Poxviridae
Capripoxvirus
Entomopoxvirinae
Myxoma virus
Orf virus
Vaccinia virus
Molecular Sequence Data
Smallpox Vaccine
Encyclopedias as Topic
Variola virus
Use of protein AG in an enzyme-linked immunosorbent assay for screening for antibodies against parapoxvirus in wild animals in Japan. (1/290)
Using protein AG in an enzyme-linked immunosorbent assay (ELISA), we tried to detect antibodies against parapoxvirus in 9 species of wild animals in Japan: the Japanese badger (Meles meles anakuma), Japanese black bear (Ursus thibetanus japonicus), Japanese deer (Cervus nippon centralis), Japanese monkey (Macaca fuscata), Japanese raccoon dog (Nyctereutes procyonoides viverrinus), Japanese serow (Capricornis crispus), Japanese wild boar (Sus scrofa leucomystax), masked palm civet (Paguma larvata), and nutria (Myocastor coypus). A total of 272 serum samples were collected over the period from 1984 to 1995 and were tested by the protein AG-ELISA, the agar gel immunodiffusion test, and an indirect immunofluorescence assay. The protein AG-ELISA was effective in a serological survey for parapoxvirus in wild animals, and antibodies were detected only in Japanese serows. A total of 24 of 66 (36.4%) Japanese serows reacted positively, and they were found in almost all prefectures in all years tested. These results suggest that epizootic cycles of parapoxvirus exist widely in Japanese serows and that they could be reservoirs for the virus in the field in Japan. Moreover, it is probable that they might carry the virus to domestic animals such as cattle, sheep, and goats. (+info)Re-emergence of monkeypox in Africa: a review of the past six years. (2/290)
Human monkeypox was first identified in 1970 in the Democratic Republic of the Congo. Extensive studies of this zoonotic infection in the 1970s and 1980s indicated a largely sporadic disease with a minority of cases resulting from person-to-person transmission, rarely beyond two generations. In August 1996, an unusually large outbreak of human monkeypox was reported, and cases continued through 1997 with peak incidence in August 1996, March 1997 and August 1997. Preliminary results from the field investigations in 1997 suggest a new epidemiological pattern where a majority of secondary cases result from person-to-person transmission, and a clinically milder disease. But there is preliminary laboratory evidence of a simultaneous outbreak of varicella in the same geographic region which will undoubtedly modify these preliminary results. Since smallpox was eradicated and vaccinia vaccination terminated in this region, the population of susceptible individuals has grown. The use of vaccination to protect the population at risk, however, must take into account HIV prevalence and the risk of generalized vaccinia when using vaccinia vaccine in populations where HIV is known to be present. (+info)Poxvirus-encoded serpins do not prevent cytolytic T cell-mediated recovery from primary infections. (3/290)
Previous observations that the highly conserved poxvirus-encoded serpins inhibit cytotoxic activities of alloreactive CTL via granule and/or Fas-mediated pathways was taken to indicate their involvement in immune evasion by poxviruses. We now show that interference with 51Cr release from target cells by ectromelia and cowpoxvirus is limited to alloreactive but not MHC-restricted CTL. The data are in support of the paramount importance of CTL and its effector molecule perforin in the recovery from primary ectromelia virus infection and question the role of serpins in the evasion of poxviruses from killing by CTL. Further analysis of poxvirus interference with target cell lysis by alloreactive CTL revealed that suppression primarily affects the Fas-mediated, and to a lesser extent, the granule exocytosis pathway. Serpin-2 is the main contributor to suppression for both killing pathways. In addition, inhibition of lysis was shown to be both target cell type- and MHC allotype-dependent. We hypothesize that differences in TCR affinities and/or state of activation between alloreactive and MHC-restricted CTL as well as the quality (origin) of target cells are responsible for the observed phenomenon. (+info)An epidemic of parapoxvirus infection among cattle: isolation and antibody survey. (4/290)
A disease characterized by papules, nodules, vesicles and, rarely, pustules and ulcers on teats was seen among cattle on a farm in Chiba Prefecture, Japan. A virus was isolated by inoculation of fetal bovine lung cell cultures from a vesicle on a teat of an infected cow. The virus was subsequently passaged in fetal bovine lung and muscle cells in which it produced complete cytopathic changes. The virus was identified by physicochemical examinations and electromicroscopic observation as a parapoxvirus. A seroepidemiological survey was performed on antibody to the isolated virus by the agar gel immunodiffusion test. The isolated virus formed a precipitation line which cross reacted with other parapoxviruses isolated previously in Japan. The positive rate was more than 50% among cattle in the Kanto district. The positive rate increased with age. It was suggested that parapoxvirus infection might have already been prevalent among cattle in Japan. (+info)Endosomal/lysosomal retention and degradation of major histocompatibility complex class I molecules is induced by myxoma virus. (5/290)
