Do you have a passion for animals and a desire to make a difference in their lives? If so, a career in veterinary medicine might be the perfect fit for you! As a veterinarian, you'll have the opportunity to work with a wide variety of animals, from household pets to exotic species, and help them stay healthy and happy. One of the most appealing aspects of a career in veterinary medicine is the opportunity to make a meaningful impact on the lives of animals and their owners. Whether you're helping a sick pet recover from an illness or injury, performing routine check-ups to ensure their ongoing health, or even conducting research to advance our understanding of animal health and disease, the work you do as a veterinarian can have a profound impact on the world around you. As a veterinarian, your duties may include a wide range of activities, from diagnosing and treating illnesses and injuries to performing surgeries and providing preventative care. You may also choose to specialize in a particular area of veterinary medicine, such as surgery, oncology, or emergency medicine, among others. To become a veterinarian, you'll typically need to complete a Doctor of Veterinary Medicine (DVM) degree from an accredited veterinary school. Popular undergraduate majors for aspiring veterinarians include biology, animal science, and pre-veterinary studies, among others. In addition to your formal education, you'll also need to pass a licensing exam in order to practice as a veterinarian. Helpful personal attributes for a career in veterinary medicine include a love of animals, strong communication skills, attention to detail, and the ability to work well under pressure. Whether you're working in a private practice, a research laboratory, or a government agency, you'll need to be able to communicate effectively with clients, colleagues, and other stakeholders in order to achieve your goals. Job prospects for veterinarians are generally strong, with a variety of potential employers in both the public and private sectors. Some popular employers for veterinarians include animal hospitals and clinics, research laboratories, government agencies, and zoos and aquariums, among others. With a growing focus on animal health and welfare around the world, the long-term outlook for careers in veterinary medicine is bright, with plenty of opportunities for growth and advancement in the years to come.

Do you love animals and have a passion for science? If so, a career in Veterinary Medicine may be the perfect fit for you! As a veterinarian, you will have the opportunity to work with a variety of animals, from small pets to large farm animals, and even exotic creatures. One of the most appealing aspects of this career is the ability to make a difference in the lives of animals and their owners. Imagine being able to diagnose and treat a sick animal, helping them recover and return to their happy and healthy selves. Or, being able to perform life-saving surgeries and procedures that give animals a second chance at life. As a veterinarian, your typical duties may include performing routine check-ups and vaccinations, diagnosing and treating illnesses and injuries, performing surgeries, and providing preventative care. You may also have the opportunity to specialize in areas such as surgery, dentistry, or dermatology. To become a veterinarian, you will need to complete a Doctor of Veterinary Medicine (DVM) degree, which typically takes four years to complete. Popular undergraduate programs and majors include biology, animal science, and zoology. In addition to a strong educational background, helpful personal attributes for a career in Veterinary Medicine include compassion, attention to detail, and strong communication skills. Job prospects for veterinarians are strong, with a projected growth rate of 16% over the next decade. There are a variety of potential employers, including private practices, animal hospitals, and government agencies. Notable employers include Banfield Pet Hospital, VCA Animal Hospitals, and the United States Department of Agriculture. In summary, a career in Veterinary Medicine offers the opportunity to combine your love for animals with your passion for science. With strong job prospects and the ability to make a difference in the lives of animals and their owners, this career path is both rewarding and fulfilling.

Are you an animal lover with a passion for science? Then Pre-Veterinary Medicine might just be the perfect field of study for you! Pre-Veterinary Medicine is the study of animal health and welfare, and it covers a wide range of topics from animal anatomy and physiology to nutrition and disease prevention. One of the most appealing aspects of this field is the opportunity to work with animals on a daily basis. Whether you're assisting with surgery, performing routine check-ups, or helping to rehabilitate injured animals, you'll have the chance to make a real difference in the lives of our furry friends. Pre-Veterinary Medicine is also a field of study that is constantly evolving. Researchers are always discovering new ways to improve animal health, and there are many exciting innovations happening in the field. For example, scientists are now using stem cells to treat a variety of animal diseases, and there is ongoing research into the use of gene editing to prevent hereditary conditions. If you're interested in pursuing a degree in Pre-Veterinary Medicine, you can expect to take courses in subjects like biology, chemistry, and animal science. Some popular majors include Animal Science, Veterinary Technology, and Pre-Veterinary Medicine. After completing your undergraduate degree, you may choose to specialize in a particular area of veterinary medicine, such as surgery, dentistry, or emergency medicine. One of the great things about studying Pre-Veterinary Medicine is that it can lead to a wide range of career opportunities. Of course, many graduates go on to become veterinarians, working in private practices or for organizations like the Humane Society. But there are also many other careers that are directly related to this field, such as animal nutritionist, wildlife biologist, or animal behaviorist. And if you're interested in working for a specific company or organization, there are many notable employers in this field, such as the ASPCA, the World Wildlife Fund, and the National Park Service. To succeed in Pre-Veterinary Medicine, you'll need to have a strong background in science and a genuine love of animals. You'll also need to be patient, compassionate, and able to work well under pressure. If you have these qualities, then Pre-Veterinary Medicine might just be the perfect field of study for you!

