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Group A streptococcal infection

January 01, 1970

Group A streptococcal infections are a number of infections with Streptococcus pyogenes, a group A streptococcus (GAS).[1] S. pyogenes is a species of beta-hemolytic Gram-positive bacteria that is responsible for a wide range of infections that are mostly common and fairly mild. If the bacteria enter the bloodstream an infection can become severe and life-threatening, and is called an invasive GAS (iGAS).[2][3]

Group A streptococcal infection
Streptococcus pyogenes
SpecialtyInfectious diseases 

Infection of GAS may spread through direct contact with mucus or sores on the skin.[2] GAS infections can cause over 500,000 deaths per year.[4] Despite the emergence of antibiotics as a treatment for group A streptococcus, cases of iGAS are an increasing problem, particularly on the continent of Africa.[5]

There are many other species of Streptococcus, including group B streptococcus Streptococcus agalactiae, and Streptococcus pneumoniae, which cause other types of infections. Several virulence factors contribute to the pathogenesis of GAS, such as M protein, hemolysins, and extracellular enzymes.

Types of infection edit

Group A β-hemolytic streptococcus can cause infections of the throat and skin.[6] These may vary from very mild conditions to severe, life-threatening diseases. Although it is not completely clear what causes different people to develop different diseases as a result of infection with the same pathogenic bacteria, it is suspected that host phenotypic and epigenetic factors are the source of such variation. Indeed, the many virulence factors of GAS can influence the epigenetics of the host. Furthermore, persons with suppressed or compromised immune systems may be more susceptible to certain diseases caused by GAS than other persons with intact immune systems. A 2019 study shows that GAS's evasion of immune detection is facilitated by protein S, an extracellular and cell wall-associated protein that enables it to camouflage itself by binding fragments of lysed red blood cells.[7]

Humans may also carry the GAS either on the skin or in the throat and show no symptoms.[8] These carriers are less contagious than symptomatic carriers of the bacteria.[8]

The non-invasive infections caused by GAS tend to be less severe and more common. They occur when the bacteria colonizes the throat area, where it recognizes epithelial cells.[9] The two most prominent infections of GAS are both non-invasive: strep throat (pharyngitis) where it causes 15–30% of the childhood cases and 10% of adult cases, and impetigo.[4] These may be effectively treated with antibiotics. Scarlet fever is also a non-invasive infection caused by GAS, although much less common.

The invasive infections caused by Group A β-hemolytic streptococcus tend to be more severe and less common. These occurs when the bacterium is able to infect areas where bacteria are not usually found, such as blood and organs.[8] The diseases that may be caused as a result of this include streptococcal toxic shock syndrome (STSS), necrotizing fasciitis (NF), pneumonia, and bacteremia.[4]

In addition, infection of GAS may lead to further complications and health conditions, namely acute rheumatic fever and poststreptococcal glomerulonephritis.

Most common:

Less common:

(*Note that meningitis, sinusitis and pneumonia can all be caused by Group A Strep, but are much more commonly associated with Streptococcus pneumoniae and should not be confused.)

Severe infections edit

Some strains of group A streptococci (GAS) cause severe infection. Severe infections are usually invasive, meaning that the bacteria has entered parts of the body where bacteria are not usually found, such as the blood, lungs, deep muscle or fat tissue.[10] Those at greatest risk include children with chickenpox; persons with suppressed immune systems; burn victims; elderly persons with cellulitis, diabetes, vascular disease, or cancer; and persons taking steroid treatments or chemotherapy. Intravenous drug users and homeless also are at high risk.[11] GAS is an important cause of puerperal fever worldwide, causing serious infection and, if not promptly diagnosed and treated, death in newly delivered mothers. Severe GAS disease may also occur in healthy persons with no known risk factors.

All severe GAS infections may lead to shock, multisystem organ failure, and death. Early recognition and treatment are critical.[12][13] Diagnostic tests include blood counts and urinalysis as well as cultures of blood or fluid from a wound site.

Severe Group A streptococcal infections often occur sporadically but can be spread by person-to-person contact.[14] Close contacts of people affected by severe Group A streptococcal infections, defined as those having had prolonged household contact in the week before the onset of illness, may be at increased risk of infection. This increased risk may be due to a combination of shared genetic susceptibility within the family, close contact with carriers, and the virulence of the Group A streptococcal strain that is involved.[15]

Public health policies internationally reflect differing views of how the close contacts of people affected by severe Group A streptococcal infections should be treated. Health Canada[16] and the US CDC recommend close contacts see their doctor for full evaluation and may require antibiotics;[17] current UK Health Protection Agency guidance is that, for a number of reasons, close contacts should not receive antibiotics unless they are symptomatic but that they should receive information and advice to seek immediate medical attention if they develop symptoms.[15] However, guidance is clearer in the case of mother-baby pairs: both mother and baby should be treated if either develops an invasive GAS infection within the first 28 days following birth[15] (though some evidence suggests that this guidance is not routinely followed in the UK[18]).

