stories without wondering too much about the authenticity of what they've seen. And, as Chandra Wilson said, one of the things the actors have to worry about is making sure that they respect the real professions they're portraying.

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Whats Most Difficult About Playing A Doctor On Grey's ...

Anatomy

‘Grey’s Anatomy’ Season 17: Everything We Know So Far …

They were saying things like, kids, their first year out of medical school, are seeing more death in the first year than many doctors see in a decade, and it just felt like we had to tell this story, she continued. We have to tell this story, and so the conversation became, how do we tell this very painful, brutal story that has hit our medical community so intenselyand as they keep saying, permanently changed medicine? How do we do that and provide some escapism? How do we do that and create romance and comedy and joy and fun?

On September 4, Pompeo implied that covering COVID-19 was a no-brainer for the series after being asked about it by a fan. Yes, she replied. The biggest medical crisis the world has ever seen? Yes we are meeting the moment and telling some stories.

The new season begins one month and a half into pandemic. Actor Giacomo Gianniotti, who plays Dr. Andrew DeLuca, teased details of season 17's coronavirus storyline, telling Entertainment Tonight the series will start about a month and a half [into] full COVID,so it's going to take place a little beyond where we left off in the last season."

We might have some flashbacks, he continued. "We might have some things where we're referencing last season, just to havecontext leading up. But we are going to have a littleleap when we start this season in terms of time. We're not picking up right where we left off."

Sorry, there will be less kissing. Vernoff told THR its safe to say the kissing quotient will be down in season 17. Obviously, you cant have people making out, but theres been a lot of sex on Greys Anatomy that doesnt involve kissing, she said. There's a lot of sexy lifting of clothes, and pulling down of clothes, and taking off of things, and standing behind a person in a sexy way. Theres a lot of ways to skin a cat, so to speak.

A few actors are getting bumped up to series regulars. Richard Flood and Anthony Hill are officially Greys Anatomy series regulars, according to the Hollywood Reporter. Meanwhile, Stefania Spampinato, who plays DeLucas sister, Carina, will be transitioning to a series regular role on its firefighter spin-off, Station 19.

Richard Flood as Dr. Cormack Hayes with Ellen Pompeo as Meredith Grey

Flood plays Dr. Cormack Hayes, the widowed pediatric surgeon whose relationship with Meredith is giving us major enemies-to-lovers vibes, while Hill portrays Dr. Winston Ndugu, Maggies (Kelly McCreary) next love interest.

I am so excited to add Anthony Hill, Stefania Spampinato, and Richard Flood to the Station 19 and Greys Anatomy families, said Krista Vernoff, who serves as showrunner on both dramas. They are huge talents who made a big impact with our fans, with our casts, and with our writers, who are eager to write more for them.

This post will be updated as new information becomes available.

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'Grey's Anatomy' Season 17: Everything We Know So Far ...

Anatomy

Ellen Pompeo Reveals Her New Favorite Grey’s Anatomy …

Pompeo also responded to a fan who asked if season 17 would be about COVID-19, confirming what showrunner Krista Vernoff has previously said about the stories for the new season.

"Yes the biggest medical crisis the world has ever seen?" Pompeo tweeted. "Yes we are meeting the moment and telling some stories."

Vernoff has said that while she initially did not want to address the pandemic, the writers on her staff convinced her it would be "irresponsible" not to.

"[Doctors]were saying things like, kids, their first year out of medical school, are seeing more death in the first year than many doctors see in a decade, and it just felt like we had to tell this story," she said on THR's TV's Top 5 podcast. "We have to tell this story, and so the conversation became, how do we tell this very painful, brutal story that has hit our medical community so intenselyand as they keep saying, permanently changed medicine? How do we do that and provide some escapism? How do we do that and create romance and comedy and joy and fun?"

At the very least, it looks like the romance is still in the cards.

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Ellen Pompeo Reveals Her New Favorite Grey's Anatomy ...

Anatomy

Grey’s Anatomy Is Losing A Star To Station 19, But Why …

While Grey's Anatomy and sister series Station 19 have been off the air for months and there is no news of when exactly they might be back on ABC with new episodes, there is some big news for both shows. Grey's is losing another star for the sake of the spinoff, and there are already questions about why exactly it is happening from a story perspective, and what it will entail. Stefania Spampinato, a.k.a. Dr. Carina DeLuca, is switching from a recurring actor on Grey's Anatomy to a series regular on Station 19.

