Los Algodones, Baja California; Mexico

This is not the End of the World, but you can see it from here!



Thursday, November 28, 2013

Mexican Federal Police ambushed, two dead nine inured

 

     
iol newsp ic Morelia violence
REUTERS photo
Federal police officers stand guard at a gas station following an arson attack in Morelia. REUTERS/Alan Ortega

Morelia, Mexico - An armed group ambushed a federal police convoy in a western Mexico state plagued by violence, killing two officers and wounding nine others, officials said Thursday.
The officers were traveling in four buses escorted by two police vehicles when they were shot at by gunmen hidden on a hill in Michoacan late Wednesday, the national security commission said in a statement.
The wounded officers were taken to hospitals after the attack near the town of Las Yeguas, close to the municipality of Apatzingan, a bastion of the Knights Templar drug cartel.
The federal government deployed thousands of troops and police officers to Michoacan in May to return peace to the state amid confrontations between the cartel and vigilante groups that formed in towns fed up with gang violence.
 

Cafe Santa - Fe; Todos Santos, Baja

Death in mexico

Additional bodies were unearthed today rising the total corpses discovered to 58.  Bodies were found in the municipalities of Vista Hermosa Michoacán and La Barca
 
The discovery was made inadvertently,  as an investigation was being conducted after the disappearance of two federal agents on November 3rd.  The first bodies were found on November 7th and the number of bodies continue to rise.

The federal PGR agency, made it clear that none of the 58 corpses were that of the missing agents  René Rojas Marquez and Gabriel Santiago Quijados suspected of being kidnapped by municipal police Michoacán.
So far, the bodies found have not been identified and it is not known whether they belonged to any organized crime group.  However, in the area between La Barca and the Michoacán towns of Briseñas and Vista Hermosa, there is a fierce conflict between CJNG and Templarios for over 18 months and it is suggested  that at least some of the dead belonged to one of the cartels.
Last night there was blood shed in the communities of Paracuaro and Apatzingan resulting in at least two federal police killed and ten injured. They have sent reinforcements and there are at least 100 police providing security in addition to hundreds of military personnel attempting to regain control of the region.
 
There still no casualty reports of the gunmen, but there are unconfirmed reports of potentially several killed.

There were reports throughout the day and into the night of clashes between armed men pretending to be part of the “citizen defense groups” (auto defensas) and police forces. The bloodiest confrontation occurred in Cuatro Caminos and Uspero, communities in Paracuaro and Apatzingan.

The fire fights were intense on the outskirts of the town but never reached the heart of the towns. The social media forums warned the "civilian defense groups" to remain inside their home through the night, to ensure they did not get caught in the cross fire between the police and the heavily armed gunmen.

The silent night was broken at around 10pm by the sounds of helicopters as they landed to pick up the injured to transport them to the militarized zone 43 in Tapalcatepec.

This comes after the advances of the "citizen defense group" were denied to prevent further advancements into Acahuato and the southern part of Apatzingan. The military had set up a perimeter and prevented the mobilization of the citizen groups to prevent confusion and potential for friendly fire from stray bullets.

Earlier in the day a ministerial police and a forensic investigator were ambushed and seriously injured, resulting in the pending violent confrontation.

Early this morning under heavy security of elements from state, federal and State Attorney General's Office, Edgar Jimenez Lugo, alias "El Ponchis" or "El Niño Sicario" left the Court of Justice for Adolescents in Morelos.

According to data from the Morelos government secretary, Jorge Vicente Guillén Messeguer, who said 
in an interview with Mexico’s Milenio news channel that the youth, had served all but about a week of his three-year sentence, had family in San Antonio. Once in the United States, Jimenez would be sent to what he referred to as a “support center” where he would be treated as a “boarder,” not as an inmate. 'El Ponchis', 17, left the detention center at 2:30 am Tuesday to be transferred to the International Airport in Mexico City .

The official explained that Edgar departed from Mexico City en route to San Antonio, Texas, USA, where his family is waiting for him to be admitted to a rehabilitation support center.


A spokesman for the U.S. Embassy in Mexico City released a statement Tuesday morning that shed little light on the fate of the youth, who was born in San Diego.

“We are aware of Edgar Lugo’s upcoming release by the Mexican authorities following completion of his sentence,” the statement said. “We are closely coordinating with our Mexican counterparts and appropriate authorities in the United States regarding Edgar Lugo’s release. Due to privacy considerations, we do not publicly discuss details of matters involving U.S. citizens.”

In a separate TV interview, Morelos Gov. Graco Ramirez said that Edgar's rehabilitation had been "notable," and that he would continue it in the United States.

Ramirez confirmed that the youth was not being extradited to the U.S. Rather, he was being sent there because his life was at risk if he remained in Morelos.
It may be recalled that on 20 November, it first was reported that the teenager would not leave prison until December 3, after spending three years in captivity.

the child assassin better known as "El Ponchis", is looking for alternatives to continue his social rehabilitation process and one that is being considered is his return to the United States, where he was born.

"He's scared, he knows that the situation will not be easy for him and there is a history of young people who have kidnapped once they graduate from the social rehab center of. He knows that and has asked, somehow, to be protected , "said Ana Virinia Perez Gomez, president of the Court of Justice for Adolescents in Morelos.

El Ponchis was born in the United States but has spent much of his time growing up in in Mexico, where sisters and an aunt live.
Upon serving his sentence, the Court of Justice for Adolescents Center in Morelos the adolescent will be released from the facility and whether or not he has been able to overcome his criminal behavior remains uncertain.

Edgar "El Ponchis" Jimenez Lugo was arrested three years ago when he tried to board a flight to San Diego, California, where the flight originated. BB Dec. 3, 2010


The child, admitted to being a member of the South Pacific Cartel and participated in kidnapping, torture and murder of at least four people. 
Édgar Jimenez Lugo, who at the time only14 years old, admitted to being a cartel member and participating in kidnapping and torture.  He was convicted of beheading four men whose bodies were found in August 2010 under a bridge near Tabachines.  He was accused abduction, of torture by beheading, transportation of drugs possession of weapons military use-only weapons,  and military use during his participation in the South Pacific Cartel.

Authorities later linked him with 300 violent deaths which occurred in Morelos where he had the task of beheading and mutilating his victims.

"Edgar fulfills his sentence and will be credited with time served before or on December 3, 2013. Since he faces no U.S. charges, he will be free to move north upon his release should he so choose. The court has been considering several possibilities for his future" said Ana Perez Gomez Virinia. 

