Scarlet fever, also known as Scarlatina, is an

infectious disease An infection is the invasion of tissues by pathogens, their multiplication, and the reaction of host tissues to the infectious agent and the toxins they produce. An infectious disease, also known as a transmissible disease or communicable d ...

caused by ''

Streptococcus pyogenes ''Streptococcus pyogenes'' is a species of Gram-positive, aerotolerant bacteria in the genus '' Streptococcus''. These bacteria are extracellular, and made up of non-motile and non-sporing cocci (round cells) that tend to link in chains. They ...

'' a

Group A streptococcus Lancefield grouping is a system of classification that classifies catalase-negative Gram-positive cocci based on the carbohydrate composition of bacterial antigens found on their cell walls. The system, created by Rebecca Lancefield, was historical ...

(GAS). The infection is a type of Group A streptococcal infection (Group A strep). It most commonly affects children between five and 15 years of age. The signs and symptoms include a sore throat, fever, headache, swollen lymph nodes, and a characteristic rash. The face is flushed and the rash is red and blanching. It typically feels like sandpaper and the tongue may be red and bumpy. The rash occurs as a result of capillary damage by exotoxins produced by ''S.pyogenes''. On darker pigmented skin the rash may be hard to discern. Scarlet fever affects a small number of people who have strep throat or

streptococcal skin infection Group A streptococcal infections are a number of infections with ''Streptococcus pyogenes'' a group A streptococcus (GAS). ''S. pyogenes'' is a species of beta-hemolytic gram-positive bacteria that is responsible for a wide range of infections th ...

s. The bacteria are usually spread by people coughing or sneezing. It can also be spread when a person touches an object that has the bacteria on it and then touches their mouth or nose. The diagnosis is typically confirmed by culturing swabs of the throat. There is no

vaccine A vaccine is a biological preparation that provides active acquired immunity to a particular infectious or malignant disease. The safety and effectiveness of vaccines has been widely studied and verified. ...

for scarlet fever. Prevention is by frequent handwashing, not sharing personal items, and staying away from other people when sick. The disease is treatable with antibiotics, which reduce symptoms and spread, and prevent most complications. Outcomes with scarlet fever are typically good if treated. Long-term complications as a result of scarlet fever include kidney disease, rheumatic fever, and arthritis. In the early 20th century it was a leading cause of death in children, but its severity was already declining before the

Second World War World War II or the Second World War, often abbreviated as WWII or WW2, was a world war that lasted from 1939 to 1945. It involved the World War II by country, vast majority of the world's countries—including all of the great power ...

and introduction of antibiotics, possibly as a result of better living conditions, introduction of control measures and a lower virulence of the bacteria. There have been signs of antibiotic resistance, and there have been outbreaks in Hong Kong in 2011 and in the UK in 2014, with occurrence rising 68% in the UK in the four years up to 2018. Research published in October 2020 has shown that infection of the bacterium by three viruses has led to more virulent strains of the bacterium.

Signs and symptoms

Scarlet fever typically presents with a sudden onset of sore throat, fever, and malaise, headache, nausea, vomiting and abdominal pain may also be present. Scarlet fever usually follows from a group A streptococcal infection that involves a ''strep throat'' such as streptococcal tonsillitis or more usually streptococcal pharyngitis. Often these can present together known as ''pharyngotonsillitis''. The signs and symptoms are therefore those of a ''strep throat'' but these are followed by the inclusion of the characteristic widespread rash. The rash usually appears one to two days later but may appear before or up to seven days following feeling sick. It generally hurts to swallow. Not all cases however, present with a fever, the degree of tiredness may vary, the sore throat and tongue changes might be slight or absent, and the rash can be patchy rather than diffuse in some. Cough, hoarseness, runny nose, diarrhea, and

conjunctivitis Conjunctivitis, also known as pink eye, is inflammation of the outermost layer of the white part of the eye and the inner surface of the eyelid. It makes the eye appear pink or reddish. Pain, burning, scratchiness, or itchiness may occur. The ...

are typically absent in scarlet fever; such symptoms indicate what is more likely a viral infection.

