Monkey Diseases
Macaca mulatta
Haplorhini
Saimiri
Macaca
Cebus
Cebidae
Aotus trivirgatus
Macaca radiata
Cercopithecus
Cercopithecidae
Macaca nemestrina
Aotidae
Callithrix
Erythrocebus patas
T-cell lymphoma in a savanna monkey (Cercopithecus aethiops) probably related to simian T-cell leukemia virus infection. (1/681)
Lymphoma was seen in an 11-year-old female savanna monkey (Ceropithecus aethiops). The superficial inguinal and visceral lymph nodes were markedly enlarged, and their architecture was completely effaced by neoplastic cells. The neoplastic cells, which were highly pleomorphic, resembled those in adult T-cell lymphoma-leukemia in humans. Ultrastructurally the neoplastic cells were characterized by nuclear irregularity and clustered dense bodies, and almost all cells showed positivity for CD3. The animal had been reared with her family, and her mother and 2 brothers had antibodies reactive to human T-cell leukemia virus. This virus serologically cross-reacts with simian T-cell leukemia virus, which may be the causative agent of the present neoplasm. (+info)Serologic evidence for an epizootic dengue virus infecting toque macaques (Macaca sinica) at Polonnaruwa, Sri Lanka. (2/681)
Dengue is one of the most rapidly emerging diseases in the tropics. Humans are the principal reservoir of dengue viruses. It is unclear if nonhuman primates also serve as a reservoir of human dengue viruses under certain conditions. In this study, a cross-sectional serologic survey was carried out to characterize the pattern of transmission of a recently identified dengue virus among toque macaques in Sri Lanka. The results indicated that an epizootic dengue virus was active among the macaques. A single epizootic had taken place between October 1986 and February 1987 during which 94% of the macaques within the 3 km2 study site were exposed to the virus. The epizootic was highly focal in nature because macaques living 5 km from the study population were not exposed to the virus. The transmission of dengue viruses among macaques in the wild may have important public health implications. (+info)Detection of enzootic babesiosis in baboons (Papio cynocephalus) and phylogenetic evidence supporting synonymy of the genera Entopolypoides and Babesia. (3/681)
Blood smear evaluation of two baboons (Papio cynocephalus) experiencing acute hemolytic crises following experimental stem cell transplantation revealed numerous intraerythrocytic organisms typical of the genus Babesia. Both animals had received whole-blood transfusions from two baboon donors, one of which was subsequently found to display rare trophozoites of Entopolypoides macaci. An investigation was then undertaken to determine the prevalence of hematozoa in baboons held in our primate colony and to determine the relationship, if any, between the involved species. Analysis of thick and thin blood films from 65 healthy baboons (23 originating from our breeding facility, 26 originating from an out-of-state breeding facility, and 16 imported from Africa) for hematozoa revealed rare E. macaci parasites in 31%, with respective prevalences of 39, 35, and 12%. Phylogenetic analysis of nuclear small-subunit rRNA gene sequences amplified from peripheral blood of a baboon chronically infected with E. macaci demonstrated this parasite to be most closely related to Babesia microti (97.9% sequence similarity); sera from infected animals did not react in indirect fluorescent-antibody tests with Babesia microti antigen, however, suggesting that they represent different species. These results support an emerging view that the genus Entopolypoides Mayer 1933 is synonymous with that of the genus Babesia Starcovici 1893 and that the morphological variation noted among intracellular forms is a function of alteration in host immune status. The presence of an underrecognized, but highly enzootic, Babesia sp. in baboons may result in substantial, unanticipated impact on research programs. The similarity of this parasite to the known human pathogen B. microti may also pose risks to humans undergoing xenotransplantation, mandating effective screening of donor animals. (+info)Genomic evolution, patterns of global dissemination, and interspecies transmission of human and simian T-cell leukemia/lymphotropic viruses. (4/681)