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Grey's Anatomy Is Losing A Star To Station 19, But Why ...

Anatomy

penis | Description, Anatomy, & Physiology | Britannica

Penis, the copulatory organ of the male of higher vertebrates that in mammals usually also provides the channel by which urine leaves the body. The corresponding structure in lower invertebrates is often called the cirrus.

Britannica Quiz

The Human Body

Which of these glands produces tears?

The human penis is anatomically divided into two continuous areasthe body, or external portion, and the root. The root of the penis begins directly below the bulbourethral glands with a long cylindrical body of tissue known as the corpus spongiosum (or corpus cavernosum urethrae). This tissue extends through the body of the penis to the tip, where it expands into a mushroom-shaped structure called the glans penis. Running through the centre of the corpus spongiosum is the urethra, a common passage for semen and urine; the urethra ends in a slitlike opening at the tip of the glans penis. Beginning alongside of the bulbourethral glands are a pair of long cylindrical bodies called the corpora cavernosa penis. These continue through the body of the penis, occupying the sides and upper portion directly above the corpus spongiosum; they terminate immediately before the glans penis.

The corpora cavernosa consist of empty spaces divided by partitions of tissue. The tissue consists of muscle, collagen (a fibrous protein), and elastic fibre. The corpora cavernosa are termed erectile tissue (see erection), because during sexual excitation, their fibrous tissue is expanded by blood that flows into and fills their empty spaces. The blood is temporarily trapped in the penis by the constriction of blood vessels that would normally allow it to flow out. The penis becomes enlarged, hardened, and erect as a result of this increased blood pressure. The corpus spongiosum is also considered erectile tissue. This area, however, does not become as enlarged as the other two during erection, for it contains more fibrous tissue and less space; unlike the corpora cavernosa, the corpus spongiosum has a constant blood flow during erection.

The corpora cavernosa and corpus spongiosum are enclosed by a circular layer of elastic tissue. This in turn is covered by a thin layer of skin. The skin, which is slightly darker in colour than the rest of the body, is loose and folded while the penis is in a flaccid state. At the beginning of the glans penis, a circular fold of skin, commonly called the foreskin (or prepuce), extends forward to cover the glans. At birth or during early childhood, the foreskin may be removed by an operation called circumcision.

In humans, the penis may be affected by various developmental abnormalities, diseases, or injury. Severe anomalies of the penis are rare; examples are the absence, torsion (twisting), and duplication of the penis. Other anomalies include an abnormally large penis, which typically is associated with precocious puberty, dwarfism, or an overactive pituitary, and a small penis, which may be associated with infantilism or undersecretion of the pituitary or pineal gland. Balanitis, or inflammation of the glans penis, and posthitis, or infection of the foreskin, result from the retention of secretions and bacteria beneath the foreskin and can be prevented with proper hygiene. Tumours of the penis are almost all of epithelial (covering or lining) origin and usually involve the foreskin (prepuce) or glans; penile cancer is infrequent among men who were circumcised during infancy.

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penis | Description, Anatomy, & Physiology | Britannica

Anatomy

University subject profile: anatomy and physiology – The Guardian

What youll learnIf you want to get under the skin of the human body and delve into the functioning of everything from the skeletal structure to the nervous system, an anatomy or physiology degree might be for you. You could learn how cells develop, how limbs form in the right places, even how muscle groups are used in different sports. You may touch on hot topics such as cell cloning, genetic engineering or the impact of malaria or HIV on a human being.

Anatomy degrees will involve dissection of human and animal cadavers, while physiology involves the study of both the healthy body and the body as affected by disease research which can lead to the development of new medical treatments. Degree courses will impart an excellent knowledge of how the body works and can encompass a variety of disciplines including biology, genetics, immunology, embryology, neuroscience, pharmacology and disease processes.

How youll learnCourses are hands-on, so you could be doing anything from dissection classes to fieldwork or data analysis. As well as learning independently, youll probably need to complete group work, and a hefty original research project in the final year. Expect to spend lots of your time in lectures, seminars and laboratory practicals.

