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1. Inconsequential role for chemerin‐like receptor 1 in the manifestation of ozone‐induced lung pathophysiology in male mice

Author

Richard A. Johnston, Albert W. Pilkington IV, Constance L. Atkins, Theresa E. Boots, Philip L. Brown, William T. Jackson, Chantal Y. Spencer, Saad R. Siddiqui, and Ikram U. Haque

Subjects
airway hyperresponsiveness, chemerin‐like receptor 1, elastic recoil, lung, ozone, Physiology, QP1-981
Abstract

Abstract We executed this study to determine if chemerin‐like receptor 1 (CMKLR1), a Gi/o protein‐coupled receptor expressed by leukocytes and non‐leukocytes, contributes to the development of phenotypic features of non‐atopic asthma, including airway hyperresponsiveness (AHR) to acetyl‐β‐methylcholine chloride, lung hyperpermeability, airway epithelial cell desquamation, and lung inflammation. Accordingly, we quantified sequelae of non‐atopic asthma in wild‐type mice and mice incapable of expressing CMKLR1 (CMKLR1‐deficient mice) following cessation of acute inhalation exposure to either filtered room air (air) or ozone (O3), a criteria pollutant and non‐atopic asthma stimulus. Following exposure to air, lung elastic recoil and airway responsiveness were greater while the quantity of adiponectin, a multi‐functional adipocytokine, in bronchoalveolar lavage (BAL) fluid was lower in CMKLR1‐deficient as compared to wild‐type mice. Regardless of genotype, exposure to O3 caused AHR, lung hyperpermeability, airway epithelial cell desquamation, and lung inflammation. Nevertheless, except for minimal genotype‐related effects on lung hyperpermeability and BAL adiponectin, we observed no other genotype‐related differences following O3 exposure. In summary, we demonstrate that CMKLR1 limits the severity of innate airway responsiveness and lung elastic recoil but has a nominal effect on lung pathophysiology induced by acute exposure to O3.

Published
2024
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2. Chest compression by two-thumb encircling method generates higher carotid artery blood flow in swine infant model of cardiac arrest

Author

Sharda Udassi, Ikram U. Haque, Dalia Lopez-Colon, Andre Shih, Dhanya Vasudeva, Giridhar Kaliki-Venkata, Michael Weiss, Arno L. Zaritsky, and Jai P. Udassi

Subjects
Cardiopulmonary resuscitation, Two-thumb CPR, Two-finger CPR, Swine cardiac arrest, Carotid artery blood flow, Specialties of internal medicine, RC581-951
Abstract

Objective: Two-Thumb(TT) technique provides superior quality chest compressions compared with Two-Finger(TF) in an instrumented infant manikin. Whether this translates to differences in blood flow, such as carotid arterial blood flow(CABF), has not been evaluated. We hypothesized that TT-CPR generates higher CABF and Coronary Perfusion Pressure(CPP) compared with TF-CPR in a neonatal swine cardiac arrest model. Methods: Twelve anesthetized & ventilated piglets were randomized after 3 min of untreated VF to receive either TT-CPR or TF-CPR by PALS certified rescuers delivering a compression rate of 100/min. The primary outcome, CABF, was measured using an ultrasound transonic flow probe placed on the left carotid artery. CPP was calculated and end-tidal CO2(ETCO2) was measured during CPR. Data(mean ± SD) were analyzed and p-value ≤0.05 was considered statistically significant. Results: Carotid artery blood flow (% of baseline) was higher in TT-CPR (66.2 ± 35.4%) than in the TF-CPR (27.5 ± 10.6%) group, p = 0.013. Mean CPP (mm Hg) during three minutes of chest compression for TT-CPR was 12.5 ± 15.8 vs. 6.5 ± 6.7 in TF-CPR, p = 0.41 and ETCO2 (mm Hg) was 29.0 ± 7.4 in TT-CPR vs. 20.7 ± 5.8 in TF-CPR group, p = 0.055. Conclusion: TT-CPR achieved more than twice the CABF compared with TF-CPR in a piglet cardiac arrest model. Although CPP and ETCO2 were higher during TT-CPR, these parameters did not reach statistical significance. This study provides direct evidence of increased blood flow in infant swine using TT-CPR and further supports that TT chest compression is the preferred method for CPR in infants.