Analysis
Should society respect the institutions, or rather is it the institutions that should respect the society? Is there rule of law in a State where they kidnap, extort and murder with impunity? Why devalue the voluntary and respectable work of the community police, instead of providing them with necessary political and military support? Why isn't the State promoting legal frameworks and coordinating with them?

Charged as few other states with a thousand-year old culture [the Purépecha people established a complex society parallel to the Aztecs], a regional history and heroic memories of iconic characters [President Lázaro Cárdenas], Michoacán once again achieves notoriety in the national and global context. The social, cultural and political processes occurring today in this state make it a laboratory for dramatic and innovative social experiments.

The avalanche of facts, research, reports, statements, comments and interviews conducted by the press, their reporters and commentators on radio and television, reveal a scenario characterized by three phenomena:
 
  • Proliferation and multiplication of criminal organization groups that now extend across a majority of the more than 100 municipalities in the state and that combine movement of drugs and illegal logging with extortion of agricultural producers, traders and families;     
  • The impotence, indifference and even complicity of state and municipal governments with these criminal groups;
  • A legitimate citizen reaction of self-defense, now represented by the community police, that add new towns and municipalities every day.
Meetings between Cartels and Government Leaders
Confirmation of the first phenomenon runs through the family networks and communication channels among neighbors, friends and coworkers. The media have been responsible for confirming the second: from the meeting that took place between the La Familia Michoacana and 14 elected mayors, including several current state government officials (Proceso), to the revelation of a Senate meeting with members of The Knights Templars [Los caballeros templarios] on October 17 (La Jornada Michoacán), most recently to an investigation of two meetings (July and October of 2011) between the Acting Governor and now Secretary of Government and top leaders of The Knights Templar during the state election campaign (Milenio)

Citizen Control

The third phenomenon, which assumes citizen and social control of territory, reproduces what happened in Chiapas with the Zapatista caracoles [regional self-government structures], and in Guerrero with the self-defense organizations that exist today in some 160 communities in 23 municipalities.
Springing forth under the inspiration and learning gained from the indigenous communities of the Purhépecha Meseta [Highlands] with Cherán in the lead, the self-defense groups of Michoacán now extend through the municipalities of Buenavista, Tepalcátepec, Aguililla, Coalcomán, Chinicuila, Tancítaro, Urapicho and several other communities on the coast.

If the Michoacán movements connect with their equivalents in Chiapas and Guerrero and with the various regional organizations in Oaxaca, it foretells and sketches a new corridor of community, municipal and regional self-management--an extensive area where social and citizen power takes precedence

It is likely that the case of Michoacán, with its nuances and differences, might already be the emblematic example. Some 5,000 years ago, when the first unequal societies appeared, where a minority exploited the majority, the heart of the social model has been the same: an interplay between three powers, the political, economic and social.
The class that governs and administers duties or taxes; the economic sector, which accumulates wealth at different rates and intensities; and the bulk of the citizens. State, capital and civil society are three forces whose dynamics give form and content to each society.

Exploitive 1%

Today, in modern times, characterized by a maximum concentration of mega-monopolies represented by some 500 corporations, the political class, regardless of its color or ideology, now plays at capital's side. Hard data, coming from scientific research, confirm the expression that once seemed outlandish: today 1 percent of the species exploits the other 99 percent.

Everything indicates that as the world becomes more complex, unpredictable, uncertain and fragile, many of the institutions, such as formal democracy, the market, centralized justice, the banks, will become obsolete.

As in Michoacán, the human, urban and rural communities are realizing that existing institutions, overwhelmed by all kinds of problems, are non-functional and that organized citizens must take in their hand the management of resources, key decisions, justice, food production, education, prevention and so on. The State and capital are already overwhelmed.

Today is the hour for citizen self-management. Viewed from that perspective, the self-defense groups of Michoacán, heroic and dignified, represent a fresh and hopeful alternative that should be recognized and supported

Michoacán government spokesman, Julio Hernandez, accused Mireles, without presenting any evidence, that Mireles had been in jail from 1988 to 1992 on charges of planting and harvesting of marijuana, the doctor rejects accusations flatly and there has not been any evidence produced to support this accusation….(Proceso)


The people who want to join the movement are within their rights. The Constitution itself, in Article 10, makes it very clear. Every village that does not have the safety and security of the institutions that were formed to do so, can be armed in self-defense of their rights, their property, their lives.
On tour in Tancitaro he was greeted by the people with respect and admiration, he told them;
"This movement has to grow, but only in states that can do so without involving political parties, only the people can defend because it is a matter of life. We can support them, we can give them everything, but they should get the breed and that have large, not hide, "says encouraging people.
When he leaves, Dr. Mireles receives enthusiastic applause, greetings, blessings and even slaps. "Men like you, we need," they say. He answers: "You can also do the same, we must overcome fear,  we already decided how we want to die ... fighting."
 

Tuesday, November 26, 2013

Staphylococcus aureus Methicillin-resistant

Methicillin-resistant Staphylococcus aureus


From Wikipedia, the free encyclopedia
       

 
Methicillin-resistant Staphylococcus aureus
Scanning electron micrograph of a human neutrophil ingesting MRSA
Scientific classification
Domain: Bacteria
Kingdom: Eubacteria
Phylum: Firmicutes
Class: Bacilli
Order: Bacillales
Family: Staphylococcaceae
Genus: Staphylococcus
Species: S. aureus
Binomial name
Methicilin resistant Staphylococcus aureus
Methicillin-resistant Staphylococcus aureus (MRSA) is a bacterium responsible for several difficult-to-treat infections in humans. It is also called oxacillin-resistant Staphylococcus aureus (ORSA). MRSA is any strain of Staphylococcus aureus that has developed, through the process of natural selection, resistance to beta-lactam antibiotics, which include the penicillins (methicillin, dicloxacillin, nafcillin, oxacillin, etc.) and the cephalosporins. Strains unable to resist these antibiotics are classified as methicillin-sensitive Staphylococcus aureus, or MSSA. The evolution of such resistance does not cause the organism to be more intrinsically virulent than strains of Staphylococcus aureus that have no antibiotic resistance, but resistance does make MRSA infection more difficult to treat with standard types of antibiotics and thus more dangerous.
MRSA is especially troublesome in hospitals, prisons and nursing homes, where patients with open wounds, invasive devices, and weakened immune systems are at greater risk of infection than the general public.


