A randomized trial of tigecycline versus ampicillin-sulbactam or amoxicillin-clavulanate for the treatment of complicated skin and skin structure infections

Skin and skin structure infections are classified as complicated (cSSSIs) if the infection has spread to the deeper tissues, surgical intervention is required, or the patient has a comorbid condition (e.g. diabetes mellitus) that complicates response to treatment [1]. Although most community-acquired skin infections are caused by Staphylococcus aureus and Streptococcus pyogenes, cSSSIs may have a diverse bacterial etiology depending on the clinical diagnosis, anatomic location, and healthcare setting [2‐5]. The availability of therapies effective against a variety of pathogens including community-acquired methicillin-resistant S. aureus (CA-MRSA) may be desirable with certain cSSSIs.

Tigecycline is an intravenous expanded broad-spectrum glycylcycline with in vitro activity against pathogens associated with cSSSI [6, 7]. The in vitro activity includes Gram-positive and Gram-negative organisms (except Pseudomonas spp.), anaerobes, atypical organisms, and some multidrug-resistant pathogens [8‐11]. Tigecycline is not affected by classical tetracycline resistance mechanisms and has no cross-resistance with common resistance mechanisms in other classes of antibiotics; however, resistance to tigecycline via non-specific multidrug efflux pumps has been demonstrated [12].

Tigecycline has previously been found to be non-inferior to the combination of vancomycin and aztreonam in adults for the treatment of cSSSI in two randomized, double-blind, phase 3 trials [13, 14]. Here, the efficacy and safety of tigecycline in hospitalized patients was compared with that of ampicillin-sulbactam or amoxicillin-clavulanate, which are commonly used in the treatment of cSSSI.

A phase 3b/4, randomized, open-label, comparative study was conducted in subjects with cSSSI between September 2006 and September 2008 at 77 centers worldwide. The protocol (Pfizer Inc, data on file) was approved by the ethics committee of each participating center and written informed consent was obtained from each subject prior to enrollment. The study was block randomized by site (block size of 4); allocation sequence was not provided to investigators. Investigators were responsible for subject enrollment. Subjects were centrally randomized by computer at a 1:1 ratio to receive either tigecycline or comparator for a minimum of 4 days and a maximum of 14 days. Subjects assigned to tigecycline received 100 mg IV followed by 50 mg every 12 hrs. Subjects assigned to the comparator received ampicillin-sulbactam 1.5 to 3 g IV every 6 hrs or amoxicillin-clavulanate 1.2 g IV every 6 to 8 hrs. Vancomycin 1 g IV every 12 hrs could be added to the comparator regimen if infection with MRSA was suspected or confirmed within the first 72 hrs of enrollment. The aminopenicillin/β-lactamase inhibitor and vancomycin (by serum levels) could be dose-adjusted per local guidelines. If culture results failed to isolate MRSA, vancomycin could be discontinued.

A total of 550 subjects were enrolled and randomized. Nineteen subjects did not receive study drug and all subjects met severity of infection criteria (Figure 1). Fifty-nine tigecycline and 67 comparator subjects did not meet evaluability criteria (p = 0.360). No clinical evaluation at TOC, use of prohibited/concomitant medication, inclusion/exclusion criteria not met, and insufficient treatment duration were the most common reasons for non-evaluability. Five subjects were excluded from the ME population because of isolates not susceptible to both test articles; in each case resistance was present for the comparator drug.

Skin and skin structure infections frequently result in hospitalization with significant morbidity and mortality. Failure to initiate appropriate empiric medical therapy can result in longer hospital stays, increased costs, and mortality [19‐21]. Recent increases in ambulatory visits and hospitalization due to cSSSI have been attributed to the increase of CA-MRSA [22, 23]. In this study, the most common pathogen was S. aureus, which was isolated in more than half of all subjects in the m-mITT population. Half of the S. aureus isolates demonstrated methicillin resistance, and 74% of them were CA-MRSA. The majority of all S. aureus isolates had vancomycin MICs of ≥1 μg/mL consistent with prior observations of vancomycin MIC creep [24, 25]. However, a more diverse microbiological spectrum of pathogens in skin infections has previously been reported and was observed in this study [2, 3]. Therefore, empiric treatment of hospitalized subjects with cSSSI may require broad spectrum antibiotic regimens and may require activity against MRSA.

A working group in South Africa has published guidelines on the appropriate use of tigecycline and has provided clinical scenarios that may be useful to clinicians [26]. In particular they have suggested that directed therapy against polymicrobial infections that include resistant pathogens such as extended spectrum β-lactamases and empiric therapy for subjects at risk of such infections would be supported. Patients with prior antibiotic exposure or failure, renal insufficiency, or β-lactam allergy may also benefit from tigecycline.

