Satya S. Das

Comparison of 99mTc infecton imaging with radiolabelled white-cell imaging in the evaluation of bacterial infection.

BACKGROUND Bacterial infection can pose a substantial diagnostic dilemma. Techniques involving radiolabelled leucocytes can pinpoint the site of inflammation. However, previous radiolabelling techniques have failed to distinguish between bacterial-mediated infection and non-bacterial inflammation. To overcome this difficulty, we have studied a radiopharmaceutical, technetium-99m (99mTc) Infecton, which is based on the antibiotic ciprofloxacin. METHODS We used this agent to image bacterial infection in 56 patients (one twice) with known or suspected sites of infection. We then compared the imaging results of these patients with those from a radiolabelled leucocyte study. FINDINGS The concordance rate was 68% (39 out of 57 images). In 18 discordant results 99mTc Infecton was correctly positive in 8 out of 9 positive studies and correctly negative in 4 out of 9 negative studies. 4 out of 5 of the falsely negative studies were in patients who had taken antibiotics for over 7 days. We found that 99mTc Infecton gave better imaging results than radiolabelled leucocytes. Comparison between 99mTc Infecton and leucocyte imaging gave sensitivities of 84% and 81%, and specificities of 96% and 77%, respectively. INTERPRETATION We believe that the specificity 99mTc Infecton confers for bacterial infection and its ease of administration are the main advantages of this new agent.

Clinical evaluation of technetium-99m infecton for the localisation of bacterial infection.

The aim of the study was to distinguish infection from inflammation in patients with suspected infection using technetium-99m Infecton. Ninety-nine patients (102 studies) referred for infection evaluation underwent imaging with 400 MBq99mTc-Infecton at 1 and 4 h. Most patients had appropriate microbiological tests and about half (56) had radiolabelled white cell scans as well. No adverse effects were noted in any patient. The clinical efficacy of99mTc-Infecton depended in part on whether imaging was undertaken during intibiotic therapy for infection or not. In consultation with the microbiologist, 5–14 days of appropriate and successful antibiotic therapy was considered adequate to classify some results as true-negatives. The figures for sensitivity and specificity of99mTc-Infecton for active or unsuccessfully treated infection were 83% and 91% respectively. It is concluded that99mTc-Infecton imaging contributed to the differential diagnosis of inflammation. It is being used as the first imaging modality when bacterial infection is suspected.

Imaging bacterial infection with 99mTc-ciprofloxacin (Infecton)

Aims: The diagnosis of deep seated bacterial infections, such as intra-abdominal abscesses, endocarditis, and osteomyelitis, can be difficult and delayed, thereby compromising effective treatment. This study assessed the efficacy of a new radioimaging agent, Tc-99m ciprofloxacin (Infecton), in accurately detecting sites of bacterial infection. Methods: Eight hundred and seventy nine patients with suspected bacterial infection underwent Infecton imaging and microbiological evaluation. The sensitivity and specificity of Infecton in detecting sites of bacterial infection were determined with respect to Centres of Disease Control, World Health Organisation, and Dukes’s criteria. Results: Five hundred and seventy four positive and 295 negative images were produced. These included 528 true positives, 46 false positives, 205 true negatives and 90 false negatives, giving an overall sensitivity of 85.4% and a specificity of 81.7% for detecting infective foci. Sensitivity was higher (87.6%) in microbiologically confirmed infections. Conclusions: Infecton is a sensitive technique, which aids in the earlier detection and treatment of a wide variety of deep seated bacterial infections. The ability to localise infective foci accurately is also important for surgical intervention, such as drainage of abscesses. In addition, serial imaging with Infecton might be useful in monitoring clinical response and optimising the duration of antimicrobial treatment.

Evaluation of the efficacy of 99mTc-Infecton, a novel agent for detecting sites of infection.

AIMS: To determine the sensitivity and specificity of 99mTc-Infecton (Infecton), a novel ciprofloxacin based imaging agent, in detecting sites of infection. METHODS: Ninety patients thought to be suffering from a variety of infections were administered 300-400 MBq of Infecton intravenously. Whole body images were taken one and four hours later. Appropriate specimens were taken for microbiological investigations. Statistical analysis was performed using a computer statistical package. RESULTS: Ninety eight Infecton images were produced. Forty one of these were positive, including three false positives, where the patients had non-infective conditions. Fifty seven negative images were obtained, of which 41 were true negatives and 16 were false negatives, having definite evidence of infection. Thus, Infecton imaging has a sensitivity of 70.3% and a specificity of 93.1% for detecting infective foci. The positive and negative predictive values were 92.6% and 71.9%, respectively. CONCLUSION: Infecton imaging is a new diagnostic tool that is specific for detecting sites of bacterial infection in the body. The high positive predictive value displayed by the technique is clinically important because a positive image strongly supports a diagnosis of bacterial infection. A negative result does not rule out an infection, and may be a result of previous or current antibiotic treatment and/or infection with organisms that do not take up Infecton. Infecton imaging has major advantages over well established imaging techniques, including radiolabelled leucocytes, and may prove to be a superior method for localising bacterial infections.