Published
2021
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3. Interleukin-11 receptor subunit α-1 is required for maximal airway responsiveness to methacholine after acute exposure to ozone

Author

Richard A. Johnston, Constance L. Atkins, Saad R. Siddiqui, William T. Jackson, Nicholas C. Mitchell, Chantal Y. Spencer, Albert W. Pilkington, Michael L. Kashon, and Ikram U. Haque

Subjects
Mice, Ozone, Physiology, Physiology (medical), Humans, Animals, Receptors, Interleukin-11, Pneumonia, Interleukin-11, Bronchoalveolar Lavage Fluid, Methacholine Chloride, Asthma
Abstract

Interleukin (IL)-11, a multifunctional cytokine, contributes to numerous biological processes, including adipogenesis, hematopoiesis, and inflammation. Asthma, a respiratory disease, is notably characterized by reversible airway obstruction, persistent lung inflammation, and airway hyperresponsiveness (AHR). Nasal insufflation of IL-11 causes AHR in wild-type mice while lung inflammation induced by antigen sensitization and challenge, which mimics features of atopic asthma in humans, is attenuated in mice genetically deficient in IL-11 receptor subunit α-1 (IL-11Rα1-deficient mice), a transmembrane receptor that is required conjointly with glycoprotein 130 to transduce IL-11 signaling. Nevertheless, the contribution of IL-11Rα1 to characteristics of nonatopic asthma is unknown. Thus, based on the aforementioned observations, we hypothesized that genetic deficiency of IL-11Rα1 attenuates lung inflammation and increases airway responsiveness after acute inhalation exposure to ozone (O3), a criteria pollutant and nonatopic asthma stimulus. Accordingly, 4 and/or 24 h after cessation of exposure to filtered room air or O3, we assessed lung inflammation and airway responsiveness in wild-type and IL-11Rα1-deficient mice. With the exception of bronchoalveolar lavage macrophages and adiponectin, which were significantly increased and decreased, respectively, in O3-exposed IL-11Rα1-deficient as compared with O3-exposed wild-type mice, no other genotype-related differences in lung inflammation indices that we quantified were observed in O3-exposed mice. However, airway responsiveness to acetyl-β-methylcholine chloride (methacholine) was significantly diminished in IL-11Rα1-deficient as compared with wild-type mice after O3exposure. In conclusion, these results demonstrate that IL-11Rα1 minimally contributes to lung inflammation but is required for maximal airway responsiveness to methacholine in a mouse model of nonatopic asthma.

Published
2022

4. Chest compression by two-thumb encircling method generates higher carotid artery blood flow in swine infant model of cardiac arrest

Author

Dalia Lopez-Colon, Jai P. Udassi, Dhanya Vasudeva, Giridhar Kaliki-Venkata, Sharda Udassi, Michael D. Weiss, Andre Shih, Arno Zaritsky, and Ikram U. Haque

Subjects
medicine.medical_specialty, Carotid arteries, medicine.medical_treatment, health care facilities, manpower, and services, education, Specialties of internal medicine, Thumb, Swine cardiac arrest, Statistical significance, Internal medicine, health services administration, Medicine, Cardiopulmonary resuscitation, cardiovascular diseases, health care economics and organizations, Earth-Surface Processes, business.industry, Ultrasound, Blood flow, Compression (physics), Carotid artery blood flow, medicine.anatomical_structure, RC581-951, Coronary perfusion pressure, Cardiology, Two-finger CPR, business, Two-thumb CPR, Experimental Paper
Abstract

Objective Two-Thumb(TT) technique provides superior quality chest compressions compared with Two-Finger(TF) in an instrumented infant manikin. Whether this translates to differences in blood flow, such as carotid arterial blood flow(CABF), has not been evaluated. We hypothesized that TT-CPR generates higher CABF and Coronary Perfusion Pressure(CPP) compared with TF-CPR in a neonatal swine cardiac arrest model. Methods Twelve anesthetized & ventilated piglets were randomized after 3 min of untreated VF to receive either TT-CPR or TF-CPR by PALS certified rescuers delivering a compression rate of 100/min. The primary outcome, CABF, was measured using an ultrasound transonic flow probe placed on the left carotid artery. CPP was calculated and end-tidal CO2(ETCO2) was measured during CPR. Data(mean ± SD) were analyzed and p-value ≤0.05 was considered statistically significant. Results Carotid artery blood flow (% of baseline) was higher in TT-CPR (66.2 ± 35.4%) than in the TF-CPR (27.5 ± 10.6%) group, p = 0.013. Mean CPP (mm Hg) during three minutes of chest compression for TT-CPR was 12.5 ± 15.8 vs. 6.5 ± 6.7 in TF-CPR, p = 0.41 and ETCO2 (mm Hg) was 29.0 ± 7.4 in TT-CPR vs. 20.7 ± 5.8 in TF-CPR group, p = 0.055. Conclusion TT-CPR achieved more than twice the CABF compared with TF-CPR in a piglet cardiac arrest model. Although CPP and ETCO2 were higher during TT-CPR, these parameters did not reach statistical significance. This study provides direct evidence of increased blood flow in infant swine using TT-CPR and further supports that TT chest compression is the preferred method for CPR in infants.

