Brian J. Sweetman scite author profile

A BSTRA CT Human urine was analyzed by mass spectrometry for the presence of prostaglandins. Pros-taglandin E2 and F2. were detected in urine from females by selected ion monitoring of the prostaglandin E2-methylester-methoxime bis-acetate and the prostaglandin F2a-methyl ester-Tris-trimethylsilylether de-rivative. Additional evidence for the presence of prostaglandin F2. was obtained by isolating from female urine an amount of this prostaglandin sufficient to yield a complete mass spectrum. The methods utilized permitted quantitative analysis.The origin of urinary prostaglandin was determined by stimulating renal prostaglandin synthesis by arachidonic acid or angiotensin infusion. Arachidonic acid, the precursor of prostaglandin E2, when infused into one renal artery of a dog led to a significant increase in the excretion rate of this prostaglandin. Similarly, infusion of angiotensin II amide led to a significantly increased ipsilateral excretion rate of prostaglandin E2 and F2. in spite of a simultaneous decrease in the creatinine clearance. In man, i.v. infusion of angiotensin also led to an increased urinary elimination of prostaglandin E.These results show that urinary prostaglandins may originate from the kidney, indicating that renally synthesized prostaglandins diffuse or are excreted into the tubule. Thus, urinary prostaglandins are a reflection of renal prostaglandin synthesis and have potential as a tool to delineate renal prostaglandin physiology and pathology.

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Increased Production of Prostaglandin D2 in Patients with Systemic Mastocytosis

Roberts¹,

Sweetman²,

Lewis³

et al. 1980

N Engl J Med

403

124

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A mathematical model of blood, cerebrospinal fluid and brain dynamics

et al. 2009

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Using first principles of fluid and solid mechanics a comprehensive model of human intracranial dynamics is proposed. Blood, cerebrospinal fluid (CSF) and brain parenchyma as well as the spinal canal are included. The compartmental model predicts intracranial pressure gradients, blood and CSF flows and displacements in normal and pathological conditions like communicating hydrocephalus. The system of differential equations of first principles conservation balances is discretized and solved numerically. Fluid-solid interactions of the brain parenchyma with cerebral blood and CSF are calculated. The model provides the transitions from normal dynamics to the diseased state during the onset of communicating hydrocephalus. Predicted results were compared with physiological data from Cine phase-contrast magnetic resonance imaging to verify the dynamic model. Bolus injections into the CSF are simulated in the model and found to agree with clinical measurements.

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Coronary Arterial Smooth Muscle Contraction by a Substance Released from Platelets: Evidence That It Is Thromboxane A ₂

Ellis

Oelz

Roberts

et al. 1976

Science

495

109

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When human platelets are aggregated by thrombin, material is released that rapidly contracts strips of spirally cut porcine coronary artery. Prevention of the contraction by indomethacin suggested mediation by a prostaglandin. The contraction produced by aggregating platelets was unlike those produced by prostaglandins E2, F2alpha, G2, or H2, but resembled that evoked by thromboxane A2, which is formed by platelets during aggregation.

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Three-dimensional computational prediction of cerebrospinal fluid flow in the human brain

Sweetman¹,

Xenos²,

Zitella³

et al. 2011

Computers in Biology and Medicine

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A three-dimensional model of the human cerebrospinal fluid (CSF) spaces is presented. Patient-specific brain geometries were reconstructed from magnetic resonance images. The model was validated by comparing the predicted flow rates with Cine phase-contrast MRI measurements. The model predicts the complex CSF flow patterns and pressures in the ventricular system and subarachnoid space of a normal subject. The predicted maximum rostral to caudal CSF flow in the pontine cistern precedes the maximum rostral to caudal flow in the ventricles by about 10% of the cardiac cycle. This prediction is in excellent agreement with the subject-specific flow data. The computational results quantify normal intracranial dynamics and provide a basis for analyzing diseased intracranial dynamics.

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Formation of thiol conjugates of 9-deoxy-.DELTA.9,.DELTA.12(E)-prostaglandin D2 and .DELTA.12(E)-prostaglandin D2

Atsmon

Sweetman²,

Baertschi³

et al. 1990

Biochemistry

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Albumin catalyzes the transformation of prostaglandin D2 to 9-deoxy-delta 9,delta 12(E)-prostaglandin D2 and to isomeric prostaglandin D2 compounds including delta 12(E)-prostaglandin D2. Both of these compounds are alpha,beta-unsaturated ketones, which should render them susceptible to nucleophilic addition. We therefore examined the ability of the compounds to form conjugates with thiols glutathione and cysteine. During incubation with excess glutathione, both 9-deoxy-delta 9,delta 12(E)-prostaglandin D2 and delta 12(E)-prostaglandin D2 formed a conjugate. Conjugation of 9-deoxy-delta 9,delta 12(E)-prostaglandin D2 occurred very rapidly; approximately 70% was conjugated within 2 min. In contrast, conjugation of delta 12(E)-prostaglandin D2 with glutathione proceeded at a much slower rate; only 38% was conjugated at 60 min. The formation of both conjugates was enhanced by glutathione S-transferase. Conjugation of both compounds with cysteine was found to occur more rapidly than with glutathione. This effect was more pronounced with delta 12(E)-prostaglandin D2 in which 60% conjugated with cysteine within 2 min. These differences are likely attributed to greater steric hindrance for conjugation across the delta 12 double bond compared to that across the delta 9 bond. Analysis by fast atom bombardment mass spectrometry confirmed the formation of the glutathione conjugate of 9-deoxy-delta 9,delta 12(E)-prostaglandin D2. Following prolonged incubation of 9-deoxy-delta 9,delta 12(E)-prostaglandin D2 with excess glutathione in the presence of glutathione S-transferase, a small quantity of a bis conjugate of this compound was also detected by mass spectrometry.(ABSTRACT TRUNCATED AT 250 WORDS)

