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33 results on '"Taylor, Robert F."'

1. Blood pressure regulation in neurally intact human vs. acutely injured paraplegic and tetraplegic patients during passive tilt

Author

Aslan, Sevda C., Randall, David C., Donohue, Kevin D., Knapp, Charles F., Patwardhan, Abhijit R., McDowell, Susan M., Taylor, Robert F., and Evans, Joyce M.

Subjects
Spinal cord injuries -- Health aspects, Blood pressure -- Health aspects, Hypotension, Orthostatic -- Health aspects, Biological sciences
Abstract

We investigated autonomic control of cardiovascular function in able-bodied (AB), paraplegic (PARA), and tetraplegic (TETRA) subjects in response to head-up tilt following spinal cord injury. We evaluated spectral power of blood pressure (BP), baroreflex sensitivity (BRS), baroreflex effectiveness index (BEI), occurrence of systolic blood pressure (SBP) ramps, baroreflex sequences, and cross-correlation of SBP with heart rate (HR) in low (0.04-0.15 Hz)- and high (0.15-0.4 Hz)-frequency regions. During tilt, AB and PARA effectively regulated BP and HR, but TETRA did not. The numbers of SBP ramps and percentages of heartbeats involved in SBP ramps and baroreflex sequences increased in AB, were unchanged in PARA, and declined in TETRA. BRS was lowest in PARA and declined with tilt in all groups. BEI was greatest in AB and declined with tilt in all groups. Low-frequency power of BP and the peak of the SBP/HR cross-correlation magnitude were greatest in AB, increased during tilt in AB, remained unchanged in PARA, and declined in TETRA. The peak cross-correlation magnitude in HF decreased with tilt in all groups. Our data indicate that spinal cord injury results in decreased stimulation of arterial baroreceptors and less engagement of feedback control as demonstrated by lower 1) spectral power of BP, 2) number (and percentages) of SBP ramps and barosequences, 3) cross-correlation magnitude of SBP/HR, 4) BEI, and 5) changes in delay between SBP/HR. Diminished vasomotion and impaired baroreflex regulation may be major contributors to decreased orthostatic tolerance following injury. orthostatic hypotension; baroreflex sensitivity; baroreflex effectiveness index; cross correlation; feedback

Published
2007

2. Heart rate-arterial blood pressure relationship in conscious rat before vs. after spinal cord transection

Author

Baldridge, Bobby R., Burgess, Don E., Zimmerman, Ethan E., Carroll, Jonathan J., Sprinkle, Aletia G., Speakman, Richard O., Li, Sheng-Gang, Brown, David R., Taylor, Robert F., Dworkin, Susan, and Randall, David C.

Subjects
Molecular biology -- Research, Heart beat -- Physiological aspects, Blood pressure -- Physiological aspects, Rats -- Physiological aspects, Spinal cord -- Physiological aspects, Nervous system, Sympathetic -- Research, Dysautonomia -- Physiological aspects, Biological sciences
Abstract

This experiment quantified the initial disruption and subsequent adaptation of the blood pressure (BP)-heart rate (HR) relationship after spinal cord transection (SCT). BP and HR were recorded for 4 h via an implanted catheter in neurally intact, unanesthetized rats. The animals were then anesthetized, and their spinal cords were severed at [T.sub.1]-[T.sub.2] (n = 5) or [T.sub.4]-[T.sub.5] (n = 6) or sham lesioned (n = 4). BP was recorded for 4 h daily over the ensuing 6 days. The neurally intact rat showed a positive cross correlation, with HR leading BP at the peak by 1.8 [+ or -] 0.8 (SD) s. The cross correlation in unanesthetized rats (n = 2) under neuromuscular blockade was also positive, with HR leading. After SCT at [T.sub.1]-[T.sub.2], the cross correlation became negative, with BP leading HR, and did not change during the next 6 days. The cross correlation also became negative 1-3 days after SCT at [T.sub.4]-[T.sub.5], but in four rats by day 6 and thereafter the cross correlation progressively reverted to a positive value. We propose that the positive cross correlation with HR leading BP in the intact rat results from an open-loop control that depends on intact supraspinal input to sympathetic preganglionic neurons in the spinal cord. After descending sympathetic pathways were severed at [T.sub.1]-[T.sub.2], the intact vagal pathway to the sinoatrial node dominated BP regulation via the baroreflex. We suggest that reestablishment of the positive correlation after SCT at [T.sub.4]-[T.sub.5] was attributable to the surviving sympathetic outflow to the heart and upper vasculature reasserting some effective function, perhaps in association with decreased spinal sympathetic hyperreflexia. The HR-BP cross correlation may index progression of sympathetic dysfunction in pathological processes. sympathetic; parasympathetic; dysautonomia; cross correlation; baroreflex

Published
2002

7. Teaching the troops

Author

Taylor, Robert F.