Published
2021

5. Current Trends in Pediatric ARDS

Author

Jai P. Udassi and Ikram U. Haque

Subjects
Qatar Critical Care Conference Abstract, ARDS, medicine.medical_specialty, business.industry, medicine.medical_treatment, General Medicine, acute respiratory distress syndrome, Lung injury, medicine.disease, current, Pulmonary hypertension, ARD, Hypoxemia, pediatric, Respiratory failure, Internal medicine, medicine, Cardiology, Continuous positive airway pressure, medicine.symptom, business, Oxygen saturation (medicine), Transpulmonary pressure
Abstract

Pediatric acute respiratory distress syndrome (PARDS) incidence is reported between 2.95 to 12.8 cases per 100,000 person years,1,2 which is lower than in adults but remains one of the most challenging form of lung diseases for a Pediatric Intensivist. Application of the adult ARDS definition is limited in pediatrics due to differences in risk factors, etiology, pathophysiology, hard to obtain PaO2 values, and lower levels and variation of PEEP utilization. To address these limitations, to promote early recognition and diagnosis of PARDS, and to improve prognostication and stratification of disease severity, the Pediatric Acute Lung Injury Consensus Conference (PALICC) published the first definition for PARDS in 2015.3 This definition (Table 1) kept the criteria of onset within seven days of a known clinical insult and the presence of respiratory failure not fully explained by cardiac failure or fluid overload. It eliminated the term acute lung injury, excluded bilateral infiltrate, and stratified severity of PARDS based on the oxygenation deficit as mild, moderate, and severe. Either oxygenation index or the oxygen saturation index (when arterial blood gas is not available) can be used to assess the degree of hypoxemia. Non-invasive ventilation is now included for continuous positive airway pressure of more than 5 cm H2O. Furthermore, PALICC included recommendations for defining PARDS in children with preexisting chronic lung disease, cyanotic congenital heart disease, and left ventricular dysfunction. The PARDS management guidelines are based on very limited pediatric data and are largely based on expert opinions.3 For ventilatory management, no mode of ventilation is found to be superior, patient-specific tidal volumes per ideal body weight according to disease severity are recommended (3–6 mL/kg for patients with reduced and 5–8 mL/kg for patients with better-preserved compliance). In the absence of transpulmonary pressure measurements, plateau pressure should be limited to 28 cm H2O and 29–32 cm H2O during increased chest wall elastance. Moderately elevated PEEP to 10–15 cm H2O should be titrated in severe PARDS to the observed oxygenation and hemodynamic response. The oxygenation goal for mild PARDS (PEEP 10) 88–92%, although in some patients, 7.15 is the goal except in severe pulmonary hypertension, intracranial hypertension, select congenital heart lesions, significant ventricular dysfunction with hemodynamic instability, and pregnancy. Recruitment maneuvers by slow incremental and decremental PEEP steps may be used for severe hypoxemia. High-frequency oscillatory ventilation remains as an alternative ventilatory mode for patients with moderate-to-severe PARDS. There is not enough evidence to support the routine use of inhaled nitric oxide, steroids, or prone positioning for PARDS at this time.3 Since the publication of the new definition, several studies comparing the previous definitions to PALICC suggest that the PALICC definition can not only identify more patients with PARDS but it is also better at risk stratification for mortality.4,5 Despite decades of research and experience of managing PARDS, there remains a lack of definitive clinical evidence in Pediatrics. Further pediatric research is needed to gain more insight and to improve outcome of PARDS.