Infection imaging with radiopharmaceuticals in the 21st century

Infection continues to be a major cause of morbidity and mortality worldwide. Nuclear medicine has an important role in aiding the diagnosis of particularly deep-seated infections such as abscesses, osteomyelitis, septic arthritis, endocarditis, and infections of prosthetic devices. Established techniques such as radiolabelled leucocytes are sensitive and specific for inflammation but do not distinguish between infective and non-infective inflammation. The challenge for Nuclear medicine in infection imaging in the 21st century is to build on the recent trend towards the development of more infection specific radiopharmaceuticals, such as radiolabelled anti-infectives (e.g. 99mTc- ciprofloxacin). In addition to aiding early diagnosis of infection, through serial imaging these agents might prove very useful in monitoring the response to and determining the optimum duration of anti-infective therapy. This article reviews the current approach to infection imaging with radiopharmaceuticals and the future direction it might take.

Advances in bacterial specific imaging

Nuclear medicine is a powerful diagnostic technique able to detect inflammatory foci in human disease. A wide range of agents have been evaluated for their ability to distinguish lesions due to microbial infection from those due to sterile inflammation. Advances continue to be made on the use of radiolabelled antibiotics which as well as being highly specific in the diagnosis of infection may be useful in monitoring the treatment and course of disease. Here we provide an update on in-vitro and clinical studies with a number of established and novel radiopharmaceuticals

Characteristics and Outcomes of Dialysis Patients with Infective Endocarditis

Background: The incidence of infective endocarditis (IE) in dialysis patients is higher than the general population. Dialysis patients who develop endocarditis are thought to have a poorer prognosis than other patients with IE. Aim: To examine the risk profiles, clinical features, and outcomes of patients on dialysis who developed IE in a large cohort. Design and Methods: A retrospective analysis of all patients developing IE on dialysis (using the modified Duke criteria) was undertaken between 1998 and 2011. Patients were identified from a prospectively collected clinical database. Results: 42 patients developed IE out of a total incident dialysis population of 1,500 over 13 years. 95% of the patients (40/42) were on long-term haemodialysis (HD) and 5% (2/42) on peritoneal dialysis. Mean patient age was 55.2 years (IQR: 43-69), and mean duration of HD prior to IE was 57.4 months. Primary HD access at the time of diagnosis was an arteriovenous fistula in 35% (14/40), a dual-lumen tunnelled catheter in 55% (22/40), and a dual-lumen non-tunnelled catheter in 10% (4/40). Staphylococcus aureus (including methicillin-resistant S. aureus) was present in 57.1% (24/42). The aortic valve was affected in 42.8% of the patients (18/42), the mitral valve in 30.9% (13/42), and both valves in 9.5% (4/42). 33.3% of the patients had an abnormal valve before the episode of IE. In 21.4% (9/42), valve surgery was performed and mortality was lower in the surgical group compared to the group managed medically during hospitalisation (11.1 vs. 15.2%, p = 0.892), at 3 months (13.1 vs. 19.6%, p = 0.501), and during follow-up (p = 0.207), but this difference did not reach statistical significance. Age >60 years, septic emboli, and methicillin-resistant S. aureus were all adverse prognostic factors. Patients receiving surgery were younger (mean 47.1 ± 14.4 years vs. 57.4 ± 14.3, p = 0.049) and less likely to be infected with S. aureus (surgery 33.3% vs. antibiotics 63.6%, p = 0.046). Conclusion: This is one of the largest reported series of IE in dialysis patients. The incidence of IE remains high and the prognosis poor in dialysis patients, although patients selected for early valve surgery have good 1-year survival.

The dangers of dog bites

This report describes an unusual case of endocarditis caused by Capnocytophaga canimorsus as a result of dog bite. The diagnosis could be established only by molecular techniques after amplification of bacterial DNA from the infected cardiac valve. The epidemiology and management of Capnocytophaga infections is discussed, as well as the role of prophylactic antibiotics in preventing these infections after dog bites.

Endocarditis due to high level gentamicin resistant Enterococcus faecium

We describe the first reported case in the literature of bacterial endocarditis caused by Enterococcus faecium that was highly resistant to gentamicin. The case is unusual in that it followed a successfully treated Streptococcus sanguis endocarditis. The micro-organism was susceptible only to the glycopeptide antibiotics, vancomycin and teicoplanin and to agents such as pristinamycin and daptomycin which are not routinely available for treatment. It illustrates the therapeutic dilemma posed by serious infections with such micro-organisms and supports previous observations that early heart valve replacement surgery may be necessary to achieve cure of endocarditis due to enterococci which are highly resistant to gentamicin. It further emphasises the importance of screening for high-level aminoglycoside resistance in enterococci in all life threatening enterococcal infections, including endocarditis, septicaemia and meningitis when aminoglycoside-penicillin synergy is required for successful treatment.

Imaging Bacterial Infection with a Radiolabelled Antibiotic

The bio-physiological basis of nuclear medicine imaging is related to the disease process and it has been further developed - this time the target is bacteria and the disease state is infection. It is often than an inflammation may be due to bacterial infection. Conditions like osteomyelitis or endocarditis where long term antibiotic therapy would be appropriate require that the specific presence of a bacterial infection is demonstrated as the cause of inflammation. The available radiopharmaceuticals: Ga-67 citrate, Tc-99m or In-111 human immune globulin, Tc-99m antigranulocyte antibodies or binding peptides or Tc-99m/In-111 labelled leucocytes offer little help to provide this specific information. To address this issue, a search was pursued for an agent which would bind to living bacteria and that can be radiolabelled. This has resulted in development of Tc-99m Infection by Solanki et al [1].