In this study, tigecycline was effective as empiric monotherapy in the treatment of hospitalized subjects with cSSSI. Tigecycline monotherapy was non-inferior to a commonly prescribed antibiotic for cSSSI, the aminopenicillin/β-lactamase inhibitor (±vancomycin). These results confirmed and are consistent with the results of two previous randomized, double-blind, active-controlled, multinational, multicenter phase 3 trials [13, 14]. The combined clinical cure rate in the previous two studies was 86.5% in the tigecycline group versus 88.6% in the vancomycin/aztreonam group, (difference -2.1%; 95% CI: -6.8 to 2.7) [27].

Both tigecycline and comparator were generally well tolerated. Tigecycline has increased gastrointestinal AEs consistent with other tetracycline antibiotics; however, the severity of the nausea and vomiting were almost exclusively mild to moderate and few subjects required treatment discontinuation. An increase in all-cause mortality has been observed in the tigecycline clinical program; however, a difference was not observed in this study or in the cSSSI indication (risk difference 0.7; 95% CI: -0.5, 1.9) [28]. Overall, tigecycline was demonstrated to be safe in this clinical trial and the safety profile is consistent with prior cSSSI trials.

Two strengths of this study were that more than 60% of subjects presented with cellulitis and 20% were prior antibiotic failures. In a recent paper on the justification for noninferiority margins in cSSSI trials, the greatest benefit for antimicrobial therapy was seen in patients with cellulitis and erysipelas [29]. In a recent health outcomes paper, Edelsberg and colleagues demonstrated worse outcomes and increased resource utilization in cSSSI patients who were prior antibiotic failures [19]. In the current study, tigecycline compared favorably with the comparator regimen in subjects who had cellulitis and in subjects who were prior antibiotic failures (Table 2). The major limitation of this study is its open-label design and the potential bias on the outcomes. However, the outcomes are consistent with prior double-blinded studies in cSSSI.

This trial and the two previous clinical trials in cSSSI support the efficacy and safety of tigecycline use in this patient population [13, 14]. Tigecycline has been included in the Surgical Infections Society’s updated guidelines for the management of cSSIs, specifically for the treatment of rapidly progressive soft tissue infections due to S. aureus and MRSA [20]. The Infectious Disease Society of America’s (IDSA) guidelines on the treatment of MRSA acknowledged the approved use of tigecycline within this indication but did not include tigecycline in its recommendations because of available MRSA-active alternatives and the increase in all-cause mortality noted in the tigecycline clinical program [30]. Recently, the IDSA guidelines on DFIs [31] has listed tigecycline as a suggested empiric regimen despite tigecycline not meeting primary study endpoints in its DFI clinical trial.