Diagnosis edit

 
Example of a workup algorithm of possible bacterial infection in cases with no specifically requested targets (non-bacteria, mycobacteria etc.), with most common situations and agents seen in a New England setting. Main Streptococcus groups are included as "Strep." at bottom left.

Diagnosis is by a swab of the affected area for laboratory testing. A Gram stain is performed to show Gram-positive cocci in chains. Then, the organism is cultured on blood agar. The rapid pyrrolidonyl arylamidase (PYR) test is commonly used, wherein a positive reaction confers a presumptive identification of group A beta-hemolytic streptococci if the appearance and clinical context is consistent. GBS gives a negative finding on the PYR test test.[19] There are also latex agglutination kits which can distinguish each of the main groups seen in clinical practice.

Prevention edit

S. pyogenes infections are best prevented through effective hand hygiene.[20] No vaccines are currently available to protect against S. pyogenes infection, although research has been conducted into the development of one.[21] Difficulties in developing a vaccine include the wide variety of strains of S. pyogenes present in the environment and the large amount of time and number of people that will be needed for appropriate trials for safety and efficacy of the vaccine.[21][22]

Treatment edit

The treatment of choice is penicillin, and the duration of treatment is around 10 days.[23] Antibiotic therapy (using injected penicillin) has been shown to reduce the risk of acute rheumatic fever.[24] In individuals with a penicillin allergy, erythromycin, other macrolides, and cephalosporins have been shown to be effective treatments.[25]

Treatment with ampicillin/sulbactam, amoxicillin/clavulanic acid, or clindamycin is appropriate if deep oropharyngeal abscesses are present, in conjunction with aspiration or drainage.[26] In cases of streptococcal toxic shock syndrome, treatment consists of penicillin and clindamycin, given with intravenous immunoglobulin.[27]

For toxic shock syndrome and necrotizing fasciitis, high-dose penicillin and clindamycin are used. Additionally, for necrotizing fasciitis, surgery is often needed to remove damaged tissue and stop the spread of the infection.[20]

No instance of penicillin resistance has been reported to date, although since 1985, many reports of penicillin tolerance have been made.[28] The reason for the failure of penicillin to treat S. pyogenes is most commonly patient noncompliance, but in cases where patients have been compliant with their antibiotic regimen, and treatment failure still occurs, another course of antibiotic treatment with cephalosporins is common.[25]

The 30-valent N-terminal M-protein-based vaccine as well as the M-protein vaccine (minimal epitope J8 vaccine) are two vaccines for GAS that are currently getting close or becoming clinical studies, however, other vaccines using conserved epitopes are progressing.[29]

Epidemiology edit

Cases of GAS are still present today, but were also evident before World War I. This was shown by a training camp located in Texas, where a harmful strain of pneumonia complicating measles was caused by a strain of Streptococcus.[30] Existence of streptococci strains was additionally found in World War II. An epidemic of streptococcal infection in the United States Navy during this war indicated that this type of disease was able to exist and spread in formerly unexposed individuals by environments that serological types of group A streptococci preferred.[30] In later years, a positive test result for the presence of group A streptococci was found in 32.1 percent of individuals after throat cultures were carried out in a 20 yearlong (1953/1954-1973/1974) study performed in Nashville, TN.[30] Also, from 1972 to 1974, recurring GAS illness was observed with a prevalence of 19 percent in school-aged children as well as a prevalence rate of 25 percent in families.[30] The severity of streptococcal infections has decreased over the years, and so has rheumatic fever (a sequelae of GAS) which is indicated by the change in numerous hospitals from containing wards allocated for the sole purpose of treating rheumatic fever to hardly seeing the disease at all.[30] Environmental factors, such as less crowding and the increase of family living space, can account for the reduction in incidence and severity of group A streptococci.[30] With more space for individuals to reside in, it provides the bacteria with less opportunities to spread from person to person. This is especially important considering an estimated 500,000 deaths worldwide all occurring after acute rheumatic fever, invasive infection, or subsequent heart disease can be accredited to GAS.[31] This number is quite large, often leaving the health care system encumbered, since 91 percent of patients infected with invasive GAS need to be hospitalized with 8950–11,500 episodes and 1050-1850 deaths taking place each year.[31] A later study that occurred from 2005 to 2012 found that there were 10,649-13,434 cases consequently resulting in 1136-1607 deaths per year.[29]

Complications edit

Acute rheumatic fever edit

Acute rheumatic fever (ARF) is a complication of respiratory infections caused by GAS. The M-protein generates antibodies that cross-react with autoantigens on interstitial connective tissue, in particular of the endocardium and synovium, that can lead to significant clinical illness.

