The concept of One Health is the unity of multiple practices that work together locally, nationally, and globally to help achieve optimal health for people, animals, and the environment. When the people, animals, and environment are put together they make up the One Health Triad . [2] The One Health Triad shows how the health of people, animals, and the environment is linked to one another. [2] With One Health being a worldwide concept, it makes it easier to advance health care in the 21st century. [3] When this concept is used, and applied properly, it can help protect people, animals, and the environment in the present and future generations. [3]
The origins of the One Health Model dates as far back as 1821, with the first links between human and animal diseases being recognized by Rudolf Virchow. Virchow noticed links between human and animal disease, coining the term "zoonosis." The major connection Virchow made was between Trichinella spiralis in swine and human infections. [4] It was over a century later before the ideas laid out by Virchow were integrated into a single health model connecting human health with animal health.
In 1964, Dr. Calvin Schwabe, a former member of World Health Organization (WHO) and the founding chair of Department of Epidemiology and Preventive Medicine at the Veterinary School at the University of California Davis, called for a "One Medicine" model emphasizing the need for collaboration between human and wildlife pathologists as a means of controlling and even preventing disease spread. [5] It would be another four decades before the One Health became a reality with the 12 Manhattan Principles, where human and animal pathologists called for "One Health, One World." [5] [6]
The One Health Model has gained momentum in recent years due to the discovery of the multiple interconnections that exist between animal and human disease. Recent estimates place zoonotic diseases as the source 60% of total human pathogens, and 75% of emerging human pathogens. [7]
The One Health Model can constantly be applied with human and animal interactions. One of the main situations where One Health can be applied is with canine and feline obesity being linked to their owners and their own obesity. [8] Obesity in canines and felines is not good for them nor is it good for humans. The obesity of humans and their animals can result in many health problems such as diabetes mellitus, osteoarthritis, and many others. [8] In some cases if the obesity of the pet is too bad the pet may be removed from its owner and put up for adoption. [8] The only solution for this issue is to encourage owners to have a healthy lifestyle for both them and their animals. [8] Zoonotic Diseases is another situation that the One Health model can be applied to. This is talked about more in the Zoonotic Disease section.
Antibiotic resistance is becoming a serious problem in today's agriculture industry and for humans. One reason for this occurring resistance is that natural resistomes are present in different environmental niches. [9] These environmental resistomes function as an antibiotic resistance gene. [9] There are many questions and research that needs to be further done to find out if these environmental resistomes play a big role in the antibiotic resistance that is occurring in humans, animals, and plants. [9] A recent study was done and reported that 700 000 annual deaths were caused by infections due to drug resistant pathogens [10] This study also reported that if unchecked, this number will increase to 10 million by 2050. [10] The National Antimicrobial Monitoring System is a system used to monitor antimicrobial resistance among bacteria that is isolated from animals that are used as food [11]
In 2013, they found that about 29% of turkeys, 18% of swine, 17% of beef, and 9% of chicken were multi drug resistant, meaning they had resistance to 3 or more classes of antimicrobials. [11] Having this resistance for both animals and humans makes it easier for zoonotic diseases to be transferred between them and also makes it easier for the resistance of these antimicrobials to be passed on. [12] With this being said, there are many possible risk management options that can be taken to help reduce this possibility. [13] Most of these risk management options can take place on the farm or at the slaughter house for animals. [13] When it comes to humans, risk management has to be done by you yourself and you have to be responsible for good hygiene, up to date vaccinations, and proper use of antibiotics. [14] [15] With that being said, the same management on farms needs to be taken for proper use of antibiotics and only using them when it is absolutely necessary and improving the general hygiene in all stages of production. [13] With these management factors added in with research and knowledge on the amount of resistance within our environment, antimicrobial resistance may be able to be controlled and help reduce the amount of zoonotic diseases that are passed between animals and humans. [13]
Zoonosis or zoonotic disease can be defined as an infectious disease that can be transmitted between animals and humans. [16] One Health plays a big role in helping to prevent and control zoonotic diseases. [17] Approximately 75% of new and emerging infectious diseases in humans are defined as zoonotic. [17] Zoonotic diseases can be spread in many different ways. [18] The most common known ways they are spread are through direct contact, indirect contact, vector-borne, and food-borne. [18] Below in (Table 1) you can see a list of different zoonotic diseases, their main reservoirs, and their mode of transmission.
