Walter Mak scite author profile

The fragmentation mechanisms of protonated triglycine and its first-generation dissociation products have been investigated using a combination of density functional theory calculations and threshold collision-induced dissociation experiments. The activation barrier measured for the fragmentation of protonated triglycine to the b(2) ion and glycine is in good agreement with a calculated barrier at the B3LYP/6-31++G(d,p) level of theory reported earlier [Rodriquez, C. F. et al. J. Am. Chem. Soc. 2001, 123, 3006-3012]. The b(2) ion fragments to the a(2) ion via a transition state structure that is best described as acylium-like. Contrary to what is commonly assumed, the lowest energy structure of the a(2) ion is not an iminium ion, but a cyclic, protonated 4-imidazolidone. Furthermore, fragmentation of the b(2) to the a(1) ion proceeds not via a mechanism that results in HNCO and H(2)C=C=O as byproducts, as have been postulated, but via a transition state that contains an incipient a(1) ion and an incipient carbene. The fragmentation of a(2) to a(1) proceeds via a transition state structure that contains the a(1) ion, CO and an imine as incipient components.

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Radiographic and Histologic Response to Neoadjuvant Radiotherapy in Patients With Soft Tissue Sarcoma

Canter

et al. 2010

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BackgroundLimited data exist regarding the radiographic and histologic response of soft tissue sarcoma (STS) to neoadjuvant radiotherapy (RT).MethodsBetween February 2000 and January 2009, a total of 25 patients aged >16 years with intermediate- or high-grade primary STS of all sites were treated with neoadjuvant RT followed by definitive resection. Patients receiving chemoradiotherapy were excluded. Cross-sectional images obtained before and after RT as well as pathologic specimens were reviewed for maximal change in tumor diameter and percentage tumor necrosis, respectively. Clinicopathologic variables were analyzed for their association with pathologic and radiographic response.ResultsThere were 18 extremity (72%) and 7 retroperitoneal (28%) tumors. Median maximal tumor size was 9 cm (range, 3.3–35 cm), and 88% were of high grade. There were 21 R0 resections (84%) and 4 R1 resections (16%). Radiographically, the median percentage change in tumor diameter was 0% (range, −25 to +86%). By Response Evaluation Criteria in Solid Tumors (RECIST), 5 patients demonstrated progressive disease, 20 demonstrated stable disease, and 0 demonstrated partial/complete response. The median pathologic percentage tumor necrosis was 30% (range, 5–100%). Two tumors (8%) demonstrated near-complete pathologic response (≥95% necrosis). Near-complete pathologic response was associated with favorable oncologic outcomes, although these associations were not statistically significant.ConclusionsRadiologic and near-complete pathologic responses are rare events after preoperative RT for STS. Near-complete pathologic response may be a potentially meaningful surrogate marker for disease outcome and is not predicted by RECIST response. Knowledge of these historical response rates is important for the evaluation of novel neoadjuvant therapies for patients with STS.

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Hemodilutional anemia is associated with increased cerebral neuronal nitric oxide synthase gene expression

Hare

Mazer

Mak

et al. 2003

Journal of Applied Physiology

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Severe hemodilutional anemia may reduce cerebral oxygen delivery, resulting in cerebral tissue hypoxia. Increased nitric oxide synthase (NOS) expression has been identified following cerebral hypoxia and may contribute to the compensatory increase in cerebral blood flow (CBF) observed after hypoxia and anemia. However, changes in cerebral NOS gene expression have not been reported after acute anemia. This study tests the hypothesis that acute hemodilutional anemia causes cerebral tissue hypoxia, triggering changes in cerebral NOS gene expression. Anesthetized rats underwent hemodilution when 30 ml/kg of blood were exchanged with pentastarch, resulting in a final hemoglobin concentration of 51.0 +/- 1.2 g/l (n = 7 rats). Caudate tissue oxygen tension (Pbr(O(2))) decreased transiently from 17.3 +/- 4.1 to 14.4 +/- 4.1 Torr (P < 0.05), before returning to baseline after approximately 20 min. An increase in CBF may have contributed to restoring Pbr(O(2)) by improving cerebral tissue oxygen delivery. An increase in neuronal NOS (nNOS) mRNA was detected by RT-PCR in the cerebral cortex of anemic rats after 3 h (P < 0.05, n = 5). A similar response was observed after exposure to hypoxia. By contrast, no increases in mRNA for endothelial NOS or interleukin-1beta were observed after anemia or hypoxia. Hemodilutional anemia caused an acute reduction in Pbr(O(2)) and an increase in cerebral cortical nNOS mRNA, supporting a role for nNOS in the physiological response to acute anemia.

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Phorbol Esters Stimulate Growth and Inhibit Differentiation in Cultured Thyroid Cells*

et al. 1985

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The potent tumor promoter 12-O-tetradecanoylphorbol 13-acetate (TPA) has biological effects on cell growth and differentiation similar to the effects of epidermal growth factor (EGF) on a variety of cells. Since EGF has been shown recently to stimulate thyroid cell proliferation and inhibit iodine metabolism, we examined the effects of phorbol esters on primary ovine thyroid cultures. TPA stimulated cell growth in a manner similar to EGF. The growth effects of EGF and TPA in combination were not additive. In contrast, TPA (1.6 X 10(-7) M) was a more potent inhibitor of iodine uptake and incorporation than EGF (10(-9) M) at their maximally effective concentrations. The inhibitory effects of TPA were also more rapid and less reversible than those of EGF. TPA and EGF in combination inhibited iodine metabolism more than either agent alone at its maximally effective concentration. Both TPA and EGF reduced the accumulation of cAMP in TSH-stimulated cells, but (Bu)2cAMP and stimulators of adenylate cyclase failed to overcome TPA's inhibition of iodine metabolism. TPA interacted with EGF by reducing the affinity of membrane receptors for [125I]iodo-EGF. Although the alteration in EGF-receptor interaction induced by TPA may play a role in mediating TPA's biological effects, the additive effects of TPA and EGF on iodine metabolism suggest that TPA does not act solely through the EGF receptor-effector system. Agents other than TSH, including phorbol esters and EGF, are potent modulators of thyroid growth and differentiated function. Despite several similarities in biological activity, TPA and EGF do not modulate differentiated function in an identical manner. Both factors act at least partially through a non-cAMP-dependent pathway, providing indirect evidence of another second messenger(s) in the control of thyroid function.

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Walter Mak

Three-Dimensional Printing and Medical Imaging: A Review of the Methods and Applications

Elucidation of Fragmentation Mechanisms of Protonated Peptide Ions and Their Products: A Case Study on Glycylglycylglycine Using Density Functional Theory and Threshold Collision-Induced Dissociation

Radiographic and Histologic Response to Neoadjuvant Radiotherapy in Patients With Soft Tissue Sarcoma

Hemodilutional anemia is associated with increased cerebral neuronal nitric oxide synthase gene expression

Phorbol Esters Stimulate Growth and Inhibit Differentiation in Cultured Thyroid Cells*

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