Mouth and throat

Strep throat is usually associated with fatigue and a fever of over 39 °C (102.2 °F). The tonsils may appear red and enlarged and are typically covered in exudate. The throat may be red with small red spots on the

roof of the mouth The palate () is the roof of the mouth in humans and other mammals. It separates the oral cavity from the nasal cavity The nasal cavity is a large, air-filled space above and behind the nose in the middle of the face. The nasal septum divide ...

. The uvula can look red and swollen. 30% to 60% of cases have associated enlarged and tender lymph nodes in the neck. During the first two days of illness the tongue may have a whitish coating from which red swollen

papillae Papilla (Latin, 'nipple') or papillae may refer to: In animals * Papilla (fish anatomy), in the mouth of fish * Basilar papilla, a sensory organ of lizards, amphibians and fish * Dental papilla, in a developing tooth * Dermal papillae, part of ...

protrude, giving the appearance of a "white strawberry tongue". After four to five days when the white coating sheds it becomes a "red strawberry tongue". The symptomatic appearance of the tongue is part of the rash that is characteristic of scarlet fever.

Rash

The characteristic rash has been denoted as "scarlatiniform", and it appears as a diffuse redness of the skin with small bumps resembling goose bumps. It typically appears as small flat spots on the neck or torso before developing into small bumps that spread to the arms and legs. It tends to feel rough like sandpaper. The cheeks might look flushed with a pale area around the mouth. The scarlet fever rash generally looks red on white and pale skin, and might be difficult to visualise on brown or black skin, in whom the bumps are typically larger, the skin less like sandpaper, and the perioral pallor less obvious. The palms and soles are spared. The reddened skin blanches when pressure is applied to it. The skin may feel itchy, but is not painful. A more intense redness on the inside of skin folds and creases might be noticed. These are lines of petechiae, appearing as pink/red areas located in arm pits and elbow pits. It takes around a week for the main rash to disappear. This may be followed by several weeks of peeling of the skin of typically fingers and toes. The desquamation process usually begins on the face and progresses downward on the body. Sometimes, this peeling is the only sign that scarlet fever occurred. If the case of scarlet fever is uncomplicated, recovery from the fever and clinical symptoms, other than the process of desquamation, occurs in 5–10 days. After the desquamation, the skin will be left with a sunburned appearance.

Variable presentations

Children younger than five years old may have atypical presentations. Children younger than 3 years old can present with nasal congestion and a lower grade fever. Infants may present with symptoms of increased irritability and decreased appetite.

Complications

The complications, which can arise from scarlet fever when left untreated or inadequately treated, can be divided into two categories: suppurative and nonsuppurative. Suppurative complications: These are rare complications that arise either from direct spread to structures that are close to the primary site of infection, or spread through the lymphatic system or blood. In the first case, scarlet fever may spread to the pharynx. Possible problems from this method of spread include peritonsillar or retropharyngeal abscesses, cellulitis, mastoiditis or sinusitis. In the second case, the streptococcal infection may spread through the lymphatic system or the blood to areas of the body further away from the pharynx. A few examples of the many complications that can arise from those methods of spread include

endocarditis Endocarditis is an inflammation of the inner layer of the heart, the endocardium. It usually involves the heart valves. Other structures that may be involved include the interventricular septum, the chordae tendineae, the mural endocardium, or the ...

pneumonia Pneumonia is an inflammatory condition of the lung primarily affecting the small air sacs known as alveoli. Symptoms typically include some combination of productive or dry cough, chest pain, fever, and difficulty breathing. The severi ...