Although common in developing countries, ARF is rare in the United States, possibly secondary to improved antibiotic treatment, with small isolated outbreaks reported only occasionally. It is most common among children between 5 and 15 years old and occurs 1–3 weeks after an untreated GAS pharyngitis, but caution is advised when interpreting the demographics of the contemporary picture of pediatric cases in the United States.[32]

ARF is often clinically diagnosed based on Jones Criteria, which include: pancarditis, migratory polyarthritis of large joints, subcutaneous nodules, erythema marginatum, and sydenham chorea (involuntary, purposeless movement). The most common clinical finding is a migratory arthritis involving multiple joints.[33]

Other indicators of GAS infection such as a DNAase or ASO serology test must confirm the GAS infection. Other minor Jones Criteria are fever, elevated ESR and arthralgia. One of the most serious complications is pancarditis, or inflammation of all three heart tissues. A fibrinous pericarditis can develop with a classic friction rub that can be auscultated. This will give increasing pain upon reclining.

Further endocarditis can develop with aseptic vegetations along the valve closure lines, in particular the mitral valve. Chronic rheumatic heart disease mostly affects the mitral valve, which can become thickened with calcification of the leaflets, often causing fusion of the commissures and chordae tendineae.

Other findings of ARF include erythema marginatum (usually over the spine or other bony areas) and a red expanding rash on the trunk and extremities that recurs over weeks to months. Because of the different ways ARF presents itself, the disease may be difficult to diagnose.

A neurological disorder, Sydenham chorea, can occur months after an initial attack, causing jerky involuntary movements, muscle weakness, slurred speech, and personality changes. Initial episodes of ARF, as well as recurrences, can be prevented by treatment with appropriate antibiotics.

It is important to distinguish ARF from rheumatic heart disease. ARF is an acute inflammatory reaction with pathognomonic Aschoff bodies histologically and RHD is a non-inflammatory sequela of ARF.

Post-streptococcal glomerulonephritis edit

Post-streptococcal glomerulonephritis (PSGN) is an uncommon complication of either a strep throat or a streptococcal skin infection. It is classified as a type III hypersensitivity reaction. Symptoms of PSGN develop within 10 days following a strep throat or 3 weeks following a GAS skin infection. PSGN involves inflammation of the kidney. Symptoms include pale skin, lethargy, loss of appetite, headache, and dull back pain. Clinical findings may include dark-colored urine, swelling of different parts of the body (edema), and high blood pressure. Treatment of PSGN consists of supportive care.

PANDAS edit

Obsessive–compulsive disorder and tic disorders are hypothesized to arise in a subset of children as a result of a post-streptococcal autoimmune process.[34][35][36] Its potential effect was described in 1998 by the controversial hypothesis called PANDAS (pediatric autoimmune neuropsychiatric disorders associated with streptococcal infections), a condition thought to be triggered by GABHS infections.[37][38] The PANDAS hypothesis is unconfirmed and unsupported by data, and two new categories have been proposed: PANS (pediatric acute-onset neuropsychiatric syndrome) and CANS (childhood acute neuropsychiatric syndrome).[35][36] The CANS/PANS hypotheses include different possible mechanisms underlying acute-onset neuropsychiatric conditions, but do not exclude GABHS infections as a cause in a subset of individuals.[35][36] PANDAS, PANS and CANS are the focus of clinical and laboratory research but remain unproven.[34][35][36]

References edit

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Note: Elements of the original text of this article are taken from the NIH Fact Sheet "Group A Streptococcal Infections", dated March 1999. As a work of the U.S. Federal Government without any other copyright notice, this is assumed to be a public domain resource.

Further reading edit

  • Ferretti, Joseph J; Stevens, Dennis L; Fischetti, Vincent A (2016). Streptococcus pyogenes: Basic Biology to Clinical Manifestations [Internet]. Oklahoma City, OK: University of Oklahoma Health Sciences Center. PMID 26866208.

