Edmund J. Lovett scite author profile

In this paper we describe a theory of DNA histogram debris generation and compensation that can be applied to paraffin-embedded frozen tissue preparations. The theory predicts the distribution of fragments generated from single and multiple random sectioning of threedimensional ellipsoids representing nuclei. The fragment distribution is assumed to be a major component of the underlying debris in DNA histograms. A comparison of S-phase fractions (SPF) from matched tissue prepared by frozen and formalin-fixed paraffin-embedded DNA methods demonstrates the usefulness of the theory.Key terms: DNA histogram analysis, cell cycle analysis, debris subtraction, debris compensation, S-phase analysis, paraffin processing Although over 100 retrospective clinical flow cytometry studies have examined DNA index and prognosis ( l l ) , less than 15% of these studies attempted to examine S-phase fraction (SPF). This low percentage is presumably due to investigators' lack of confidence in SPF estimates because of paraffin-embedded derived debris contamination in the S-phase region. Haag et al. (9) demonstrated that compensating for debris with either a n algebraic or exponential function yielded SPF estimates that were more comparable with 3H-thymidinelabeling indices. A few studies have compensated for debris with an exponential and have found SPF to be a more important prognostic factor than DNA index (8,2,3).In our own retrospective studies (Bagwell, unpublished results) we have found exponential debris compensation has a strong tendency to overcompensate for debris in the S-phase region in many samples resulting in abnormally low SPF estimates (see Fig. 1). The debris distribution for formalin-fixed paraffin-embedded tissue generally does not decrease as an exponential just prior to the GO-G1 peak. The mismatch in shape between the observed debris distribution and the exponential model component can result in poor computer regression fits and highly variable estimates of SPF.In this paper we present a theory that describes the distribution of debris resulting from random sectioning through nuclei. Although the presented theory is similar to that published by Bins et al. (7), the assumed geometry, calculated probability distributions, and method of compensation is fundamentally different. The shape of the debris curve presented in this paper is calculated from the observed histogram and is subsequently used as a model component in a Marquardt nonlinear least-squares algorithm ( 5 ) . We refer to this type of model component, with its shape derived from the histogram, as a histogram-dependent model component. The initial idea behind this technique was suggested to us by Dr. Dennis Way and Dr. Benjamin Love at the Annual Application Courses held in 1986 and 1987 and more recently a similar compensation algorithm has been implemented by Rabinovitch (13). We describe the theory in detail and test it with matched samples that have been prepared by frozen and paraffin-embedded DNA methods. MATERIALS AND METHODS Sample Selection, ...

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A simple and rapid method for determining the linearity of a flow cytometer amplification system

Bagwell

Baker

Whetstone

et al. 1989

Cytometry

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We describe a simple and rapid method for determining the linearity of a flow cytometer amplification system. The method is based on a fundamental characteristic of linear amplifiers: The difference between two amplified signals increases linearly with increasing amplifier gain. Two populations of beads or cells, differing slightly in fluorescence intensity, are analyzed by the flow cytometer at increasing photomultiplier tube high-voltage settings. The distribution of the populations' mean difference versus mean position is a straight line intersecting the origin for linear amplifiers. Although some types of nonlinearities cannot be detected with this technique, deviations from linearity indicate nonlinear components in the flow cytometer amplification system. The correlation coefficient is used to quantify degree of nonlinearity. We also describe a method for amplifier nonlinearity compensation.

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Halothane, surgery, immunosuppression and artificial pulmonary metastases

Lundy

Lovett

Hamilton

et al. 1978

Cancer

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C57B1/6 mice were given intravenous tumor cells on day O. Mice were then given either a brief exposure to halothane anesthesia or given halothane and then underwent a hind limb amputation. Immune testing was done at varying time intervals and correlated with the development of artificial pulmonary metastases. The effects of a single 15 minute exposure to halothane on the immune system are probably short-lived and no effect on cell-mediated cytotoxicity was seen on day 7, nor was an increase in pulmonary metastases observed. However, when anesthesia was combined with surgery, cell-mediated cytotoxicity was impaired and an increase in pulmonary metastases was seen. The use of thiabendazole (TBZ), an nonspecific immunopotentiator, in the perioperative period restored the cell-mediated cytotoxic response and resulted in a significant decrease in pulmonary metastases.

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Immune impairment and metastatic tumor growth.The need for an immunorestorative drug as an adjunct to surgery

Lundy

Lovett

Wolinsky

et al. 1979

Cancer

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A spontaneous murine metastatic tumor system was used as a model to assess the effects of a major surgical procedure on tumor-specific immune reactivity and the growth of micrornetastases. Any major surgical procedure resulted in impaired cell-mediated cytotoxicity postoperatively and an increase in the number of gross pulmonary metastases. The use of an immunorestorative drug, Thiabendazole, in the perioperative period resulted in an improved cytotoxic response and a significant decrease in pulmonary metastases. Perioperative immunotherapy can be an effective adjunct to surgery in preventing the growth of micrometastatic foci. Cancer 43:945-951. 1979. MAJOR OBJECTIVE of oncologists is to A integrate the strengths of the multi-modality approach to cancer to effect greater cure rates. There are several studies in the literature which clearly indicate that currently employed conventional cancer modalities are immunosuppressive.2~5~1z*16 Data in our laboratory , using murine models, indicate that certain anesthetic agents alone, and with major surgical procedures, are capable of impairing cell-mediated immunity and increasing tumor growth of artificial pulmonary metasta~es.~*~ To simulate more closely the human clinical situation, a spontaneous murine metastatic system was used in this set of experiments. Our objectives were: 1) to demonstrate the immunosuppressive effect of a major surgical procedure; 2) to determine if this produced a significant biologic consequence, i.e., an Presented at the 31st Annual Meeting

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Edmund J. Lovett

U.S.-Canadian consensus recommendations on the immunophenotypic analysis of hematologic neoplasia by flow cytometry: standardization and validation of laboratory procedures

DNA histogram debris theory and compensation

A simple and rapid method for determining the linearity of a flow cytometer amplification system

Halothane, surgery, immunosuppression and artificial pulmonary metastases

Immune impairment and metastatic tumor growth.The need for an immunorestorative drug as an adjunct to surgery

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