‘Spillover’ by David Quammen is most definitely one of the more unique, yet applicable novels I have read in quite some time. As someone who is interested in attending pharmacy school and ultimately dealing with disease and sickness for the rest of my life, I found it very mesmerizing to learn about how certain zoonotic diseases came to be. With that said, I’ll go right into the first chapter: “Pale Horse”. This chapter focuses on the virus now known as Hendra. It started in a place known as Brisbane, Australia (more specifically a northern suburb known as Hendra) in 1994 where some horses began experiencing the disease. This also ultimately led to some human infections, some of which causes fatalities. Vic Rail, a horse trainer, was the first human to fatally experience Hendra …show more content…
This chapter focuses on Malaria. When Quammen began writing this, he was told to not include Malaria because it was not zoonotic but vector- borne. However, Quammen found that the human version of Malaria come from a mosquito biting an infected gorilla, and then biting a human. Since the disease was delivered to a new host, malaria has now become zoonotic and a spillover. I personally find this chapter of the book to be rather intriguing because compared to some of the other diseases in this book such as Hendra or SARS; I would have liked to think that I was rather knowledgeable about Malaria, but that was not the case. I have never heard of Malaria being a Spillover and I found it compelling to read about in this book. The next chapter of this book, “Dinner at the Rat Farm”, is centered on SARS (Severe Acute Respiratory Syndrome). In 2003, SARS made its presence known as it rapidly spread globally to places like Canada and the Philippines. SARS’ origin belongs to southern province of China called Guangdong. The SARS outbreak in China was quick and not to be messed with. It ran ravage through communities and
Malaria is a very contagious parasite transmitted through mosquitoes to humans. Those at risk are individuals living in areas conducive to the breeding of mosquitoes, especially those that allow the mosquitoes to complete their growth cycle. Everyone is at risk
People of the Old World had domesticated pigs, horses, sheep, and cattle(1), which had acted as pathogens to infect the Europeans with diseases. In addition, diseases were constantly circulated with centuries of war, exploration, and city building. During the process of natural selection, disease-intolerant
Irrigation and domestication of animals led to an ideal environment for the spread of infectious epidemic diseases. Irrigation contributed to the spread of disease by transforming a naturally hot
Viruses, Plagues, and History, written by Michael Oldstone, is an insightful and highly educational book that details the history of, that’s right, viruses and plagues. Through typically dry, yet engaging prose, Oldstone recounts what seems like all of it while simultaneously bringing to light the contributions of those brave scientists who asked themselves, “why.” He focuses his attention on some of the most notable viruses such as smallpox, yellow fever, measles, polio, and later he focuses on more contemporary battles against disease.
In addition, diseases such as Hookworm and Malaria–brought to Latin America through colonisation and slavery–cause economic problems to this day. According to Hausmann (2009): “countries at a high risk of malaria grow 0.6 per cent slower than countries free from malaria”. Exports can be affected such as during the Cholera outbreak in Peru in 1991 which cost the fishing industry $800 million (Hausmann, 2009). It also increases healthcare costs and reduces worker productivity (Hausmann, 2009). Presently, resistance means that cheap medications for treatment of and protection from malaria are becoming less effective (Gallup et al., 2003, p.135). As
In Chapter 11, Diamond talks about how infections from diseases carried by animals where the “killers of humanity”. Diseases would start in animals and then get transferred to humans where it would mutate and spread across human populations killing almost anyone it touches. When Europe went to conquer the New World, disease such as smallpox, measles, and the flu, killed up to 95% of the population of Native Americans. Syphilis, however, may have been brought back to Europe from the New World, even though no one knows how.
In a developing society where a variety people come together, different customs and practices, as well as diseases, are exchanged. One example of an outbreak of a disease is the
Potomac Horse Fever, also known as “Ditch Fever” is a potentially fatal, non-contagious equine illness caused by the bacterium Neorickettsia risticii (formerly known as Erhlicia risticii) that was first identified in the United States in 1985. With little knowledge of its exact origin, the earliest discussion of symptoms was in the Eastern region in 1979. Additionally, PHF is also a “copy-cat” illness that often imitates symptoms of other diseases, which can lead to a misdiagnosis, which is why it is critical that horse owners understand the threat Potomac Horse Fever is and what procedures should take place to prevent, as well as treat, the illness.