External links edit

January 01, 1970
group, streptococcal, infection, number, infections, with, streptococcus, pyogenes, group, streptococcus, pyogenes, species, beta, hemolytic, gram, positive, bacteria, that, responsible, wide, range, infections, that, mostly, common, fairly, mild, bacteria, en. Group A streptococcal infections are a number of infections with Streptococcus pyogenes a group A streptococcus GAS 1 S pyogenes is a species of beta hemolytic Gram positive bacteria that is responsible for a wide range of infections that are mostly common and fairly mild If the bacteria enter the bloodstream an infection can become severe and life threatening and is called an invasive GAS iGAS 2 3 Group A streptococcal infectionStreptococcus pyogenesSpecialtyInfectious diseases Infection of GAS may spread through direct contact with mucus or sores on the skin 2 GAS infections can cause over 500 000 deaths per year 4 Despite the emergence of antibiotics as a treatment for group A streptococcus cases of iGAS are an increasing problem particularly on the continent of Africa 5 There are many other species of Streptococcus including group B streptococcus Streptococcus agalactiae and Streptococcus pneumoniae which cause other types of infections Several virulence factors contribute to the pathogenesis of GAS such as M protein hemolysins and extracellular enzymes Contents 1 Types of infection 1 1 Severe infections 2 Diagnosis 3 Prevention 4 Treatment 5 Epidemiology 6 Complications 6 1 Acute rheumatic fever 6 2 Post streptococcal glomerulonephritis 6 3 PANDAS 7 References 8 Further reading 9 External linksTypes of infection editGroup A b hemolytic streptococcus can cause infections of the throat and skin 6 These may vary from very mild conditions to severe life threatening diseases Although it is not completely clear what causes different people to develop different diseases as a result of infection with the same pathogenic bacteria it is suspected that host phenotypic and epigenetic factors are the source of such variation Indeed the many virulence factors of GAS can influence the epigenetics of the host Furthermore persons with suppressed or compromised immune systems may be more susceptible to certain diseases caused by GAS than other persons with intact immune systems A 2019 study shows that GAS s evasion of immune detection is facilitated by protein S an extracellular and cell wall associated protein that enables it to camouflage itself by binding fragments of lysed red blood cells 7 Humans may also carry the GAS either on the skin or in the throat and show no symptoms 8 These carriers are less contagious than symptomatic carriers of the bacteria 8 The non invasive infections caused by GAS tend to be less severe and more common They occur when the bacteria colonizes the throat area where it recognizes epithelial cells 9 The two most prominent infections of GAS are both non invasive strep throat pharyngitis where it causes 15 30 of the childhood cases and 10 of adult cases and impetigo 4 These may be effectively treated with antibiotics Scarlet fever is also a non invasive infection caused by GAS although much less common The invasive infections caused by Group A b hemolytic streptococcus tend to be more severe and less common These occurs when the bacterium is able to infect areas where bacteria are not usually found such as blood and organs 8 The diseases that may be caused as a result of this include streptococcal toxic shock syndrome STSS necrotizing fasciitis NF pneumonia and bacteremia 4 In addition infection of GAS may lead to further complications and health conditions namely acute rheumatic fever and poststreptococcal glomerulonephritis Most common impetigo cellulitis and erysipelas infections of the skin which can be complicated by necrotizing fasciitis skin fascia and muscle strep throat AKA strep pharyngitis pharynx Less common bacteremia can be associated with these infections but is not typical septic arthritis joints osteomyelitis bones vaginitis vagina more common in pre pubescent girls meningitis meninges sinusitis sinuses pneumonia pulmonary alveolus Note that meningitis sinusitis and pneumonia can all be caused by Group A Strep but are much more commonly associated with Streptococcus pneumoniae and should not be confused Severe infections edit Some strains of group A streptococci GAS cause severe infection Severe infections are usually invasive meaning that the bacteria has entered parts of the body where bacteria are not usually found such as the blood lungs deep muscle or fat tissue 10 Those at greatest risk include children with chickenpox persons with suppressed immune systems burn victims elderly persons with cellulitis diabetes vascular disease or cancer and persons taking steroid treatments or chemotherapy Intravenous drug users and homeless also are at high risk 11 GAS is an important cause of puerperal fever worldwide causing serious infection and if not promptly diagnosed and treated death in newly delivered mothers Severe GAS disease may also occur in healthy persons with no known risk factors All severe GAS