Signs and symptoms

S. aureus most commonly colonizes the anterior nares (the nostrils). The rest of the respiratory tract, open wounds, intravenous catheters, and the urinary tract are also potential sites for infection. Healthy individuals may carry MRSA asymptomatically for periods ranging from a few weeks to many years. Patients with compromised immune systems are at a significantly greater risk of symptomatic secondary infection.
In most patients, MRSA can be detected by swabbing the nostrils and isolating the bacteria found inside. Combined with extra sanitary measures for those in contact with infected patients, screening patients admitted to hospitals has been found to be effective in minimizing the spread of MRSA in hospitals in the United States,[1] Denmark, Finland, and the Netherlands.[2]
MRSA may progress substantially within 24–48 hours of initial topical symptoms. After 72 hours, MRSA can take hold in human tissues and eventually become resistant to treatment. The initial presentation of MRSA is small red bumps that resemble pimples, spider bites, or boils; they may be accompanied by fever and, occasionally, rashes. Within a few days, the bumps become larger and more painful; they eventually open into deep, pus-filled boils.[3] About 75 percent of community-associated (CA-) MRSA infections are localized to skin and soft tissue and usually can be treated effectively.[4] But some CA-MRSA strains display enhanced virulence, spreading more rapidly and causing illness much more severe than traditional healthcare-associated (HA-) MRSA infections, and they can affect vital organs and lead to widespread infection (sepsis), toxic shock syndrome, and necrotizing ("flesh-eating") pneumonia. This is thought to be due to toxins carried by CA-MRSA strains, such as PVL and PSM, though PVL was recently found not to be a factor in a study by the National Institute of Allergy and Infectious Diseases (NIAID) at the National Institutes of Health. (NIH) It is not known why some healthy people develop CA-MRSA skin infections that are treatable while others infected with the same strain develop severe infections or die.[5]
People are very commonly colonized with CA-MRSA and are completely asymptomatic. The most common manifestations of CA-MRSA are simple skin infections, such as impetigo, boils, abscesses, folliculitis, and cellulitis. Rarer, but more serious manifestations can occur, such as necrotizing fasciitis and pyomyositis (most commonly found in the tropics), necrotizing pneumonia, infective endocarditis (which affects the valves of the heart), and bone and joint infections.[6] CA-MRSA often results in abscess formation that requires incision and drainage. Before the spread of MRSA into the community, abscesses were not considered contagious, because it was assumed that infection required violation of skin integrity and the introduction of staphylococci from normal skin colonization. However, newly emerging CA-MRSA is transmissible (similar, but with very important differences) from Hospital-Associated MRSA. CA-MRSA is less likely than other forms of MRSA to cause cellulitis.

Risk factors

Some of the populations at risk:

Hospital patients

Many MRSA infections occur in hospitals and healthcare facilities. When infections occur in this manner it is known as healthcare acquired MRSA or HA-MRSA. These Rates of MRSA infection are also increased in hospitalized patients who are treated with quinolones. Healthcare provider-to-patient transfer is common, especially when healthcare providers move from patient to patient without performing necessary hand-washing techniques between patients.[9][14]

Prison inmates, military recruits, and the homeless

Prisons, military barracks, and homeless shelters can be crowded and confined, and poor hygiene practices may proliferate, thus putting inhabitants at increased risk of contracting MRSA.[13] Cases of MRSA in such populations were first reported in the United States, and then in Canada. The earliest reports were made by the Center for Disease Control (CDC) in US state prisons. Subsequently reports of a massive rise in skin and soft tissue infections were reported by the CDC in the Los Angeles County Jail system in 2001, and this has continued. Pan et al. reported on the changing epidemiology of MRSA skin infection in the San Francisco County Jail, noting MRSA accounted for more than 70% of S. aureus infection in the jail by 2002. Lowy and colleagues reported on frequent MRSA skin infections in New York State Prisons. Two reports on inmates in Maryland have demonstrated frequent colonization with MRSA.
In the news media hundreds of reports of MRSA outbreaks in prisons appeared between 2000 and 2008. For example, in February 2008, the Tulsa County Jail in the U.S. State of Oklahoma started treating an average of twelve Staphylococcus cases per month.[15] A report on skin and soft tissue infections in the Cook County Jail in Chicago in 2004–05 demonstrated that MRSA was the most common cause of these infections among cultured lesions and furthermore that few risk factors were more strongly associated with MRSA infections than infections caused by methicillin-susceptible S. aureus. In response to these and many other reports on MRSA infections among incarcerated and recently incarcerated persons, the Federal Bureau of Prisons has released guidelines for the management and control of the infections although few studies provide an evidence base for these guidelines.

People in contact with live food-producing animals

Cases of MRSA have increased in livestock animals. CC398 is a new variant of MRSA that has emerged in animals and is found in intensively reared production animals (primarily pigs, but also cattle and poultry), where it can be transmitted to humans. Though dangerous to humans, CC398 is often asymptomatic in food-producing animals.[16]
A 2011 study reported 47% of the meat and poultry sold in surveyed U.S. grocery stores was contaminated with S. aureus and, of those, 52%—or 24.4% of the total—were resistant to at least three classes of antibiotics. "Now we need to determine what this means in terms of risk to the consumer," said Dr. Keim, a co-author of the paper.[17] Some samples of commercially sold meat products in Japan were also found to harbor MRSA strains.[18]

Athletes

In the United States, there have been increasing numbers of reports of outbreaks of MRSA colonization and infection through skin contact in locker rooms and gyms, even among healthy populations.[citation needed] A study published in the New England Journal of Medicine linked MRSA to the abrasions caused by artificial turf.[19] Three studies by the Texas State Department of Health found that the infection rate among football players was 16 times the national average. In October 2006, a high school football player was temporarily paralyzed from MRSA-infected turf burns. His infection returned in January 2007 and required three surgeries to remove infected tissue, as well as three weeks of hospital stay.[20] In 2013, Lawrence Tynes, Carl Nicks, and Johnthan Banks of the Tampa Bay Buccaneers were diagnosed with MRSA. Tynes and Nicks are not believed to have contracted the infection from each other, but it is unknown if Banks contracted it from either individual.[21]

Children

MRSA is also becoming a problem in pediatric settings,[22] including hospital nurseries.[23] A 2007 study found that 4.6% of patients in U.S. health care facilities were infected or colonized with MRSA.[24] MRSA is becoming a major health concern in children because they are more likely to exhibit minor scrapes, cuts, bruises, and bug bites than adults. Children as well as adults are at higher risk of getting MRSA who come in contact with day care centers, playgrounds, locker rooms, camps, dormitories, classrooms and other school settings, and gyms and workout facilities. Parents should be especially cautious of children who participate in activities where there is shared sports equipment such as football helmets and uniforms.[25]