Are you an animal lover with a passion for science? Do you dream of making a difference in the lives of animals and their owners? If so, then studying Veterinary Medicine may be the perfect choice for you! Veterinary Medicine is a fascinating field that encompasses the study of animal health and disease, as well as animal welfare, behavior, and nutrition. As a veterinary student, you will learn about the anatomy and physiology of a wide range of animals, from domestic pets to exotic species, and gain hands-on experience in diagnosing and treating illnesses and injuries. Did you know that the first veterinary school in the world was founded in Lyon, France in 1761? Since then, the field has come a long way, with groundbreaking research and innovations that have transformed the way we care for animals. For example, advances in surgery and anesthesia have allowed veterinarians to perform complex procedures on animals, such as organ transplants and joint replacements. At the undergraduate level, you will typically study a range of modules, including animal anatomy and physiology, pharmacology, microbiology, and surgery. You may also have the opportunity to specialize in areas such as small animal medicine, equine medicine, or wildlife conservation. After completing your degree, the career possibilities are endless! You could become a small animal veterinarian in a private practice, work in a zoo or wildlife sanctuary, or even become a researcher in animal health. Notable employers in the field include the World Health Organization, the United States Department of Agriculture, and the Royal Society for the Prevention of Cruelty to Animals. To succeed in Veterinary Medicine, you will need to have a strong foundation in science, as well as excellent communication and problem-solving skills. You should also have a genuine love for animals and a desire to make a positive impact in their lives. So, if you're ready to embark on a rewarding career in animal health, consider studying Veterinary Medicine at university. Your furry (or not-so-furry) friends will thank you!

Did you know that the simple act of petting a dog or cat can lower your blood pressure, reduce anxiety, and even improve your immune system? It’s no surprise that animals have been our companions for centuries, providing comfort, love, and companionship. Research has shown that owning a pet can have a profound impact on our emotional wellbeing. For example, one study found that owning a pet can reduce symptoms of depression and anxiety in people with mental health conditions. Another study found that spending time with animals can increase the levels of oxytocin, a hormone associated with bonding and social connection, in our brains. So why do animals have such a positive impact on our emotional wellbeing? According to Dr. James Serpell, professor of animal welfare at the University of Pennsylvania, animals offer us a sense of unconditional love and acceptance, something that can be hard to find in human relationships. They also provide a sense of purpose and responsibility, which can give us a sense of meaning and fulfillment. Animals are being used more and more in various forms of therapy. For example, animal-assisted therapy (AAT) involves trained animals, usually dogs, cats, or horses, and a trained handler to help people with physical, emotional, or cognitive challenges. Research has found that AAT can improve mood, reduce anxiety and depression, and improve social skills and communication in people with a range of conditions. So, whether it’s a furry friend at home or an animal-assisted therapy session, animals play a vital role in our emotional wellbeing. Next time you’re feeling down, consider spending time with a pet, or volunteering at an animal shelter. Your emotional health will thank you!

Millions of people with IBS and IBD may find relief with Ferrocalm, a natural food supplement containing a friendly strain of live bacteria that has shown in animal models to reduce symptoms during active flare-ups. Developed over 10 years of R&D at the University of Bristol, Ferrocalm aims to alleviate stomach cramps, bloating, diarrhea, and constipation. Clinical trials in patients with inflammatory bowel disease are set for 2024 to test efficacy as a pharmaceutical treatment. Dr. Jenny Bailey, CEO of Ferryx, has spent 15 years researching gut inflammation to find a natural solution to improve quality of life for people who suffer from IBS and other gut conditions.

