Michael J. Sollenberger scite author profile

Michael J. Sollenberger

3Publications

20Citation Statements Received

31Citation Statements Given

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Affiliations

Wake Forest University, University of Virginia, Wake Forest Baptist Medical Center

Publications

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Specific Physiological Regulation of Luteinizing Hormone Secretory Events Throughout the Human Menstrual Cycle: New Insights into the Pulsatile Mode of Gonadotropin Release

Sollenberger

Carlsen

Johnson

et al. 1990

J Neuroendocrinology

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To investigate the physiological regulation of luteinizing hormone (LH) secretory events and the endogenous clearance of this hormone, we applied multiple-parameter deconvolution analysis to serum LH concentration-time series obtained from normal women during three phases of the menstrual cycle. The number of significant LH secretory bursts (124 h) was maximal in the late follicular (LF) phase (27k1.6; meanfSEM), minimal in the mid-luteal (ML) phase (1Ok1.0) and intermediate in the early follicular (EF) phase (18k1.4). Similarly, the half-duration of the secretory impulse (min) was different at each phase of the cycle with values of 6.5k1.0, 3.5k0.9 and 1 1 k1.1 during the EF, LF and ML phases, respectively. In contrast, there were no cycle-dependent differences in the LH half-life or in the total daily secretion of LH.When maximal secretory impulse amplitudes were examined, a putative bimodal distribution was found in the ML but not the EF or LF phases. The amplitudes for the large ML impulses, the LF and EF impulses and the small ML impulses were 0.95+0.05, 0 70k0.03, 0.43k0.02 and 0.26f0.02, respectively. The mass (mlU/ml) of hormone secreted within bursts was minimal in the LF phase (2.1 f0.1), maximal in the large ML impulses (10.2+0.5) and intermediate in the EF (2.8f0.1) and small ML (3.1 k0.3) secretory impulses.There was no evidence of tonic (i.e. inter-secretory burst) LH secretion during any phase of the menstrual cycle. The early morning hours of the EF phase were characterized by fewer secretory bursts of greater amplitude. During the ML phase, autocorrelation analysis of inter-secretory burst intervals revealed a negative association indicating that high frequency events both precede and follow secretory pauses. In addition, secretory burst amplitude and both the preceding and following inter-secretory burst interval was correlated to secretory burst amplitude.These new data on the nature of regulated LH secretion indicate that specific facets of spontaneous LH secretory events are controlled throughout the menstrual cycle. Such observations offer a basis for defining altered secretory dynamics in a variety of pathophysiologic situations.The regulated patterns of pulsatile luteinizing hormone (LH) imposed by calculations based on resultant, peripheral LH conrclcase during the normal menstrual cycle constitute a fundacentrations rather than the underlying pituitary secretory events. mcntal physiolopical property of the hypothalamic-pituitary To evaluate endogenous secretion requires not only estimates ovarian axis. The application of computer-assisted pulse detection of subject-and hormone-specific half-lives, but also appropriate mcthodologies for the identification and characterization of putatstatistical technology to reconstruct secretion rates given such ive LH peaks in concentration-time series has resulted in a wide knowledge of subject-and hormone-specific metabolic clearance range of LH pulse frequency and amplitude estimates (1-11).rate (MCR) (or corresponding half-life, since MC...

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Nature of gonadotropin-releasing hormone self-priming of luteinizing hormone secretion during the normal menstrual cycle

Sollenberger

Carlsen

Booth

et al. 1990

American Journal of Obstetrics and Gynecology

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Electrophilic aromatic substitution. 4. A kinetic study of the Friedel-Crafts benzylation reaction in excess aromatic

DeHaan¹,

Covey²,

Ezelle³

et al. 1984

J. Org. Chem.

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Kinetic studies have been made of the titanium tetrachloride catalyzed reactions between benzyl chloride and benzene or toluene in an excess of the aromatic hydrocarbon at 30 °C. The reaction follows first-order dependence upon benzyl chloride and is second order with respect to catalyst. The results depend strongly on the amount of moisture present. Where moisture is minimized using new vacuum line procedures, the results obtained, kT/kB = 20 (±12) and isomer product distribution 41 (±3)% ortho, 6 (±2)% meta, and 53 (±3)% para methyldiphenylmethane, are in good agreement with Brown's selectivity relationship. The reaction mechanism is discussed in terms of attack by a benzyl cation or an ion pair [C6H6CH2+ Ti2Cl9_] on the aromatic.

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