, or meningitis. Nonsuppurative complications: These complications arise from certain subtypes of group A streptococci that cause an autoimmune response in the body through what has been termed

molecular mimicry Molecular mimicry is defined as the theoretical possibility that sequence similarities between foreign and self-peptides are sufficient to result in the cross-activation of autoreactive T or B cells by pathogen-derived peptides. Despite the prevale ...

. In these cases, the antibodies which the person's immune system developed to attack the group A streptococci are also able to attack the person's own tissues. The following complications result, depending on which tissues in the person's body are targeted by those antibodies. * Acute rheumatic fever: This is a complication that results 2–6 weeks after a group A streptococcal infection of the upper respiratory tract. It presents in developing countries, where antibiotic treatment of streptococcal infections is less common, as a febrile illness with several clinical manifestations, which are organized into what is called the Jones criteria. These criteria include arthritis, carditis, neurological issues, and skin findings. Diagnosis also depends on evidence of a prior group A streptococcal infection in the upper respiratory tract (as seen in streptococcal pharyngitis and scarlet fever). The carditis is the result of the immunologic response targeting the person's heart tissue, and it is the most serious sequelae that develops from acute rheumatic fever. When this involvement of the heart tissue occurs, it is called rheumatic heart disease. In most cases of rheumatic heart disease, the mitral valve is affected, ultimately leading to mitral stenosis. The link to rheumatic fever and heart disease is a particular concern in Australia, because of the high prevalence of these diseases in Aboriginal and Torres Strait Islander communities. * Poststreptococcal glomerulonephritis: This is inflammation of the kidney, which presents 1–2 weeks after a group A streptococcal pharyngitis. It can also develop after an episode of Impetigo or any group A streptococcal infection in the skin (this differs from acute rheumatic fever which only follows group A streptococcal pharyngitis). It is the result of the autoimmune response to the streptococcal infection affecting part of the kidney. Persons present with what is called acute nephritic syndrome, in which they have high blood pressure, swelling, and urinary abnormalities. Urinary abnormalities include blood and protein found in the urine, as well as less urine production overall. * Poststreptococcal reactive arthritis: The presentation of arthritis after a recent episode of group A streptococcal pharyngitis raises suspicion for acute rheumatic fever, since it is one of the Jones criteria for that separate complication. But, when the arthritis is an isolated symptom, it is referred to as poststreptococcal reactive arthritis. This arthritis can involve a variety of joints throughout the body, unlike the arthritis of acute rheumatic fever, which primarily affects larger joints such as the knee joints. It can present less than 10 days after the group A streptococcal pharyngitis.

Cause

Strep throat spreads by close contact among people, via respiratory droplets (for example, saliva or nasal discharge). A person in close contact with another person infected with group A streptococcal pharyngitis has a 35% chance of becoming infected. One in ten children who are infected with group A streptococcal pharyngitis will develop scarlet fever.

Pathophysiology

The rash of scarlet fever, which is what differentiates this disease from an isolated group A strep pharyngitis (or strep throat), is caused by specific strains of group A streptococcus which produce a streptococcal pyrogenic exotoxin, mainly responsible for the skin manifestation of the infection. These toxin-producing strains cause scarlet fever in people who do not already have antitoxin antibodies. Streptococcal pyrogenic exotoxins – SPEs A, B, C. and F have been identified. The pyrogenic exotoxins are also called ''erythrogenic toxins'' and cause the erythematous rash of scarlet fever. The strains of group A streptococcus that cause scarlet fever need specific bacteriophages for there to be pyrogenic exotoxin production. Specifically,

bacteriophage T12 Bacteriophage T12 is a bacteriophage that infects ''Streptococcus pyogenes'' bacteria. It is a proposed species of the family ''Siphoviridae'' in the order ''Caudovirales'' also known as ''tailed viruses''.NCBIBacteriophage T12 (species)/ref> It ...

is responsible for the production of speA. Streptococcal Pyrogenic Exotoxin A, speA, is the one which is most commonly associated with cases of scarlet fever which are complicated by the immune-mediated sequelae acute rheumatic fever and post-streptococcal glomerulonephritis. These toxins are also known as "

superantigen Superantigens (SAgs) are a class of antigens that result in excessive activation of the immune system. Specifically it causes non-specific activation of T-cells resulting in polyclonal T cell activation and massive cytokine release. SAgs are p ...

s" because they are able to cause an extensive immune response within the body through activation of some of the main cells responsible for the person's immune system. The body responds to these toxins by making antibodies to those specific toxins. However, those antibodies do not completely protect the person from future group A streptococcal infections, because there are 12 different pyrogenic exotoxins possible.