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Cerebrospinal Fluid Flow Dynamics in the Central Nervous System

Sweetman

Linninger

2010

Ann Biomed Eng

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Cine-phase-contrast-MRI was used to measure the three-dimensional cerebrospinal fluid (CSF) flow field inside the central nervous system (CNS) of a healthy subject. Image reconstruction and grid generation tools were then used to develop a three-dimensional fluid-structure interaction model of the CSF flow inside the CNS. The CSF spaces were discretized using the finite-element method and the constitutive equations for fluid and solid motion solved in ADINA-FSI 8.6. Model predictions of CSF velocity magnitude and stroke volume were found to be in excellent agreement with the experimental data. CSF pressure gradients and amplitudes were computed in all regions of the CNS. The computed pressure gradients and amplitudes closely match values obtained clinically. The highest pressure amplitude of 77 Pa was predicted to occur in the lateral ventricles. The pressure gradient between the lateral ventricles and the lumbar region of the spinal canal did not exceed 132 Pa (~1 mmHg) at any time during the cardiac cycle. The pressure wave speed in the spinal canal was predicted and found to agree closely with values previously reported in the literature. Finally, the forward and backward motion of the CSF in the ventricles was visualized, revealing the complex mixing patterns in the CSF spaces. The mathematical model presented in this article is a prerequisite for developing a mechanistic understanding of the relationships among vasculature pulsations, CSF flow, and CSF pressure waves in the CNS.

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Increased arachidonate in lipids after administration to man: Effects on prostaglandin biosynthesis

Seyberth

Oelz

Kennedy

et al. 1975

Clin Pharma and Therapeutics

154

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Ethyl arachidonate was administered orally to 4 healthy male volunteers in a dose of 6 gm daily for a 2 to 3 wk period after a JO-day control period. The increased intake of this precursor of the dienoic prostaglandins resulted in significant increases in the relative and absolute amount of arachidonate in plasma triglycerides, phospholipids, and cholesteryl esters. Similar changes in lipid composition were noted in platelets. The excretion of 7 a-hydroxy-5, ll-diketotetranorprostane-1 ,16-dioic acid, the major urinary metabolite of E prostaglandins in man, was increased by an average of 47% in 3 of the 4 volunteers. Platelet reactivity was assessed by determining the threshold concentration of adenosine diphosphate (ADP) necessary to induce secondary, irreversible aggregation of platelet-rich plasma. This threshold concentration dropped significantly in all volunteers (10% to 60% of control values). It is concluded that the biosynthesis and function of prostaglandins can be augmented in man by oral administration of an esterified precursor fatty acid.Free arachidonic acid is the precursor of the dienoic prostaglandins, including prostaglandins E2 and F 2a . In tissue and plasma, arachidonic acid is found in the ester linkage of phospholipids, cholesteryl esters, and triglycerides. Before arachidonic acid becomes available to prostaglandin synthetase, it must be released by either phospholipases or tri-

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Brian J. Sweetman

Urinary prostaglandins. Identification and origin.

Increased Production of Prostaglandin D2 in Patients with Systemic Mastocytosis

A mathematical model of blood, cerebrospinal fluid and brain dynamics

Coronary Arterial Smooth Muscle Contraction by a Substance Released from Platelets: Evidence That It Is Thromboxane A ₂

Three-dimensional computational prediction of cerebrospinal fluid flow in the human brain

Formation of thiol conjugates of 9-deoxy-.DELTA.9,.DELTA.12(E)-prostaglandin D2 and .DELTA.12(E)-prostaglandin D2

Cerebrospinal Fluid Flow Dynamics in the Central Nervous System

Increased arachidonate in lipids after administration to man: Effects on prostaglandin biosynthesis

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Brian J. Sweetman

Urinary prostaglandins. Identification and origin.

Increased Production of Prostaglandin D2 in Patients with Systemic Mastocytosis

A mathematical model of blood, cerebrospinal fluid and brain dynamics

Coronary Arterial Smooth Muscle Contraction by a Substance Released from Platelets: Evidence That It Is Thromboxane A 2

Three-dimensional computational prediction of cerebrospinal fluid flow in the human brain

Formation of thiol conjugates of 9-deoxy-.DELTA.9,.DELTA.12(E)-prostaglandin D2 and .DELTA.12(E)-prostaglandin D2

Cerebrospinal Fluid Flow Dynamics in the Central Nervous System

Increased arachidonate in lipids after administration to man: Effects on prostaglandin biosynthesis

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Coronary Arterial Smooth Muscle Contraction by a Substance Released from Platelets: Evidence That It Is Thromboxane A ₂