Guidelines Summary

British Society for Haematology Guidelines for the Laboratory Diagnosis of Malaria

CDC Malaria Treatment Guidelines

WHO Malaria Treatment Guidelines

Medication

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Media Gallery

Malarial merozoites in the peripheral blood. Note that several of the merozoites have penetrated the erythrocyte membrane and entered the cell.
This micrograph illustrates the trophozoite form, or immature-ring form, of the malarial parasite within peripheral erythrocytes. Red blood cells infected with trophozoites do not produce sequestrins and, therefore, are able to pass through the spleen.
An erythrocyte filled with merozoites, which soon will rupture the cell and attempt to infect other red blood cells. Notice the darkened central portion of the cell; this is hemozoin, or malaria pigment, which is a paracrystalline precipitate formed when heme polymerase reacts with the potentially toxic heme stored within the erythrocyte. When treated with chloroquine, the enzyme heme polymerase is inhibited, leading to the heme-induced demise of non–chloroquine-resistant merozoites.
A mature schizont within an erythrocyte. These red blood cells (RBCs) are sequestered in the spleen when malaria proteins, called sequestrins, on the RBC surface bind to endothelial cells within that organ. Sequestrins are only on the surfaces of erythrocytes that contain the schizont form of the parasite.
Malaria life cycle. Courtesy of the Centers for Disease Control and Prevention (CDC) [https://www.cdc.gov/dpdx/malaria/index.html].
Proportion of 2021 Global Malaria Burden. Gray area accounts for the remaining estimated 4.4% of worldwide malaria burden. Map created using data adapted from WHO 2022 World Malaria Report [https://www.who.int/teams/global-malaria-programme/reports/world-malaria-report-2022].
Confirmed P falciparum or P vivax Cases Per Country 2021. The map accounts for the total of the cases per country where either species were confirmed as the primary infection. The map does not include confirmed “mixed infections.” Gray indicates that there were either no data available or there were zero endemic cases. Map created using data adapted from WHO 2022 World Malaria Report [https://www.who.int/teams/global-malaria-programme/reports/world-malaria-report-2022].
North American Presumed and Confirmed Malaria Cases 2021. Gray indicates that there were either no data available or there were zero endemic cases. Map created using data adapted from WHO 2022 World Malaria Report [https://www.who.int/teams/global-malaria-programme/reports/world-malaria-report-2022].
South American Presumed and Confirmed Malaria Cases 2021. Gray indicates that there were either no data available or there were zero endemic cases. Map created using data adapted from WHO 2022 World Malaria Report [https://www.who.int/teams/global-malaria-programme/reports/world-malaria-report-2022].
African Presumed and Confirmed Malaria Cases 2021. Gray indicates that there were either no data available or there were zero endemic cases. Map created using data adapted from WHO 2022 World Malaria Report [https://www.who.int/teams/global-malaria-programme/reports/world-malaria-report-2022].
Asian and Oceanic Presumed and Confirmed Malaria Cases 2021. Gray indicates that there were either no data available or there were zero endemic cases. Map created using data adapted from WHO 2022 World Malaria Report [https://www.who.int/teams/global-malaria-programme/reports/world-malaria-report-2022].
South Pacific Presumed and Confirmed Malaria Cases 2021. Gray indicates that there were either no data available or there were zero endemic cases. Map created using data adapted from WHO 2022 World Malaria Report [https://www.who.int/teams/global-malaria-programme/reports/world-malaria-report-2022].
Global P falciparum to P vivax Case Ratios 2021. Gray indicates that there were either no data available or there were zero endemic cases. Red indicates higher proportion of P vivax cases, whereas blue indicates higher proportion of P falciparum cases. Map created using data adapted from WHO 2022 World Malaria Report [https://www.who.int/teams/global-malaria-programme/reports/world-malaria-report-2022].
Thin blood smear showing the ring forms of P falciparum that look like headphones with double chromatin dots. Note how P falciparum is seen infecting erythrocytes of all ages – a trait that can be utilized by the microscopist by noting the similar size of infected erythrocytes to other surrounding uninfected erythrocytes. Courtesy of the Centers for Disease Control and Prevention (CDC) [https://www.cdc.gov/dpdx/malaria/index.html].
Thick blood smear depicting the banana shaped gametocyte of P falciparum. Multiple ring-form trophozoite precursors are also visible in the background. Courtesy of the Centers for Disease Control and Prevention (CDC) [https://www.cdc.gov/dpdx/malaria/index.html].
Thin blood smear of the ring forms of P vivax. Note that P vivax typically has a single chromatin dot vs the two chromatin dots in P falciparum. Courtesy of the Centers for Disease Control and Prevention (CDC) [https://www.cdc.gov/dpdx/malaria/index.html].
The diagnostic form of P vivax is the amoeboid trophozoite form where the cytoplasm has finger-like projections (pseudopods) without a typical round/oval structure. These pseudopods are unique to P vivax. Numerous small pink-red dots are also seen in both P vivax and P ovale; these are known as caveola-vesicle complexes (CVCs or Schüffner’s dots) and are composed of numerous flask-like indentations on infected reticulocytes membrane skeleton associated with tube-like vesicles. CVCs are thought to play a role in nutrient uptake or release of metabolites from parasite-infected erythrocytes. Courtesy of the Centers for Disease Control and Prevention (CDC) [https://www.cdc.gov/dpdx/malaria/index.html].
Thin smear of P ovale in ring stage. Note that typically there is a single chromatin dot, larger cells are infected indicative of reticulocytes, and multiple ring forms may be present intracellularly. Courtesy of the Centers for Disease Control and Prevention (CDC) [https://www.cdc.gov/dpdx/malaria/index.html].
Thin smear of P ovale trophozoite. Note that this species is difficult to differentiate from P vivax as it contains CVCs (Schüffner’s dots) and infects reticulocytes; a notable unique characteristic of P ovale is the presence of fimbriae on the reticulocyte membrane, which are even more likely to be seen in gametocyte infected red blood cells. Courtesy of the Centers for Disease Control and Prevention (CDC) [https://www.cdc.gov/dpdx/malaria/index.html].
Thin blood smear of “band form” trophozoite of P malariae. Note that the infected erythrocyte is smaller than surrounding cells, indicating that P malariae infects older erythrocytes. As the trophozoite matures, the cytoplasm elongates and dark pigment granules of hemozoin are visualized toward the periphery. Courtesy of the Centers for Disease Control and Prevention (CDC) [https://www.cdc.gov/dpdx/malaria/index.html].
Thin blood smear of P knowlesi trophozoites. An immature ring form is seen on the right next to the mature band form trophozoite on the left. Note the small size of the infected red blood cells and how the band form is similar in appearance to P malariae. Courtesy of the Centers for Disease Control and Prevention (CDC) [https://www.cdc.gov/dpdx/malaria/index.html].