Microbiology

The disease is caused by secretion of

pyrogenic Fever, also referred to as pyrexia, is defined as having a temperature above the normal range due to an increase in the body's temperature set point. There is not a single agreed-upon upper limit for normal temperature with sources using valu ...

exotoxins by the infecting ''Streptococcus'' bacteria. Streptococcal pyrogenic exotoxin A (''speA'') is probably the best studied of these toxins. It is carried by the bacteriophage T12 which integrates into the streptococcal genome from where the toxin is transcribed. The phage itself integrates into a serine tRNA gene on the chromosome. The T12 virus itself has not been placed into a taxon by the International Committee on Taxonomy of Viruses. It has a double-stranded DNA genome and on morphological grounds appears to be a member of the '' Siphoviridae.'' The ''speA'' gene was cloned and sequenced in 1986. It is 753 base pairs in length and encodes a 29.244 kiloDalton (kDa)

protein Proteins are large biomolecules and macromolecules that comprise one or more long chains of amino acid residues. Proteins perform a vast array of functions within organisms, including catalysing metabolic reactions, DNA replication, respon ...

. The protein contains a putative 30- amino-acid signal peptide; removal of the signal sequence gives a predicted molecular weight of 25.787 kDa for the secreted protein. Both a promoter and a ribosome binding site ( Shine-Dalgarno sequence) are present upstream of the gene. A transcriptional terminator is located 69 bases downstream from the translational termination codon. The carboxy terminal portion of the protein exhibits extensive homology with the carboxy terminus of ''

Staphylococcus aureus ''Staphylococcus aureus'' is a Gram-positive spherically shaped bacterium, a member of the Bacillota, and is a usual member of the microbiota of the body, frequently found in the upper respiratory tract and on the skin. It is often posit ...

'' enterotoxins B and C1. Streptococcal phages other than T12 may also carry the ''speA'' gene.

Diagnosis

Although the presentation of scarlet fever can be clinically diagnosed, further testing may be required to distinguish it from other illnesses. Also, history of a recent exposure to someone with strep throat can be useful in diagnosis. There are two methods used to confirm suspicion of scarlet fever; rapid antigen detection test and throat culture. The rapid antigen detection test is a very specific test but not very sensitive. This means that if the result is positive (indicating that the group A strep antigen was detected and therefore confirming that the person has a group A strep pharyngitis), then it is appropriate to treat the people with scarlet fever with antibiotics. But, if the rapid antigen detection test is negative (indicating that they do not have group A strep pharyngitis), then a throat culture is required to confirm, as the first test could have yielded a false negative result. In the early 21st century, the throat culture is the current "gold standard" for diagnosis. Serologic testing seeks evidence of the antibodies that the body produces against the streptococcal infection, including antistreptolysin-O and antideoxyribonuclease B. It takes the body 2–3 weeks to make these antibodies, so this type of testing is not useful for diagnosing a current infection. But, it is useful when assessing a person who may have one of the complications from a previous streptococcal infection. Throat cultures done after antibiotic therapy can show if the infection has been removed. These throat swabs, however, are not indicated, because up to 25% of properly treated individuals can continue to carry the streptococcal infection while being asymptomatic.