The highly immunosuppressive leporipoxvirus myxoma, previously was shown to promote the loss of cell surface class I major histocompatibility complex (MHC I) molecules. Here, we show that myxoma virus induces the loss of both cell surface and intracellular post-Golgi, beta(2)-microglobulin-associated MHC I. Myxoma-induced loss of these MHC I molecules is abrogated by vacuolar ATPase inhibitors, NH(4)Cl, and leupeptin. Furthermore, immunofluorescence microscopic studies reveal that in myxoma-infected cells, beta(2)-microglobulin-associated MHC I accumulates in Lamp-1(+) vesicular structures, suggesting that myxoma virus targets MHC I for degradation in late endosomes and/or lysosomes. These events are regulated by early gene product or products because they occur unabated in cells infected with myxoma virus in the presence of cytosine arabinoside, an inhibitor of DNA synthesis. Studies with baby green monkey kidney cells transfected with wild-type and tail-less forms of a mouse MHC I molecule, H-2L(d), indicate that the MHC I cytoplasmic tail is required for myxoma-induced localization in Lamp-1(+) organelles. Myxoma-induced endocytosis and degradation of MHC I may provide the virus with a means of dispensing with cell surface MHC I molecules that were loaded with peptides derived from viral proteins synthesized early in infection. (+info)A review of virus infections of cataceans and the potential impact of morbilliviruses, poxviruses and papillomaviruses on host population dynamics. (6/290)
Viruses belonging to 9 families have been detected in cetaceans. We critically review the clinical features, pathology and epidemiology of the diseases they cause. Cetacean morbillivirus (family Paramyxoviridae) induces a serious disease with a high mortality rate and persists in several populations. It may have long-term effects on the dynamics of cetacean populations either as enzootic infection or recurrent epizootics. The latter presumably have the more profound impact due to removal of sexually mature individuals. Members of the family Poxviridae infect several species of odontocetes, resulting in ring and tattoo skin lesions. Although poxviruses apparently do not induce a high mortality, circumstancial evidence suggests they may be lethal in young animals lacking protective immunity, and thus may negatively affect net recruitment. Papillomaviruses (family Papovaviridae) cause genital warts in at least 3 species of cetaceans. In 10% of male Burmeister's porpoises Phocoena spinipinnis from Peru, lesions were sufficiently severe to at least hamper, if not impede, copulation. Members of the families Herpesviridae, Orthomyxoviridae and Rhabdoviridae were demonstrated in cetaceans suffering serious illnesses, but with the exception of a 'porpoise herpesvirus' their causative role is still tentative. Herpes-like viruses and caliciviruses (Caliciviridae) give rise to cutaneous diseases in Monodontidae and Delphinidae. Antibodies to several serotypes of caliciviruses were found in odontocetes and mysticetes. An unrecognized Hepadnaviridae was detected by serology in a captive Pacific white-sided dolphin Lagenorhynchus obliquidens with chronic persistent hepatitis. Adenoviruses (Adenoviridae) were isolated from the intestinal tracts of mysticeti and a beluga Delphinapterus leucas but were not associated with any pathologies. We discuss the potential impact of Paramyxoviridae, Poxviridae and Papovaviridae on the dynamics of several odontocete populations. (+info)DNA vaccination with vaccinia virus L1R and A33R genes protects mice against a lethal poxvirus challenge. (7/290)
Previously we found that passive transfer of monoclonal antibodies (MAbs) specific to either the vaccinia virus (VACV) L1R or A33R gene product protected mice from challenge with VACV. The L1R-specific MAbs, which bind the intracellular mature virion (IMV), neutralized virus in cell culture, whereas the A33R-specific MAbs, which bind extracellular enveloped virions (EEV), did not. To investigate whether a protective response could be generated by vaccination with these genes, we constructed and evaluated DNA vaccines expressing the VACV L1R and/or A33R genes under control of a cytomegalovirus promoter. Mice were vaccinated with DNA-coated gold beads by using a gene gun and then challenged with VACV (strain WR) intraperitoneally. Mice