As the second part of this reflection paper, I selected a book ‘A Short History of Disease’ by Sean Martin. He is a writer and filmmaker also known for his other famous books like The Knights Templar, Alchemy and alchemists, the Gnostics. His films include Lanterna Magicka: Bill Douglas & the secret history of cinema. The most alluring thing which conceives me to cull this book is a history of the disease, as a medical professional, it's always tantalizing to know from where all these begins and this book reaches up to my expectations as it started from the first ever recorded disease in the history of mankind. He isn’t lying when he say this a history of the disease. He starts from the earliest bacteria to evolve on the earth, long before there was anything around to infect. This book is divided into seven chapters, each chapter describes the history of diseases in a particular era. Chapter One: Prehistory, Chapter Two: Antiquity, Chapter Three: The Dark and Middle Ages, Chapter Four: The New World, Chapter
However, disease on the epidemic scale did not appear till certain conditions existed, conditions created namely by the Agricultural Revolution. As communities became more sedentary and developed a more stable means of food production through the domestication of animals and irrigation processes, populations were able to increase at exponential rates, one of the fundamental prerequisites for an epidemic outbreak. An increased population translated into closer living conditions, less sanitary means of waste disposal due to sheer volume, and typically, poorer nutrition, making people more susceptible to a breakdown of the immune system. A higher population, in comparison to that of their hunting and gathering predecessors, meant a greater chance for contracting an illness. Equally important, the Agricultural Revolution demanded the domestication of animals. In living in close proximity to cattle, hogs, and other useful livestock, a phenomenon known as species cross-over took place. This species cross-over refers to the mutation of diseases typically found in livestock to a new form that seeks out a human host. The most classic and devastating example is small pox, a highly fatal disease that causes sores to form on the body and known in cattle as cowpox (Ponting, 225-226). This, coupled with irrigation, providing a host for water-born diseases like malaria and schistosomiasis, sheds a bit of light on the magnitude of the influence of the Agricultural
Hendra virus (originally called "Equine morbillivirus" was discovered in September 1994 when it caused the deaths of thirteen horses, and a trainer at a training complex in Hendra, a suburb of Brisbane in Queensland, Australia.[12]
Globalization aided in impacting human health by population mobility. The source of epidemics throughout history can be traced back to human migration (Saker). The effects of these epidemics have changed whole societies. International efforts to prevent the spreading of infections from one country to another have been focused on. Early diseases that spread between Asia and Europe included the bubonic plague, influenzas of various types, and other similar contagious diseases. The world is more interdependent and connected than ever in the era of globalization. This is because inexpensive and efficient transportation allows access to almost everywhere and the increase of global trade of agricultural products brought an increasing number of people into contact with animal disease. Trade routes had long been established between Europe and Asia along which diseases were unintentionally transmitted. The management of malaria is a global role (Carter). Global institutions support the
The origin of the disease has been described at the end of the movie where we find out that a bat with a virus known as paramyxovirus that infects a pig. The pigs that are for human consumption were located near a forest that was being cut down. The pig in turn infects human beings of the earth through a chef. The agent which is very infectious is known as MEV-1 and its potential spread is estimated at 6-7 which suggests that the virus is highly transmissible from one person to the next. The virus has been compared to that of a smallpox virus with a mortality rate of up to 30%.
“The rodents spread the plague from China to Europe and it hit Britain in 1348.”(Bates, Claire) So if the world is so populated more people will be homeless, and the disease could spread easier wiping out millions. The black death was also spread by people getting bites from infected rats, the disease travels through the body into the lungs, and when the person coughs or sneezes, the disease is transmitted into the air and can infect people who breath in that same air. So if the world becomes too over populated and there aren’t enough houses people will be living on the streets where disease could spread easier and faster just like the black death. “Indirect contact infections spread when an infected person sneezes or coughs, sending infectious droplets into the air.”(DIRECT…) So if everyone if coughing and sneezing then anyone who breathes in that contaminated air could get the disease. “Last year, it called dengue the “most rapidly spreading mosquito-borne viral disease” in the world—faster than West Nile virus or malaria.”(The deadly…) If this disease was to break out when the world is overpopulated a disease could take out almost half the entire human race.There are hundreds of diseases that can be spread by animals, some examples are all types of Influenza, Bubonic Plague, zoonotic diseases, HIV/AIDS, Ebola, and Polio. One disease is the Zika virus, it is spread by mosquito bites who bite women and when if the infected women gets pregnant the Zika virus transfers the virus to the child, once the child is born the child could be born with a fatal brain defect. When the world becomes more populated more people could get bit with more mosquitos and get the Zika virus and a whole new generation of kids could be born with a brain
“Only yesterday mankind lived in fear of the scourges of smallpox, cholera, and plague………….. Today we are concerned with a different kind of hazard that lurks in our environment—a hazard we ourselves have introduced into our world as our modern way of life has evolved.”