Using both env and long terminal repeat (LTR) sequences, with maximal representation of genetic diversity within primate strains, we revise and expand the unique evolutionary history of human and simian T-cell leukemia/lymphotropic viruses (HTLV/STLV). Based on the robust application of three different phylogenetic algorithms of minimum evolution-neighbor joining, maximum parsimony, and maximum likelihood, we address overall levels of genetic diversity, specific rates of mutation within and between different regions of the viral genome, relatedness among viral strains from geographically diverse regions, and estimation of the pattern of divergence of the virus into extant lineages. Despite broad genomic similarities, type I and type II viruses do not share concordant evolutionary histories. HTLV-I/STLV-I are united through distinct phylogeographic patterns, infection of 20 primate species, multiple episodes of interspecies transmission, and exhibition of a range in levels of genetic divergence. In contrast, type II viruses are isolated from only two species (Homo sapiens and Pan paniscus) and are paradoxically endemic to both Amerindian tribes of the New World and human Pygmy villagers in Africa. Furthermore, HTLV-II is spreading rapidly through new host populations of intravenous drug users. Despite such clearly disparate host populations, the resultant HTLV-II/STLV-II phylogeny exhibits little phylogeographic concordance and indicates low levels of transcontinental genetic differentiation. Together, these patterns generate a model of HTLV/STLV emergence marked by an ancient ancestry, differential rates of divergence, and continued global expansion. (+info)Rhesus rhadinovirus establishes a latent infection in B lymphocytes in vivo. (5/681)
Recent DNA sequence analysis indicates that rhesus rhadinovirus (RRV) is a member of the lymphotropic gamma-2 herpesvirus family. To determine if RRV is lymphotropic, peripheral blood mononuclear cells from naturally infected monkeys were separated by immunomagnetic bead depletion and analyzed for the presence of RRV by virus isolation and nested PCR. The recovery and consistent detection of RRV in the CD20(+)-enriched fraction clearly demonstrates that B lymphocytes are a major site of virus persistence. (+info)Molecular cloning and cell-specific growth characterization of polymorphic variants of type D serogroup 2 simian retroviruses. (6/681)
Simian retroviruses (SRVs), the etiological agent of a spontaneous Simian acquired immunodeficiency syndrome, endemically infects large percentages of Asian macaques housed in biomedical research colonies and severely compromises the effective use of these species as a viable research animal. We recently described the molecular cloning of a serogroup 2 SRV, D2/RHE/OR, which causes mild immunosuppression in rhesus macaques. A restriction site variant, D2/RHE/OR/V1, has also been recovered from severely ill animals endemically infected with D2/RHE/OR. We now report the complete nucleotide sequences of D2/RHE/OR and D2/RHE/OR/V1. Both infectious molecular clones retain the genetic structure typical of type D SRVs (5' LTR-gag-prt-pol-env-3'LTR) and encode identically sized 8105-bp proviruses. D2/RHE/OR and D2/RHE/OR/V1 are 99.3% similar at the amino acid level, exhibiting only 17 residue differences, of which 10 are located in the envelope glycoproteins. The molecular clones and reciprocal chimeric viruses were used to assess the contribution of different genetic domains to virus infectivity in a T cell infection assay. These experiments indicate that D2/RHE/OR has a reduced ability to infect specific T cell lines, especially Hut-78 and MT-4 cells, and that the envelope gene is not the sole determinant of in vitro tropism. (+info)The incidence of japanese cedar pollinosis and sensitization to the pollen allergens among Japanese monkeys in a troop. (7/681)
The natural occurrence of Japanese cedar (Cryptomeria japonica; CJ) pollinosis has been reported in Japanese monkeys (Macaca fuscata), an appropriate animal model for developing antipollinosis therapies. However, there has been no study on the incidence of Japanese cedar pollinosis in monkeys. To evaluate the incidence of CJ pollinosis in Japanese monkeys, we investigated the presence of pollinosis symptoms among monkeys in a troop, and the response to CJ allergens in pollinosis monkeys. We examined the presence of pollinosis symptoms in 272 monkeys in a troop throughout the CJ pollination season (February to April). Of the 272 monkeys, 21 (7.7%) showed pollinosis symptoms during the CJ pollen season. Blood samples were taken from the 21 monkeys that showed pollinosis symptoms and were tested for the presence of immunoglobulin E (IgE) antibody for CJ allergens. All 21 monkeys with CJ pollinosis had anti-CJ IgE. Of the 21 monkeys, peripheral blood mononuclear cells (PBMC) could be taken from 12, all of which showed CJ allergen-specific PBMC proliferation. The incidence of CJ pollinosis in a troop was 7.7%. The monkeys with CJ pollinosis demonstrated specific IgE and PBMC proliferation for CJ allergens. (+info)The incidence of Japanese cedar pollinosis and sensitization to the pollen allergens among Japanese monkeys in a troop. (8/681)