Diagnosis

Mueller Hinton agar showing MRSA resistant to oxacillin disk
Diagnostic microbiology laboratories and reference laboratories are key for identifying outbreaks of MRSA. New rapid techniques for the identification and characterization of MRSA have been developed.[26] This notwithstanding, the bacterium generally must be cultured via blood, urine, sputum, or other body fluid cultures, and cultured in the lab in sufficient quantities to perform these confirmatory tests first. Consequently, there is no quick and easy method to diagnose a MRSA infection. Therefore, initial treatment is often based upon 'strong suspicion' by the treating physician, since any delay in treating this type of infection can have fatal consequences. These techniques include quantitative PCR and are increasingly being employed in clinical laboratories for the rapid detection and identification of MRSA strains.[27][28]
Another common laboratory test is a rapid latex agglutination test that detects the PBP2a protein. PBP2a is a variant penicillin-binding protein that imparts the ability of S. aureus to be resistant to oxacillin.[29]

Genetics

Antimicrobial resistance is genetically based; resistance is mediated by the acquisition of extrachromosomal genetic elements containing resistance genes. Exemplary are plasmids, transposable genetic elements, and genomic islands, which are transferred between bacteria via horizontal gene transfer.[30] A defining characteristic of MRSA is its ability to thrive in the presence of penicillin-like antibiotics, which normally prevent bacterial growth by inhibiting synthesis of cell wall material. This is due to a resistance gene, mecA, which stops β-lactam antibiotics from inactivating the enzymes (transpeptidases) that are critical for cell wall synthesis.

SCCmec

Staphylococcal cassette chromosome mec (SCCmec) is a genomic island of unknown origin containing the antibiotic resistance gene mecA.[31][32] SCCmec contains additional genes beyond mecA, including the cytolysin gene psm-mec, which may suppress virulence in hospital-acquired MRSA strains.[33] SCCmec also contains ccrA and ccrB; both genes encode recombinases that mediate the site-specific integration and excision of the SCCmec element from the S. aureus chromosome.[31][32] Currently, six unique SCCmec types ranging in size from 21–67 kb have been identified;[31] they are designated types I-VI and are distinguished by variation in mec and ccr gene complexes.[30] Owing to the size of the SCCmec element and the constraints of horizontal gene transfer, a limited number of clones is thought to be responsible for the spread of MRSA infections.[31]
Different SCCmec genotypes confer different microbiological characteristics, such as different antimicrobial resistance rates.[34] Different genotypes are also associated with different types of infections. Types I-III SCCmec are large elements that typically contain additional resistance genes and are characteristically isolated from HA-MRSA strains.[32][34] Conversely, CA-MRSA is associated with types IV and V, which are smaller and lack resistance genes other than mecA.[32][34]

mecA

mecA is responsible for resistance to methicillin and other β-lactam antibiotics. After acquisition of mecA, the gene must be integrated and localized in the S. aureus chromosome.[31] mecA encodes penicillin-binding protein 2a (PBP2a), which differs from other penicillin-binding proteins as its active site does not bind methicillin or other β-lactam antibiotics.[31] As such, PBP2a can continue to catalyze the transpeptidation reaction required for peptidoglycan cross-linking, enabling cell wall synthesis in the presence of antibiotics. As a consequence of the inability of PBP2a to interact with β-lactam moieties, acquisition of mecA confers resistance to all β-lactam antibiotics in addition to methicillin.[31][35]
mecA is under the control of two regulatory genes, mecI and mecR1. MecI is usually bound to the mecA promoter and functions as a repressor.[30][32] In the presence of a β-lactam antibiotic, MecR1 initiates a signal transduction cascade that leads to transcriptional activation of mecA.[30][32] This is achieved by MecR1-mediated cleavage of MecI, which alleviates MecI repression.[30] mecA is further controlled by two co-repressors, BlaI and BlaR1. blaI and blaR1 are homologous to mecI and mecR1, respectively, and normally function as regulators of blaZ, which is responsible for penicillin resistance.[31][36] The DNA sequences bound by MecI and BlaI are identical;[31] therefore, BlaI can also bind the mecA operator to repress transcription of mecA.[36]