Marc Alpert, Central Montgomery Surgical Association, Lansdale, PA 19446, USA (28); Peter Armstrong, Dwight D Eisenhower Army Medical Center, Fort Gordon, GA 30905-5650, USA (1); Charles Bailey, Aliso Viejo, CA 92656, USA; German Berbel, HealthFirst Medical Group Research, Fort Worth, TX 76104, USA (14); Jack Bernstein, Dayton Veteran Affairs Medical Center, Dayton, OH 45428, USA; Jose Bordon, Providence Hospital Clinical Research Center, NE Washington, DC 20017, USA (8); Lou Ann Bruno-Murtha, Cambridge Health Alliance, Somerville, MA 02143, USA (5); Russell Caprioli, Long Island Jewish Medical Center, New Hyde Park, NY 11040, USA (4); Kathleen Casey, Jersey Shore University Medical Center, Neptune, NJ 07754, USA (3); Tom Chiang, VA NJ Healthcare System, East Orange, NJ 07018, USA (5); Allan Churukian, eStudySite, San Diego, CA 92114, USA; William Flynn, ECMC Department of Surgery, Buffalo, NY 14215, USA (1); Donald Graham, Springfield Clinic LLP, Springfield, IL 62701, USA (11); Zijun Hao, St. Elizabeth Regional Medical Center, Lincoln, NE 68510, USA (17); Kenneth Kalassian, Emory University Hospital, Atlanta, GA 30322, USA; Richard Kohler, Wishard Hospital, Indianapolis, IN 46202, USA; Juliet Lee, The Medical Faculty Associates, Washington, DC 20037, USA; William Leeds, Topeka, KS 66606, USA (2); Christopher Lucasti, South Jersey Infectious Disease, Somers Point, NJ 08244, USA (22); Gregory Malanoski, AMS Infectious Disease, Elmira, NY 14905, USA; Tien Ko, LBJ General Hospital Surgery Department, Houston, TX 77026, USA (8); Venkat Minnaganti, Infectious Disease Specialists of Central Illinois, Decatur, IL 62526, USA (2); Miguel Mogyoros, Kaiser Permanente, Denver, CO 80205, USA (2); Bill Morgan, Harris Methodist Fort Worth Hospital, Fort Worth, TX 76104, USA; Charles Moss, Moss and Geuder Surgical Group, Hackensack, NJ 07601, USA; Satish Muluk, Allegheny General Hospital, Pittsburgh, PA 15212, USA (5); Rekha Murthy, Los Angeles, CA 90048, USA (1); William O’Riordan, eStudysite, San Diego, CA 92114, USA (8); Francis Pien, Honolulu, HI 96814, USA (13); Hiram Polk, University of Louisville, Louisville, KY 40292, USA (1); James B. Augustinsky, Naperville, IL 60563, USA (10); Michelle Salvaggio, Infectious Diseases Institute Clinical Trials Unit, Oklahoma City, OK 73104-5068, USA; Leon Smith, Saint Michael’s Medical Center, Newark, NJ 07102, USA; Raymond Smith, Stratton VA Medical Center, Albany, NY 12208, USA; R. Scott Stienecker, Regional Infectious Diseases-Infusion Center, Lima, OH 45801, USA (20); Byungse Suh, Section of Infectious Diseases, Philadelphia, PA 19140, USA (4); Jose Vazquez, Henry Ford Health System, Detroit, MI 48202, USA (24); Dennis E. Weiland, Scottsdale, AZ 85259, USA (5); Mireya Wessolossky, UMass Medical School/UMass Memorial Center, Worcester, MA 01655, USA (5); Jonathan Zenilman, Johns Hopkins Bayview Medical Center, Baltimore, MD 21224, USA (1); Carl Abraham, Jonesboro, AR 72401, USA (6); Richard Nathan, Idaho Falls, ID 83404, USA (5); Phillip Sanchez, Southeastern Clinical Research Consultants, Orlando, FL 32804, USA; Ian Baird, Remington-Davis, Inc., Columbus, OH 43215, USA (4); Charles Callahan, Clinical Research Center of Indian River Medical Center, Vero Beach, FL 32960, USA; Christian G. Schrock, Infectious Diseases Minneapolis Ltd., Minneapolis, MN 55422, USA (6); William Lau, Honolulu, HI 96813, USA (1); Markian R. Bochan, Infectious Disease of Indiana, Indianapolis, IN 46280, USA; Michael Somero, Research Office, Palm Springs, CA 92262, USA (1); Stanley R. Klein, Harbor-UCLA Medical Center, Torrance, CA 90509, USA (4); Charles Bellows III, Tulane University Health Science Center, New Orleans, LA 70112, USA; Annick D’Hooghe, St-Elisabeth Ziekenhuis, Antwerpen, 2000, Belgium; Françoise Ceulemans, Center Hospitalier Regional de Namur, Belgium; Jacques Gaillat, Center Hospitalier General d’Annecy, Annecy Cedex, 74011, France; Bernard Garo, CHU Hopital de la Cavale Blanche, 29609 Brest Cedex, France; Christian Eckmann, Universitaetsklinikum, 23538 Lubeck, Germany (9); Joerg Haier, Molecular Biology Laboratory, 48149 Munster, Germany (3); Fredy Suter, U.O. Malattie Infettive, Bergamo, 24128, Italy; Aldo Bertani, A.O.U. Ospedali