Goniospectrophotometric analysis of pressed PTFE powder for use as a primary transfer standard.

Pressed polytetrafluoroethylene (PTFE) powder, pressed BaSO(4), and Russian opal glass were evaluated as possible reflectance factor standards for goniospectrophotometry. Pressed PTFE was chosen based on reflectance properties, ease of preparation, durability, availability, and cost. A method of preparation was developed which combined the most Lambertian behavior with high reproducibility. Several of these PTFE preparations were then measured goniospectrophotometrically to provide a set of data which would sufficiently define the bidirectional spectral reflectance factors for use as a transfer standard for nonstandard instrumental geometries.

Epithienamycins-novel beta-lactams related to thienamycin. I. Production and antibacterial activity.

The epithienamycins are cell wall active antibiotics structurally related to N-acetylthienamycin. We have found forty-three isolated of Streptomyces flavogriseus which are capable of producing members of the epithienamycin family. Six major epithienamycin components, and xanthomycin, have been isolated from fermentation broth. Fermentation conditions can be varied to enrich for certain members of the epithienamycin family. All six components show activity in vitro versus a broad spectrum of bacterial species. The weight potencies vary 27 fold from the most active to least active.

Cefoxitin, a semisynthetic cephamycin antibiotic: resistance to beta-lactamase inactivation.

Cefoxitin is a new, cephalosporin-like antibiotic which is highly resistant to hydrolysis by beta-lactamase. Ninety-one cultures were selected either for their general resistance to cephalosporin antibiotics or for their ability to produce beta-lactamase. Some of these cultures were resistant to cefoxitin. The capacity of each of the 91 strains to hydrolyze cefoxitin with beta-lactamase was determined. Only seven of the cultures degraded the antibiotic as determined by a general assay for beta-lactamase. Several others were able to hydrolyze cefoxitin after enzyme was induced by low concentrations of the antibiotic. The role of the constitutive and inducible enzyme in bacterial resistance to the antibiotic was investigated. Enzymatic destruction of cefoxitin was found to be an important factor contributing to bacterial resistance. However, the complete and rapid degradation of cefoxitin is not essential to resistance since one strain, Enterobacter cloacae 1316, hydrolyzed the antibiotic very slowly but was able to grow unaffected in the presence of cefoxitin. The presence of the enzyme is not necessarily sufficient to confer resistance since another culture, Klebsiella D535, readily hydrolyzed the antibiotic but was susceptible to it.

Cephamycins, a new family of beta-lactam antibiotics: antibacterial activity and resistance to beta-lactamase degradation.

The susceptibility to some cephalosporin antibiotics and to cephamycin C, a member of a new family of beta-lactam antibiotics, was evaluated for 466 cultures representing 11 different genera or species of gram-negative clinical isolates. The susceptibility of 39 gram-negative cultures known to produce beta-lactamase was also determined. The beta-lactamase activity of a representative group of the clinical isolates and the 39 enzyme producers was studied with the cephalosporins (cephalothin and cephaloridine) and cephamycin C as substrates and was related to the in vitro disc susceptibility to these same antibiotics. The significant resistance to beta-lactamase displayed by the cephamycins is reflected in the kinetics of enzyme activity (K(m) and V(max)) that are reported for the cephalosporins and the cephamycins. Resistance to beta-lactamase is probably one of the reasons that many cephalosporin-resistant cultures are susceptible to cephamycin C.