Are you a horse lover who wants to understand your equine companion better? Check out this fascinating article from the University of Florida on how researchers are studying the "spooking" behavior of horses and identifying genetic traits that influence their reactions to perceived threats. By understanding a horse's natural tendencies, owners and riders can make better decisions on training and future careers, ultimately giving the horse the best shot to grow into their potential. Don't miss out on this insightful read!

Have you ever wondered why some animals can regrow amputated limbs while humans can't? From sea stars to salamanders, some animals have the ability to form new tissue, nerves, and blood vessels to create a fully functional limb. Unfortunately, our bodies respond to a wound or cut by quickly patching it up with scar tissue, preventing blood loss and bacterial infection. However, scientists believe that the instructions for regeneration are latent in our genes, waiting to be turned on. Learning about the regenerative abilities of animals can inspire us to explore the potential of our own bodies and genes. By understanding the science behind limb regeneration, we can gain a deeper appreciation for the complexity and potential of the human body.

Have you ever wondered why some animals can regrow their teeth while humans cannot? Tooth replacement is a fascinating topic that has intrigued scientists for decades. In this write-up, we'll explore the different ways sharks and crocodiles replace their teeth, and what humans can learn from them. Sharks are known for their rows of sharp teeth, but did you know they can replace their teeth throughout their lives? Sharks have a conveyor belt-like system where new teeth develop at the back of their mouth - during teeth replacement, the entire row moves forward to replace old teeth. Some sharks develop new teeth every two weeks, allowing sharks to constantly maintain their fearsome bite. Crocodiles, on the other hand, have a more complex system of tooth replacement. Their teeth are anchored in sockets and are replaced in a sequential pattern. As a crocodile loses a tooth, a new one develops beneath it and eventually pushes out the old tooth. This process takes longer than in sharks, but crocodiles can replace their teeth up to 50 times in their lifetime. Humans, unfortunately, only have two sets of teeth: baby teeth and adult teeth. Once our adult teeth come in, there are no more natural replacements. However, scientists are studying the genes and mechanisms that control tooth development in animals like sharks and crocodiles to see if they can be applied to humans. One such scientist is Dr. Gareth Fraser, a developmental biologist who studies tooth development in sharks and hopes to use this knowledge to help people with dental problems. Tooth replacement is an essential aspect of oral health, and understanding how different animals do it can help us uncover new insights into the regenerative capacity of teeth and potentially develop new treatments for dental diseases in humans.

Horseshoe crabs, a resilient species that has existed for over 450 million years, are facing heightened pressures due to the booming global demand for their blue blood. This blood is the only known natural source of amebocyte lysate, a clotting agent used to detect dangerous endotoxins in a variety of human medical products, including COVID vaccines. The Atlantic horseshoe crab, already considered vulnerable by conservation groups, is facing dwindling numbers due to increased bleedings by biomedical companies. As the industry shifts towards the Atlantic species, questions arise about our obligations to the animals that supply life-saving materials for human benefit.

Frances Oldham Kelsey was a scientist who saved thousands of lives by rejecting an application to sell a drug called thalidomide. The drug was widely used in dozens of countries to treat insomnia, workplace stress, and nausea in pregnant women. However, Kelsey found the data on thalidomide's absorption and toxicity inadequate and rejected the application. Her earlier animal-based research demonstrated that drugs could pass from mother to fetus through the placenta, and she believed that thalidomide could cause harm to fetuses. Her decision to reject the application and ask for better evidence saved countless babies from severe birth defects caused by thalidomide. Kelsey's legacy endures as she prioritized facts over opinions and patience over shortcuts, making evidence-based medicine the foundation of reforms that continue to protect people today. By learning about Kelsey's story, students can understand the importance of evidence-based research and the impact of their decisions in science and medicine.

Did you know that some viruses are actually good for you? Bacteriophages, or phages for short, are natural enemies of bacteria that can protect our health by killing germs that make us sick. Unlike antibiotics, phages are highly specific and won't harm the good microbes in our bodies. With the rise of antibiotic-resistant infections, pharmaceutical companies are giving phages a second look. In fact, a recent clinical trial showed that they work against antibiotic-resistant ear infections. Researchers are also using them to treat infected wounds in veterans and diabetics and to stop the spread of antibiotic-resistant infections. So, if you're interested in learning more about how these tiny viruses can help us fight disease, read on!