Riuniti Umberto I G.M Lancisi-G. Salesi, 60126 Torrette di Ancona, Italy (5); Francisco Acin, Hospital Universitario de Getafe Servicio de Cirugia Vascular Planta 4B, 28905 Getafe (Madrid), Spain (4); Manuel E. Jiménez-Mejías, Hospital Universitario Virgen del Rocio, Sevilla, 41013, Spain; Ignacio Blanes, Hospital Universitario Dr. Peset, Valencia, 46017, Spain; Dolores Sousa Regueiro, Comolejo Hospitalaro, 15006 A Coruna, Spain (2); Nedim Cakir, Dokuz Eylul University Medical Faculty Clinical Microbiology and Infectious Diseases, Izmir 35340, Turkey; Rabin Saba, Akdeniz University Medical Faculty, 07070 Antalya, Turkey; Michael Giladi, Infectious Disease Unit, Tel-Aviv, 64239, Israel (5); Galia Rahav, Chaim Sheba Medical Center, Ramat Gan, 52662, Israel (18); Souha Kanj-Sharara, American University of Beirut, Beirut, 110 32090, Lebanon (5); Abdulhakeem Okab Ahmed al Thaqafi, King Abdulaziz Medical City-Western Region Infectious Disease Department, Jeddah, 21423, Saudi Arabia (5); Wai-Man Ng, Queen Mary Hospital, Hong Kong (1); Andrew Burd, Prince of Wales Hospital, Shatin, New Territories, Hong Kong (2); Utkrant Kurlekar, Deenanath Mangeshkar Hospital and Research Center, Maharashtra, India (8); N. Raghupathi Rao, Apollo Hospitals, Andhra Pradesh, India (4); T. Devarajan, Apollo First Med Hospitals, Tamil Nadu State, India; Junyong Choi, Yonsei University Medical Center Severance Hospital, Medical School, Seoul, 120-752, South Korea (4); Yeonsook Kim, Chungnam National University Hospital, Daejeon, 301-721, South Korea (7); Hyunjoo Pai, Hanyang University Hospital, Seoul, 133-791, South Korea (13); Yoon-Soo Park, Gachon Medical School Gil Medical Center, Incheon, 405-760, South Korea (14); Suresh Kumar, Hospital Sungai Buloh, 47000, Selangor, Malaysia (1); Ting Soo Chow, Hospital Pulau Pinang, 10990 Penang, Malaysia (5); Armando Crisostomo, Philippine General Hospital, Manila, 1000, Philippines (6); Alex Erasmo, University of Santo Tomas Hospital, Manila, 1008, Philippines (7); Alex Erasmo, Jose R. Reyes Memorial Medical Center, Manila, 1014, Philippines (8); Jenny Low, Singapore General Hospital, Singapore, 169608, Singapore (8); M.M. Basson, Tiervlei Trial Center, Bellville, 7531, Cape Town, South Africa (7); Johannes Breedt, Eugene Marais Medical Village, Pretoria, South Africa (8); P.A. Matthews, Middelburg Hospital, Middelburg, 1050, South Africa (21); D.P. Ross, St. Mary’s Hospital, Durban, South Africa (5); His-Hsun Lin, E-Da Hospital, Kaohsiung County, Taiwan (7); Chun-Hsing Liao, Far Eastern Memorial Hospital, Taipei County, Taiwan (9); Hsiang-Chi Kung, National Taiwan University Hospital, Yunlin County, 640, Taiwan (3); Vitoon Chinswangwatanakul, Siriraj Hospital, Bangkok, 10700, Thailand (6); Kumthorn Malathum, Ramathibodi Hospital, Rajathevee, Bangkok 10400, Thailand; Terapong Tantawichien, Faculty of Medicine, Pathumwan, Bangkok 10330, Thailand; Sergio Ricardo Filho Penteado, Hospital Universitario Evangelico de Curitiba, CEP: 80730-150, Brazil; Fernando Cardoso, Hospital Universitario Clementino Fraga Filho, Ilha do Fundao, Rio de Janeiro, Brazil (1); Roosevelt Fajardo Gomez, Fundacion Santa Fe do Bogota, Bogota DC, Colombia; David Fernandez Velazquez, Instituto Nacional de Ciencias Medicas y Nutricion, Delegacion Tlalpan CP 14000, Mexico; Juan Carlos Tinoco-Favila, Durango, Mexico (4); Andre Poirier, Centre Hospitalier Régional de Trois-Rivières, Québec, G8Z 3R9, Canada (17); Louis Valiquette, CRC – C.H.U.S. - Hôpital Fleurimont, Sherbrooke Québec, J1H 5N4, Canada (2); Karl Weiss, Hôpital Maisonneuve-Rosemont, Montréal, Québec, H1T 2 M4, Canada (7); Doria Grimard, Center de Santé et des Services Sociaux de Chicoutimi, Chicoutimi Québec, G7H 5H6, Canada (19); John M.A. Embil, Winnipeg Health Sciences Center, Winnipeg Manitoba, R3A 1R9, Canada (3); Steven E. Sanche, Royal University Hospital, Saskatoon Saskatchewan, S7N 0W8, Canada (1); Ken Smith, Discovery Clinical Services, Victoria British Columbia, V8T 5G4, Canada (1); Sylvain Chouinard, Institut Universitaire de Cardiologie et de Pneumologie de Québec, Québec, G1V 4G5, Canada (9); Patrick Dolcé, Center de Santé et de Services Sociaux de Rimouski-Neigette, Rimouski Québec, G5L 5T1, Canada.