Published
2020

6. Approach to circulation after cardiac surgery in children

Author

Ikram U. Haque and Jai P. Udassi

Subjects
Qatar Critical Care Conference Abstract, medicine.medical_specialty, Cardiac output, business.industry, medicine.medical_treatment, circulatory failure, General Medicine, Cardiac surgery, Blood pressure, Oliguria, Internal medicine, Intensive care, medicine, Extracorporeal membrane oxygenation, Cardiology, Coronary care unit, Pulmonary venous hypertension, medicine.symptom, business, cardiac critical care, cardiac surgery
Abstract

Pediatric intensivists are called to patient bedsides in the pediatric cardiac intensive care unit (CICU) after congenital cardiac surgery for low blood pressure (BP) and/or poor perfusion, acute change in heart rate (HR) or rhythm, surgical site bleeding or increased chest tube output, anuria or oliguria, oxygen desaturation less than expected or metabolic acidosis with rising lactic acid and base deficit. Causes of acute circulatory failure after cardiac surgery are divided into four categories which must be considered when approaching the patient in CICU (Table 1). Assessing cardiac output in CICU remains challenging, hemodynamic parameters are usually monitored, along with physical examination, i.e. HR, BP, right and left atrial pressures. There are surrogate markers i.e., mixed venous saturation, brain and renal NIRS, toe temperature, urine output, and then laboratory workup to determine acidosis due to end-organ dysfunction. Echocardiography can confirm low cardiac output syndrome (LCOS) occurs after cardiac surgery with the following major indicators; abnormal ventricular-vascular interaction after bypass, the functionally univentricular circulation, abnormal diastolic function after surgery to the right heart and residual anatomic lesions.1 The limited support tools that are available to manage circulatory failure post cardiac surgery in the CICU are the following: Medications: High labile pulmonary vascular tone (PVR) occurs in patients with pulmonary over-circulation i.e., ASD (atrial septal defect), VSD (ventricular septal defect), PDA (patent ductus arteriosus) and AV canal (atrioventricular canal). Pulmonary venous hypertension, i.e. TAPVR with obstruction, HLHS with restrictive atrial communication and in the univentricular heart after Norwood, shunt or PA band has unstable PVR. Functionally univentricular hearts don't tolerate increased SVR and at the same time, decreased SVR may not be desirable for patients who have fixed systemic or pulmonary obstruction. There are a wide variety of medications to use, but essentially two, milrinone2,3 and epinephrine are very important and widely used. Milrinone is routinely used after cardiac surgery to minimize the LCOS, which works in a receptor independent manner and is synergistic to beta-adrenergic ionotropic effect. Most patients benefit from low dose epinephrine for decreased cardiac function. Nitroprusside is effective where after-load is high, a low dose should always be started titrating to the optimal BP. Generally, there is no role of dopamine in these patients.4 Ventilation-cardiopulmonary interaction: Ventilation at functional residual capacity needs to be targeted. Managing rhythm: Recognition of rhythm is a crucial aspect of care. It is equally important to pay attention to the appropriate heart rate. Extracorporeal mechanical support: The last resort is to put the patient on extracorporeal membrane oxygenation. In summary, the past two decades have seen important advances in our understanding of the circulatory physiology of infants and children post cardiac surgery. When approaching the patients with cardiovascular dysfunction, it is essential to approach the cardiopulmonary system in its entirety, rather than consider the heart, lungs, or peripheral circulation as isolated elements. Working towards one common goal of optimizing systemic oxygen delivery and emphasizing anticipatory intensive care tailored to individual patients with the need for early, targeted investigation and intervention is essential when patients are not progressing as expected.

Published
2020

8. Chemokine (C-C Motif) Receptor-Like 2 is not essential for lung injury, lung inflammation, or airway hyperresponsiveness induced by acute exposure to ozone

Author

Constance L. Atkins, Nicholas C. Mitchell, Farhan Malik, Chantal Y. Spencer, Ikram U. Haque, Kevin R. Cromar, William T. Jackson, Richard A. Johnston, Saad R. Siddiqui, and Roger E. Price

Subjects
0301 basic medicine, Male, Chemokine, osteopontin, Physiology, Mice, 0302 clinical medicine, methacholine, Lung, Original Research, Gpr1, biology, medicine.diagnostic_test, Lung Injury, respiratory system, Cmklr1, 3. Good health, medicine.anatomical_structure, Intercellular Signaling Peptides and Proteins, Female, Receptors, Chemokine, medicine.symptom, Chemokines, Bronchoalveolar Lavage Fluid, Toxins, Pollutants and Chemical Agents, chemerin, Genotype, Immunology, Inflammation, Respiratory Mucosa, Lung injury, CMKLR1, 03 medical and health sciences, Receptors, CCR, Ozone, Physiology (medical), medicine, Chemerin, Animals, Respiratory Conditions Disorder and Diseases, CXCR2, business.industry, Asthma, respiratory tract diseases, Mice, Inbred C57BL, 030104 developmental biology, Bronchoalveolar lavage, biology.protein, business, Leukocyte chemotaxis, 030215 immunology
Abstract

