FDA Approves Teflaro for Bacterial Infections

The U.S. Food and Drug Administration today (October 29) approved Teflaro (ceftaroline fosamil), an injectable antibiotic to treat adults with community acquired bacterial pneumonia (CABP) and acute bacterial skin and skin structure infections (ABSSSI), including methicillin-resistant Staphylococcus aureus (MRSA).

Teflaro is an antibacterial agent in a class of drugs known as cephalosporins, which act by interfering with the bacterial cell wall.

CABP is a bacterial infection that develops in the lungs of patients who are exposed to the bacteria in their normal environment, and not in the hospital. ABSSSI is a bacterial infection of skin and skin structures that requires antibiotic treatment and may require surgical treatment.

MRSA is a type of staph bacteria that is resistant to certain antibiotics. These antibiotics include methicillin and other more common antibiotics such as oxacillin, penicillin, and amoxicillin. In the community, most MRSA infections are skin infections. Severe or potentially life-threatening MRSA infections occur most frequently among patients in contact with health care settings, according to the Centers for Disease Control and Prevention.

“These are serious and potentially life-threatening infections for which new treatment options are needed,” said Edward Cox, M.D., M.P.H, director, Office of Antimicrobial Products in FDA's Center for Drug Evaluation and Research. “FDA is committed to facilitating new antibiotic drug development.”

The safety and effectiveness of Teflaro was evaluated in four, Phase 3 clinical trials in patients ages 18 years and older (two each in CABP and in ABSSSI). In the CABP trials, the comparator antibacterial treatment was Rocephin (ceftriaxone) and in the ABSSSI trials, the comparator antibacterial treatment was Vancocin (vancomycin) plus Azactam (aztreonam).

In the CABP trials, 1,231 adult patients received Teflaro or Rocephin. Clinical response based on improvement in signs and symptoms of pneumonia on Day 4 after starting therapy served as the key analysis endpoint. In both trials, the effectiveness of Teflaro was comparable to Rocephin.

In the ABSSSI trials, 1,396 adult patients received Teflaro or Vancocin plus Azactam. Clinical response, including cessation of spread of the lesion and absence of fever on Day 3, served as the key analysis endpoint. In both trials, Teflaro was comparable to Vancocin plus Azactam.

The most commonly reported side effects in patients treated with Teflaro included diarrhea, nausea and rash. Teflaro should not be used in patients with sensitivities to cephalosporin antibiotics.

Teflaro is marketed by New York City-based Forest Laboratories.

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Old Drug Holds Promise Against Opportunistic Lung Bug

/PRNewswire/ -- A drug to treat inflammation plays a surprising role reducing the level of infection caused by an opportunistic bug that is deadly for AIDS and cancer patients and others with weakened immune systems.

The drug, sulfasalazine, spurs the body to get rid of the fungal evaders by enhancing the body's ability to chew them up instead of leaving the debris to litter the lungs, where it would continue to provoke an onslaught of harmful inflammation.

Besides opening a new avenue for research on Pneumocystis pneumonia or PCP, caused by the fungus Pneumocystis jirovecii, the work with mice also offers the possibility of manipulating immune cells called macrophages to improve treatment of infections.

The findings by scientists at the University of Rochester Medical Center were published August 19 in the journal PLoS Pathogens.

During a bout with Pneumocystis, the lungs become a battlefield, where the body pits an array of impressive forces against marauding microbes. But even when the body gets the upper hand, the damage is tremendous. Immune cells like neutrophils and macrophages can flood the lungs, literally suffocating the patient. And when the debris from dead microbes fills the lungs, more and more immune cells are called in to clean up the area, making matters worse. It becomes harder and harder to breathe.

"Many people assume that once the microbe is dead, patients usually start to feel better immediately. But with Pneumocystis, patients do not always undergo a rapid clinical improvement following antibiotic treatment. Even though the bug has been killed, the debris that is left in the lungs continues to promote inflammation," said corresponding author Terry Wright, Ph.D., an infectious disease specialist and associate professor of Microbiology and Immunology and of Pediatrics.

Pneumocystis is a common bug that infects nearly everyone at some point; the authors say that more than 80 percent of children have been infected by the age of 2. Most people shake off the infection without consequence, but for people with cancer, AIDS, or other diseases that compromise their immune system, the infection can be deadly. Usually there are few signs that the patient is sick until the infection is well established and the fungus is widespread in the lungs. Among cancer patients, mortality rates as high as 40 percent have been reported.

Since the body's immune response is central to how Pneumocystis kills patients, doctors use two different types of drugs in tandem to treat patients - an antibiotic to kill the bug, and steroids or another type of drug to reduce the consequent inflammation.