vaccinated with L1R alone developed neutralizing antibodies and were partially protected. Mice vaccinated with a combination of both genes loaded on the same gold beads developed a robust anti-A33R response; however, no neutralizing antibody response was detected, and the mice were not protected. In contrast, when mice were vaccinated with L1R and A33R loaded on different gold beads, neutralizing (presumably anti-L1R) and anti-A33R antibody responses were detected, and protection was markedly improved. Our results indicated that vaccination with both L1R and A33R proteins, intended to evoke mechanistically distinct and complementary forms of protection, was more effective than vaccination with either protein by itself. (+info)Detection of poxvirus in cattle associated with human cases in the State of Rio de Janeiro: preliminary report. (8/290)
This preliminary report describes human and cow cases of poxvirus that recently occurred in the State of Rio de Janeiro. The electron microscopic findings were consistent with parapoxviral and orthopoxviral infection. Orthopoxvirus strains were isolated from human and cow cases. Detailed viral characterization by means of genetical techniques is under investigation. Based on these informations, poxviral diseases should be also considered an emerging viral zoonosis that can affect human beings. (+info)Poxviridae infections refer to diseases caused by the Poxviridae family of viruses, which are large, complex viruses with a double-stranded DNA genome. This family includes several pathogens that can infect humans, such as Variola virus (which causes smallpox), Vaccinia virus (used in the smallpox vaccine and can rarely cause infection), Monkeypox virus, and Cowpox virus.
These viruses typically cause skin lesions or pocks, hence the name "Poxviridae." The severity of the disease can vary depending on the specific virus and the immune status of the host. Smallpox, once a major global health threat, was declared eradicated by the World Health Organization in 1980 thanks to a successful vaccination campaign. However, other Poxviridae infections continue to pose public health concerns, particularly in regions with lower vaccination rates and where animal reservoirs exist.
Poxviridae is a family of large, complex, double-stranded DNA viruses that includes many significant pathogens affecting humans and animals. The most well-known member of this family is the Variola virus, which causes smallpox in humans, a highly contagious and deadly disease that has been eradicated through global vaccination efforts. Other important human pathogens in this family include the Monkeypox virus, which can cause a smallpox-like illness, and the Molluscum contagiosum virus, which causes benign skin tumors.
Poxviruses have a unique ability to replicate in the cytoplasm of host cells, rather than in the nucleus like many other DNA viruses. They also have a complex structure, with a large, brick-shaped virion that contains a lateral body, a core, and an outer envelope. The genome of poxviruses is relatively large, ranging from 130 to 375 kilobases in length, and encodes many genes involved in viral replication, host immune evasion, and modulation of host cell processes.
Poxviridae is further divided into two subfamilies: Chordopoxvirinae, which includes viruses that infect vertebrates, and Entomopoxvirinae, which includes viruses that infect insects. The Chordopoxvirinae subfamily is divided into several genera, including Orthopoxvirus (which includes Variola, Monkeypox, and Vaccinia viruses), Parapoxvirus (which includes Orf virus and Bovine papular stomatitis virus), and Yatapoxvirus (which includes Yaba monkey tumor virus and Tanapox virus).
Overall, Poxviridae is a diverse family of viruses that pose significant public health and agricultural threats, and continue to be the subject of ongoing research and development efforts aimed at understanding their biology and developing new vaccines and therapies.
Capripoxvirus is a genus of viruses in the family Poxviridae, subfamily Chordopoxvirinae. This genus includes three species of poxviruses that primarily infect members of the Artiodactyla order (even-toed ungulates), such as sheep, goats, and cattle. The three species are:
1. Sheeppox virus (SPPV) - causes sheeppox in sheep and goatpox in goats
2. Goatpox virus (GTPV) - causes goatpox in goats and sometimes in sheep
3. Lumpy skin disease virus (LSDV) - causes lumpy skin disease in cattle
These viruses are large, complex, enveloped double-stranded DNA viruses with a linear genome of approximately 150 kilobases. They replicate in the cytoplasm of infected cells and can cause severe diseases in their respective hosts, characterized by fever, lesions on the skin and mucous membranes, and secondary bacterial infections. Vaccination is an important control strategy for capripoxviruses.
