Difference between revisions of "Team:DTU-Denmark/Background"
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<h1 id=problem class="bottomborder">The Problem</h1> | <h1 id=problem class="bottomborder">The Problem</h1> | ||
| − | <p>Snakebite is a grossly neglected tropical health complication that, in addition to causing death, it can also lead to disability and disfigurement. <br> | + | <p>Snakebite is a grossly neglected tropical health complication that, in addition to causing death, it can also lead to disability and disfigurement. <br><br> |
It is so serious that the World Health Organization, since late September 2017 has raised it to a Category A neglected tropical disease after appeal from Costa Rica and 17 other member countries at the tenth meeting of the WHO Strategic and Technical Advisory group for Neglected Tropical Diseases [1]. | It is so serious that the World Health Organization, since late September 2017 has raised it to a Category A neglected tropical disease after appeal from Costa Rica and 17 other member countries at the tenth meeting of the WHO Strategic and Technical Advisory group for Neglected Tropical Diseases [1]. | ||
| − | The true impact of envenoming, the severity and the morbidity it carries with it, are unknown due to underreporting in almost all affected areas [2].<br> | + | The true impact of envenoming, the severity and the morbidity it carries with it, are unknown due to underreporting in almost all affected areas [2].<br><br> |
| − | However, it is conservatively estimated that up to five million people are bitten every year by snakes. Out of these 5 million people, about 2.4 million are estimated to be envenomed, resulting in 94,000-125,000 deaths annually [3]. <br> | + | However, it is conservatively estimated that up to five million people are bitten every year by snakes. Out of these 5 million people, about 2.4 million are estimated to be envenomed, resulting in 94,000-125,000 deaths annually [3]. <br><br> |
| − | Additionally, it is estimated that about 400,000 of the envenomed patients suffer either amputation of limbs, or display other severe health consequences, such as renal failure, necrosis, spontaneous bleeding, panhypopituitarism, diabetes, chronic neurological deficits, deformity and amputation of limbs.<br> | + | Additionally, it is estimated that about 400,000 of the envenomed patients suffer either amputation of limbs, or display other severe health consequences, such as renal failure, necrosis, spontaneous bleeding, panhypopituitarism, diabetes, chronic neurological deficits, deformity and amputation of limbs.<br><br> |
| − | The majority of snake bites occurs in South- and South-East Asia, Africa and South America. They are more common in rural areas, inhabited by people that depend on farming and other field working occupations for subsistence. | + | The majority of snake bites occurs in South- and South-East Asia, Africa and South America. They are more common in rural areas, inhabited by people that depend on farming and other field working occupations for subsistence. <br><br> |
| − | Agricultural and plantation workers, women and children are the groups mostly affected by snake bites. In these resource poor settings, people often have limited or no access to healthcare or antivenom, which increases the severity of the injuries and their outcomes [3]. | + | Agricultural and plantation workers, women and children are the groups mostly affected by snake bites. In these resource poor settings, people often have limited or no access to healthcare or antivenom, which increases the severity of the injuries and their outcomes [3].<br><br> |
| − | Moreover, the socioeconomic impact on families and communities is adding to the burden of these injuries. In many occasions, the victims are the wage earners or care providers of the family, and child victims that suffer disabilities caused by snake bites are in need of greater support throughout the rest of their lives from their families. This has further important implications for the nutrition, growth and economy of the countries. | + | Moreover, the socioeconomic impact on families and communities is adding to the burden of these injuries. In many occasions, the victims are the wage earners or care providers of the family, and child victims that suffer disabilities caused by snake bites are in need of greater support throughout the rest of their lives from their families. This has further important implications for the nutrition, growth and economy of the countries. <br><br> |
| − | Antivenom remains the most effective antidote for snake envenoming, but is expensive and in short supply. As a consequence, it is unpractical or unavailable to rural and underdeveloped countries to carry due to challenged public health systems or poor infrastructure. | + | Antivenom remains the most effective antidote for snake envenoming, but is expensive and in short supply. As a consequence, it is unpractical or unavailable to rural and underdeveloped countries to carry due to challenged public health systems or poor infrastructure.<br><br> |
| − | Furthermore, the proper antidote to apply is not straight forward, as the snake responsible for the envenoming is long gone and identification of such snake species is not the specialty of the medical personnel at the clinics. | + | Furthermore, the proper antidote to apply is not straight forward, as the snake responsible for the envenoming is long gone and identification of such snake species is not the specialty of the medical personnel at the clinics. <br><br> |
| − | Hence, if the clinic does carry antivenoms, in the majority of cases, these are polyvalent antivenoms. These broad spectrum antivenoms, which are often necessary due to unknown source of venom, must be administered at very high doses to cover the many potential venom components. This increases the vials needed, sometimes up to 10 vials amounting to 1000 USD during the course of the treatment in certain cases. Making this course of treatment a hard sell for a victim without financial means or adequate national health coverage. | + | Hence, if the clinic does carry antivenoms, in the majority of cases, these are polyvalent antivenoms. These broad spectrum antivenoms, which are often necessary due to unknown source of venom, must be administered at very high doses to cover the many potential venom components. This increases the vials needed, sometimes up to 10 vials amounting to 1000 USD during the course of the treatment in certain cases. Making this course of treatment a hard sell for a victim without financial means or adequate national health coverage.<br><br> |