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Author

William N Bennett, V, MD Staff Physician, Infectious Disease Service, Chair, Antimicrobial Stewardship, Department of Medicine, Wright-Patterson Medical Center; Assistant Professor of Medicine, Uniformed Services University of the Health Sciences School of Medicine

William N Bennett, V, MD is a member of the following medical societies: American College of Physicians, American Medical Association, Infectious Diseases Society of America

Disclosure: Nothing to disclose.

Specialty Editor Board

Francisco Talavera, PharmD, PhD Adjunct Assistant Professor, University of Nebraska Medical Center College of Pharmacy; Editor-in-Chief, Medscape Drug Reference

Disclosure: Received salary from Medscape for employment. for: Medscape.

Chief Editor

Michael Stuart Bronze, MD David Ross Boyd Professor and Chairman, Department of Medicine, Stewart G Wolf Endowed Chair in Internal Medicine, Department of Medicine, University of Oklahoma Health Science Center; Master of the American College of Physicians; Fellow, Infectious Diseases Society of America; Fellow of the Royal College of Physicians, London

Michael Stuart Bronze, MD is a member of the following medical societies: Alpha Omega Alpha, American College of Physicians, American Medical Association, Association of Professors of Medicine, Infectious Diseases Society of America, Oklahoma State Medical Association, Southern Society for Clinical Investigation

Disclosure: Nothing to disclose.

Additional Contributors

Thomas E Herchline, MD Professor of Medicine, Wright State University, Boonshoft School of Medicine; Medical Consultant, Public Health, Dayton and Montgomery County (Ohio) Tuberculosis Clinic

Thomas E Herchline, MD is a member of the following medical societies: Alpha Omega Alpha, Infectious Diseases Society of America, Infectious Diseases Society of Ohio

Disclosure: Received research grant from: Regeneron.

Joseph R Masci, MD, FACP, FCCP Professor of Medicine, Professor of Preventive Medicine, Icahn School of Medicine at Mount Sinai; Director of Medicine, Elmhurst Hospital Center

Joseph R Masci, MD, FACP, FCCP is a member of the following medical societies: American Academy of HIV Medicine, American Association for the Advancement of Science, American College of Chest Physicians, American College of Physicians, American Medical Association, American Society for Microbiology, American Society of Tropical Medicine and Hygiene, Association of Professors of Medicine, Association of Program Directors in Internal Medicine, Association of Specialty Professors, Federation of American Scientists, HIV Medicine Association, Infectious Diseases Society of America, International AIDS Society, International Association of Providers of AIDS Care, International Society for Infectious Diseases, New York Academy of Medicine, New York Academy of Sciences, Physicians for Human Rights, Physicians for Social Responsibility, Royal Society of Medicine

Disclosure: Nothing to disclose.

Emilio V Perez-Jorge, MD, FACP Staff Physician, Division of Infectious Diseases, Lexington Medical Center

Emilio V Perez-Jorge, MD, FACP is a member of the following medical societies: American College of Physicians-American Society of Internal Medicine, Infectious Diseases Society of America, Society for Healthcare Epidemiology of America, South Carolina Infectious Diseases Society

Disclosure: Nothing to disclose.

Ryan Q Simon, MD Infectious Disease Specialist, Wright State Physicians, Wright State University School of Medicine

Disclosure: Nothing to disclose.

Acknowledgements

The views expressed are those of the author and do not necessarily reflect the official policy or position of the Department of the Air Force, the Defense Health Agency, the Department of Defense, or the U.S. Government.

Findings	P falciparum	P vivax	P ovale	P malariae
Only early forms present in peripheral blood	Yes	No	No	No
Poly-infected RBCs	Often	Occasionally	Rare	Rare
Age of infected RBCs	RBCs of all ages	Young RBCs	Young RBCs	Old RBCs
Schüffner dots	No	Yes	Yes	No
Other features	Cells have thin cytoplasm, 1 or 2 chromatin dots, and applique forms.	Late trophozoites develop pleomorphic cytoplasm.	Infected RBCs become oval, with tufted edges.	Bandlike trophozoites are distinctive.

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