Strains

Diagram depicting antibiotic resistance through alteration of the antibiotic's target site, modeled after MRSA's resistance to penicillin. Beta-lactam antibiotics permanently inactivate PBP enzymes, which are essential for bacterial life, by permanently binding to their active sites. Some forms of MRSA, however, express a PBP that will not allow the antibiotic into their active site.
Acquisition of SCCmec in methicillin-sensitive staphylococcus aureus (MSSA) gives rise to a number of genetically different MRSA lineages. These genetic variations within different MRSA strains possibly explain the variability in virulence and associated MRSA infections.[37] The first MRSA strain, ST250 MRSA-1 originated from SCCmec and ST250-MSSA integration.[37] Historically, major MRSA clones: ST2470-MRSA-I, ST239-MRSA-III, ST5-MRSA-II, and ST5-MRSA-IV were responsible for causing hospital-acquired MRSA (HA-MRSA) infections.[37] ST239-MRSA-III, known as the Brazilian clone, was highly transmissible compared to others and distributed in Argentina, Czech Republic, and Portugal.[37]
In the UK, where MRSA is commonly called "Golden Staph", the most common strains of MRSA are EMRSA15 and EMRSA16.[38] EMRSA16 is the best described epidemiologically: it originated in Kettering, England, and the full genomic sequence of this strain has been published.[39] EMRSA16 has been found to be identical to the ST36:USA200 strain, which circulates in the United States, and to carry the SCCmec type II, enterotoxin A and toxic shock syndrome toxin 1 genes.[40] Under the new international typing system, this strain is now called MRSA252. EMRSA 15 is also found to be one of the common MRSA strains in Asia. Other common strains include ST5:USA100 and EMRSA 1.[41] These strains are genetic characteristics of HA-MRSA.[42]
It is not entirely certain why some strains are highly transmissible and persistent in healthcare facilities.[37] One explanation is the characteristic pattern of antibiotic susceptibility. Both the EMRSA15 and EMRSA16 strains are resistant to erythromycin and ciprofloxacin. It is known that Staphylococcus aureus can survive intracellularly,[43] for example in the nasal mucosa [44] and in the tonsil tissue.[45] Erythromycin and Ciprofloxacin are precisely the antibiotics that best penetrate intracellularly; it may be that these strains of S. aureus are therefore able to exploit an intracellular niche.
Community-acquired MRSA (CA-MRSA) strains emerged in late 1990 to 2000, infecting healthy people who had not been in contact with health care facilities.[42] A later study that analyzed data from more than 300 microbiology labs associated with hospitals all over the United States have found a seven-fold increase, jumping from 3.6% of all MRSA infections to 28.2%, in the proportion of community-associated strains of MRSA between 1999 and 2006.[46] Researchers suggest that CA-MRSA did not evolve from the HA-MRSA.[42] This is further proven by molecular typing of CA-MRSA strains[47] and genome comparison between CA-MRSA and HA-MRSA, which indicate that novel MRSA strains integrated SCCmec into MSSA separately on its own.[42] By mid 2000, CA-MRSA was introduced into the health care systems and distinguishing CA-MRSA from HA-MRSA became a difficult process.[42] Community-acquired MRSA (CA-MRSA) is more easily treated and more virulent than hospital-acquired MRSA (HA-MRSA).[42] The genetic mechanism for the enhanced virulence in CA-MRSA remains an active area of research. Especially the Panton-Valentine leukocidin (PVL) genes are of interest because they are a unique feature of CA-MRSA.[37]
In the United States, most cases of CA-MRSA are caused by a CC8 strain designated ST8:USA300, which carries SCCmec type IV, Panton-Valentine leukocidin, PSM-alpha and enterotoxins Q and K,[40] and ST1:USA400.[48] The ST8:USA300 strain results in skin infections, necrotizing fasciitis and toxic shock syndrome, whereas the ST1:USA400 strain results in necrotizing pneumonia and pulmonary sepsis.[37] Other community-acquired strains of MRSA are ST8:USA500 and ST59:USA1000. In many nations of the world, MRSA strains with different predominant genetic background types have come to predominate among CA-MRSA strains; USA300 easily tops the list in the U. S. and is becoming more common in Canada after its first appearance there in 2004. For example, in Australia ST93 strains are common, while in continental Europe ST80 strains (Tristan et al., Emerging Infectious Diseases, 2006), which carry SCCmec type IV, predominate.[49] In Taiwan, ST59 strains, some of which are resistant to many non-beta-lactam antibiotics, have arisen as common causes of skin and soft tissue infections in the community. In a remote region of Alaska, unlike most of the continental U. S., USA300 was found rarely in a study of MRSA strains from outbreaks in 1996 and 2000 as well as in surveillance from 2004–06 (David et al., Emerg Infect Dis 2008).
In June 2011, the discovery of a new strain of MRSA was announced by two separate teams of researchers in the UK. Its genetic makeup was reportedly more similar to strains found in animals, and testing kits designed to detect MRSA were unable to identify it.[50] This MRSA strain, Clonal Complex 398 (CC398), is responsible for Livestock-associated MRSA (LA-MRSA) infections.[41] Although it is known to be more persistent in colonizing pigs and calves, there have been cases of LA-MRSA carriers with pneumonia, endocarditis, and necrotising fasciitis.[51]

Prevention

Screening programs

Patient screening upon hospital admission, with nasal cultures, prevents the cohabitation of MRSA carriers with non-carriers, and exposure to infected surfaces. The test used (whether a rapid molecular method or traditional culture) is not as important as the implementation of active screening.[52] In the United States and Canada, the Centers for Disease Control and Prevention issued guidelines on October 19, 2006, citing the need for additional research, but declined to recommend such screening.[53][54]
In some UK hospitals screening for MRSA is performed in every patient[55] and all NHS surgical patients, except for minor surgeries, are previously checked for MRSA.[56] There is no community screening in the UK; however, screening of individuals is offered by some private companies.[57]
In a US cohort of 1300 healthy children, 2.4% carried MRSA in their nose.[58]

Surface sanitizing

NAV-CO2 sanitizing in Pennsylvania hospital exam room
Alcohol has been proven to be an effective surface sanitizer against MRSA. Quaternary ammonium can be used in conjunction with alcohol to extend the longevity of the sanitizing action.[citation needed] The prevention of nosocomial infections involves routine and terminal cleaning. Non-flammable Alcohol Vapor in Carbon Dioxide systems (NAV-CO2) do not corrode metals or plastics used in medical environments and do not contribute to antibacterial resistance.
In healthcare environments, MRSA can survive on surfaces and fabrics, including privacy curtains or garments worn by care providers. Complete surface sanitation is necessary to eliminate MRSA in areas where patients are recovering from invasive procedures. Testing patients for MRSA upon admission, isolating MRSA-positive patients, decolonization of MRSA-positive patients, and terminal cleaning of patients' rooms and all other clinical areas they occupy is the current best practice protocol for nosocomial MRSA.
Studies published from 2004-2007 reported hydrogen peroxide vapor could be used to decontaminate busy hospital rooms, despite taking significantly longer than traditional cleaning. One study noted rapid recontamination by MRSA following the hydrogen peroxide application.[59][60][61][62][63]
Also tested, in 2006, was a new type of surface cleaner, incorporating accelerated hydrogen peroxide, which was pronounced "a potential candidate" for use against the targeted microorganisms.[64]

Research on copper alloys

In 2008, after evaluating a wide body of research mandated specifically by the United States Environmental Protection Agency (EPA), registration approvals were granted by EPA in 2008 granting that copper alloys kill more than 99.9% of MRSA within two hours.
Subsequent research conducted at the University of Southampton (UK) compared the antimicrobial efficacies of copper and several non-copper proprietary coating products to kill MRSA.[65][66] At 20 °C, the drop-off in MRSA organisms on copper alloy C11000 is dramatic and almost complete (over 99.9% kill rate) within 75 minutes. However, neither a triclosan-based product nor two silver-containing based antimicrobial treatments (Ag-A and Ag-B) exhibited any meaningful efficacy against MRSA. Stainless steel S30400 did not exhibit any antimicrobial efficacy.
In 2004, the University of Southampton research team was the first to clearly demonstrate that copper inhibits MRSA.[67] On copper alloys — C19700 (99% copper), C24000 (80% copper), and C77000 (55% copper) — significant reductions in viability were achieved at room temperatures after 1.5 hours, 3.0 hours and 4.5 hours, respectively. Faster antimicrobial efficacies were associated with higher copper alloy content. Stainless steel did not exhibit any bactericidal benefits.