Differential diagnosis

Scarlet fever might appear similar to Kawasaki disease, which has a characteristic red but not white strawberry tongue, and staphylococcal scarlatina which does not have the strawberry tongue at all. Other conditions that might appear similar include impetigo, erysipelas, measles,

chickenpox Chickenpox, also known as varicella, is a highly contagious disease caused by the initial infection with varicella zoster virus (VZV). The disease results in a characteristic skin rash that forms small, itchy blisters, which eventually sca ...

, and

hand-foot-and-mouth disease Hand, foot, and mouth disease (HFMD) is a common infection caused by a group of enteroviruses. It typically begins with a fever and feeling generally unwell. This is followed a day or two later by flat discolored spots or bumps that may bl ...

, and may be distinguished by the pattern of symptoms. * Viral

exanthem An exanthem is a widespread rash occurring on the outside of the body and usually occurring in children. An exanthem can be caused by toxins, drugs, or microorganisms, or can result from autoimmune disease. The term exanthem is from the Greek ...

: Viral infections are often accompanied by a rash which can be described as

morbilliform The term morbilliform refers to a rash that looks like measles. The rash consists of macular lesions that are red and usually 2–10 mm in diameter but may be confluent in places. A morbilliform rash is a rose-red flat ( macular) or slightly ...

or maculopapular. This type of rash is accompanied by a prodromal period of cough and runny nose in addition to a fever, indicative of a viral process. * Allergic or contact dermatitis: The erythematous appearance of the skin will be in a more localized distribution rather than the diffuse and generalized rash seen in scarlet fever. * Drug eruption: These are potential side effects of taking certain drugs such as penicillin. The reddened maculopapular rash which results can be itchy and be accompanied by a fever. * Kawasaki disease: Children with this disease also present with a strawberry tongue and undergo a desquamative process on their palms and soles. However, these children tend to be younger than 5 years old, their fever lasts longer (at least five days), and they have additional clinical criteria (including signs such as conjunctival redness and cracked lips), which can help distinguish this from scarlet fever. * Toxic shock syndrome: Both streptococcal and staphylococcal bacteria can cause this syndrome. Clinical manifestations include diffuse rash and desquamation of the palms and soles. It can be distinguished from scarlet fever by low blood pressure, lack of sandpaper texture for the rash, and multi-organ system involvement. * Staphylococcal scalded skin syndrome: This is a disease that occurs primarily in young children due to a toxin-producing strain of the bacteria ''Staphylococcus aureus''. The abrupt start of the fever and diffused sunburned appearance of the rash can resemble scarlet fever. However, this rash is associated with tenderness and large blister formation. These blisters easily pop, followed by causing the skin to peel. * Staphylococcal scarlet fever: The rash is identical to the streptococcal scarlet fever in distribution and texture, but the skin affected by the rash will be tender.

Prevention

One method is long-term use of antibiotics to prevent future group A streptococcal infections. This method is only indicated for people who have had complications like recurrent attacks of acute rheumatic fever or rheumatic heart disease. Antibiotics are limited in their ability to prevent these infections since there are a variety of subtypes of group A streptococci that can cause the infection. The vaccine approach has a greater likelihood of effectively preventing group A streptococcal infections because vaccine formulations can target multiple subtypes of the bacteria. A vaccine developed by George and Gladys Dick in 1924 was discontinued due to poor efficacy and the introduction of antibiotics. Difficulties in vaccine development include the considerable strain variety of group A streptococci present in the environment and the amount of time and number of people needed for appropriate trials for safety and efficacy of any potential vaccine. There have been several attempts to create a vaccine in the past few decades. These vaccines, which are still in the development phase, expose the person to proteins present on the surface of the group A streptococci to activate an immune response that will prepare the person to fight and prevent future infections. There used to be a diphtheria scarlet fever vaccine. It was, however, found not to be effective. This product was discontinued by the end of World War II.