infections may lead to shock multisystem organ failure and death Early recognition and treatment are critical 12 13 Diagnostic tests include blood counts and urinalysis as well as cultures of blood or fluid from a wound site Severe Group A streptococcal infections often occur sporadically but can be spread by person to person contact 14 Close contacts of people affected by severe Group A streptococcal infections defined as those having had prolonged household contact in the week before the onset of illness may be at increased risk of infection This increased risk may be due to a combination of shared genetic susceptibility within the family close contact with carriers and the virulence of the Group A streptococcal strain that is involved 15 Public health policies internationally reflect differing views of how the close contacts of people affected by severe Group A streptococcal infections should be treated Health Canada 16 and the US CDC recommend close contacts see their doctor for full evaluation and may require antibiotics 17 current UK Health Protection Agency guidance is that for a number of reasons close contacts should not receive antibiotics unless they are symptomatic but that they should receive information and advice to seek immediate medical attention if they develop symptoms 15 However guidance is clearer in the case of mother baby pairs both mother and baby should be treated if either develops an invasive GAS infection within the first 28 days following birth 15 though some evidence suggests that this guidance is not routinely followed in the UK 18 Diagnosis edit nbsp Example of a workup algorithm of possible bacterial infection in cases with no specifically requested targets non bacteria mycobacteria etc with most common situations and agents seen in a New England setting Main Streptococcus groups are included as Strep at bottom left Diagnosis is by a swab of the affected area for laboratory testing A Gram stain is performed to show Gram positive cocci in chains Then the organism is cultured on blood agar The rapid pyrrolidonyl arylamidase PYR test is commonly used wherein a positive reaction confers a presumptive identification of group A beta hemolytic streptococci if the appearance and clinical context is consistent GBS gives a negative finding on the PYR test test 19 There are also latex agglutination kits which can distinguish each of the main groups seen in clinical practice Prevention editS pyogenes infections are best prevented through effective hand hygiene 20 No vaccines are currently available to protect against S pyogenes infection although research has been conducted into the development of one 21 Difficulties in developing a vaccine include the wide variety of strains of S pyogenes present in the environment and the large amount of time and number of people that will be needed for appropriate trials for safety and efficacy of the vaccine 21 22 Treatment editThe treatment of choice is penicillin and the duration of treatment is around 10 days 23 Antibiotic therapy using injected penicillin has been shown to reduce the risk of acute rheumatic fever 24 In individuals with a penicillin allergy erythromycin other macrolides and cephalosporins have been shown to be effective treatments 25 Treatment with ampicillin sulbactam amoxicillin clavulanic acid or clindamycin is appropriate if deep oropharyngeal abscesses are present in conjunction with aspiration or drainage 26 In cases of streptococcal toxic shock syndrome treatment consists of penicillin and clindamycin given with intravenous immunoglobulin 27 For toxic shock syndrome and necrotizing fasciitis high dose penicillin and clindamycin are used Additionally for necrotizing fasciitis surgery is often needed to remove damaged tissue and stop the spread of the infection 20 No instance of penicillin resistance has been reported to date although since 1985 many reports of penicillin tolerance have been made 28 The reason for the failure of penicillin to treat S pyogenes is most commonly patient noncompliance but in cases where patients have been compliant with their antibiotic regimen and treatment failure still occurs another course of antibiotic treatment with cephalosporins is common 25 The 30 valent N terminal M protein based vaccine as well as the M protein vaccine minimal epitope J8 vaccine are two vaccines for GAS that are currently getting close or becoming clinical studies however other vaccines using conserved epitopes are progressing 29 Epidemiology editCases of GAS are still present today but were also evident before World War I This was shown by a training camp located in Texas where a harmful strain of pneumonia complicating measles was caused by a strain of Streptococcus 30 Existence of streptococci strains was additionally found in World War II An epidemic of streptococcal infection in the United States Navy during this war indicated that this type of disease was able to exist and spread in formerly unexposed individuals by environments that serological types of group A streptococci preferred 30 In later years a positive test result for the presence