Hand washing

In September 2004,[68] after a successful pilot scheme to tackle MRSA, the UK National Health Service announced its Clean Your Hands campaign. Wards were required to ensure that alcohol-based hand rubs are placed near all beds so that staff can hand wash more regularly. It is thought that even if this cuts infection by no more than 1%, the plan will pay for itself many times over.[citation needed]
As with some other bacteria, MRSA is acquiring more resistance to some disinfectants and antiseptics. Although alcohol-based rubs remain somewhat effective, a more effective strategy is to wash hands with running water and an anti-microbial cleanser with persistent killing action, such as Chlorhexidine.[69] In another study chlorohexidine (Hibiclens), p-chloro-m-xylenol (Acute-Kare), hexachlorophene (Phisohex), and povidone-iodine (Betadine) were evaluated for their effectiveness. Of the four most commonly used antiseptics, povidone-iodine, when diluted 1:100, was the most rapidly bactericidal against both MRSA and methicillin-susceptible S. aureus.[70]
A June 2008 report, centered on a survey by the Association for Professionals in Infection Control and Epidemiology, concluded that poor hygiene habits remain the principal barrier to significant reductions in the spread of MRSA.

Proper disposal of hospital gowns

Used paper hospital gowns are associated with MRSA hospital infections, which could be avoided by proper disposal.[71]

Isolation

Excluding medical facilities, current US guidance does not require workers with MRSA infections to be routinely excluded from the general workplace.[72] Therefore, unless directed by a health care provider, exclusion from work should be reserved for those with wound drainage that cannot be covered and contained with a clean, dry bandage and for those who cannot maintain good hygiene practices.[72] Workers with active infections should be excluded from activities where skin-to-skin contact is likely to occur until their infections are healed. Health care workers should follow the Centers for Disease Control and Prevention's Guidelines for Infection Control in Health Care Personnel.[73]
To prevent the spread of staph or MRSA in the workplace, employers should ensure the availability of adequate facilities and supplies that encourage workers to practice good hygiene; that surface sanitizing in the workplace is followed; and that contaminated equipment are sanitized with Environmental Protection Agency (EPA)-registered disinfectants.[72]

Restricting antibiotic use

Glycopeptides, cephalosporins and in particular quinolones are associated with an increased risk of colonisation of MRSA. Reducing use of antibiotic classes that promote MRSA colonisation, especially fluoroquinolones, is recommended in current guidelines.[9][14]

Public health considerations

Mathematical models describe one way in which a loss of infection control can occur after measures for screening and isolation seem to be effective for years, as happened in the UK. In the "search and destroy" strategy that was employed by all UK hospitals until the mid-1990s, all patients with MRSA were immediately isolated, and all staff were screened for MRSA and were prevented from working until they had completed a course of eradication therapy that was proven to work. Loss of control occurs because colonised patients are discharged back into the community and then readmitted; when the number of colonised patients in the community reaches a certain threshold, the "search and destroy" strategy is overwhelmed.[74] One of the few countries not to have been overwhelmed by MRSA is the Netherlands: An important part of the success of the Dutch strategy may have been to attempt eradication of carriage upon discharge from hospital.[75]
The Centers for Disease Control and Prevention (CDC) estimated that about 1.7 million nosocomial infections occurred in the United States in 2002, with 99,000 associated deaths.[76] The estimated incidence is 4.5 nosocomial infections per 100 admissions, with direct costs (at 2004 prices) ranging from $10,500 (£5300, €8000 at 2006 rates) per case (for bloodstream, urinary tract, or respiratory infections in immunocompetent patients) to $111,000 (£57,000, €85,000) per case for antibiotic-resistant infections in the bloodstream in patients with transplants. With these numbers, conservative estimates of the total direct costs of nosocomial infections are above $17 billion. The reduction of such infections forms an important component of efforts to improve healthcare safety. (BMJ 2007)[citation needed] MRSA alone was associated with 8% of nosocomial infections reported to the CDC National Healthcare Safety Network from January 2006 to October 2007.[77]
This problem is not unique to one country; the British National Audit Office estimated that the incidence of nosocomial infections in Europe ranges from 4% to 10% of all hospital admissions. As of early 2005, the number of deaths in the United Kingdom attributed to MRSA has been estimated by various sources to lie in the area of 3,000 per year.[78] Staphylococcus bacteria account for almost half of all UK hospital infections. The issue of MRSA infections in hospitals has recently been a major political issue in the UK, playing a significant role in the debates over health policy in the United Kingdom general election held in 2005.
On January 6, 2008, half of 64 non-Chinese cases of MRSA infections in Hong Kong in 2007 were Filipino domestic helpers. Ho Pak-leung, professor of microbiology at the University of Hong Kong, traced the cause to high use of antibiotics. In 2007, there were 166 community cases in Hong Kong compared with 8,000 hospital-acquired MRSA cases (155 recorded cases—91 involved Chinese locals, 33 Filipinos, 5 each for Americans and Indians, and 2 each from Nepal, Australia, Denmark and England).[79]
Worldwide, an estimated 2 billion people carry some form of S. aureus; of these, up to 53 million (2.7% of carriers) are thought to carry MRSA.[80] In the United States, 95 million carry S. aureus in their noses; of these, 2.5 million (2.6% of carriers) carry MRSA.[81] A population review conducted in three U.S. communities showed the annual incidence of CA-MRSA during 2001–2002 to be 18–25.7/100,000; most CA-MRSA isolates were associated with clinically relevant infections, and 23% of patients required hospitalization.[82]
One possible contribution to the increased spread of MRSA infections comes from the use of antibiotics in intensive pig farming. A 2008 study in Canada found MRSA in 10% of tested pork chops and ground pork; a U.S. study in the same year found MRSA in the noses of 70% of the tested farm pigs and in 45% of the tested pig farm workers.[83] There have also been anecdotal reports of increased MRSA infection rates in rural communities with pig farms.[84]
Healthcare facilities with high bed occupancy rates, high levels of temporary nursing staff, or low cleanliness scores no longer have significantly higher MRSA rates. Simple tabular evidence helps provide a clear picture of these changes, showing, for instance, that hospitals with occupancy over 90% had, in 2006–2007, MRSA rates little above those in hospitals with occupancy below 85%, in contrast to the period 2001–2004. In one sense, the disappearance of these relationships is puzzling. Reporters now blame IV cannula and catheters for spreading MRSA in hospitals. (Hospital organisation and speciality mix, 2008)[citation needed]