Treatment

Antibiotics to combat the streptococcal infection are the mainstay of treatment for scarlet fever. Prompt administration of appropriate antibiotics decreases the length of illness. Peeling of the outer layer of skin, however, will happen despite treatment. One of the main goals of treatment is to prevent the child from developing one of the suppurative or nonsuppurative complications, especially acute rheumatic fever. As long as antibiotics are started within nine days, it is very unlikely for the child to develop acute rheumatic fever. Antibiotic therapy has not been shown to prevent the development of post-streptococcal glomerulonephritis. Another important reason for prompt treatment with antibiotics is the ability to prevent transmission of the infection between children. An infected individual is most likely to pass on the infection to another person during the first 2 weeks. A child is no longer contagious (able to pass the infection to another child) after 24 hours of antibiotics. The antibiotic of choice is Penicillin V which is taken by mouth. In countries without a liquid Penicillin V product, children unable to take tablets can be given amoxicillin which comes in a liquid form and is equally effective. Duration of treatment is 10 days.

Benzathine penicillin G Benzathine benzylpenicillin, also known as benzathine penicillin G, is an antibiotic medication useful for the treatment of a number of bacterial infections. Specifically it is used to treat strep throat, diphtheria, syphilis, and yaws. It is ...

can be given as a one time intramuscular injection as another alternative if swallowing pills is not possible. If the person is allergic to the family of antibiotics which both penicillin and amoxicillin are a part of ( beta-lactam antibiotics), a first generation

cephalosporin The cephalosporins (sg. ) are a class of β-lactam antibiotics originally derived from the fungus '' Acremonium'', which was previously known as ''Cephalosporium''. Together with cephamycins, they constitute a subgroup of β-lactam antibioti ...

is used. Cephalosporin antibiotics, however, can still cause adverse reactions in people whose allergic reaction to penicillin is a Type 1 Hypersensitivity reaction. In those cases it is appropriate to choose clindamycin or erythromycin instead. Tonsillectomy, although once a reasonable treatment for recurrent streptococcal pharyngitis, is not indicated, as a person can still be infected with group A streptococcus without their tonsils.

Antibiotic resistance and resurgence

drug-resistant Drug resistance is the reduction in effectiveness of a medication such as an antimicrobial or an antineoplastic in treating a disease or condition. The term is used in the context of resistance that pathogens or cancers have "acquired", that is, ...

strain of scarlet fever, resistant to macrolide antibiotics such as erythromycin, but retaining drug-sensitivity to beta-lactam antibiotics such as penicillin, emerged in Hong Kong in 2011, accounting for at least two deaths in that city—the first such in over a decade. About 60% of circulating strains of the group A streptococcus that cause scarlet fever in Hong Kong are resistant to macrolide antibiotics, says Professor Kwok-yung Yuen, head of Hong Kong University's

microbiology Microbiology () is the scientific study of microorganisms, those being unicellular (single cell), multicellular (cell colony), or acellular (lacking cells). Microbiology encompasses numerous sub-disciplines including virology, bacteriology, ...

department. Previously, observed

resistance Resistance may refer to: Arts, entertainment, and media Comics * Either of two similarly named but otherwise unrelated comic book series, both published by Wildstorm: ** ''Resistance'' (comics), based on the video game of the same title ** ''T ...

rates had been 10–30%; the increase is likely the result of overuse of macrolide antibiotics in recent years. There was also an outbreak in the UK in 2014, and the

National Health Service The National Health Service (NHS) is the umbrella term for the publicly funded healthcare systems of the United Kingdom (UK). Since 1948, they have been funded out of general taxation. There are three systems which are referred to using the " ...

reported a 68% increase in the number of ''S. pyogenes'' identified in laboratory reports between 2014 and 2018. New research published in October 2020 in the journal that the bacterium appears to be getting more robust after being infected with viruses, specifically the North-East Asian serotype M12 (emm12) (group A Streptococcus, GAS). They found three new genes, acquired from viruses, leading to the development of "

s" targeting white blood cells, leading to a more virulent strain of the bacterium. A vaccine that will protect against the 180 to 200 types of bacteria causing the disease has been worked on for over 20 years, but a safe one had not yet been developed.

