Edward W. Lanning scite author profile

ExtractIn vitro studies were undertaken to measure the effects of varying concentrations of albumin and flux on the photodecomposition of bilirubin.By using an experimental model, the effect of albumin on photodegradation of bilirubin was determined. Synthetic crystalline bilirubin solutions (20 mg/100 ml, pH 7.4) were exposed to the same flux levels for periods of 4.5 hr. The only variable in this series was the concentration of albumin, ranging from 0.5 to 5 g/100 ml. As the the concentration of albumin increased, the reaction rate decreased (Fig. 5).The efficiency of phototherapy was studied by varying flux levels while maintaining other variables constant. Figure 6 shows a nonlinear relation between reaction rate and flux, in which higher flux levels resulted in less decomposition per amount of flux (i.e., efficiency). More than twice the flux level was required to attain a twofold increase in decomposition rate. The effect of light flux was such that continuous use of the lowest practical level is to be recommended.Data are given on the comparison of the relative effectiveness of cool white, high intensity blue, and two experimental lamps. The four lamps were tested at conditions of constant distance and constant flux. The high intensity blue lamp was twice as effective as the cool white. The two experimental lamps showed a 17% increase over the blue lamp (Figs. 2 and 3).The effect of time on the spectral output of the fluorescent lamps in an experimental model was determined by using a spectral radiometer. The energy dropoff within the 420-to 480-nm region at 200 hr was approximately 20% for blue lamps and averaged 7.5% for the experimental lamps. SpeculationAs with any new drug used on the neonate, the effects of phototherapy must be categorized, and the procedure must be standardized. Further investigations are needed to determine exact in vivo decomposition products, optimal timing of exposure, differences in skin attenuation, toxicity reactions, site of action, and photobiologic and photochemical alterations and interreactions.

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Determination of vanadium and oxygen in vanadium oxides by differential spectrophotometry and inert gas fusion-gas chromatography

Lanning¹,

Weberling²

1968

Anal. Chem.

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absorption maximum of the nitrobenzene phase shifts to 536 nm.Likewise, tests have shown that when the 536 nm species in nitrobenzene is treated with a dehydrating agent, such as anhydrous sodium sulfate, in the presence of excess ligand (QAQH), the absorption maximum of the nitrobenzene phase shifts to 555 nm.As a result of the above observations, the 536-nm species appears to have the structure compatible to that observed by Geldard and Lions (8), and shown in Figure 4.Attempts to isolate and identify positively the 536-nm species have been discouraging; however, work is being continued toward this end.

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Analysis of Organic Mixtures Using the Combination of a Thermogravimetric Analyzer, a Gas Chromatograph and an Infrared Spectrophotometer

Cukor¹,

Lanning

1971

Journal of Chromatographic Science

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Differential spectrophotometric determination of europium in yttrium europium vanadate using an expanded-scale absorption slidewire

Lanning¹

1969

Anal. Chem.

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Edward W. Lanning

Chemical and physical characteristics of organic fractions in airborne particulate matter

Chemical Variables and New Lamps in Phototherapy

Determination of vanadium and oxygen in vanadium oxides by differential spectrophotometry and inert gas fusion-gas chromatography

Analysis of Organic Mixtures Using the Combination of a Thermogravimetric Analyzer, a Gas Chromatograph and an Infrared Spectrophotometer

Differential spectrophotometric determination of europium in yttrium europium vanadate using an expanded-scale absorption slidewire

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