of group A streptococci was found in 32 1 percent of individuals after throat cultures were carried out in a 20 yearlong 1953 1954 1973 1974 study performed in Nashville TN 30 Also from 1972 to 1974 recurring GAS illness was observed with a prevalence of 19 percent in school aged children as well as a prevalence rate of 25 percent in families 30 The severity of streptococcal infections has decreased over the years and so has rheumatic fever a sequelae of GAS which is indicated by the change in numerous hospitals from containing wards allocated for the sole purpose of treating rheumatic fever to hardly seeing the disease at all 30 Environmental factors such as less crowding and the increase of family living space can account for the reduction in incidence and severity of group A streptococci 30 With more space for individuals to reside in it provides the bacteria with less opportunities to spread from person to person This is especially important considering an estimated 500 000 deaths worldwide all occurring after acute rheumatic fever invasive infection or subsequent heart disease can be accredited to GAS 31 This number is quite large often leaving the health care system encumbered since 91 percent of patients infected with invasive GAS need to be hospitalized with 8950 11 500 episodes and 1050 1850 deaths taking place each year 31 A later study that occurred from 2005 to 2012 found that there were 10 649 13 434 cases consequently resulting in 1136 1607 deaths per year 29 Complications editPost streptococcal glomerulonephritis Pediatric autoimmune neuropsychiatric disorders associated with streptococcal infections PANDAS Rheumatic fever Scarlet fever Toxic shock syndrome Acute rheumatic fever edit Acute rheumatic fever ARF is a complication of respiratory infections caused by GAS The M protein generates antibodies that cross react with autoantigens on interstitial connective tissue in particular of the endocardium and synovium that can lead to significant clinical illness Although common in developing countries ARF is rare in the United States possibly secondary to improved antibiotic treatment with small isolated outbreaks reported only occasionally It is most common among children between 5 and 15 years old and occurs 1 3 weeks after an untreated GAS pharyngitis but caution is advised when interpreting the demographics of the contemporary picture of pediatric cases in the United States 32 ARF is often clinically diagnosed based on Jones Criteria which include pancarditis migratory polyarthritis of large joints subcutaneous nodules erythema marginatum and sydenham chorea involuntary purposeless movement The most common clinical finding is a migratory arthritis involving multiple joints 33 Other indicators of GAS infection such as a DNAase or ASO serology test must confirm the GAS infection Other minor Jones Criteria are fever elevated ESR and arthralgia One of the most serious complications is pancarditis or inflammation of all three heart tissues A fibrinous pericarditis can develop with a classic friction rub that can be auscultated This will give increasing pain upon reclining Further endocarditis can develop with aseptic vegetations along the valve closure lines in particular the mitral valve Chronic rheumatic heart disease mostly affects the mitral valve which can become thickened with calcification of the leaflets often causing fusion of the commissures and chordae tendineae Other findings of ARF include erythema marginatum usually over the spine or other bony areas and a red expanding rash on the trunk and extremities that recurs over weeks to months Because of the different ways ARF presents itself the disease may be difficult to diagnose A neurological disorder Sydenham chorea can occur months after an initial attack causing jerky involuntary movements muscle weakness slurred speech and personality changes Initial episodes of ARF as well as recurrences can be prevented by treatment with appropriate antibiotics It is important to distinguish ARF from rheumatic heart disease ARF is an acute inflammatory reaction with pathognomonic Aschoff bodies histologically and RHD is a non inflammatory sequela of ARF Post streptococcal glomerulonephritis edit Post streptococcal glomerulonephritis PSGN is an uncommon complication of either a strep throat or a streptococcal skin infection It is classified as a type III hypersensitivity reaction Symptoms of PSGN develop within 10 days following a strep throat or 3 weeks following a GAS skin infection PSGN involves inflammation of the kidney Symptoms include pale skin lethargy loss of appetite headache and dull back pain Clinical findings may include dark colored urine swelling of different parts of the body edema and high blood pressure Treatment of PSGN consists of supportive care PANDAS edit Obsessive compulsive disorder and tic disorders are hypothesized to arise in a subset of children as a result of a post streptococcal autoimmune process 34 35 36 Its potential effect was described in 1998 by the controversial hypothesis called PANDAS pediatric autoimmune neuropsychiatric disorders