Subjects
Employee training -- Economic aspects, Sales personnel -- Training, Business, Business, general
Published
1991

9. Soft Tissue Fenestration and Osseous Dehiscence Associated with Orthodontic Therapy.

Author

Shilooh, Jacob, Fry, Hiram R., Abrams, Michael E., Binkley, Les H., and Taylor, Robert F.

Subjects
INCISORS, DENTAL pathology, MALOCCLUSION, ORTHODONTICS, DENTAL arch, MANDIBLE
Abstract

The article presents a case study of a 15-year-old female who was suffering from a deep gingival fenestration on the mandibular right central incisor. She had been undergoing orthodontic therapy for nearly 25 months for the correction of an Angle's Class II, division 1 malocclusion. However, after the expansion of two dental arches in the treatment, the patient developed soft tissue fenestration and osseous dehiscence on the mandibular right central incisor.

Published
1987

12. Clinic research trials offer early access to new treatments

Author

Taylor, Robert F.

Subjects
United States. National Cancer Institute -- Research, Cancer -- Research, Clinical trials -- Research, Business, Business, regional
Abstract

Medical breakthroughs that benefit patients worldwide and change the way doctors treat diseases are the result of years of development and testing. Clinical trials are the final stage of a [...]

Published
2000

16. Blood pressure regulation in neurally intact human vs. acutely injured paraplegic and tetraplegic patients during passive tilt.

Author

Asian, Sevda C., Randall, David C., Donohue, Kevin D., Knapp, Charles F., Patwardhan, Abhijit R., McDowell, Susan M., Taylor, Robert F., and Evans, Joyce M.

Subjects
BLOOD pressure, SPINAL cord injuries, PEOPLE with paraplegia, QUADRIPLEGIA, PARALYSIS
Abstract

We investigated autonomic control of cardiovascular function in able-bodied (AB), paraplegic (PARA), and tetraplegic (TETRA) subjects in response to head-up tilt following spinal cord injury. We evaluated spectral power of blood pressure (BP), baroreflex sensitivity (BRS), baroreflex effectiveness index (BEI), occurrence of systolic blood pressure (SBP) ramps, baroreflex sequences, and cross-correlation of SBP with heart rate (HR) in low (0.04-0.15 Hz)- and high (0.15-0.4 Hz)-frequency regions. During tilt, AB and PARA effectively regulated BP and HR, but TETRA did not. The numbers of SBP ramps and percentages of heartbeats involved in SBP ramps and baroreflex sequences increased in AB, were unchanged in PARA, and declined in TETRA. BRS was lowest in PARA and declined with tilt in all groups. BEI was greatest in AB and declined with tilt in all groups. Low-frequency power of BP and the peak of the SBP/HR cross-correlation magnitude were greatest in AB, increased during tilt in AB, remained unchanged in PARA, and declined in TETRA. The peak cross-correlation magnitude in HF decreased with tilt in all groups. Our data indicate that spinal cord injury results in decreased stimulation of arterial baroreceptors and less engagement of feedback control as demonstrated by lower I) spectral power of BP, 2) number (and percentages) of SBP ramps and barosequences, 3) cross-correlation magnitude of SBP/HR, 4) BET, and 5) changes in delay between SBP/HR. Diminished vasomotion and impaired baroreflex regulation may be major contributors to decreased orthostatic tolerance following injury. [ABSTRACT FROM AUTHOR]

Published
2007
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17. Blood pressure power within frequency range ∼0.4 Hz in rat conforms to self-similar scaling following spinal cord transection.

Author

Randall, David C., Baldridge, Bobby R., Zimmerman, Ethan E., Carroll, Jonathan J., Speakman, Richard O., Brown, David R., Taylor, Robert F., Patwardhan, Abhijit, and Burgess, Don E.