Entomopoxvirinae is a subfamily of large, complex viruses that primarily infect insects, belonging to the family Poxviridae. These viruses are characterized by their ability to produce occlusion bodies, which are protein matrices that encase and protect the virions. The Entomopoxvirinae subfamily includes several genera, such as Alphaentomopoxvirus, Betaentomopoxvirus, and Gammaentomopoxvirus, each containing various species of insect-infecting poxviruses. These viruses can cause diseases in insects with significant economic impact on agriculture and forestry.
Myxoma virus (MYXV) is a member of the Poxviridae family, specifically in the Leporipoxvirus genus. It is a double-stranded DNA virus that naturally infects European rabbits (Oryctolagus cuniculus) and causes a fatal disease called myxomatosis. The virus is transmitted through insect vectors such as mosquitoes and fleas, and it replicates in the cytoplasm of infected cells.
Myxoma virus has been studied extensively as a model organism for viral pathogenesis and host-pathogen interactions. It has also been explored as a potential oncolytic virus for cancer therapy due to its ability to selectively infect and kill certain types of cancer cells while leaving normal cells unharmed. However, it is important to note that the use of Myxoma virus in humans is still experimental and requires further research and development before it can be considered safe and effective for therapeutic purposes.
Orf virus, also known as contagious ecthyma virus, is a member of the Parapoxvirus genus in the Poxviridae family. It primarily affects sheep and goats, causing a contagious skin disease characterized by papules, vesicles, pustules, and scabs, mainly on the mouth and legs. The virus can also infect humans, particularly those who handle infected animals or consume raw meat from an infected animal. In human cases, it typically causes a papular or pustular dermatitis, often on the hands, fingers, or forearms. The infection is usually self-limiting and resolves within 4-6 weeks without scarring.
Vaccinia virus is a large, complex DNA virus that belongs to the Poxviridae family. It is the virus used in the production of the smallpox vaccine. The vaccinia virus is not identical to the variola virus, which causes smallpox, but it is closely related and provides cross-protection against smallpox infection.
The vaccinia virus has a unique replication cycle that occurs entirely in the cytoplasm of infected cells, rather than in the nucleus like many other DNA viruses. This allows the virus to evade host cell defenses and efficiently produce new virions. The virus causes the formation of pocks or lesions on the skin, which contain large numbers of virus particles that can be transmitted to others through close contact.
Vaccinia virus has also been used as a vector for the delivery of genes encoding therapeutic proteins, vaccines against other infectious diseases, and cancer therapies. However, the use of vaccinia virus as a vector is limited by its potential to cause adverse reactions in some individuals, particularly those with weakened immune systems or certain skin conditions.
A viral genome is the genetic material (DNA or RNA) that is present in a virus. It contains all the genetic information that a virus needs to replicate itself and infect its host. The size and complexity of viral genomes can vary greatly, ranging from a few thousand bases to hundreds of thousands of bases. Some viruses have linear genomes, while others have circular genomes. The genome of a virus also contains the information necessary for the virus to hijack the host cell's machinery and use it to produce new copies of the virus. Understanding the genetic makeup of viruses is important for developing vaccines and antiviral treatments.
Viral proteins are the proteins that are encoded by the viral genome and are essential for the viral life cycle. These proteins can be structural or non-structural and play various roles in the virus's replication, infection, and assembly process. Structural proteins make up the physical structure of the virus, including the capsid (the protein shell that surrounds the viral genome) and any envelope proteins (that may be present on enveloped viruses). Non-structural proteins are involved in the replication of the viral genome and modulation of the host cell environment to favor viral replication. Overall, a thorough understanding of viral proteins is crucial for developing antiviral therapies and vaccines.
Viral DNA refers to the genetic material present in viruses that consist of DNA as their core component. Deoxyribonucleic acid (DNA) is one of the two types of nucleic acids that are responsible for storing and transmitting genetic information in living organisms. Viruses are infectious agents much smaller than bacteria that can only replicate inside the cells of other organisms, called hosts.
Viral DNA can be double-stranded (dsDNA) or single-stranded (ssDNA), depending on the type of virus. Double-stranded DNA viruses have a genome made up of two complementary strands of DNA, while single-stranded DNA viruses contain only one strand of DNA.
Examples of dsDNA viruses include Adenoviruses, Herpesviruses, and Poxviruses, while ssDNA viruses include Parvoviruses and Circoviruses. Viral DNA plays a crucial role in the replication cycle of the virus, encoding for various proteins necessary for its multiplication and survival within the host cell.