Table 1: Zoonotic Diseases
Disease | Main reservoirs | Usual mode of transmission to humans |
---|---|---|
Anthrax | livestock, wild animals, environment | direct contact, ingestion |
Animal influenza | livestock, humans | may be reverse zoonosis |
Avian influenza | poultry, ducks | direct contact |
Bovine tuberculosis | cattle | milk |
Brucellosis | cattle, goats, sheep, pigs | dairy products, milk |
Cat scratch fever | cats | bite, scratch |
COVID-19 | not yet known | not yet known |
Cysticercosis | cattle, pigs | meat |
Cryptosporidiosis | cattle, sheep, pets | water, direct contact |
Enzootic abortion | farm animals, sheep | direct contact, aerosol |
Erysipeloid | pigs, fish, environment | direct contact |
Fish tank granuloma | fish | direct contact, water |
Campylobacteriosis | poultry, farm animals | raw meat, milk |
Salmonellosis | poultry, cattle, sheep, pigs | foodborne |
Giardiasis | humans, wildlife | waterborne, person to person |
Glanders | horse, donkey, mule | direct contact |
Haemorrhagic colitis | ruminants | direct contact (and foodborne) |
Hantavirus syndromes | rodents | aerosol |
Hepatitis E | not yet known | not yet known |
Hydatid disease | dogs, sheep | ingestion of eggs excreted by dog |
Leptospirosis | rodents, ruminants | infected urine, water |
Listeriosis | cattle, sheep, soil | dairy produce, meat products |
Louping ill | sheep, grouse | direct contact, tick bite |
Lyme disease | ticks, rodents, sheep, deer, small mammals | tick bite |
Lymphocytic choriomeningitis | rodents | direct contact |
Orf | sheep | direct contact |
Pasteurellosis | dogs, cats, many mammals | bite/scratch, direct contact |
Plague | rats and their fleas | flea bite |
Psittacosis | birds, poultry, ducks | aerosol, direct contact |
Q fever | cattle, sheep, goats, cats | aerosol, direct contact, milk, fomites |
Rabies | dogs, foxes, bats, cats animal | bite |
Rat bite fever (Haverhill fever) | rats | bite/scratch, milk, water |
Rift Valley fever | cattle, goats, sheep | direct contact, mosquito bite |
Ringworm | cats, dogs, cattle, many animal species | direct contact |
Streptococcal sepsis | pigs | direct contact, meat |
Streptococcal sepsis | horses, cattle | direct contact, milk |
Tick-borne encephalitis | rodents, small mammals, livestock | tickbite, unpasteurised milk products |
Toxocariasis | dogs, cats | direct contact |
Toxoplasmosis | cats, ruminants | ingestion of faecal oocysts, meat |
Trichinellosis | pigs, wild boar | pork products |
Tularemia | rabbits, wild animals, environment, ticks | direct contact, aerosol, ticks, inoculation |
Ebola, Crimean–Congo HF, Lassa fever, and Marburg virus disease | variously: rodents, ticks, livestock, primates, bats | direct contact, inoculation, tick bite |
West Nile fever | wild birds, mosquitoes | mosquito bite |
Zoonotic diphtheria | cattle, farm animals, dogs | direct contact, milk |
Antimicrobial resistance occurs when microbes evolve mechanisms that protect them from antimicrobials, which are drugs used to treat infections. This resistance affects all classes of microbes, including bacteria, viruses, protozoa, and fungi. Together, these adaptations fall under the AMR umbrella, posing significant challenges to healthcare worldwide. Misuse and improper management of antimicrobials are primary drivers of this resistance, though it can also occur naturally through genetic mutations and the spread of resistant genes.
A zoonosis or zoonotic disease is an infectious disease of humans caused by a pathogen that can jump from a non-human vertebrate to a human. When humans infect non-humans, it is called reverse zoonosis or anthroponosis.