Entry requirementsMany universities will ask for at least two A-Levels (or equivalent) in biology, chemistry, physics or maths. Psychology may also be desirable.

What job can you get?Many graduates work as physiotherapists, or in fields such as cardiology, audiology, neurophysiology, or speech and language therapy.

Others undertake further study, sometimes in medicine or dentistry. If you love the academic side, a career in scientific research could be right up your street. This will require extra study, but you will be able to specialise in an area of particular interest. This doesnt always mean you need to stay in a university pharmaceutical companies, charities and government departments need researchers too.

Teaching is another option, while the analytical and data-handling skills youll gain should make you an attractive candidate for multinational corporations.

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University subject profile: anatomy and physiology - The Guardian

Anatomy

Anatomy 101: Is an ancient Chinese script the oldest anatomy textbook in existence? – SYFY WIRE

Hippocrates and Galen might come to mind when you think of classical anatomy, but someone might have figured the human body out before he ever did. Someone on the other side of the planet.

Anatomists who lived during Chinas Han Dynasty, a period when learning flourished, are thought to have first mapped the structure of the body (as opposed to function). Ancient scientists dissected bodies for thousands of yearsthe drawback is that too little evidence of it has surfaced, which explains why European texts have been the go-to for centuries. Medical scientist Vivien Shaw and her research team have now unearthed Chinese Mawangdui medical texts from some 2,200 years ago. That means the ghost of Hippocrates probably needs to take several seats.

The ancient Greeks and Chinese had some similar concepts, such as pneuma, or life force, which is broadly similar to Qi, Shaw, who recently published a study in The Anatomical Record, told SYFY WIRE. However, in Chinese medicine, the philosophy of yin and yang lies at the core of how the body is understood. There is nothing in ancient Greek medicine that matches this.

Long before the Renaissance brought on anatomical enlightenment in the Western world, discoveries made in China, Persia, and India reimagined how more ancient peoples may have previously thought of the human body. Some of them even predated the luminaries of ancient Greece and Rome. The Mawangdui texts do not directly mention acupuncture, but the knowledge they contain that is still used in the practice disproves erroneous thinking that acupuncture is not based on actual science. Not only are they factually comparable to anything that came out of ancient Greece, but they survived when several Greek texts perished in the fire that reduced the fabled Library of Alexandria to ashes.

Unearthed from the Mawangdui burial site, where they were hidden deep underground since 168 B.C., the Mawangdui manuscripts were placed along other artifacts associated with traditional Chinese medicine. This tomb also contained the body of the Lady of Dai, one of the most remarkable mummies in the world. Scientists are still unable to figure out how her body was preserved almost unnaturally well. Whether anything written in the Magwandui texts or others buried with them had something to do with thatremains unknown.

But how did the Chinese get around the Confucian tradition of venerating ancestors, which should have ultimately prevented them from carrying out dissections? This is really the only way they could have learned about the 11 (later 12) meridians, or energy pathways in the body, that form the basis for acupuncture. Later texts reveal that they used the bodies of criminals so they wouldnt have to break tradition and commit what would have been considered a sacrilegious act of disrespect.

There are instances in most of the meridians where the structures that the texts are describing can only be seen in the dissected body, and could not be inferred from looking at the exterior, Shaw explained. For example, there is no other method by which they could have known the vena cava travels through the abdomen on the right hand side. Careful, systematic dissection is required in order to find these structures, so they would have had to study the body in this way.

Pathways are associated with certain diseases much as humors were in medieval Europe. The Huangdi Neijing, or Yellow Emperors Canon of Internal Medicine, was the ultimate Chinese canon of medicine during the Han Dynasty, and within its revered pages are the oldest writings on acupuncture theory. This is because these teachings were actually copied from the earlier Mawangdui texts. While the Neijing itself appeared slightly later, the information inside that was gathered from the Mawangdui texts predates it. The Neijing has been copied and recopied to the present day to reflect advancements in medical knowledge up to this day.

The only difference between the Neijings original text on meridians and the Mawangdui texts is that a 12th meridian was later added to the Neijing. Both texts describe the circulation of Qi, or vital energy, through these meridians.

The location of the meridians and points has remained constant since the Neijing, Shaw said. Current research is trying to solve the mystery of why it is that, if you use this particular body map of meridians and points, you get the physiological changes and health benefits that you do. So, in a way, theancient texts have directly informed current research, even though themeridians and points were arrived at through looking at anatomy, not physiology.