The natural occurrence of Japanese cedar (Cryptomeria japonica; CJ) pollinosis has been reported in Japanese monkeys (Macaca fuscata), an appropriate animal model for developing antipollinosis therapies. However, there has been no study on the incidence of Japanese cedar pollinosis in monkeys. To evaluate the incidence of CJ pollinosis in Japanese monkeys, we investigated the presence of pollinosis symptoms among monkeys in a troop, and the response to CJ allergens in pollinosis monkeys. We examined the presence of pollinosis symptoms in 272 monkeys in a troop throughout the CJ pollination season (February to April). Of the 272 monkeys, 21 (7.7%) showed pollinosis symptoms during the CJ pollen season. Blood samples were taken from the 21 monkeys that showed pollinosis symptoms and were tested for the presence of immunoglobulin E (IgE) antibody for CJ allergens. All 21 monkeys with CJ pollinosis had anti-CJ IgE. Of the 21 monkeys, peripheral blood mononuclear cells (PBMC) could be taken from 12, all of which showed CJ allergen-specific PBMC proliferation. The incidence of CJ pollinosis in a troop was 7.7%. The monkeys with CJ pollinosis demonstrated specific IgE and PBMC proliferation for CJ allergens. (+info)There is no single medical definition for "Monkey Diseases." However, monkeys can carry and be infected with various diseases that are zoonotic, meaning they can be transmitted from animals to humans. Some examples include:
1. Simian Immunodeficiency Virus (SIV): A virus similar to Human Immunodeficiency Virus (HIV) that causes AIDS in monkeys. It is not typically harmful to monkeys but can cause AIDS in humans if transmitted, which is rare.
2. Herpes B Virus: Also known as Macacine herpesvirus 1 or Cercopithecine herpesvirus 1, it is a virus that commonly infects macaque monkeys. It can be transmitted to humans through direct contact with an infected monkey's saliva, eye fluid, or cerebrospinal fluid, causing a severe and potentially fatal illness called B encephalitis.
3. Tuberculosis (TB): Monkeys can contract and transmit tuberculosis to humans, although it is not common.
4. Simian Retrovirus (SRV): A virus that can infect both monkeys and great apes, causing immunodeficiency similar to HIV/AIDS in humans. It is not known to infect or cause disease in humans.
5. Various parasitic diseases: Monkeys can carry and transmit several parasites, including malaria-causing Plasmodium species, intestinal worms, and other parasites that can affect human health.
It's important to note that while monkeys can carry and transmit these diseases, the risk of transmission is generally low, and most cases occur in individuals who have close contact with monkeys, such as primatologists, zookeepers, or laboratory workers. Always follow safety guidelines when interacting with animals, including monkeys, to minimize the risk of disease transmission.
"Macaca mulatta" is the scientific name for the Rhesus macaque, a species of monkey that is native to South, Central, and Southeast Asia. They are often used in biomedical research due to their genetic similarity to humans.
Haplorhini is a term used in the field of primatology and physical anthropology to refer to a parvorder of simian primates, which includes humans, apes (both great and small), and Old World monkeys. The name "Haplorhini" comes from the Greek words "haploos," meaning single or simple, and "rhinos," meaning nose.
The defining characteristic of Haplorhini is the presence of a simple, dry nose, as opposed to the wet, fleshy noses found in other primates, such as New World monkeys and strepsirrhines (which include lemurs and lorises). The nostrils of haplorhines are located close together at the tip of the snout, and they lack the rhinarium or "wet nose" that is present in other primates.
