Patrick K. Boyle scite author profile

Patrick K. Boyle

5Publications

91Citation Statements Received

179Citation Statements Given

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University of Arizona

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Effect of iron and carbon monoxide on fibrinogenase-like degradation of plasmatic coagulation by venoms of four Crotalus species

Nielsen

Redford²,

Boyle³

2017

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Annually, thousands suffer poisonous snake bite, often from defibrinogenating species. Iron and carbon monoxide (CO) improve coagulation kinetics by modulation of fibrinogen as demonstrated in various Agkistrodon species and Crotalus atrox. Thus, we sought to determine whether pretreatment of plasma with iron and CO could attenuate venom-mediated catalysis of fibrinogen obtained from four common Crotalus species with known fibrinogenase activity. Human plasma was pretreated with ferric chloride (0-10 μmol/l) and CO-releasing molecule-2 (0-100 μmol/l) prior to exposure to venom from a Northern Pacific rattlesnake, Arizona black rattlesnake, prairie rattlesnake, or red diamond rattlesnake. The concentration of venom used decreased coagulation function of one or more kinetic parameters by at least 50% of normal values. Coagulation kinetics were determined with thrombelastography.Three snake venoms significantly degraded plasmatic coagulation kinetics, prolonging the onset to clot formation, diminishing velocity of clot growth and decreasing clot strength. However, red diamond rattlesnake venom exposure resulted in mixed coagulation kinetics, significantly decreasing the time to onset of coagulation without decreasing the velocity of clot growth. Iron and CO attenuated these coagulation kinetic changes in a species-specific manner. Further in vitro investigation of other fibrinogenolytic venoms is indicated to determine if iron and CO can attenuate venom compromised coagulation.

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Effect of Iron and Carbon Monoxide on Fibrinogenase‐like Degradation of Plasmatic Coagulation by Venoms of Six Agkistrodon Species

Nielsen

Redford

Boyle

2015

Basic Clin Pharma Tox

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Annually, thousands suffer poisonous snakebite, often from defibrinogenating species. It has been demonstrated that iron and carbon monoxide change the ultrastructure of plasma thrombi and improve coagulation kinetics. Thus, this investigation sought to determine whether pre-treatment of plasma with iron and carbon monoxide could attenuate venom-mediated catalysis of fibrinogen obtained from Agkistrodon species with fibrinogenase activity. Human plasma was pre-treated with ferric chloride (0-10 lM) and carbon monoxide-releasing molecule-2 (CORM-2, 0-100 lM) prior to exposure to 0.5-11 lg/ml of six different Agkistrodon species' venom. The amount of venom used for experimentation needed to decrease coagulation function of one or more kinetic parameters by at least 50% of normal values for (e.g. half the normal speed of clot formation). Coagulation kinetics were determined with thrombelastography. All six snake venoms degraded plasmatic coagulation kinetics to a significant extent, especially prolonging the onset to clot formation and diminishing the speed of clot growth. Pre-treatment of plasma with iron and carbon monoxide attenuated these venom-mediated coagulation kinetic changes in a species-specific manner, with some venom effects markedly abrogated while others were only mildly decreased. Further in vitro investigation of other pit viper venoms that possess fibrinogenolytic activity is indicated to identify species amenable to or resistant to iron and carbon monoxide-mediated attenuation of venom-mediated catalysis of fibrinogen. Lastly, future pre-clinical investigation with animal models (e.g. rabbit ear-bleed model) is planned to determine whether iron and carbon monoxide can be used therapeutically after envenomation.Thousands of individuals experience venomous snakebites annually in the United States [1][2][3][4], with cottonmouth and copperhead snakes (Agkistrodon species) second only to rattlesnakes (Crotalus species) as the most identified responsible vipers [2]. Snakebites by Agkistrodon species result in a spectrum of degrees of local and systemic injury [5,6], including hypofibrinogenaemia and coagulopathy [7]. Of interest, there is heterogeneity in therapeutic approach to envenomation by Agkistrodon species in the literature. While administration of antivenom has been recommended to prevent local and circulatory morbidity [3,8], there is debate concerning the need to serially assess patient coagulation status [9,10] or even administer antivenom at all [11]. Nevertheless, significant morbidity and occasional mortality occurs after envenomation by Agkistrodon species [5,6,12].Cottonmouth and copperhead snakes in North America generally possess venom that is fibrinogenolytic [13][14][15][16][17][18]. Intact venom or purified metalloproteinases typically cleave the A (a)-chain and the B(b)-chain of fibrinogen, resulting in hypofibrinogenaemia state and decreased coagulation [13][14][15][16][17][18]. While antivenom can bind and inactivate these enzymes, another approach to maintain circula...