An epidemic is the rapid spread of disease to a large number of hosts in a given population within a short period of time. For example, in meningococcal infections, an attack rate in excess of 15 cases per 100,000 people for two consecutive weeks is considered an epidemic.
In infectious disease ecology and epidemiology, a natural reservoir, also known as a disease reservoir or a reservoir of infection, is the population of organisms or the specific environment in which an infectious pathogen naturally lives and reproduces, or upon which the pathogen primarily depends for its survival. A reservoir is usually a living host of a certain species, such as an animal or a plant, inside of which a pathogen survives, often without causing disease for the reservoir itself. By some definitions a reservoir may also be an environment external to an organism, such as a volume of contaminated air or water.
An emerging infectious disease (EID) is an infectious disease whose incidence has increased recently, and could increase in the near future. The minority that are capable of developing efficient transmission between humans can become major public and global concerns as potential causes of epidemics or pandemics. Their many impacts can be economic and societal, as well as clinical. EIDs have been increasing steadily since at least 1940.
The resistome has been used to describe to two similar yet separate concepts:
A reverse zoonosis, also known as a zooanthroponosis or anthroponosis, is a pathogen reservoired in humans that is capable of being transmitted to non-human animals.
Campylobacter upsaliensis is a gram-negative bacteria in the Campylobacter genus. C. upsaliensis is found worldwide, and is a common cause of campylobacteriosis in humans, as well as gastroenteritis in dogs and cats. Human infections are primarily associated with raw or undercooked meat and contaminated water sources, however there is some zoonotic risk associated with the spread from dogs and cats. C. upsaliensis primarily affects the gastrointestinal tract as it damages gastrointestinal epithelial cells. There are many methods for detecting C.upsaliensis including PCR and ELISA, however there is no current gold standard in detection techniques. Infection is typically self limiting, however there is antimicrobial therapy available.
In epidemiology, a disease vector is any living agent that carries and transmits an infectious pathogen such as a parasite or microbe, to another living organism. Agents regarded as vectors are mostly blood-sucking insects such as mosquitoes. The first major discovery of a disease vector came from Ronald Ross in 1897, who discovered the malaria pathogen when he dissected the stomach tissue of a mosquito.
Antibiotic misuse, sometimes called antibiotic abuse or antibiotic overuse, refers to the misuse or overuse of antibiotics, with potentially serious effects on health. It is a contributing factor to the development of antibiotic resistance, including the creation of multidrug-resistant bacteria, informally called "super bugs": relatively harmless bacteria can develop resistance to multiple antibiotics and cause life-threatening infections.
One Health is an approach calling for "the collaborative efforts of multiple disciplines working locally, nationally, and globally, to attain optimal health for people, animals and our environment", as defined by the One Health Initiative Task Force (OHITF). It developed in response to evidence of the spreading of zoonotic diseases between species and increasing awareness of "the interdependence of human and animal health and ecological change". In this viewpoint, public health is no longer seen in purely human terms. Due to a shared environment and highly conserved physiology, animals and humans not only suffer from the same zoonotic diseases but can also be treated by either structurally related or identical drugs. For this reason, special care must be taken to avoid unnecessary or over-treatment of zoonotic diseases, particularly in the context of drug resistance in infectious microbes.
Staphylococcus schleiferi is a Gram-positive, cocci-shaped bacterium of the family Staphylococcaceae. It is facultatively anaerobic, coagulase-variable, and can be readily cultured on blood agar where the bacterium tends to form opaque, non-pigmented colonies and beta (β) hemolysis. There exists two subspecies under the species S. schleiferi: Staphylococcus schleiferi subsp. schleiferi and Staphylococcus schleiferi subsp. coagulans.
Staphylococcus pseudintermedius is a gram-positive spherically shaped bacterium of the genus Staphylococcus found worldwide. It is primarily a pathogen for domestic animals, but has been known to affect humans as well. S. pseudintermedius is an opportunistic pathogen that secretes immune-modulating virulence factors, has many adhesion factors, and the potential to create biofilms, all of which help to determine the pathogenicity of the bacterium. Diagnoses of S. pseudintermedius have traditionally been made using cytology, plating, and biochemical tests. More recently, molecular technologies like MALDI-TOF, DNA hybridization and PCR have become preferred over biochemical tests for their more rapid and accurate identifications. This includes the identification and diagnosis of antibiotic resistant strains.