Inhalation of ozone (O3), a gaseous air pollutant, causes lung injury, lung inflammation, and airway hyperresponsiveness. Macrophages, mast cells, and neutrophils contribute to one or more of these sequelae induced by O3. Furthermore, each of these aforementioned cells express chemokine (C‐C motif) receptor‐like 2 (Ccrl2), an atypical chemokine receptor that facilitates leukocyte chemotaxis. Given that Ccrl2 is expressed by cells essential to the development of O3‐induced lung pathology and that chemerin, a Ccrl2 ligand, is increased in bronchoalveolar lavage fluid (BALF) by O3, we hypothesized that Ccrl2 contributes to the development of lung injury, lung inflammation, and airway hyperresponsiveness induced by O3. To that end, we measured indices of lung injury (BALF protein, BALF epithelial cells, and bronchiolar epithelial injury), lung inflammation (BALF cytokines and BALF leukocytes), and airway responsiveness to acetyl‐β‐methylcholine chloride (respiratory system resistance) in wild‐type and mice genetically deficient in Ccrl2 (Ccrl2‐deficient mice) 4 and/or 24 hours following cessation of acute exposure to either filtered room air (air) or O3. In air‐exposed mice, BALF chemerin was greater in Ccrl2‐deficient as compared to wild‐type mice. O3 increased BALF chemerin in mice of both genotypes, yet following O3 exposure, BALF chemerin was greater in Ccrl2‐deficient as compared to wild‐type mice. O3 increased indices of lung injury, lung inflammation, and airway responsiveness. Nevertheless, no indices were different between genotypes following O3 exposure. In conclusion, we demonstrate that Ccrl2 modulates chemerin levels in the epithelial lining fluid of the lungs but does not contribute to the development of O3‐induced lung pathology.

Published
2017

9. Effect of antigen sensitization and challenge on oscillatory mechanics of the lung and pulmonary inflammation in obese carboxypeptidase E-deficient mice

Author

Farhan Malik, Michael R. Blackburn, Harry Karmouty-Quintana, S. Shahrukh Hashmi, Richard A. Johnston, Sanjiv Sur, Paul H. Dahm, Ikram U. Haque, Roger E. Price, Chantal Y. Spencer, Kevin R. Cromar, Jeremy B. Richards, and Ramon X. Barreno

Subjects
Time Factors, Genotype, Ovalbumin, Physiology, Immunoglobulins, Mice, Airway resistance, Antigen Sensitization, Physiology (medical), Eosinophilic, Animals, Medicine, Obesity, Antigens, Lung, Mice, Knockout, biology, business.industry, Airway Resistance, Carboxypeptidase H, Pneumonia, respiratory system, Eosinophil, Airway obstruction, medicine.disease, Airway Obstruction, Mice, Inbred C57BL, Disease Models, Animal, Phenotype, medicine.anatomical_structure, Carboxypeptidase E, Immunology, Interleukin 13, Call for Papers, biology.protein, Female, Inflammation Mediators, business, Bronchoalveolar Lavage Fluid, Biomarkers
Abstract

Atopic, obese asthmatics exhibit airway obstruction with variable degrees of eosinophilic airway inflammation. We previously reported that mice obese as a result of a genetic deficiency in either leptin ( ob/ ob mice) or the long isoform of the leptin receptor ( db/ db mice) exhibit enhanced airway obstruction in the presence of decreased numbers of bronchoalveolar lavage fluid (BALF) eosinophils compared with lean, wild-type mice following antigen (ovalbumin; OVA) sensitization and challenge. To determine whether the genetic modality of obesity induction influences the development of OVA-induced airway obstruction and OVA-induced pulmonary inflammation, we examined indices of these sequelae in mice obese as a result of a genetic deficiency in carboxypeptidase E, an enzyme that processes prohormones and proneuropeptides involved in satiety and energy expenditure ( Cpefatmice). Accordingly, Cpefatand lean, wild-type (C57BL/6) mice were sensitized to OVA and then challenged with either aerosolized PBS or OVA. Compared with genotype-matched, OVA-sensitized and PBS-challenged mice, OVA sensitization and challenge elicited airway obstruction and increased BALF eosinophils, macrophages, neutrophils, IL-4, IL-13, IL-18, and chemerin. However, OVA challenge enhanced airway obstruction and pulmonary inflammation in Cpefatcompared with wild-type mice. These results demonstrate that OVA sensitization and challenge enhance airway obstruction in obese mice regardless of the genetic basis of obesity, whereas the degree of OVA-induced pulmonary inflammation is dependent on the genetic modality of obesity induction. These results have important implications for animal models of asthma, as modeling the pulmonary phenotypes for subpopulations of atopic, obese asthmatics critically depends on selecting the appropriate mouse model.