Epidemiology

Scarlet fever occurs equally in both males and females. Children are most commonly infected, typically between 5–15 years old. Although streptococcal infections can happen at any time of year, infection rates peak in the winter and spring months, typically in colder climates. The morbidity and mortality of scarlet fever has declined since the 18th and 19th century when there were epidemics caused by this disease. Around 1900 the mortality rate in multiple places reached 25%. The improvement in prognosis can be attributed to the use of penicillin in the treatment of this disease. The frequency of scarlet fever cases has also been declining over the past century. There have been several reported outbreaks of the disease in various countries in the past decade. The reason for these increases remains unclear in the medical community. Between 2013 and 2016 population rates of scarlet fever in England increased from 8.2 to 33.2 per 100,000 and hospital admissions for scarlet fever increased by 97%. Further increases in the reporting of scarlet fever cases have been noted in England during the 2021-2022 season (September to September) and so far also in the season 2022-2023. The

World Health Organization The World Health Organization (WHO) is a specialized agency of the United Nations responsible for international public health. The WHO Constitution states its main objective as "the attainment by all peoples of the highest possible level o ...

has reported an increase in scarlet fever (and iGAS – invasive GAS cases) in England, and other European countries during this time. Increases have been reported in France and Ireland. In the US cases of scarlet fever are not reported but as of December 2022 the CDC is looking at a possible increase in the numbers of invasive GAS infections reported in children.

History

It is unclear when a description of this disease was first recorded.

Hippocrates Hippocrates of Kos (; grc-gre, Ἱπποκράτης ὁ Κῷος, Hippokrátēs ho Kôios; ), also known as Hippocrates II, was a Greek physician of the classical period who is considered one of the most outstanding figures in the history o ...

, writing around 400 BC, described the condition of a person with a reddened skin and fever. The first unambiguous description of the disease in the medical literature appeared in the 1553 book ''De Tumoribus praeter Naturam'' by the Sicilian anatomist and physician Giovanni Filippo Ingrassia, where he referred to it as ''rossalia''. He also made a point to distinguish that this presentation had different characteristics from measles. It was redescribed by Johann Weyer during an epidemic in lower Germany between 1564 and 1565; he referred to it as ''scarlatina anginosa''. The first unequivocal description of scarlet fever appeared in a book by Joannes Coyttarus of Poitiers, , which was published in 1578 in Paris. Daniel Sennert of Wittenberg described the classical 'scarlatinal desquamation' in 1572 and was also the first to describe the early arthritis, scarlatinal dropsy, and ascites associated with the disease. In 1675 the term that has been commonly used to refer to scarlet fever, "scarlatina", was written by Thomas Sydenham, an English physician. In 1827, Richard Bright was the first to recognize the involvement of the renal system in scarlet fever. The association between streptococci and disease was first described in 1874 by Theodor Billroth, discussing people with skin infections. Billroth also coined the genus name ''Streptococcus''. In 1884 Friedrich Julius Rosenbach edited the name to its current one, ''Streptococcus pyogenes,'' after further looking at the bacteria in the skin lesions. The organism was first cultured in 1883 by the German surgeon Friedrich Fehleisen from erysipelas lesions. Also in 1884, the German physician Friedrich Loeffler was the first to show the presence of streptococci in the throats of people with scarlet fever. Because not all people with pharyngeal streptococci developed scarlet fever, these findings remained controversial for some time. The association between streptococci and scarlet fever was confirmed by Alphonse Dochez and George and Gladys Dick in the early 1900s.http://www.nasonline.org/publications/biographical-memoirs/memoir-pdfs/dochez-alphonse.pdf Also in 1884, the world's first convalescent home for people with scarlet fever was opened at Brockley Hill, Stanmore, founded by Mary Wardell. Nil Filatov (in 1895) and Clement Dukes (in 1894) described an exanthematous disease which they thought was a form of rubella, but in 1900, Dukes described it as a separate illness which came to be known as

Dukes' disease Dukes' disease, named after Clement Dukes, also known as fourth disease or Filatov-Dukes' disease (after Nil Filatov), is an exanthem. It is distinguished from measles or forms of rubella, though it was considered as a form of viral rash. Althoug ...

