Diet and disease images
Download
Report
Transcript Diet and disease images
DIET AND DISEASE IMAGES
Alanine
The building blocks of all proteins are amino acids. There are 20 amino acids required for human life, although others do exist in nature. Twelve of these can be synthesised within the body, but we
need to eat foods containing the other eight to get them into our bodies. These eight are known as essential amino acids. Each amino acid has the same molecular backbone, but each has a different
chemical group attached to its central carbon atom. These are known as ‘R groups’. The above example shows the amino acid alanine, which has a CH3 R group.
Credit: Maurizio De Angelis/Wellcome Images
BIGPICTUREEDUCATION.COM
Leg of a child with kwashiorkor
Proteins have a huge array of vital functions within the human body. Inadequate dietary protein can lead to a number of diseases, particularly in children. The child in the picture above is suffering
from kwashiorkor, a disease rare in developed countries but more common in those that experience famine. Its symptoms include oedema (fluid accumulation beneath the skin), decreased muscle
mass, failure to grow and a large belly that sticks out. This condition is fatal if untreated.
Credit: Wellcome Images
High-protein foods
This image shows a plate of lean meat, liver and kidneys. Meat is an example of a food that contains ‘complete protein’, which contains all of the essential amino acids. Vegetarians and vegans need
to gain their essential amino acids from plant sources such as soy or chickpeas. Meat contains haem iron, zinc, preformed vitamin A, and B complex vitamins. It provides energy from protein and fat.
Liver is exceptionally rich in these, as well as vitamins C and D.
Credit: Wellcome Library, London
BIGPICTUREEDUCATION.COM
Children with rickets
This image dates from 1920–1930 and shows three children with rickets, a disease of childhood in which the long bones soften and bend. It is most commonly caused by a deficiency of vitamin D,
which is needed in the body for the absorption of calcium and the mineralisation of bone. Rickets is now rare in the UK. Vitamin D is a fat-soluble vitamin that is produced in human skin in response to
exposure to sunlight. Dietary sources include oily fish.
Credit: Wellcome Library, London
BIGPICTUREEDUCATION.COM
Dietary sources of vitamin A
This image shows foods rich in vitamin A. This fat-soluble vitamin is needed to produce retinal, a light-absorbing chemical found within the eye, involved with low-light and colour vision. Vitamin A can
be found in two dietary forms: retinol, from animal food sources, and some carotenes from vegetables. Deficiency in this vitamin in children can lead to blindness or even death. The condition ‘nightblindness’ can also result from a lack of vitamin A – leading to a poor ability to see in low-light conditions.
Credit: Wellcome Library, London
BIGPICTUREEDUCATION.COM
Citrus fruits rich in vitamin C
Vitamin C, also known as ascorbic acid, is essential for humans, who are unable to synthesise it. It is found naturally in a wide range of fruit and vegetables. Vitamin C has a number of important uses
in the body, including acting as an antioxidant and being involved in the synthesis of several molecules, such as collagen. Some people believe that vitamin C can be used to treat the common cold,
but research into this has produced different results.
Credit: Wellcome Library, London
BIGPICTUREEDUCATION.COM
Scurvy teeth and gums
Scurvy is a disease caused by a lack of vitamin C. This vitamin is required for the formation of collagen, and a deficiency leads to capillary bleeding and defective repair of skin and bones. The classic symptom of the disease is
bleeding from the gums, as can be seen in the image above. The disease ultimately ends in death. Scurvy was once common in sailors as fresh fruit and vegetables would not survive long sea voyages. In the 19th century, British
sailors were given a daily allowance of limes in order to prevent scurvy. This led to British people being described as ‘limeys’ by the Americans, a slang term still in existence today.
Credit: Wellcome Images
BIGPICTUREEDUCATION.COM
Hands of a person with pellagra
Pellagra is a disease caused by a lack of vitamin B3, which is also known as niacin. This vitamin is essential for humans and must be gained through the diet, although the body produces a small amount. There are eight B vitamins
in total, which are needed to assist in the conversion of carbohydrates into glucose. They also help to metabolise proteins and fats, and keep the nervous system functioning correctly. Pellagra has a number of symptoms,
including the dermatological conditions that can be seen in the picture above. Ultimately a lack of vitamin B3 leads to death. It is a now a rare disease in developed nations.