Published
2014

10. Ventricular Fibrillation-Induced Cardiac Arrest Results in Regional Cardiac Injury Preferentially in Left Anterior Descending Coronary Artery Territory in Piglet Model

Author

John R. Forder, Dalia Colon-Lopez, Sharda Udassi, Stacy Porvasnik, Dan Clark, Renata Shih, Andre Shih, Srinivasarao Badugu, Ikram U. Haque, Jai P. Udassi, Giridhar Kaliki Venkata, Arno Zaritsky, and Melissa A. Lamb

Subjects
Male, medicine.medical_specialty, Resuscitation, Article Subject, Swine, Ischemia, lcsh:Medicine, Coronary Artery Disease, 030204 cardiovascular system & hematology, Anterior Descending Coronary Artery, Return of spontaneous circulation, General Biochemistry, Genetics and Molecular Biology, Coronary artery disease, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, medicine, Animals, General Immunology and Microbiology, business.industry, lcsh:R, 030208 emergency & critical care medicine, Stroke Volume, General Medicine, Stroke volume, medicine.disease, Heart Arrest, medicine.anatomical_structure, Ventricular fibrillation, Ventricular Fibrillation, Cardiology, Female, business, Cardiomyopathies, Artery, Research Article
Abstract

Objective. Decreased cardiac function after resuscitation from cardiac arrest (CA) results from global ischemia of the myocardium. In the evolution of postarrest myocardial dysfunction, preferential involvement of any coronary arterial territory is not known. We hypothesized that there is no preferential involvement of any coronary artery during electrical induced ventricular fibrillation (VF) in piglet model. Design. Prospective, randomized controlled study. Methods. 12 piglets were randomized to baseline and electrical induced VF. After 5 min, the animals were resuscitated according to AHA PALS guidelines. After return of spontaneous circulation (ROSC), animals were observed for an additional 4 hours prior to cardiac MRI. Data (mean ± SD) was analyzed using unpaired t-test; p value ≤ 0.05 was considered statistically significant. Results. Segmental wall motion (mm; baseline versus postarrest group) in segment 7 (left anterior descending (LAD)) was 4.68±0.54 versus 3.31±0.64, p=0.0026. In segment 13, it was 3.82±0.96 versus 2.58±0.82, p=0.02. In segment 14, it was 2.42±0.44 versus 1.29±0.99, p=0.028. Conclusion. Postarrest myocardial dysfunction resulted in segmental wall motion defects in the LAD territory. There were no perfusion defects in the involved segments.

Published
2016

11. Improved chest recoil using an adhesive glove device for active compression–decompression CPR in a pediatric manikin model

Author

Sharda Udassi, Jonathan J. Shuster, Melissa A. Lamb, Douglas W. Theriaque, Kenneth E. Lamb, Ikram U. Haque, Jai P. Udassi, and Arno Zaritsky

Subjects
Decompression, endocrine system, medicine.medical_specialty, Adolescent, medicine.medical_treatment, education, Emergency Nursing, Manikins, Article, Respiratory Rate, Heart Rate, health services administration, Intensive care, Pressure, Humans, Medicine, Gloves, Surgical, cardiovascular diseases, Cardiopulmonary resuscitation, Child, health care economics and organizations, business.industry, Infant, Compression (physics), Cardiopulmonary Resuscitation, Surgery, Pediatric resuscitation, Muscle Fatigue, Emergency Medicine, Adhesive, Cardiology and Cardiovascular Medicine, business, Biomedical engineering
Abstract