Decolonization

Care should be taken when trying to drain boils, as disruption of surrounding tissue can lead to larger infections, or even infection of the blood stream (often with fatal consequences).[85] Any drainage should be disposed of very carefully. After the drainage of boils or other treatment for MRSA, patients can shower at home using chlorhexidine (Hibiclens) or hexachlorophene (Phisohex) antiseptic soap (available over-the-counter at many pharmacies) from head to toe. Alternatively, a dilute bleach bath can be taken at a concentration of 2.5 μL/mL dilution of bleach (about 1/2 cup bleach per 1/4-full bathtub of water).[86] Care should be taken to use a clean towel, and to ensure that nasal discharge doesn't infect the towel (see below).
All infectious lesions should be kept covered with a dressing.[85] Mupirocin (Bactroban) 2% ointment can be effective at reducing the size of lesions. A secondary covering of clothing is preferred.[87] As shown in an animal study with diabetic mice, the topical application of a mixture of sugar (70%) and 3% povidone-iodine paste is an effective agent for the treatment of diabetic ulcers with MRSA infection.[88]
The nose is a common refuge for MRSA, and a test swab can be taken of the nose to indicate whether MRSA is present.[89] If MRSA is detected via nasal culture, Mupirocin (Bactroban) 2% ointment can be applied inside each nostril twice daily for 7 days, using a cotton-tipped swab. However, care should be taken so that the swab doesn't penetrate into the sinus. Household members are recommended to follow the same decolonization protocol. After treatment, the nose should be swabbed again to ensure that the treatment was effective. If not, the process should be repeated.
Toilet seats are a common vector for infection, and wiping seats clean before and/or after use can help to prevent the spread of MRSA. Door handles, faucets, light switches (with care!), etc. can be disinfected regularly with disinfectant wipes.[87] Spray disinfectants can be used on upholstery. Carpets can be washed with disinfectant, and hardwood floors can be scrubbed with diluted tea tree oil (e.g. Melaleuca). Laundry soap containing tea tree oil may be effective at decontaminating clothing and bedding, especially if hot water and heavy soil cycles are used, however tea tree oil may cause a rash which MRSA can re-colonize. Alcohol-based sanitizers can be placed near bedsides, near sitting areas, in vehicles etc. to encourage their use.
Doctors may also prescribe antibiotics such as clindamycin, doxycycline or trimethoprim/sulfamethoxazole.

Community settings

The CDC offers suggestions for preventing the contraction and spread MRSA infection which are applicable to those in community settings, including incarcerated populations, childcare center employees, and athletes. To prevent MRSA infection, individuals should regularly wash hands using soap and water or an alcohol-based sanitizer, keep wounds clean and covered, avoid contact with other people's wounds, avoid sharing personal items such as razors or towels, shower after exercising at athletic facilities (including gyms, weight rooms, and school facilities), shower before using swimming pools or whirlpools, and maintain a clean environment.[90]
It may be difficult for people to maintain the necessary cleanliness if they do not have access to facilities such as public toilets with handwashing facilities. In the United Kingdom, the Workplace (Health, Safety and Welfare) Regulations 1992 requires businesses to provide toilets for their employees, along with washing facilities including soap or other suitable means of cleaning. Guidance on how many toilets to provide and what sort of washing facilities should be provided alongside them is given in the Workplace (Health, Safety and Welfare) Approved Code of Practice and Guidance L24, available from Health and Safety Executive Books. But there is no legal obligation on local authorities in the United Kingdom to provide public toilets, and although in 2008 the House of Commons Communities and Local Government Committee called for a duty on local authorities to develop a public toilet strategy [1] this was rejected by the Government [2].

Treatment

Both CA-MRSA and HA-MRSA are resistant to traditional anti-staphylococcal beta-lactam antibiotics, such as cephalexin. CA-MRSA has a greater spectrum of antimicrobial susceptibility, including to sulfa drugs (like co-trimoxazole/trimethoprim-sulfamethoxazole), tetracyclines (like doxycycline and minocycline) and clindamycin (for osteomyelitis), but the drug of choice for treating CA-MRSA is now believed to be vancomycin, according to a Henry Ford Hospital Study. HA-MRSA is resistant even to these antibiotics and often is susceptible only to vancomycin. Newer drugs, such as linezolid (belonging to the newer oxazolidinones class) and daptomycin, are effective against both CA-MRSA and HA-MRSA. Linezolid is now felt to be the best drug for treating patients with MRSA pneumonia.[91][dubious ] Ceftaroline and ceftabiparole, new fifth generation cephalosporins, are the first beta-lactam antibiotics approved in the US to treat MRSA infections (skin and soft tissue only).[citation needed]
Vancomycin and teicoplanin are glycopeptide antibiotics used to treat MRSA infections.[92] Teicoplanin is a structural congener of vancomycin that has a similar activity spectrum but a longer half-life.[93] Because the oral absorption of vancomycin and teicoplanin is very low, these agents must be administered intravenously to control systemic infections.[94] Treatment of MRSA infection with vancomycin can be complicated, due to its inconvenient route of administration. Moreover, many clinicians believe that the efficacy of vancomycin against MRSA is inferior to that of anti-staphylococcal beta-lactam antibiotics against methicillin-susceptible Staphylococcus aureus (MSSA).[95][96]
Several newly discovered strains of MRSA show antibiotic resistance even to vancomycin and teicoplanin. These new evolutions of the MRSA bacterium have been dubbed Vancomycin intermediate-resistant Staphylococcus aureus (VISA).[97] [98] Linezolid, quinupristin/dalfopristin, daptomycin, ceftaroline, and tigecycline are used to treat more severe infections that do not respond to glycopeptides such as vancomycin.[99] Current guidelines recommend daptomycin for VISA bloodstream infections and endocarditis.[100]
There have been claims that bacteriophage can be used to cure MRSA.[101][102]
The psychedelic mushroom Psilocybe semilanceata has been shown to strongly inhibit the growth of Staphylococcus aureus.[103] The cannabinoids CBD and CBG powerfully inhibit MRSA,[104] in addition to the terpenoid pinene which occurs in cannabis.[105]
Initial studies at the University of East London have demonstrated that allicin (a compound found in garlic) exhibits a strong antimicrobial response to the bacteria, indicating that it may one day lead to more effective treatments.[106]
A report released in 2010 details the efficacy of the active ingredients of a new composite dressing (hydrogen peroxide, tobramycin, chlorhexidine digluconate, chlorhexidine gluconate, levofloxacin, and silver) against MRSA.[107]
A 1990 study tested MRSA isolates obtained from veterans and found they could be killed by several substances, including bacitracin, nitrofurantoin, hydrogen peroxide, novobiocin, netilmicin and vancomycin. The study went on to conclude that netilmicin might be useful as an alternative to intravenous vancomycin, and suggested that topical applications of hydrogen peroxide may be useful to reduce MRSA on skin and some mucous membranes.[108]