Haplorhini is further divided into two infraorders: Simiiformes (which includes apes and Old World monkeys) and Tarsioidea (which includes tarsiers). These groups are distinguished by various anatomical and behavioral differences, such as the presence or absence of a tail, the structure of the hand and foot, and the degree of sociality.
Overall, Haplorhini is a group of primates that share a number of distinctive features related to their sensory systems, locomotion, and social behavior. Understanding the evolutionary history and diversity of this group is an important area of research in anthropology, biology, and psychology.
"Saimiri" is the genus name for the group of primates known as squirrel monkeys. These small, agile New World monkeys are native to Central and South America and are characterized by their slim bodies, long limbs, and distinctive hairless faces with large eyes. They are omnivorous and known for their active, quick-moving behavior in the trees. There are several species of squirrel monkey, including the Central American squirrel monkey (Saimiri oerstedii) and the much more widespread common squirrel monkey (Saimiri sciureus).
I'm sorry for any confusion, but "Macaca" is not a medical term. It is the name of a genus that includes several species of monkeys, commonly known as macaques. These primates are often used in biomedical research due to their similarities with humans in terms of genetics and physiology. If you have any questions related to medicine or health, I would be happy to try to help answer them.
"Cebus" is a genus of New World monkeys, also known as capuchin monkeys. They are small to medium-sized primates that are native to Central and South America. Capuchin monkeys are named after the Order of Friars Minor Capuchin, because of their similarity in color to the robes worn by the friars.
Capuchin monkeys are highly intelligent and social animals, living in groups of up to 30 individuals. They have a diverse diet that includes fruits, nuts, seeds, insects, and small vertebrates. Capuchin monkeys are known for their problem-solving abilities and have been observed using tools in the wild.
There are several species of capuchin monkeys, including the white-fronted capuchin (Cebus albifrons), the tufted capuchin (Cebus apella), and the weeper capuchin (Cebus olivaceus). They vary in size, coloration, and behavior, but all share the characteristic cap of hair on their heads that gives them their name.
Cebidae is a family of primates that includes monkeys and capuchins found in the tropical rainforests and woodlands of Central and South America. This family is divided into two subfamilies: Cebinae (capuchin monkeys) and Saimiriinae (squirrel monkeys). These animals are known for their adaptability, complex social structures, and diverse behaviors. They have a varied diet that includes fruits, nuts, seeds, insects, and small vertebrates. Some notable members of this family include the white-faced capuchin, the black-capped squirrel monkey, and the golden lion tamarin.
'Aotus trivirgatus' is a species of New World monkey, also known as the owl monkey or the white-bellied night monkey. It is native to South America, particularly in countries like Colombia, Ecuador, Peru, and Brazil. This nocturnal primate is notable for being one of the few monogamous species of monkeys, and it has a diet that mainly consists of fruits, flowers, and insects.
The medical community may study 'Aotus trivirgatus' due to its use as a model organism in biomedical research. Its genetic similarity to humans makes it a valuable subject for studies on various diseases and biological processes, including infectious diseases, reproductive biology, and aging. However, the use of this species in research has been controversial due to ethical concerns regarding animal welfare.
"Macaca radiata" is a species of monkey that is native to India. It is often referred to as the "bonnet macaque" due to the distinctive cap of hair on its head. This species is widely studied in the field of primatology and has been an important model organism in biomedical research, particularly in the areas of neuroscience and infectious disease. However, I couldn't find a specific medical definition for "Macaca radiata".
"Cercopithecus" is a genus of Old World monkeys that are commonly known as guenons. These monkeys are native to Africa and are characterized by their colorful fur, long tails, and distinctive facial features. They are agile animals that live in a variety of habitats, including forests, savannas, and mountains.
The term "Cercopithecus" is derived from the Greek words "kerkos," meaning tail, and "pithekos," meaning ape or monkey. This name reflects the long tails that are characteristic of these monkeys.