Molecular sequence data refers to the specific arrangement of molecules, most commonly nucleotides in DNA or RNA, or amino acids in proteins, that make up a biological macromolecule. This data is generated through laboratory techniques such as sequencing, and provides information about the exact order of the constituent molecules. This data is crucial in various fields of biology, including genetics, evolution, and molecular biology, allowing for comparisons between different organisms, identification of genetic variations, and studies of gene function and regulation.
The Smallpox vaccine is not a live virus vaccine but is instead made from a vaccinia virus, which is a virus related to the variola virus (the virus that causes smallpox). The vaccinia virus used in the vaccine does not cause smallpox, but it does cause a milder illness with symptoms such as a fever and a rash of pustules or blisters at the site of inoculation.
The smallpox vaccine was first developed by Edward Jenner in 1796 and is one of the oldest vaccines still in use today. It has been highly effective in preventing smallpox, which was once a major cause of death and disability worldwide. In fact, smallpox was declared eradicated by the World Health Organization (WHO) in 1980, thanks in large part to the widespread use of the smallpox vaccine.
Despite the eradication of smallpox, the smallpox vaccine is still used today in certain circumstances. For example, it may be given to laboratory workers who handle the virus or to military personnel who may be at risk of exposure to the virus. The vaccine may also be used as an emergency measure in the event of a bioterrorism attack involving smallpox.
It is important to note that the smallpox vaccine is not without risks and can cause serious side effects, including a severe allergic reaction (anaphylaxis), encephalitis (inflammation of the brain), and myocarditis (inflammation of the heart muscle). As a result, it is only given to people who are at high risk of exposure to the virus and who have been determined to be good candidates for vaccination by a healthcare professional.
An encyclopedia is a comprehensive reference work containing articles on various topics, usually arranged in alphabetical order. In the context of medicine, a medical encyclopedia is a collection of articles that provide information about a wide range of medical topics, including diseases and conditions, treatments, tests, procedures, and anatomy and physiology. Medical encyclopedias may be published in print or electronic formats and are often used as a starting point for researching medical topics. They can provide reliable and accurate information on medical subjects, making them useful resources for healthcare professionals, students, and patients alike. Some well-known examples of medical encyclopedias include the Merck Manual and the Stedman's Medical Dictionary.
Variola virus is the causative agent of smallpox, a highly contagious and deadly disease that was eradicated in 1980 due to a successful global vaccination campaign led by the World Health Organization (WHO). The virus belongs to the family Poxviridae and genus Orthopoxvirus. It is a large, enveloped, double-stranded DNA virus with a complex structure that includes a lipoprotein membrane and an outer protein layer called the lateral body.
The Variola virus has two main clinical forms: variola major and variola minor. Variola major is more severe and deadly, with a mortality rate of up to 30%, while variola minor is less severe and has a lower mortality rate. The virus is transmitted through direct contact with infected individuals or contaminated objects, such as clothing or bedding.
Smallpox was once a major public health threat worldwide, causing millions of deaths and severe illnesses. However, since its eradication, Variola virus has been kept in secure laboratories for research purposes only. The virus is considered a potential bioterrorism agent, and efforts are being made to develop new vaccines and antiviral treatments to protect against possible future outbreaks.
"History, 19th Century" is not a medical term or concept. It refers to the historical events, developments, and figures related to the 1800s in various fields, including politics, culture, science, and technology. However, if you are looking for medical advancements during the 19th century, here's a brief overview:
The 19th century was a period of significant progress in medicine, with numerous discoveries and innovations that shaped modern medical practices. Some notable developments include:
1. Edward Jenner's smallpox vaccine (1796): Although not strictly within the 19th century, Jenner's discovery laid the foundation for vaccination as a preventive measure against infectious diseases.
2. Germ theory of disease: The work of Louis Pasteur, Robert Koch, and others established that many diseases were caused by microorganisms, leading to the development of antiseptic practices and vaccines.
3. Anesthesia: In 1842, Crawford Long first used ether as an anesthetic during surgery, followed by the introduction of chloroform in 1847 by James Simpson.
4. Antisepsis and asepsis: Joseph Lister introduced antiseptic practices in surgery, significantly reducing postoperative infections. Later, the concept of asepsis (sterilization) was developed to prevent contamination during surgical procedures.