Ancient Egyptian tombs reveal pots of honey, thousands of years old and still preserved. What makes honey such a special food? The answer lies in its chemical makeup and the alchemy of bees. Honey's longevity and acidic properties lend it medicinal qualities, making it a natural bandage and a barrier against infection for wounds. Discover the magic of honey and its perfect balance of hygroscopic and antimicrobial properties.

Antibiotics are drugs used to treat bacterial infections, but over time, bacteria can develop the ability to resist these drugs, making infections much harder to treat. This problem is compounded by the overuse and misuse of antibiotics, which speeds up the development of resistance. According to the World Health Organization (WHO), antibiotic resistance is one of the biggest threats to global health today. In the United States alone, more than 2.8 million antibiotic-resistance infections occur each year, and at least 35,000 people die as a result. Dr. Ramanan Laxminarayan, director of the One Health Trust, has stressed the importance of reducing the overuse of antibiotics in agriculture, where they are often used to promote growth in animals and to prevent disease, leading to the spread of resistance. So what can be done to combat this growing crisis? One strategy is to reduce the overuse of antibiotics, by only using them when necessary and as prescribed by a doctor. Another strategy is to develop new antibiotics that bacteria have not acquired resistance to, such as teixobactin, as well as alternative treatments for bacterial infections, such as bacteriophages (viruses that infect and kill bacteria). By learning about antibiotic resistance and the efforts to combat it, you can play a role in protecting global health and preserving the effectiveness of antibiotics for future generations.

Genome-edited CAR T-cells treated a young patient's incurable T-cell leukaemia, leading to complete remission after just 28 days. Designed and developed by researchers at UCL and GOSH, the treatment represents a cutting-edge approach that paves the way for other new treatments and ultimately better futures for sick children.

Have you ever wondered if there was a way to rejuvenate scars and restore healthy skin? Well, researchers from Imperial College London have found that hair follicle transplants can do just that! In a new study, skin scars were treated with hair follicle transplants and showed remarkable changes towards the profile of healthy, uninjured skin. This opens up new avenues for treating scars and could even change our approach to preventing them.

Are you interested in learning about the dangers of antimicrobial resistance and why it's such a big deal? Look no further than the World Health Organization's reference article on the topic! This informative piece explains how antimicrobial resistance occurs and why it's such a threat to our health and the health of our planet. You'll learn about the various factors driving antimicrobial resistance, as well as the impact it can have on medical procedures and the global economy. Don't miss out on this important read!

The discovery of antibiotics in the 20th Century revolutionized healthcare, adding an average of 20 years to everyone's life. However, the overuse and misuse of antibiotics have led to the rise of antibiotic-resistant bacteria, or superbugs, which could cause a health crisis worse than any we've experienced this century. By 2050, it's predicted that 10 million people will die every year from complications with superbugs. A world without antibiotics would be catastrophic, impacting our food chain and causing many to die younger than they do now. As students, it's important to understand the consequences of antibiotic misuse and to be cautious when taking antibiotics. By finishing the full course of antibiotics, we can prevent the development of antibiotic-resistant bacteria. Additionally, we should be aware of the need for new antibiotics and support efforts to fund research into finding them. Anticipating problems and taking action before they become global crises is key to protecting our health and future.

Cancer is a mysterious and creepy thing, and understanding it is crucial to fighting it. Cancer cells are unstable and selfish, only working for their own short-term benefit. They trick the body into building new blood vessels to feed them, but this can also become their undoing as they continue to mutate. Large animals seem to be immune to cancer, which scientists explain through two main ways: evolution and hypertumors. Evolution means that large animals invest in better cancer defenses, while hypertumors are the tumors of tumors. The solution to the paradox may actually be something different, but researchers still aren't sure what it is. Learning about the nature of cancer cells and cancer defenses can help you understand this complex and important topic.

Are you curious about how cows digest their food? Did you know that they regurgitate and chew their food multiple times before swallowing? A research team including the University of Göttingen has discovered that this process helps protect cows' teeth from being worn down by hard grit, sand, and dust. To learn more about this fascinating process and its evolutionary implications, check out the article published in Proceedings of the National Academy of Science (PNAS).