There are several species of guenons within the genus "Cercopithecus," including the vervet monkey, the grivet, the tantalus monkey, and the de Brazza's monkey, among others. These monkeys are important members of their ecosystems and play a key role in seed dispersal and forest regeneration. They are also popular subjects of research due to their complex social structures and behaviors.
Cercopithecidae is a family of Old World primates, which includes monkeys such as baboons, macaques, and langurs. These primates are characterized by their adaptations for arboreal or terrestrial living, and they have complex social structures. The family Cercopithecidae is divided into two subfamilies: Cercopithecinae (guenons, macaques, and langurs) and Colobinae (leaf monkeys and colobus monkeys). These primates are found in Africa and Asia, and they play important ecological roles in their environments.
"Macaca nemestrina," also known as the pig-tailed macaque, is not a medical term but a species name in biology. It refers to a specific species of monkey that is native to Southeast Asia. The pig-tailed macaque is a medium-sized monkey with a reddish-brown fur and a distinctive tail that resembles a pig's tail. They are omnivorous and live in social groups that can range from a few individuals to several hundred.
While "Macaca nemestrina" may not have a direct medical definition, these monkeys have been used as models in biomedical research due to their close genetic relationship with humans. Some studies involving pig-tailed macaques have contributed to our understanding of various human diseases and conditions, such as infectious diseases, neurological disorders, and reproductive health. However, it is important to note that the use of animals in research remains a controversial topic, and ethical considerations must be taken into account when conducting such studies.
Aotidae is a family of nocturnal primates also known as lorises or slow lorises. They are native to Southeast Asia and are characterized by their small size, round head, large eyes, and a wet-nosed face. Slow lorises have a toxic bite, which they use to defend themselves against predators. They are currently listed as vulnerable or endangered due to habitat loss and hunting.
Callithrix is a genus of New World monkeys, also known as marmosets. They are small, active primates found in the forests of South and Central America. The term "Callithrix" itself is derived from the Greek words "kallis" meaning beautiful and "thrix" meaning hair, referring to their thick, vibrantly colored fur.
Marmosets in the genus Callithrix are characterized by their slender bodies, long, bushy tails, and specialized dental structures that allow them to gouge tree bark to extract sap and exudates, which form a significant part of their diet. They also consume fruits, insects, and small vertebrates.
Some well-known species in this genus include the common marmoset (Callithrix jacchus), the white-headed marmoset (Callithrix geoffroyi), and the buffy-tufted-ear marmoset (Callithrix aurita). Marmosets are popular subjects of research due to their small size, short gestation period, and ease of breeding in captivity.
'Erythrocebus patas' is a scientific name for the Patas monkey, also known as the hussar monkey or red monkey. It belongs to the family Cercopithecidae and is native to the savannas and woodlands of central Africa. The Patas monkey is known for its long legs, slender body, and reddish-brown fur. It is the fastest primate, capable of reaching speeds up to 34 miles per hour (55 kilometers per hour).
The medical community may not have a specific definition related to 'Erythrocebus patas' as it is primarily studied by zoologists and biologists. However, understanding the characteristics and habits of this species can contribute to broader scientific knowledge and potentially inform research in fields such as comparative medicine or evolutionary biology.
Platyrrhini is a biological term that refers to a New World monkey group, primarily characterized by their wide, flattened noses. The name "Platyrrhini" comes from the Greek words "platys," meaning flat or broad, and "rhinos," meaning nose.
This paraphyletic group includes five families: Cebidae (capuchin monkeys, squirrel monkeys, and titi monkeys), Aotidae (night monkeys), Pitheciidae (tamarins, marmosets, sakis, and uakaris), Atelidae (spider monkeys, howler monkeys, woolly monkeys, and muriquis), and Callitrichidae (marmosets and tamarins).
Platyrrhini monkeys are native to Central and South America. They have a diverse range of physical characteristics, diets, and behaviors. Some notable differences between Platyrrhini and Old World monkeys include their opposable thumbs, claws instead of nails on some digits, and a unique digestive system that allows them to metabolize various plant materials efficiently.