associated with streptococcal infections a condition thought to be triggered by GABHS infections 37 38 The PANDAS hypothesis is unconfirmed and unsupported by data and two new categories have been proposed PANS pediatric acute onset neuropsychiatric syndrome and CANS childhood acute neuropsychiatric syndrome 35 36 The CANS PANS hypotheses include different possible mechanisms underlying acute onset neuropsychiatric conditions but do not exclude GABHS infections as a cause in a subset of individuals 35 36 PANDAS PANS and CANS are the focus of clinical and laboratory research but remain unproven 34 35 36 References edit Stevens Dennis L Bryant Amy E Hagman Melissa M 2020 274 Nonpneumococcal streptococcal infections and rheumatic fever In Goldman Lee Schafer Andrew I eds Goldman Cecil Medicine Vol 2 26th ed Philadelphia Elsevier pp 1871 1878 ISBN 978 0 323 55087 1 a b Group A Streptococcal GAS Disease Centers for Disease Control and Prevention Archived from the original on December 19 2007 Retrieved November 21 2012 Zorzoli Azul Meyer Benjamin H Adair Elaine Torgov Vladimir I Veselovsky Vladimir V Danilov Leonid L Uhrin Dusan Dorfmueller Helge C 18 October 2019 Group A B C and G Streptococcus Lancefield antigen biosynthesis is initiated by a conserved a d GlcNAc b 1 4 l rhamnosyltransferase Journal of Biological Chemistry 294 42 15237 15256 doi 10 1074 jbc RA119 009894 PMC 6802508 PMID 31506299 Retrieved 24 December 2022 a b c Cohen Poradosu Ronit Kasper Dennis 2007 Group A Streptococcus Epidemiology and Vaccine Implications Clinical Infectious Diseases 45 7 863 5 doi 10 1086 521263 PMID 17806050 Carapetis JR Steer AC Mulholland EK Weber M November 2005 The global burden of group A streptococcal diseases The Lancet Infectious Diseases 5 11 685 94 doi 10 1016 S1473 3099 05 70267 X PMID 16253886 Group A Streptococcal GAS Disease Centers for Disease Control and Prevention U S Department of Health amp Human Services Retrieved 21 November 2012 Wierzbicki I H Campeau A Dehaini D Holay M Wei X Greene T Ying M Sands J S Lamsa A Zuniga E Pogliano K Fang R H Larock C N Zhang L Gonzalez D J 2019 Group A Streptococcal S Protein Utilizes Red Blood Cells as Immune Camouflage and Is a Critical Determinant for Immune Evasion Cell Reports 29 10 2979 2989 e15 doi 10 1016 j celrep 2019 11 001 PMC 6951797 PMID 31801066 a b c Streptococcal Infections Invasive Group A Srtep New York City Department of Health a Archived from the original on 6 November 2012 Retrieved 21 November 2012 Streptococcal Infections What is Group A Strepotococcus GAS Retrieved 21 November 2012 Streptococcal Infections Invasive Group A Strep New York City Department of Health and Mental Hygiene Archived from the original on November 6 2012 Retrieved November 21 2012 Zangarini L Martiny D Miendje Deyi VY Hites M Maillart E Hainaut M Delforge M Botteaux A Matheeussen V Goossens H Hallin M Smeesters P Dauby N 2023 Incidence and clinical and microbiological features of invasive and probable invasive streptococcal group A infections in children and adults in the Brussels Capital Region 2005 2020 Eur J Clin Microbiol Infect Dis 42 5 555 567 doi 10 1007 s10096 023 04568 y PMID 36881216 Jim Dwyer July 11 2012 An Infection Unnoticed Turns Unstoppable The New York Times Retrieved July 12 2012 Jim Dwyer July 18 2012 After Boy s Death Hospital Alters Discharging Procedures The New York Times Retrieved July 19 2012 Gamba MA Martinelli M Schaad HJ Streuli RA DiPersio J Matter L et al 1997 Familial transmission of a serious disease producing group A streptococcus clone case reports and review Clin Infect Dis 24 6 1118 21 doi 10 1086 513636 PMID 9195067 a b c Health Protection Agency Group A Streptococcus Working Group 2004 Interim UK guidelines for management of close community contacts of invasive group A streptococcal disease PDF Commun Dis Public Health 7 4 354 61 PMID 15786581 Archived from the original PDF on 2008 06 25 Retrieved 2008 05 09 Guidelines for management of contacts of cases of invasive group A streptococcal disease GAS including streptococcal toxic shock syndrome STSS and necrotising fasciitis Toronto Ontario Ministry of Health 1995 Available at 1 Disease Listing Group a Streptococcal General Info CDC Bacterial Mycotic Diseases Archived from the original on 2007 12 19 Retrieved 2007 12 11 Howard SJ Stoker K Foster K 16 June 2015 Public health management of group A streptococcal infection in mother baby pairs in England a case series review Antimicrobial Resistance and Infection Control 4 Suppl 1 P107 doi 10 1186 2047 2994 4 S1 P107 PMC 4474978 Pyrrolidonyl Arylamidase PYR Test Principle procedure and results microbeonline 12 November 2013 a b Group A Strep CDC gov CDC Retrieved 7 December 2014 a b Good MF Batzloff MR Pandey M November 2013 Strategies in the development of vaccines to prevent infections with group A streptococcus Human Vaccines amp Immunotherapeutics 9 11 2393 7 doi 10 4161 hv 25506 PMC 3981849 PMID 23863455 Initiative for Vaccine Research IVR Group A Streptococcus World Health Organization Archived from the original on March 22 2006 Retrieved 15 June 2012 Falagas ME