Subjects
SPINAL cord, CENTRAL nervous system, BLOOD pressure, RATS, MURIDAE, PHYSIOLOGY
Abstract

This study quantified the effect of interrupting the descending input to the sympathetic preganglionic neurons on the dynamic behavior of arterial blood pressure (BP) in the unanesthetized rat. BP was recorded for ∼4-h intervals in six rats in the neurally intact state and in the same animals after complete spinal cord transection (SCT) between T4 and T5. In the intact state, power within the frequency range of 0.35-0.45 Hz was 1.53 ± 0.38 mmHg²/Hz (mean ± SD by fast Fourier transform). One week after SCT, power within this range decreased significantly (P < 0.05) to 0.43 ± 0.62 mmHg²/Hz. To test for self-similarity before and after SCT, we analyzed data using a wavelet (i.e., functionally, a digital bandpass filter) tuned to be maximally sensitive to fluctuations with periods of ∼2, 4, 8, 16, 32, or 64 s. in the control state, all fluctuations with periods of ∼4 s conformed to a "self-similar" (i.e., fractal) distribution. In marked contrast, the oscillations with a period of -2 s (i.e., -0.4 Hz) were significantly set apart from those at lower frequencies. One day and seven days after the complete SCT, however, the BP fluctuations at -0.4 Hz now also conformed to the same self-similar behavior characteristic of the lower frequencies. We conclude that 1) an intact sympathetic nervous system endows that portion of the power spectrum centered around ∼0.4 Hz with properties (e.g., a periodicity) that differ significantly from the self-similar behavior that characterizes the lower frequencies and 2) even within the relatively high frequency range at 0.4 Hz self-similarity is the "default" condition after sympathetic influences have been eliminated. [ABSTRACT FROM AUTHOR]

Published
2005
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25. The Role of Neutrophil Membrane Glycoprotein GP-150 in Neutrophil Adherence to Endothelium In Vitro

Author

Harlan, John M., Killen, Paul D., Senecal, Frank M., Schwartz, Barbara R., Yee, Esther K., Taylor, Robert F., Beatty, Patrick G., Price, Thomas H., and Ochs, Hans D.

Abstract

We have previously described two patients with a congenital defect in neutrophil function characterized by an inability to form pus. The patients’ neutrophils lack a membrane glycoprotein of mol wt 150,000 daltons (GP-150) on analysis by SDS-PAGE. This glycoprotein is part of a membrane antigen complex recognized by the murine monoclonal antibody (MoAb) 60.3. Addition of MoAb 60.3 to normal neutrophils produces defects in chemotaxis and phagocytosis in vitro similar to those observed in the patients. Since neutrophil adherence to vascular endothelium is prerequisite to neutrophil emigration in vivo, we examined the interaction of the patients’ neutrophils and normal neutrophils treated with MoAb 60.3 with cultured endothelium. Adherence was determined as the percentage of 51Cr-labeled purified peripheral blood neutrophils which remained adherent to plastic wells or endothelial monolayers after a 45-minute incubation at 37 °C. The percentage of neutrophils from patient 1 remaining adherent to uncoated, fibronectin-coated, or laminin-coated plastic was similar to that observed in normal neutrophils (55% to 84% adherence with normal neutrophils v73% to 78% adherence with the patient's neutrophils and 63% to 82% adherence with MoAb 60.3-treated normal neutrophils). The adherence of the neutrophils from patient 1 and MoAb 60.3-treated normal neutrophils to human or bovine endothelium in serum-free medium was also not significantly different from that observed in normal neutrophils (<10% adherence with normal, MoAb 60.3-treated, and patient neutrophils). In medium containing 10% autologous or heterologous human plasma, however, the adherence of neutrophils from patient 1 or MoAb 60.3-treated normal neutrophils to endothelial monolayers was significantly reduced (35% ± 7% of normal neutrophils in seven experiments). Although phorbol myristate acetate (PMA) (10 ng/mL) and calcium ionophore A23187 (10-5mol/L) markedly increased the adherence of normal neutrophils to endothelial monolayers in serum-free medium (40% to 85% adherence), neither agent increased the adherence of the neutrophils from patient 1 or normal neutrophils treated with MoAb 60.3 (<5% adherence). The adherence of PMA-activated neutrophils from patient 2 to endothelial monolayers was also markedly decreased when compared with that of normal neutrophils. Postsecretory cell-free supernatants from PMA-activated normal neutrophils failed to augment adherence of neutrophils from patient 1 (<5% adherence). However, when intact normal neutrophils were added to the patient's neutrophils, the patient's neutrophils adhered normally in the presence of PMA (70% to 80% adherence). The migration of neutrophils from patient 1 and normal neutrophils treated with MoAb 60.3 across endothelial monolayers on polycarbonate filters in response to formylmethionyl-leucyl-phenylalanine (FMLP) (10 7 mol/L) was also markedly decreased compared to normal neutrophils (<30% of control neutrophils at 90 minutes). GP-150 was not detected in the postsecretory medium of PMA-activated normal neutrophils on analysis by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. However, activation of normal neutrophils with PMA increased binding of MoAb 60.3 and the inhibition of PMA-induced neutrophil adherence by MoAb 60.3 required continued presence of the MoAb during the incubation. These observations suggest that GP-150 is not a secreted protein but remains membrane-associated and that the new antigen expressed during activation is critical to increased adhesiveness. We conclude that the neutrophil membrane glycoprotein GP-150 is required for augmented neutrophil adherence to and chemotaxis across endothelial monolayers in vitro. The inability of the patients’ neutrophils to augment adherence to endothelium when activated may account for the failure of the patients’ neutrophils to migrate to sites of inflammation in vivo. © 1985 by Grune & Stratton, Inc.