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Carbon Monoxide and Iron Modulate Plasmatic Coagulation in Alzheimer’s disease

Nielsen¹,

Pretorius

Bester

et al. 2015

CNR

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Alzheimer's disease (AD) is a significant source of morbidity and mortality for millions of people worldwide, and multiple potential etiologies have been postulated to contribute to AD. Among these, spontaneous cerebral emboli and increased cerebral and circulating heme oxygenase (Hmox) activity in AD patients are of particular interest, as two of the products of Hmox activity, carbon monoxide (CO) and iron enhance plasmatic coagulation and modify the ultrastructure of thrombi. We hypothesized that patients afflicted with AD would have coagulation kinetics modulated by CO and iron. Using viscoelastic assessments of coagulation, it was determined with a small cohort (n=11) of AD patients that all had enhancement of coagulation by CO, iron, or both. In a complementary fashion, it was determined that a separate cohort (n=12) of AD patients had thrombi with ultrastructural features consistent with iron and CO exposure as assessed with scanning electron microscopy. Further, when stratified by normal or abnormally increased serum ferritin concentrations (which can be increased by Hmox), the AD patients with abnormal ferritin concentrations had significantly thinner fibrin fiber diameters, not unlike that noted when normal plasma is mixed with iron or CO. In sum, AD patients were noted to have plasmatic coagulation kinetic and thrombus ultrastructural changes consistent with exposure to CO and iron. Future investigation of CO and iron in the pathogenesis of Alzheimer's disease is warranted.

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Bariatric patients have plasmatic hypercoagulability and systemic upregulation of heme oxygenase activity

Nielsen¹,

Galvani

Boyle³

et al. 2015

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Morbid obesity is associated with significant thrombophilia. Of interest, adipocytes obtained from obese patients have increased heme oxygenase (Hmox) activity, the endogenous enzyme responsible for carbon monoxide (CO) production. Given that CO enhances plasmatic coagulation, we determined whether morbidly obese patients undergoing bariatric surgery had an increase in endogenous CO and plasmatic hypercoagulability. CO was determined by noninvasive pulse oximetry measurement of carboxyhemoglobin (COHb). A thrombelastographic method to assess plasma coagulation kinetics and formation of carboxyhemefibrinogen (COHF) was utilized. Nonsmoking bariatric patients (n = 20, BMI 47 ± 8 kg/m, mean ± SD) had abnormally increased COHb concentrations of 2.7 ± 1.9%, indicative of Hmox upregulation. When coagulation kinetics of these bariatric patients were compared with values obtained from normal individuals' (n = 30) plasma, 70% (95% confidence interval 45.7-88.1%) had abnormally great velocity of clot formation, abnormally large clot strength, and COHF formation. Future investigation of Hmox-derived CO in the pathogenesis of obesity-related thrombophilia is warranted.

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Raj's Practical Management of Pain, Fourth Edition.

Boyle¹

2010

Anesthesiology

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Patrick K. Boyle

Effect of iron and carbon monoxide on fibrinogenase-like degradation of plasmatic coagulation by venoms of four Crotalus species

Effect of Iron and Carbon Monoxide on Fibrinogenase‐like Degradation of Plasmatic Coagulation by Venoms of Six Agkistrodon Species

Carbon Monoxide and Iron Modulate Plasmatic Coagulation in Alzheimer’s disease

Bariatric patients have plasmatic hypercoagulability and systemic upregulation of heme oxygenase activity

Raj's Practical Management of Pain, Fourth Edition.

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