Alan R. Prossin scite author profile

An in vivo flow cytometer is developed that allows the real-time detection and quantification of circulating fluorescently labeled cells in live animals. A signal from a cell population of interest is recorded as the cells pass through a slit of light focused across a blood vessel. Confocal detection of the excited fluorescence allows continuous monitoring of labeled cells in the upper layers of scattering tissue, such as the skin. The device is used to characterize the in vivo kinetics of red and white blood cells circulating in the vasculatúre of the mouse ear. Potential applications in biology and medicine are discussed.Current methods to detect and quantify various types of cells within the blood stream involve extraction of blood from the patient or animal followed by ex vivo labeling and detection. For example, standard flow cytometry involves taking blood samples, fluorescently labeling specific cell populations, and passing these cells in a single file through a flow stream. 1 The cells are interrogated by a light source (usually a laser) to determine the types and number of cells based on their fluorescence and light-scattering signals. Another example is a hemocytometer, which involves manual counting of cells against a grid while viewing them with a microscope. Although both methods are useful, they provide only a single time sample. Consequently, if the cell population of interest varies unpredictably or rapidly with time, it is difficult to obtain a valid temporal population profile, since it is difficult to know when to sample. In addition, with both methods, blood must be withdrawn for each time point, and there is a significant time delay between blood withdrawal and analysis. The development of confocal and two-photon imaging techniques has allowed the detection of static and circulating fluorescently labeled cells in vivo. 2 However, extraction of quantitative information about the number and flow characteristics of a specific cell population can be extremely tedious. In addition, the high velocity of flowing cells, especially in the arterial circulation, makes it difficult and sometimes impossible to track the cells, even when images are captured at video rates. To remedy these problems, we have constructed a flow cytometer with the capability of detecting and quantifying the number and flow characteristics of fluorescently labeled cells in vivo and over a continuous time period.The underlying principle of operation of the in vivo flow cytometer is confocal excitation and detection of fluorescently labeled cells in circulation. A schematic of the experimental setup is shown in Fig. 1. The animal to be studied is anesthetized and placed on the stage with its ear adhered to a microscope slide with glycerine. A blood vessel of appropriate diameter is identified (see below). Light from a He-Ne laser is then focused into a slit by a cylindrical lens and imaged across the selected blood vessel with a microscope objective lens (40×, 0.6 NIH-PA Author ManuscriptNIH-PA Author Manuscript NIH-PA...

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Dysregulation of Regional Endogenous Opioid Function in Borderline Personality Disorder

Prossin¹,

Love²,

Koeppe³

et al. 2010

AJP

143

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Differences exist between patients with borderline personality disorder and comparison subjects in baseline in vivo mu-opioid receptor concentrations and in the endogenous opioid system response to a negative emotional challenge that can be related to some of the clinical characteristics of patients with borderline personality disorder. The regional network involved is implicated in the representation and regulation of emotion and stress responses.

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Associations between suicide attempts and elevated bedtime salivary cortisol levels in bipolar disorder

Kamali

Saunders

Prossin

et al. 2012

Journal of Affective Disorders

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Background Hypothalamic-pituitary-adrenal (HPA) axis abnormalities have been reported in bipolar disorder and also in suicidal behavior, but few studies have examined the relationship between suicidal behaviors and the HPA axis function in bipolar disorder, attending to and minimizing confounding factors. We compare HPA axis activity in bipolar individuals with and without suicidal behavior and unaffected healthy controls through measurement of salivary cortisol. Method Salivary cortisol was collected for three consecutive days in 29 controls, 80 bipolar individuals without a history of suicide and 56 bipolar individuals with a past history of suicide. Clinical factors that affect salivary cortisol were also examined. Results A past history of suicide was associated with a 7.4% higher bedtime salivary cortisol level in bipolar individuals. There was no statistical difference between non-suicidal bipolar individuals and controls in bedtime salivary cortisol and awakening salivary cortisol was not different between the three groups. Limitations The measure of salivary cortisol was a home based collection by the study subjects and the retrospective clinical data was primarily based on their historical account. Conclusions Bipolar individuals with a past history of suicidal behavior exhibit hyperactivity in the HPA axis. This biological marker remains significant regardless of demographic factors, mood state, severity and course of illness. This finding in bipolar disorder is consistent with the evidence for altered HPA axis functioning in suicide and mood disorders and is associated with a clinical subgroup of bipolar patients at elevated risk for suicide based on their history, and in need of further attention and study.

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Association of Plasma Interleukin-18 Levels with Emotion Regulation and μ-Opioid Neurotransmitter Function in Major Depression and Healthy Volunteers

Prossin

Koch

Campbell

et al. 2011

Biological Psychiatry

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Alan R. Prossin

In vivo flow cytometer for real-time detection and quantification of circulating cells

Dysregulation of Regional Endogenous Opioid Function in Borderline Personality Disorder

Associations between suicide attempts and elevated bedtime salivary cortisol levels in bipolar disorder

Association of Plasma Interleukin-18 Levels with Emotion Regulation and μ-Opioid Neurotransmitter Function in Major Depression and Healthy Volunteers

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