History

US and UK

Incidence of MRSA in human blood samples in countries which took part in the study in 2008
In 1959 methicillin was licensed in England to treat penicillin-resistant S. aureus infections. Just as bacterial evolution had allowed microbes to develop resistance to penicillin, strains of S. aureus evolved to become resistant to methicillin. In 1961 the first known MRSA isolates were reported in a British study, and between 1961-1967 there were infrequent hospital outbreaks in Western Europe and Australia.[109] The first United States hospital outbreak of MRSA occurred at the Boston City Hospital in 1968. Between 1968-mid-1990s the percent of S. aureus infections that were caused by MRSA increased steadily, and MRSA became recognized as an endemic pathogen. In 1974 2% of hospital-acquired S. aureus infections could be attributed to MRSA.[110] The rate had increased to 22% by 1995, and by 1997 the percent of hospital S. aureus infections attributable to MRSA had reached 50%.
The first report of CA-MRSA occurred in 1981, and in 1982 there was a large outbreak of CA-MRSA among intravenous drug users in Detroit, Michigan.[109] Additional outbreaks of CA-MRSA were reported through the 1980s and 1990s, including outbreaks among Australian Aboriginal populations that had never been exposed to hospitals. In the mid-1990s there were scattered reports of CA-MRSA outbreaks among US children. While HA-MRSA rates stabilized between 1998–2008, CA-MRSA rates continued to rise. A report released by the University of Chicago Children's Hospital comparing two time periods (1993–1995 and 1995–1997) found a 25-fold increase in the rate of hospitalizations due to MRSA among children in the United States.[111] In 1999 the University of Chicago reported the first deaths from invasive MRSA among otherwise healthy children in the United States.[109] By 2004 MRSA accounted for 64% of hospital-acquired S. aureus infections in the United States.
The Office for National Statistics reported 1,629 MRSA-related deaths in England and Wales during 2005, indicating a MRSA-related mortality rate half the rate of that in the United States for 2005, even though the figures from the British source were explained to be high because of "improved levels of reporting, possibly brought about by the continued high public profile of the disease"[112] during the time of the 2005 United Kingdom General Election. MRSA is thought to have caused 1,652 deaths in 2006 in UK up from 51 in 1993.[113]
It has been argued that the observed increased mortality among MRSA-infected patients may be the result of the increased underlying morbidity of these patients. Several studies, however, including one by Blot and colleagues, that have adjusted for underlying disease still found MRSA bacteremia to have a higher attributable mortality than methicillin-susceptible S. aureus (MSSA) bacteremia.[114]
A population-based study of the incidence of MRSA infections in San Francisco during 2004–05 demonstrated that nearly 1 in 300 residents suffered from such an infection in the course of a year and that greater than 85% of these infections occurred outside of the healthcare setting.[115] A 2004 study showed that patients in the United States with S. aureus infection had, on average, three times the length of hospital stay (14.3 vs. 4.5 days), incurred three times the total cost ($48,824 vs $14,141), and experienced five times the risk of in-hospital death (11.2% vs 2.3%) than patients without this infection.[116] In a meta-analysis of 31 studies, Cosgrove et al.,[117] concluded that MRSA bacteremia is associated with increased mortality as compared with MSSA bacteremia (odds ratio = 1.93; 95% CI = 1.93±0.39).[118] In addition, Wyllie et al. report a death rate of 34% within 30 days among patients infected with MRSA, a rate similar to the death rate of 27% seen among MSSA-infected patients.[119]
According to the CDC, the most recent estimates of the incidence of healthcare-associated infections that are attributable to MRSA in the United States indicate a decline in such infection rates. Incidence of MRSA central line-associated blood stream infections as reported by hundreds of intensive care units decreased 50-70% from 2001-2007.[110] A separate system tracking all hospital MRSA bloodstream infections found an overall 34% decrease between 2005-2008.[110]
MRSA is sometimes sub-categorised as community-acquired MRSA (CA-MRSA) or healthcare-associated MRSA (HA-MRSA), although the distinction is complex. Some researchers have defined CA-MRSA by the characteristics of patients whom it infects, while others define it by the genetic characteristics of the bacteria themselves. By 2005, identified CA-MRSA risk factors included athletes, military recruits, incarcerated people, emergency room patients, urban children, HIV-positive individuals, men who have sex with men, and indigenous populations.[109]

Worldwide

The first reported cases of CA-MRSA began to appear in the mid-1990s in Australia, New Zealand, the United States, the United Kingdom, France, Finland, Canada and Samoa, and were notable because they involved people who had not been exposed to a healthcare setting.[6]
Because measurement and reporting varies, it is difficult to compare rates of MRSA in different countries. An international comparison of 2004 MRSA-attributable S. aureus rates in middle and high income countries released by the Center For Disease Dynamics, Economics, and Policy in showed that Iceland had the lowest rate of infection, and Romania had the highest at over 70%.[120]

Research

Clinical

It has been reported that maggot therapy to clean out necrotic tissue of MRSA infection has been successful. Studies in diabetic patients reported significantly shorter treatment times than those achieved with standard treatments.[121][122][123]
Many antibiotics against MRSA are in phase II and phase III clinical trials. e.g.:

Pre-clinical

An entirely different and promising approach is phage therapy (e.g., at the Eliava Institute in Georgia[125]), which in mice had a reported efficacy against up to 95% of tested Staphylococcus isolates.[126]
On May 18, 2006, a report in Nature identified a new antibiotic, called platensimycin, that had demonstrated successful use against MRSA.[127][128]
A 2010 study noted significant antimicrobial action of Ulmo 90 and manuka UMF 25+ honey against several microorganisms, including MRSA. The investigators noted the superior antimicrobial action of Ulmo 90 honey, and suggested it be investigated further.[129] A separate 2010 study examined the use of medical-grade honey against several antibiotic-resistant strains of bacteria, including MRSA. The study concluded that the antimicrobial action of the honey studied was due to the activity of hydrogen peroxide, methylglyoxal, and a novel compound named bee defensin-1.[130]
Ocean-dwelling living sponges produce compounds that may make MRSA more susceptible to antibiotics.[131]
Some semi-toxic fungi/mushrooms excrete broad spectrum antibiotics, not all of which have been fully identified.[132]
Cannabinoids (components of Cannabis sativa), including cannabidiol (CBD), cannabinol (CBN), cannabichromene (CBC), tetrahydrocannabinol (THC) and cannabigerol (CBG), show activity against a variety of MRSA strains.[133]