5. Microbiology: The development of techniques for culturing and staining bacteria allowed for better understanding and identification of pathogens.
6. Physiology: Claude Bernard's work on the regulation of internal body functions, or homeostasis, contributed significantly to our understanding of human physiology.
7. Neurology: Jean-Martin Charcot made significant contributions to the study of neurological disorders, including multiple sclerosis and Parkinson's disease.
8. Psychiatry: Sigmund Freud developed psychoanalysis, a new approach to understanding mental illnesses.
9. Public health: The 19th century saw the establishment of public health organizations and initiatives aimed at improving sanitation, water quality, and vaccination programs.
10. Medical education reforms: The Flexner Report in 1910 led to significant improvements in medical education standards and practices.
I'm sorry for any confusion, but "History, 20th Century" is a broad and complex topic that refers to the events, developments, and transformations that occurred throughout the world during the 1900s. It is not a medical term or concept. If you're interested in learning more about this historical period, I would recommend consulting a history textbook, reputable online resources, or speaking with a historian. They can provide detailed information about the political, social, economic, and cultural changes that took place during the 20th century.
I am not aware of a specific medical definition for the term "China." Generally, it is used to refer to:
1. The People's Republic of China (PRC), which is a country in East Asia. It is the most populous country in the world and the fourth largest by geographical area. Its capital city is Beijing.
2. In a historical context, "China" was used to refer to various dynasties and empires that existed in East Asia over thousands of years. The term "Middle Kingdom" or "Zhongguo" (中国) has been used by the Chinese people to refer to their country for centuries.
3. In a more general sense, "China" can also be used to describe products or goods that originate from or are associated with the People's Republic of China.
If you have a specific context in which you encountered the term "China" related to medicine, please provide it so I can give a more accurate response.
The bones that make up the upper extremity, also known as the upper limb, include those found in the arm, shoulder, and wrist. Here is a medical definition of each bone in the upper extremity:
1. Clavicle (Collarbone): A long, S-shaped bone located in the anterior part of the shoulder region that connects the trunk to the arm. It acts as a strut between the scapula and the sternum, providing support and protection for the underlying structures such as blood vessels and nerves.
2. Scapula (Shoulder Blade): A flat, triangular bone located on the posterior aspect of the shoulder region. The scapula has several important functions, including anchoring muscles that move the arm and serving as a site of attachment for the clavicle.
3. Humerus: The longest bone in the upper extremity, located in the arm between the shoulder and elbow. It has a proximal end (head) that articulates with the glenoid fossa of the scapula to form the shoulder joint, and a distal end (epicondyles) that articulates with the radius and ulna bones to form the elbow joint.
4. Radius: One of two bones in the forearm located laterally (on the thumb side). It has a proximal end that articulates with the humerus at the elbow joint, and a distal end that articulates with the carpals of the wrist. The radius also has a unique feature called the radial head, which is a rounded articular surface that allows for rotation of the forearm.
5. Ulna: One of two bones in the forearm located medially (on the pinky side). It has a proximal end that articulates with the humerus at the elbow joint, and a distal end that articulates with the carpals of the wrist. The ulna also has a prominent process called the olecranon, which forms the bony prominence on the back of the elbow (olecranon process).
6. Carpals: Eight small bones located in the wrist region that form the proximal row of the carpus. They include the scaphoid, lunate, triquetral, and pisiform bones. The carpals articulate with the radius and ulna proximally, and the metacarpals distally.
7. Metacarpals: Five long bones located in the hand region that form the middle part of the hand. They articulate with the carpals proximally and the phalanges distally. The metacarpals are numbered 1-5, with the thumb being metacarpal 1 and the little finger being metacarpal 5.
8. Phalanges: Fifteen small bones located in the fingers and thumb region that form the distal part of the hand. Each digit has three phalanges (proximal, middle, and distal), except for the thumb, which only has two (proximal and distal). The phalanges articulate with the metacarpals proximally and each other distally.
Understanding the anatomy of the upper limb is essential for healthcare professionals to accurately diagnose and treat conditions affecting this region. Familiarity with the bones, joints, muscles, and nerves that make up the upper limb can help clinicians identify areas of injury or dysfunction, develop appropriate treatment plans, and monitor patient progress over time.
Evidence of zoonotic Poxviridae coinfections in clinically diagnosed papillomas using a newly developed mini-array test - PubMed
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