We developed an adhesive glove device (AGD) to perform ACD-CPR in pediatric manikins, hypothesizing that AGD-ACD-CPR provides better chest decompression compared to standard (S)-CPR.Split-plot design randomizing 16 subjects to test four manikin-technique models in a crossover fashion to AGD-ACD-CPR vs. S-CPR. Healthcare providers performed 5min of CPR with 30:2 compression:ventilation ratio in the four manikin models: (1) adolescent; (2) child two-hand; (3) child one-hand; and (4) infant two-thumb.Modified manikins recorded compression pressure (CP), compression depth (CD) and decompression depth (DD). The AGD consisted of a modified oven mitt with an adjustable strap; a Velcro patch was sewn to the palmer aspect. The counter Velcro patch was bonded to the anterior chest wall. For infant CPR, the thumbs of two oven mitts were stitched together with Velcro. Subjects were asked to actively pull up during decompression. Subjects' heart rate (HR), respiratory rate (RR) and recovery time (RT) for HR/RR to return to baseline were recorded. Subjects were blinded to data recordings. Data (mean+/-SEM) were analyzed using a two-tailed paired t-test. Significance was defined qualitatively as Por =0.05.Mean decompression depth difference was significantly greater with AGD-ACD-CPR compared to S-CPR; 38-75% of subjects achieved chest decompression to or beyond baseline. AGD-ACD-CPR provided 6-12% fewer chest compressions/minute than S-CPR group. There was no significant difference in CD, CP, HR, RR and RT within each group comparing both techniques.A simple, inexpensive glove device for ACD-CPR improved chest decompression with emphasis on active pull in manikins without excessive rescuer fatigue. The clinical implication of fewer compressions/minute in the AGD group needs to be evaluated.

Published
2009

12. Resistin deficiency in mice has no effect on pulmonary responses induced by acute ozone exposure

Author

Shehla S. Razvi, Cynthia S. Bell, Joseph L. Alcorn, Tingting Weng, Michael R. Blackburn, Constance L. Atkins, Farhan Malik, Roger E. Price, Chantal Y. Spencer, Ikram U. Haque, Jeremy B. Richards, Kevin R. Cromar, Katherine J. Cockerill, Amy L. Alexander, and Richard A. Johnston

Subjects
Pulmonary and Respiratory Medicine, Male, Mice, 129 Strain, Physiology, Inflammation, Desquamation, Bronchoconstrictor Agents, Airway resistance, Ozone, Physiology (medical), medicine, Animals, Resistin, Lung, Methacholine Chloride, Mice, Knockout, Air Pollutants, business.industry, Airway Resistance, Cell Biology, Pneumonia, Articles, respiratory system, Mice, Inbred C57BL, medicine.anatomical_structure, Immunology, Methacholine, Tumor necrosis factor alpha, Female, medicine.symptom, business, Airway, medicine.drug
Abstract

Acute exposure to ozone (O3), an air pollutant, causes pulmonary inflammation, airway epithelial desquamation, and airway hyperresponsiveness (AHR). Pro-inflammatory cytokines—including IL-6 and ligands of chemokine (C-X-C motif) receptor 2 [keratinocyte chemoattractant (KC) and macrophage inflammatory protein (MIP)-2], TNF receptor 1 and 2 (TNF), and type I IL-1 receptor (IL-1α and IL-1β)—promote these sequelae. Human resistin, a pleiotropic hormone and cytokine, induces expression of IL-1α, IL-1β, IL-6, IL-8 (the human ortholog of murine KC and MIP-2), and TNF. Functional differences exist between human and murine resistin; yet given the aforementioned observations, we hypothesized that murine resistin promotes O3-induced lung pathology by inducing expression of the same inflammatory cytokines as human resistin. Consequently, we examined indexes of O3-induced lung pathology in wild-type and resistin-deficient mice following acute exposure to either filtered room air or O3. In wild-type mice, O3 increased bronchoalveolar lavage fluid (BALF) resistin. Furthermore, O3 increased lung tissue or BALF IL-1α, IL-6, KC, TNF, macrophages, neutrophils, and epithelial cells in wild-type and resistin-deficient mice. With the exception of KC, which was significantly greater in resistin-deficient compared with wild-type mice, no genotype-related differences in the other indexes existed following O3 exposure. O3 caused AHR to acetyl-β-methylcholine chloride (methacholine) in wild-type and resistin-deficient mice. However, genotype-related differences in airway responsiveness to methacholine were nonexistent subsequent to O3 exposure. Taken together, these data demonstrate that murine resistin is increased in the lungs of wild-type mice following acute O3 exposure but does not promote O3-induced lung pathology.

Published
2015

13. Dexamethasone suppresses iNOS yet induces GTPCH and CAT-2 mRNA expression in rat lungs

Author

Jeffrey W. Skimming, Paul J. Sarcia, Bruce R. Stevens, Charles E. Wood, Philip O. Scumpia, Ikram U. Haque, Omer Nasiroglu, and Chun-Jen Huang