Antibiotic use in livestock is the use of antibiotics for any purpose in the husbandry of livestock, which includes treatment when ill (therapeutic), treatment of a group of animals when at least one is diagnosed with clinical infection (metaphylaxis), and preventative treatment (prophylaxis). Antibiotics are an important tool to treat animal as well as human disease, safeguard animal health and welfare, and support food safety. However, used irresponsibly, this may lead to antibiotic resistance which may impact human, animal and environmental health.
A feline zoonosis is a viral, bacterial, fungal, protozoan, nematode or arthropod infection that can be transmitted to humans from the domesticated cat, Felis catus. Some of these diseases are reemerging and newly emerging infections or infestations caused by zoonotic pathogens transmitted by cats. In some instances, the cat can display symptoms of infection and sometimes the cat remains asymptomatic. There can be serious illnesses and clinical manifestations in people who become infected. This is dependent on the immune status and age of the person. Those who live in close association with cats are more prone to these infections, but those that do not keep cats as pets can also acquire these infections as the transmission can be from cat feces and the parasites that leave their bodies.
ESKAPE is an acronym comprising the scientific names of six highly virulent and antibiotic resistant bacterial pathogens including: Enterococcus faecium, Staphylococcus aureus, Klebsiella pneumoniae, Acinetobacter baumannii, Pseudomonas aeruginosa, and Enterobacter spp. The acronym is sometimes extended to ESKAPEE to include Escherichia coli. This group of Gram-positive and Gram-negative bacteria can evade or 'escape' commonly used antibiotics due to their increasing multi-drug resistance (MDR). As a result, throughout the world, they are the major cause of life-threatening nosocomial or hospital-acquired infections in immunocompromised and critically ill patients who are most at risk. P. aeruginosa and S. aureus are some of the most ubiquitous pathogens in biofilms found in healthcare. P. aeruginosa is a Gram-negative, rod-shaped bacterium, commonly found in the gut flora, soil, and water that can be spread directly or indirectly to patients in healthcare settings. The pathogen can also be spread in other locations through contamination, including surfaces, equipment, and hands. The opportunistic pathogen can cause hospitalized patients to have infections in the lungs, blood, urinary tract, and in other body regions after surgery. S. aureus is a Gram-positive, cocci-shaped bacterium, residing in the environment and on the skin and nose of many healthy individuals. The bacterium can cause skin and bone infections, pneumonia, and other types of potentially serious infections if it enters the body. S. aureus has also gained resistance to many antibiotic treatments, making healing difficult. Because of natural and unnatural selective pressures and factors, antibiotic resistance in bacteria usually emerges through genetic mutation or acquires antibiotic-resistant genes (ARGs) through horizontal gene transfer - a genetic exchange process by which antibiotic resistance can spread.
Antibiotic use in the United States poultry farming industry is the controversial prophylactic use of antibiotics in the country's poultry farming industry. It differs from the common practice in Europe, where antibiotics for growth promotion were disallowed in the 1950s.
Laura H. Kahn is a native Californian. She is an author, lecturer, a general internist physician, and a research scholar with the Program on Science and Global Security at the Woodrow Wilson School of Public and International Affairs at Princeton University in New Jersey. She is the co-founder, of One Health Initiative. She is an online columnist for the Bulletin of the Atomic Scientists. She is an expert advisor and author in the field of zoonosis. Zoonosis is the study of infectious diseases where cross-species illnesses that are caused by bacteria, viruses, or parasites spread from non-human animals to humans. She is the author of Who's in Charge? Leadership During Epidemics, Bioterror Attacks, and Other Public Health Crises
An occupational infectious disease is an infectious disease that is contracted at the workplace. Biological hazards (biohazards) include infectious microorganisms such as viruses, bacteria and toxins produced by those organisms such as anthrax.
The following outline is provided as an overview of and topical guide to concepts related to infectious diseases in humans.