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Parasitology. Alan GunnЧитать онлайн книгу.

Parasitology - Alan Gunn


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of all – human behaviour (Table 1.3). To begin with, human parasitic diseases are predominantly (although not entirely) a problem of poor people who live in insanitary conditions and who do not have a healthy diet. The diseases are therefore most prevalent in developing countries where neither the government nor individual people have money to spare. For example, in 2016 the total healthcare expenditure in Zimbabwe as a percentage of the gross domestic product (GDP) was similar to that of the United Kingdom (9.41% cf 9.76%) and considerably more than that of oil‐rich Saudi Arabia (5.74%) (https://data.worldbank.org/indicator/SH.XPD.CHEX.GD.ZS). However, in terms of total health expenditure per capita, the United Kingdom spent US$4192, Saudi Arabia US$1147, and Zimbabwe US $94 (https://knoema.com/atlas/Zimbabwe/Health‐expenditure‐per‐capita). Needless to say, US $94 does not buy many medicines.

Poverty Lack of sanitation Complacency Poor nutrition Lack of health infrastructure Lack of government interest Corruption Urbanization Social conflict/wars Movement of non‐immune people to regions where they become infected from the resident population. Movement of infected people to regions where they infect non‐immune resident population Man‐made environmental damage Natural disasters Lack of effective drugs/ parasite resistance Increasing resistance of vectors/ intermediate hosts

      We humans are extremely adaptable creatures. Consequently, we can survive harsh environments, oppressive regimes, and cruel exploitation. Unfortunately, this adaptability can degenerate into acceptance and complacency on the parts of both individuals and governments. Because parasitic diseases are so prevalent in developing countries, there is a tendency not to prioritise them: fevers and diarrhoea become an accepted part of everyday life. Furthermore, parasitic diseases tend to cause chronic disease and although the patient may ultimately die, the condition does not capture the attention of the local or world media. For example, Ebola virus is well known in the developed world because of its appalling pathology and images of patients being treated by nurses and doctors dressed in spacesuit‐like protective clothing. However, although Ebola virus causes about 70% mortality, the numbers of people who have died of the infection are relatively few. By comparison, Human African Trypanosomiasis (HAT, often referred to as ‘sleeping sickness’) causes almost 100% mortality if untreated and kills many more people than Ebola (Table 1.2), but it seldom receives a mention in the media. The reason is simple, HAT kills slowly by comparison. Furthermore, the transmission of HAT depends upon tsetse flies, and these have demanding environmental requirements that limit their distribution. Consequently, HAT is only a threat to people living in certain parts of Africa. By contrast, Ebola spreads through close human contact and therefore the virus could conceivably spread anywhere in the world. Consequently, people in distant countries feel threatened even though their risk is incredibly small. The fact that Ebola virus has been touted as a possible biological warfare agent also helps to engender interest in the disease and funds to study and control it.

      Natural disasters, such as cyclones and earthquakes, can lead to similar destruction of infrastructure and refugee problems to those of war. Widespread flooding also provides extensive breeding conditions for mosquitoes and thereby increases the spread of mosquito‐borne diseases such as malaria. The destruction of sewage systems and facilities for waste disposal, in conjunction with a warm wet environment, also facilitates the spread of faecal‐oral transmitted protozoa and helminths. It is therefore not surprising that widespread flooding in tropical countries usually results in an increase in malaria and water‐borne diseases (Boyce et al. 2016; Okaka and Odhiambo 2018).

      The damage we cause to the environment can encourage the spread of disease by making conditions more suitable for vectors and intermediate hosts and/or the survival of parasite eggs and cysts. For example, clearance of the rainforests in the Amazon produces open sunlit pools that are ideal breeding grounds for the mosquito vector of malaria Anopheles darlingi (Harris et al. 2006). Also, as people move into these clearings to live or work, they come into contact with zoonotic infectious agents that may not be perfectly adapted to living in us but can still cause disease.

      The way we live and organise our societies is a major contributor to the spread of parasitic diseases. Throughout the world, there is an increase in urbanization. This means that more people are living close together and the potential for disease transmission between them is therefore high (McMichael 2000). Vector species that can live in an urban environment, such as Anopheles stephensi and certain other mosquitoes, therefore pose a particular risk (Takken and Lindsay 2019).

      Sometimes, parasites and their vectors spread by less obvious means. For example, the increased use of cars and motorised transport has resulted in large numbers of used tyres entering the ecosystem. Used tyres retain water after it has rained, and they make excellent breeding


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