Another mystery surrounding the Mawangdui texts is that they may not even be the oldest records of anatomy, just the oldest that have either survived or been discovered yet. There are thought to be older Eastern manuscripts that have so far eluded us. Maybe they will eventually be found by dissecting the past.

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Anatomy 101: Is an ancient Chinese script the oldest anatomy textbook in existence? - SYFY WIRE

Anatomy

The anatomy of the Raptors perfect play to beat the Celtics in Game 3 – The Boston Globe

And it was.

Heres a closer look at how the OG Anunoby pulled off the buzzer-beating 3:

Tacko Fall enters the game.

Coach Brad Stevens put 7-foot-5-inch center Tacko Fall in to guard Kyle Lowrys sideline inbounds pass. On the bench, Walker was so nervous that something bad might happen that he could not watch.

The Celtics were in zone.

The Celtics came out in a zone defense, ideally to leave them less susceptible to a series of screens. Its their usual approach in these situations, and it generally works out well. They were pointing out and calling switches.

No one saw OG Anunoby on the baseline.

Jayson Tatum started on Anunoby, the lowest threat on the court. Anunoby casually jogged along the baseline to the far corner before the ball was inbounded.

Tatum appeared to point to let Jaylen Brown know so he could switch onto him. But Brown had his back to them as he guarded Pascal Siakam in the paint, and it did not look like Tatum yelled anything to him.

Fred VanVleet was the focus.

The Celtics focus was on VanVleet, the most dangerous option in this situation. Tatum said Marcus Smart passed VanVleet off to him.

So OG cut. I was passing to the next guy, Tatum said after the game. We just didnt communicate. Everybody didnt hear it. Its not on one person.

When Marc Gasol set a screen for VanVleet, Smart pointed for a switch. Theis and Tatum both shaded toward VanVleet, smothering that option, but also leaving Boston vulnerable elsewhere.

Gasol then set a screen for Pascal Siakam, who ran toward the top of the key. Brown switched onto Gasol, and Smart switched onto Siakam. And as all this was transpiring, before the ball was even inbounded, Anunoby stood alone in the far left corner.

You can see the switches better if you slow down the play. Watch how Tatum and Smart swap at the top at the key.

Lowrys pass was perfect.

The only way the Raptors could get a shot off in time was if the inbounds pass landed right in Anunobys hands.

Lowry, despite being guarded by Fall, was able to drop it front-and-center to Anunoby, who didnt hesitate and put the shot up. It was an absurdly difficult crosscourt pass that looked like it was executed with ease.

Brown couldnt get to Anunoby in time.

By the time Brown recovered and contested the shot, he was a half-step behind. It was too late, as the 3-pointer splashed through the net and sent the Raptors to an improbable 104-103 win in Orlando that pulled them within 2-1 in this series.

Heres what the Celtics were thinking after the game.

Brown called it a miscommunication.

Thats really all what happened. At the end of the day, weve just got to be better as a unit. Regardless of what [defense] we were in, we know we had to guard the 3-point line. So, that was just a [expletive] disgrace at the end of the game. That was just terrible. No way we should have lost that game. I take responsibility for that. Not just that play but a lot of the plays before.

But he also acknowledged how one stop made the difference between going up 3-0 and taking all the momentum into Saturday, and needing to get two more wins to move on to the Eastern Conference Finals.

We just needed one stop to win the [expletive] game, Brown said, and we end up losing.

Where do they go from here?

As Gary Washburn points out that the Celtics focus will eventually have to shift to positivity.

It required a combined 56 points from Lowry and Fred VanVleet, a below-average game from Tatum, and a miracle shot for the Raptors to beat the Celtics.

Read Washburns full analysis here.

The Celtics, who lead the series, 2-1, are back at it on Saturday, with a 6:30 p.m. tipoff for Game 4.

Adam Himmelsbach can be reached at adam.himmelsbach@globe.com. Follow him on Twitter @adamhimmelsbach. Katie McInerney can be reached at katie.mcinerney@globe.com. Follow her on Twitter at @k8tmac.

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The anatomy of the Raptors perfect play to beat the Celtics in Game 3 - The Boston Globe