Robert M. Cowan scite author profile

Analysis of patient data from a new neuroscience intensive care unit (NSICU) permitted evaluation of whether such a specialty ICU favorably altered clinical outcomes in critically ill neuroscience patients, and whether such a care model produced an efficient use of resources. A retrospective review was performed to compare (1) the clinical outcomes, as defined by percent mortality and disposition at discharge, between patients with a primary diagnosis of intracerebral hemorrhage treated in 1995 in medical or surgical ICUs and those treated in the same medical facility in an NSICU in 1997; and (2) the efficiency of care, as defined by length of ICU stay, total cost of care, and specific resource use, between patients treated in the NSICU and national benchmark standards for general ICUs during the 1997 fiscal year (FY). In the latter, extracted patient population data on neurosurgery patients requiring ICU treatment during FY 1997 were used with the following adjacent-disease related group (A-DRG)-coded diseases: craniotomy with and without coma or intracerebral hemorrhage, and skull fracture with and without coma lasting longer than 1 hour. Outcome measures of percent mortality and disposition at discharge in patients with intracerebral hemorrhage were significantly improved (P < .05), compared with those in a similar cohort treated 2 years earlier in a general ICU setting. Also, patients treated in the NSICU had shorter hospital stays (P < .01 ) and lower total costs of care (P < .01) than a national benchmark. The data suggest that a neuroscience specialty ICU arena staffed by specialty-trained intensivists and nurses is beneficial.

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Untitled

Cowan

Trzeciak

2005

Crit Care

210

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Critical care constitutes a significant and growing proportion of the practice of emergency medicine. Emergency department (ED) overcrowding in the USA represents an emerging threat to patient safety and could have a significant impact on the critically ill. This review describes the causes and effects of ED overcrowding; explores the potential impact that ED overcrowding has on care of the critically ill ED patient; and identifies possible solutions, focusing on ED based critical care.

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CO₂ Capture by Means of an Enzyme‐Based Reactor

Cowan¹,

Ge²,

Qin³

et al. 2003

Annals of the New York Academy of Sciences

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We report a means for efficient and selective extraction of carbon dioxide (CO(2)) at low to medium concentration from mixed gas streams. CO(2) capture was accomplished by use of a novel enzyme-based, facilitated transport contained liquid membrane (EBCLM) reactor. The parametric studies we report explore both structural and operational parameters of this design. The structural parameters include carbonic anhydrase (CA) concentration, buffer concentration and pH, and liquid membrane thickness. The operational parameters are temperature, humidity of the inlet gas stream, and CO(2) concentration in the feed stream. The data show that this system effectively captures CO(2) over the range 400 ppm to at least 100,000 ppm, at or around ambient temperature and pressure. In a single pass across this homogeneous catalyst design, given a feed of 0.1% CO(2), the selectivity of CO(2) versus N(2) is 1,090 : 1 and CO(2) versus O(2) is 790 :1. CO(2) permeance is 4.71 x 10(-8) molm(-2) Pa(-1) sec(-1). The CLM design results in a system that is very stable even in the presence of dry feed and sweep gases.

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Translating Research to Clinical Practice

Trzeciak

Dellinger

Abate

et al. 2006

Chest

276

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Anaerobic biotransformation of fuel oxygenates under sulfate-reducing conditions

Somsamak¹,

Cowan²,

Häggblom³

2001

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The anaerobic biotransformation of methyl tert‐butyl ether (MTBE), ethyl tert‐butyl ether (ETBE), and methyl tert‐amyl ether (TAME) was evaluated under different anoxic electron‐accepting conditions. Enrichments were established with a polluted estuarine sediment inoculum under conditions promoting denitrification, sulfate reduction, Fe(III) reduction, or methanogenesis. Complete loss of MTBE and TAME was observed under sulfate‐reducing conditions, concomitant with the reduction of sulfate. A stoichiometric amount of tert‐butyl alcohol and tert‐amyl alcohol accumulated indicating that O‐demethylation was the initial step in MTBE and TAME biodegradation under sulfate‐reducing conditions. No transformation of MTBE or TAME was observed under the other electron‐accepting conditions over 3 years. Under all conditions tested, there was no biotic loss of ETBE observed. MTBE and TAME were depleted upon refeeding the sulfate‐reducing cultures. This study definitely demonstrates the anaerobic biodegradability of MTBE and TAME under sulfate‐reducing conditions.

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Robert M. Cowan

Impact of a Neuroscience Intensive Care Unit on Neurosurgical Patient Outcomes and Cost of Care

Untitled

CO₂ Capture by Means of an Enzyme‐Based Reactor

Translating Research to Clinical Practice

Anaerobic biotransformation of fuel oxygenates under sulfate-reducing conditions

Contact Info

Product

Resources

About

Robert M. Cowan

Impact of a Neuroscience Intensive Care Unit on Neurosurgical Patient Outcomes and Cost of Care

Untitled

CO2 Capture by Means of an Enzyme‐Based Reactor

Translating Research to Clinical Practice

Anaerobic biotransformation of fuel oxygenates under sulfate-reducing conditions

Contact Info

Product

Resources

About

CO₂ Capture by Means of an Enzyme‐Based Reactor