Credit: Wellcome Images
BIGPICTUREEDUCATION.COM
Cereal and legumes
This image shows various types of cereals and legumes, the two most important plant food groups. Cereals are the seeds of plants belonging to the grass family; rice, wheat and corn are major staple foods for many people.
These grains are high in carbohydrate and protein, and contain vitamins and minerals in their outer layer. Legumes (chickpeas, peas, beans, peanuts, lentils) are also high in carbohydrate and protein, and in the case of soya
beans and peanuts, high in oil. They are good sources of micronutrients, and usually contain significant amounts of thiamin, niacin, riboflavin, phosphorus, non-haem iron and calcium. In vegetarians, legumes are important in
improving iron intake. Legumes also increase the nutritional value of a meal by providing amino acids that are deficient in cereals.
Credit: Wellcome Library, London
BIGPICTUREEDUCATION.COM
Starch grains
Light micrograph of starch grains viewed with polarised light. Starch is a polysaccharide – a carbohydrate molecule made of multiple glucose subunits. Starch is made by plants so they can store the
glucose they need for energy. It is the largest source of carbohydrate in the human diet, and is found in foods such as rice and potatoes. The enzyme amylase breaks down starch into its glucose
subunits. Human saliva has high levels of amylase, which is also released by the pancreas into the small intestine.
Credit: Spike Walker/Wellcome Images
BIGPICTUREEDUCATION.COM
Glucose molecule
Glucose is a monosaccharide used by cells as an energy source. Glucose from the bloodstream is transported into the cells and broken down to make the energy molecule adenosine triphosphate (ATP). Glucose is stored in the
liver and muscles as glycogen in a process known as glycogenesis. This molecule can be quickly broken when energy is required. This is known as glycogenolysis. When glucose levels are very low, it can be made from noncarbohydrate molecules such as certain amino acids, known as gluconeogenesis. Glucose is the primary source of energy for the brain. This organ uses 20 per cent of the body’s energy, more than any other.
Credit: Anna Tanczos
BIGPICTUREEDUCATION.COM
A cooked breakfast
Saturated fat molecules contain no double bonds between their carbon atoms. They are found in large amounts in foods like butter or lard. A diet high in saturated fats, including those found in some
of the foods in the picture above, can increase the risk of cardiovascular disease.
Credit: Wellcome Library, London
BIGPICTUREEDUCATION.COM
Body mass
A computer graphic showing the contours of the body of an overweight man. Obesity is defined as having an excessive level of body fat that can cause a risk to health. Levels of obesity worldwide have doubled since 1980, with
the World Health Organization (WHO) estimating that in 2014 over 600 million people across the world were obese. Obesity is the leading preventable cause of disease worldwide. The condition is a major risk factor in a number
of diseases, including cardiovascular disease, diabetes and cancer. WHO’s definition of overweight is having a body mass index (BMI) of between 25 and 29.9. Obesity is defined as having a BMI above 30.
Credit: Jurgen Ziewe/Wellcome Images
BIGPICTUREEDUCATION.COM
Reusing our images
Images and illustrations
• All images, unless otherwise indicated, are from Wellcome Images.
• Contemporary images are free to use for educational purposes (they have a Creative Commons
Attribution, Non-commercial, No derivatives licence). Please make sure you credit them as we have
done on the site; the format is ‘Creator’s name/Wellcome Images’.
• Historical images have a Creative Commons Attribution 4.0 licence: they’re free to use in any way as
long as they’re credited to ‘Wellcome Library, London’.
• Flickr images that we have used have a Creative Commons Attribution 4.0 licence, meaning we –
and you – are free to use in any way as long as the original owner is credited.
• Cartoon illustrations are © Glen McBeth. We commission Glen to produce these illustrations for
‘Big Picture’. He is happy for teachers and students to use his illustrations in a classroom setting, but
for other uses, permission must be sought.
• We source other images from photo libraries such as Science Photo Library, Corbis and iStock and
will acknowledge in an image’s credit if this is the case. We do not hold the rights to these images,
so if you would like to reproduce them, you will need to contact the photo library directly.
• If you’re unsure about whether you can use or republish a piece of content, just get in touch with
us at [email protected].