Central to the study were mice in which the disease progresses in a manner very similar to AIDS patients. The remarkable strides in AIDS therapy in recent years have come with a down side for many patients, thanks to Pneumocystis: When anti-retroviral therapy kicks in, a patient's immune system often becomes stronger very quickly - and if the fungus is present, the immune system attacks it vigorously, causing a potentially deadly form of pneumonia.

Wright's team looked at the effects in mice of sulfasalazine, an anti-inflammatory drug that has proven useful in treating conditions like Crohn's disease and rheumatoid arthritis. The team found that Pneumocystis-infected mice treated with sulfasalazine developed much less severe disease than untreated mice. The sulfasalazine-treated mice had better lung function, less weight loss, and were generally healthier than untreated animals.

While some of the benefit was due to the drug's anti-inflammatory properties and was expected, the result included a big surprise: The drug also spurs the body to remove the bug more aggressively by boosting the activity of immune cells called macrophages.

"This was unexpected," said first author Jing Wang, Ph.D., research assistant professor in Pediatrics. "Since we reduced the response of the immune system, you would think the mice would get sicker. But instead, the mice treated with sulfasalazine were healthier. At first we thought it was due solely to the anti-inflammatory activity of the compound, but it turns out that sulfasalazine actually results in a reduced fungal burden. The drug helps the body clear the infection.

"We initially thought we had done something wrong, and so we repeated the experiment again and again. Then, when new technology was developed, we were able to document that the body cleared the infection more readily with sulfasalazine," added Wang.

Scientists have long known that the body's immune T cells are central to the body's response to fight off the infection. The Rochester team showed that the body's T cells spur macrophages to attack the fungus - to engulf its particles and chew them up in a process known as phagocytosis.

While scientists have long suspected that role for macrophages, the Rochester team relied on a new technology to gather the first direct evidence of macrophages engulfing fungal particles. The scientists worked closely with Timothy Bushnell, Ph.D., and others at Rochester's Flow Cytometry Resources Core, investigating new ways to use lasers to capture images of molecular events. Bushnell's team ultimately connected the team with scientists at Amnis. Together the group developed a new way to capture macrophage phagocytosis in single cells from mice infected with Pneumocystis. The technology enabled the team to capture more than 40,000 such events, compared to just a handful when using conventional microscopy.

The team showed that as macrophage activity increased, the animals' health improved and levels of fungus decreased. For example, 17 days after infection, mice treated with sulfasalazine had nine times as many macrophages that had engulfed fungal particles compared to mice that had not been treated with the compound.

"This marks a new direction in which to look for new therapies to treat Pneumocystis as well as other inflammatory diseases. Identifying modulators that can increase or decrease the action of our immune system in a precise manner is a growing area of research," said Wright. Recently researchers have come to realize that there are different kinds of macrophages, and Wright noted that the type whose activity is trigged by sulfasalazine does not contribute to inflammation.

In addition to Wang and Wright, other authors include Francis Gigliotti, M.D., professor of Pediatrics and of Microbiology and Immunology, and also chief of Infectious Disease at Golisano Children's Hospital; Samir Bhagwat, Ph.D., research assistant professor of Pediatrics; and Thaddeus George from the Amnis Corp. in Seattle. The work was funded by the National Heart Lung and Blood Institute and the Strong Children's Research Center.

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Note to People with Scarred and Stiffened Lungs: Monitor Your Sleep Before Severe Fatigue Sets In

Family, friends and neighbors remember Lisa Sandler Spaeth as an active mother of two in Potomac, Md., with a lot on the go, juggling her son’s baseball games and her daughter’s horseback-riding lessons with numerous committee obligations, organizing women’s activities at her local synagogue. Add to this Spaeth’s thriving home business turned wholesale supplier - making custom hair accessories for children - which she founded with her mother.

But Spaeth was also diagnosed with pulmonary fibrosis, a hard-to-treat disease that progressively damages the lungs and starves the body of oxygen. For two years after her diagnosis, until her death in May 2007, at age 44, Spaeth was beset by fatigue. Her energy levels sank as her lungs deteriorated. Breathing became difficult, and she could no longer attend many of the sporting events, trade fairs and women’s groups that filled her life.

It is with people like Spaeth in mind that researchers at Johns Hopkins and elsewhere have found what is likely to be the first evidence linking the extreme fatigue in the lung-scarring disease, which has no known cause, to the poor quality of sleep that results - as much as a 25 percent loss in body-rejuvenating R.E.M. sleep. And they have also gauged the detrimental effects this has on people’s daily lives, nearly halving test scores used to assess physical and mental quality of life.