| − | In addition to that, administration of antivenom comes with a high risk of side effects. Acute reactions to the treatment cause problems of equal clinical importance as the envenomings themselves. Up to 40% of the victims can exhibit severe systemic anaphylaxis, including hypotension and cyanosis. Short term sickness of pyrogenic endotoxin nature and serum sickness in the long term are common type reactions [4]. | + | In addition to that, administration of antivenom comes with a high risk of side effects. Acute reactions to the treatment cause problems of equal clinical importance as the envenomings themselves. Up to 40% of the victims can exhibit severe systemic anaphylaxis, including hypotension and cyanosis. Short term sickness of pyrogenic endotoxin nature and serum sickness in the long term are common type reactions [4].<br><br> |
| − | Hence, antivenom should only be used in patients where the risk of envenoming is higher than the risk of the antidote. This assessment should be carried out by competent medical personnel and ideally at a specialized hospital. Realistically at the rural clinic, where the patient is treated first. | + | Hence, antivenom should only be used in patients where the risk of envenoming is higher than the risk of the antidote. This assessment should be carried out by competent medical personnel and ideally at a specialized hospital. Realistically at the rural clinic, where the patient is treated first.<br><br> |
Since time is of the essence in proper care of snake envenomation, we have endeavoured to develop a rapid diagnostic tool for the identification of the type of snake responsible in order to provide optimal clinical care.</p> | Since time is of the essence in proper care of snake envenomation, we have endeavoured to develop a rapid diagnostic tool for the identification of the type of snake responsible in order to provide optimal clinical care.</p> | ||
Revision as of 15:00, 30 October 2017
The Problem
Snakebite is a grossly neglected tropical health complication that, in addition to causing death, it can also lead to disability and disfigurement.
It is so serious that the World Health Organization, since late September 2017 has raised it to a Category A neglected tropical disease after appeal from Costa Rica and 17 other member countries at the tenth meeting of the WHO Strategic and Technical Advisory group for Neglected Tropical Diseases [1].
The true impact of envenoming, the severity and the morbidity it carries with it, are unknown due to underreporting in almost all affected areas [2].
However, it is conservatively estimated that up to five million people are bitten every year by snakes. Out of these 5 million people, about 2.4 million are estimated to be envenomed, resulting in 94,000-125,000 deaths annually [3].
Additionally, it is estimated that about 400,000 of the envenomed patients suffer either amputation of limbs, or display other severe health consequences, such as renal failure, necrosis, spontaneous bleeding, panhypopituitarism, diabetes, chronic neurological deficits, deformity and amputation of limbs.
The majority of snake bites occurs in South- and South-East Asia, Africa and South America. They are more common in rural areas, inhabited by people that depend on farming and other field working occupations for subsistence.
Agricultural and plantation workers, women and children are the groups mostly affected by snake bites. In these resource poor settings, people often have limited or no access to healthcare or antivenom, which increases the severity of the injuries and their outcomes [3].
Moreover, the socioeconomic impact on families and communities is adding to the burden of these injuries. In many occasions, the victims are the wage earners or care providers of the family, and child victims that suffer disabilities caused by snake bites are in need of greater support throughout the rest of their lives from their families. This has further important implications for the nutrition, growth and economy of the countries.
Antivenom remains the most effective antidote for snake envenoming, but is expensive and in short supply. As a consequence, it is unpractical or unavailable to rural and underdeveloped countries to carry due to challenged public health systems or poor infrastructure.
Furthermore, the proper antidote to apply is not straight forward, as the snake responsible for the envenoming is long gone and identification of such snake species is not the specialty of the medical personnel at the clinics.
Hence, if the clinic does carry antivenoms, in the majority of cases, these are polyvalent antivenoms. These broad spectrum antivenoms, which are often necessary due to unknown source of venom, must be administered at very high doses to cover the many potential venom components. This increases the vials needed, sometimes up to 10 vials amounting to 1000 USD during the course of the treatment in certain cases. Making this course of treatment a hard sell for a victim without financial means or adequate national health coverage.
In addition to that, administration of antivenom comes with a high risk of side effects. Acute reactions to the treatment cause problems of equal clinical importance as the envenomings themselves. Up to 40% of the victims can exhibit severe systemic anaphylaxis, including hypotension and cyanosis. Short term sickness of pyrogenic endotoxin nature and serum sickness in the long term are common type reactions [4].
Hence, antivenom should only be used in patients where the risk of envenoming is higher than the risk of the antidote. This assessment should be carried out by competent medical personnel and ideally at a specialized hospital. Realistically at the rural clinic, where the patient is treated first.
Since time is of the essence in proper care of snake envenomation, we have endeavoured to develop a rapid diagnostic tool for the identification of the type of snake responsible in order to provide optimal clinical care.
References
[1] Chippaux (2017). Snakebite envenomation turns again into a neglected tropical disease! Journal of Venomous Animals and Toxins including Tropical Diseases, 23:38.
[2] WHO (2017). Report of the Tenth Meeting of the WHO Strategic and Technical Advisory Group for Neglected Tropical Diseases
[3] WHO (2017). Animal Bites
[4] de Silva HA, Ryan NM, de Silva HJ (2016). Adverse reactions to snake antivenom, and their prevention and treatment. Br J Clin Pharmacol., 81(3):446-52