Vouloumanou EK Matthaiou DK Kapaskelis AM Karageorgopoulos DE 2008 Effectiveness and safety of short course vs long course antibiotic therapy for group a beta hemolytic streptococcal tonsillopharyngitis a meta analysis of randomized trials Mayo Clin Proc 83 8 880 9 doi 10 4065 83 8 880 PMID 18674472 HOUSER HB WANNAMAKER LW RAMMELKAMP CH DENNY FW BRINK WR HAHN EO DINGLE JH 1950 Prophylaxis of acute rheumatic fever by treatment of the preceding streptococcal infection with various amounts of penicillin J Lab Clin Med 36 5 839 PMID 14784714 a b Khan Zartash Group A Streptococcal Infections Treatment amp Management Medscape Retrieved 7 December 2014 Allewelt M Schuler P Bolcskei P L Mauch H Lode H Study Group on Aspiration Pneumonia February 2004 Ampicillin sulbactam vs clindamycin cephalosporin for the treatment of aspiration pneumonia and primary lung abscess Clinical Microbiology and Infection 10 2 163 170 doi 10 1111 j 1469 0691 2004 00774 x ISSN 1198 743X PMID 14759242 Parks Tom Wilson Clare Curtis Nigel Norrby Teglund Anna Sriskandan Shiranee 2018 11 01 Polyspecific Intravenous Immunoglobulin in Clindamycin treated Patients With Streptococcal Toxic Shock Syndrome A Systematic Review and Meta analysis Clinical Infectious Diseases 67 9 1434 1436 doi 10 1093 cid ciy401 ISSN 1058 4838 PMC 6186853 PMID 29788397 Kim KS Kaplan EL 1985 Association of penicillin tolerance with failure to eradicate group A streptococci from patients with pharyngitis J Pediatr 107 5 681 4 doi 10 1016 S0022 3476 85 80392 9 PMID 3903089 a b Nelson George E Pondo Tracy Toews Karrie Ann Farley Monica M Lindegren Mary Lou Lynfield Ruth Aragon Deborah Zansky Shelley M Watt James P Cieslak Paul R Angeles Kathy 2016 08 15 Epidemiology of Invasive Group A Streptococcal Infections in the United States 2005 2012 Clinical Infectious Diseases 63 4 478 486 doi 10 1093 cid ciw248 ISSN 1058 4838 PMC 5776658 PMID 27105747 a b c d e f Quinn Robert W 1982 Streptococcal Infections Bacterial Infections of Humans Springer US pp 525 552 doi 10 1007 978 1 4757 1140 0 29 ISBN 9781475711424 a b O Loughlin R E Roberson A Cieslak P R Lynfield R Gershman K Craig A Albanese B A Farley M M Barrett N L Spina N L Beall B 2007 10 01 The Epidemiology of Invasive Group A Streptococcal Infection and Potential Vaccine Implications United States 2000 2004 Clinical Infectious Diseases 45 7 853 862 doi 10 1086 521264 ISSN 1058 4838 PMID 17806049 de Loizaga SR Arthur L Arya B Beckman B Belay W Brokamp C Hyun Choi N Connolly S Dasgupta S Dibert T Dryer MM Gokanapudy Hahn LR Greene EA Kernizan D Khalid O Klein J Kobayashi R Lahiri S Lorenzoni RP Otero Luna A Marshall J Millette T Moore L Muhamed B Murali M Parikh K Sanyahumbi A Shakti D Stein E Shah S Wilkins H Windom M Wirth S Zimmerman M Beck AF Ollberding N Sable C Beaton A August 2021 Rheumatic Heart Disease in the United States Forgotten But Not Gone Results of a 10 Year Multicenter Review J Am Heart Assoc 10 16 e020992 doi 10 1161 JAHA 120 020992 PMC 8475057 PMID 34348475 Sika Paotonu D Beaton A Raghu A Steer A Carapetis J 2016 Acute Rheumatic Fever and Rheumatic Heart Disease Streptococcus pyogenes Basic Biology to Clinical Manifestations Oklahoma City University of Oklahoma Health Sciences Center PMID 28379675 a b Dale RC December 2017 Tics and Tourette a clinical pathophysiological and etiological review Curr Opin Pediatr Review 29 6 665 673 doi 10 1097 MOP 0000000000000546 PMID 28915150 S2CID 13654194 a b c d Marazziti D Mucci F Fontenelle LF July 2018 Immune system and obsessive compulsive disorder Psychoneuroendocrinology Review 93 39 44 doi 10 1016 j psyneuen 2018 04 013 PMID 29689421 S2CID 13681480 a b c d Zibordi F Zorzi G Carecchio M Nardocci N March 2018 CANS Childhood acute neuropsychiatric syndromes Eur J Paediatr Neurol Review 22 2 316 320 doi 10 1016 j ejpn 2018 01 011 PMID 29398245 Wilbur C Bitnun A Kronenberg S Laxer RM Levy DM Logan WJ Shouldice M Yeh EA May 2019 PANDAS PANS in childhood Controversies and evidence Paediatr Child Health 24 2 85 91 doi 10 1093 pch pxy145 PMC 6462125 PMID 30996598 Sigra S Hesselmark E Bejerot S March 2018 Treatment of PANDAS and PANS a systematic review Neurosci Biobehav Rev 86 51 65 doi 10 1016 j neubiorev 2018 01 001 PMID 29309797 S2CID 40827012 Note Elements of the original text of this article are taken from the NIH Fact Sheet Group A Streptococcal Infections dated March 1999 As a work of the U S Federal Government without any other copyright notice this is assumed to be a public domain resource Further reading editFerretti Joseph J Stevens Dennis L Fischetti Vincent A 2016 Streptococcus pyogenes Basic Biology to Clinical Manifestations Internet Oklahoma City OK University of Oklahoma Health Sciences Center PMID 26866208 External links editGroup A streptococcal infection at National Institutes of Health Group A streptococcal infections Frequently Asked Questions at UK Health Protection Agency Retrieved from https en wikipedia org w index php title Group A streptococcal infection amp oldid 1218779337, wikipedia, wiki, book, books, library,

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