, Filatov's disease, or fourth disease. However, in 1979, Keith Powell identified it as in fact the same illness as the form of scarlet fever which is caused by staphylococcal exotoxin and is known as staphylococcal scalded skin syndrome. Scarlet fever serum from horses' blood was used in the treatment of children beginning in 1900 and reduced mortality rates significantly. In 1906, the Austrian pediatrician Clemens von Pirquet postulated that disease-causing immune complexes were responsible for the nephritis that followed scarlet fever.

Bacteriophage A bacteriophage (), also known informally as a ''phage'' (), is a duplodnaviria virus that infects and replicates within bacteria and archaea. The term was derived from "bacteria" and the Greek φαγεῖν ('), meaning "to devour". Bact ...

s were discovered in 1915 by Frederick Twort. His work was overlooked and bacteriophages were later rediscovered by Felix d'Herelle in 1917. The specific association of scarlet fever with the group A streptococci had to await the development of Lancefield's streptococcal grouping scheme in the 1920s. George and Gladys Dick showed that cell-free filtrates could induce the erythematous reaction characteristic of scarlet fever, proving that this reaction was due to a toxin. Karelitz and Stempien discovered that extracts from human serum globulin and placental globulin can be used as lightening agents for scarlet fever and this was used later as the basis for the Dick test. The association of scarlet fever and bacteriophages was described in 1926 by Cantacuzène ( Ioan Cantacuzino) and Bonciu. An antitoxin for scarlet fever was developed in 1924. The discovery of penicillin and its subsequent widespread use significantly reduced the mortality of this once-feared disease. The first toxin which causes this disease was cloned and sequenced in 1986 by Weeks and Ferretti. The incidence of scarlet fever was reported to be increasing in countries including England, Wales, South Korea, Vietnam, China, and Hong Kong in the 2010s; the cause had not been established as of 2018. Cases were also reported to be increasing after the easing of restrictions due to the covid pandemic that started in 2020.

The Dick test

The Dick test, developed in 1924 by

George F. Dick George Frederick Dick (July 21, 1881 – October 10, 1967) was an American physician and bacteriologist best known for his work with scarlet fever. Dick studied scarlet fever whilst serving the Army Medical Corps during World War I. Dick contin ...

and Gladys Dick, was used to identify those susceptible to scarlet fever. The Dick test involved injecting a diluted strain of the streptococci known to cause scarlet fever; a reaction in the skin at the injection site identified people susceptible to developing scarlet fever. The reaction could be seen four hours after the injection, but was more noticeable after 24 hours. If no reaction was seen in the skin, then the person was assumed not to be at risk from the disease, having developed immunity to it. File:Über die Nierenveränderungen bei Scharlach (1891).jpg,

Otto Kalischer __NOTOC__ Otto Kalischer (1869 – 1942) was a German anatomist and neurologist. Life He was born on April 23, 1869 in what was then Berlin, Kingdom of Prussia. He was the son of physician Adolf Kalischer (1833–1893) and his wife Clara née ...

wrote a doctoral thesis on scarlet fever in 1891. File:Poster - "Regulation of the Milk Supply" (FDA 178) (8211297109).jpg, A 1930s American poster attempting to curb the spread of such diseases as scarlet fever by regulating milk supply File:Gladys Rowena Henry Dick (1881-1963).jpg, Gladys Henry Dick ''(pictured)'' and George Frederick Dick developed an antitoxin and vaccine for scarlet fever in 1924 which were later eclipsed by penicillin in the 1940s.

References

External links

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