Published
1985
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30. Managers hone skills on campus

Author

Taylor, Robert F.

Subjects
Management training, Management -- Study and teaching, Labor productivity, Business, Business, general
Published
1982

31. More on DL&J.

Author

LIPSON, ALAN GORDON, TAYLOR, ROBERT F., MCGUINESS, JOHN F., SMITH, MOWRY, and PERSONS, W. R.

Subjects
BUSINESS success
Abstract

Several letters to the editor are presented in response to an article on Donaldson, Lufkin & Jenrette's success story in the November 1, 1966 issue.

Published
1966

33. Blood pressure power within frequency range approximately 0.4 Hz in rat conforms to self-similar scaling following spinal cord transection.

Author

Randall DC, Baldridge BR, Zimmerman EE, Carroll JJ, Speakman RO, Brown DR, Taylor RF, Patwardhan A, and Burgess DE

Subjects
Animals, Fourier Analysis, Models, Cardiovascular, Oscillometry, Periodicity, Rats, Rats, Sprague-Dawley, Thoracic Vertebrae, Blood Pressure, Spinal Cord Injuries physiopathology
Abstract

This study quantified the effect of interrupting the descending input to the sympathetic preganglionic neurons on the dynamic behavior of arterial blood pressure (BP) in the unanesthetized rat. BP was recorded for approximately 4-h intervals in six rats in the neurally intact state and in the same animals after complete spinal cord transection (SCT) between T(4) and T(5). In the intact state, power within the frequency range of 0.35-0.45 Hz was 1.53 +/- 0.38 mmHg(2)/Hz (mean +/- SD by fast Fourier transform). One week after SCT, power within this range decreased significantly (P < 0.05) to 0.43 +/- 0.62 mmHg(2)/Hz. To test for self-similarity before and after SCT, we analyzed data using a wavelet (i.e., functionally, a digital bandpass filter) tuned to be maximally sensitive to fluctuations with periods of approximately 2, 4, 8, 16, 32, or 64 s. In the control state, all fluctuations with periods of >/=4 s conformed to a "self-similar" (i.e., fractal) distribution. In marked contrast, the oscillations with a period of approximately 2 s (i.e., approximately 0.4 Hz) were significantly set apart from those at lower frequencies. One day and seven days after the complete SCT, however, the BP fluctuations at approximately 0.4 Hz now also conformed to the same self-similar behavior characteristic of the lower frequencies. We conclude that 1) an intact sympathetic nervous system endows that portion of the power spectrum centered around approximately 0.4 Hz with properties (e.g., a periodicity) that differ significantly from the self-similar behavior that characterizes the lower frequencies and 2) even within the relatively high frequency range at 0.4 Hz self-similarity is the "default" condition after sympathetic influences have been eliminated.

Published
2005
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