In a report appearing this month in the journal Chest, senior study investigator and pulmonologist Sonye Danoff, M.D., Ph.D., who treated Spaeth, found more than twice the amount of nighttime sleep disturbances and double the number of daytime episodes of drowsiness among 41 men and women with so-called idiopathic pulmonary fibrosis than in people with healthy lungs.

“Physicians should strongly consider monitoring people with this scarring lung disease for sleep disorders as part of their standard care, because poor sleep has a profound effect on their quality of life,” says Danoff, an assistant professor at the Johns Hopkins University School of Medicine.

The latest study results back up previous research by Danoff and other sleep experts at Johns Hopkins, which showed that 18 of 22 people with fibrosed lungs had problems breathing while asleep. The majority of them dropped out of R.E.M. sleep during the night, losing 25 percent of total R.E.M. sleep time.

It is during the R.E.M. period that rapid eye movements occur (hence the name), that people dream and that the body recovers from the previous day and builds up energy for the next.

Pulmonary fibrosis makes people highly vulnerable to sleep problems, Danoff says, because they often breathe twice as fast to supply the body with oxygen. And just as breathing and other body functions naturally slow down at the onset of R.E.M. sleep, these people who depend on a higher rate of breathing are constantly being pushed to wake up from a lack of oxygen.

“Essentially,” she adds, “the body’s internal alarms go off as people enter the most rejuvenating part of sleep. And when people don’t get a good night’s sleep, they cannot function normally the next day. It’s a slippery slope that gets progressively worse over time.”

Also in this latest Johns Hopkins study are survey results assessing quality of life and quality of sleep, which showed that people with stiffened lungs and sleep problems have 40 percent lower scores in physical activities compared to the general U.S. population. Rated activities included basic tasks, such as going to the mailbox and walking to the car. Mental and social activities, such as carrying on a conversation with a store clerk or telephoning friends and family, were reduced 48 percent.
Sleep quality was assessed on a scale comprising 36 different sleep measurements, such as the length of time it took to fall asleep and overall time spent sleeping.

Moreover, the team’s analysis showed that sleep problems could not be predicted by other demographic factors, such as age, gender, race or weight. Nor were they linked, researchers say, with other lung function and more noticeable disease symptoms, including shortness of breath and cough.

“Because there is so much about pulmonary fibrosis that we cannot yet fix, we need to focus on what we can fix while we wait for research to catch up with treatments that can prevent or reverse the disease,” says Danoff.

Current treatments for pulmonary fibrosis are limited to steroids and other immune-system-lowering drugs that help slow down lung tissue deterioration as the thin walls of the air sacs stiffen and lose capacity to freely expand and contract.

More than 200,000 Americans suffer from pulmonary fibrosis, whose cause remains unknown. And the lung disease kills nearly 40,000 each year.

“If we had been able to treat Lisa Spaeth’s fatigue from poor quality sleep, then she might have had more time to lead her life as fully as she had been prior to getting sick,” says Danoff.

Despite Spaeth’s death, her zest for life carries on. Her mother, Froma Sandler, maintains the business. And through the encouragement of family and friends, more than a thousand people have donated to medical research in Spaeth’s honor. The largest-ever contributions arrived in May, just prior to the first anniversary of Spaeth’s death, when the Maryland-based Robert M. Fisher Memorial Foundation pledged $2 million to Johns Hopkins to help fund Danoff’s future studies into pulmonary disease.

“This research funding will lay the groundwork for a more consolidated and comprehensive look at the many factors that may improve and extend the lives of patients with pulmonary fibrosis: from rehabilitation of the lungs to the development and testing of new medications to offset losses in quality of life from fatigue,” says Danoff.

Danoff plans to use some of the funding to support studies that monitor patients with pulmonary fibrosis for problems in sleep patterns, especially in deep-sleep R.E.M. patterns, to target for treatment.

Another phase of research, she says, involves testing new devices to support breathing during sleep and to see if these devices improve quality sleep time and abate fatigue.

Funding for this latest study was provided by a fellowship grant from the CHEST Foundation, the philanthropic arm of the American College of Chest Physicians, which also publishes the journal Chest, and by The Johns Hopkins Hospital’s General Clinical Research Center.

In addition to Danoff, other Hopkins researchers involved in these studies, conducted solely in Balimore, were Vidya Krishnan, M.D.; Meredith McCormack, M.D., M.H.S.; Stephen Mathai, M.D., M.H.S.; Maureen Horton, M.D.; and Nancy Collop, M.D. Additional assistance was provided by Shikhar Agarwal, M.D., from the Johns Hopkins University’s Bloomberg School of Public Health; Brittany Richardson, from the University of Maryland; and Albert Polito, M.D., from Mercy Medical Center.