Subjects
Male, Pulmonary and Respiratory Medicine, medicine.medical_specialty, Transcription, Genetic, Arginine, Physiology, GTP cyclohydrolase I, Nitric Oxide Synthase Type II, Blood Pressure, Shock, Hemorrhagic, Biology, Nitric Oxide, Dexamethasone, Nitric oxide, Rats, Sprague-Dawley, chemistry.chemical_compound, Physiology (medical), Internal medicine, Administration, Inhalation, medicine, Animals, RNA, Messenger, Cationic Amino Acid Transporter 2, GTP Cyclohydrolase, Lung, Nitrites, DNA Primers, Nitrates, Arginine transport, Base Sequence, Reverse Transcriptase Polymerase Chain Reaction, Hemodynamics, Cell Biology, Tetrahydrobiopterin, Rats, Nitric oxide synthase, Endocrinology, Gene Expression Regulation, chemistry, Exhaled nitric oxide, biology.protein, Nitric Oxide Synthase, medicine.drug
Abstract

The in vivo mechanisms by which glucocorticoids inhibit nitric oxide expression await detailed investigation. In cell culture experiments, glucocorticoids have been shown to inhibit inducible nitric oxide synthase (iNOS) formation and activity. Glucocorticoids can inhibit iNOS activity in cultured cells by blocking arginine transport and inhibiting tetrahydrobiopterin biosynthesis. We recently reported that changes in intrapulmonary formation of nitric oxide in endotoxemic rats correspond with changes in transcription of the predominant arginine transporter cationic amino acid transporter (CAT)-2. Realizing that hemorrhagic shock induces nitric oxide overproduction in intact animals, we sought to explore whether glucocorticoids attenuate hemorrhagic shock-induced increases in intrapulmonary nitric oxide formation and whether they might do so by inhibiting the formation of tetrahydrobiopterin, iNOS protein, and CAT-2. We randomly assigned 10 male Sprague-Dawley rats to receive dexamethasone or normal saline. Bleeding the animals to a mean systemic blood pressure of between 40 and 45 mmHg created the hemorrhagic shock. Dexamethasone abrogated the increase in exhaled nitric oxide concentrations caused by hemorrhagic shock. At the end of the experiment, plasma nitrate/nitrite values were lower in the dexamethasone group than in the control group. The iNOS protein concentrations were also lower in the dexamethasone group than in the control group. Dexamethasone decreased the intrapulmonary iNOS mRNA concentrations yet increased both guanosine triphosphate cyclohydrolase I mRNA and CAT-2 mRNA. Our results support the idea that dexamethasone inhibits nitric oxide formation in a manner that is independent of tetrahydrobiopterin and arginine transport yet dependent on downregulation of iNOS mRNA expression.

Published
2003

14. Endogenous osteopontin promotes ozone-induced neutrophil recruitment to the lungs and airway hyperresponsiveness to methacholine

Author

Christopher B. Hernandez, Richard A. Johnston, Kevin R. Cromar, Arthur Nádas, Michael R. Blackburn, Daniel J. Schneider, Ikram U. Haque, Ramon X. Barreno, Lance M. Hallberg, Roger E. Price, S. Shahrukh Hashmi, and Jeremy B. Richards

Subjects
Pulmonary and Respiratory Medicine, Physiology, Neutrophils, medicine.medical_treatment, Inflammation, Lung injury, Bronchoalveolar Lavage, Bronchoconstrictor Agents, Mice, Oxidants, Photochemical, Ozone, stomatognathic system, Physiology (medical), Macrophages, Alveolar, medicine, Animals, Osteopontin, Lung, Methacholine Chloride, biology, medicine.diagnostic_test, Inhalation, business.industry, Cell Biology, Articles, Lung Injury, Pneumonia, respiratory system, Asthma, Mice, Mutant Strains, respiratory tract diseases, medicine.anatomical_structure, Cytokine, Bronchoalveolar lavage, Neutrophil Infiltration, Immunology, biology.protein, Methacholine, Female, medicine.symptom, business, medicine.drug
Abstract

Inhalation of ozone (O3), a common environmental pollutant, causes pulmonary injury, pulmonary inflammation, and airway hyperresponsiveness (AHR) in healthy individuals and exacerbates many of these same sequelae in individuals with preexisting lung disease. However, the mechanisms underlying these phenomena are poorly understood. Consequently, we sought to determine the contribution of osteopontin (OPN), a hormone and a pleiotropic cytokine, to the development of O3-induced pulmonary injury, pulmonary inflammation, and AHR. To that end, we examined indices of these aforementioned sequelae in mice genetically deficient in OPN and in wild-type, C57BL/6 mice 24 h following the cessation of an acute (3 h) exposure to filtered room air (air) or O3 (2 parts/million). In wild-type mice, O3 exposure increased bronchoalveolar lavage fluid (BALF) OPN, whereas immunohistochemical analysis demonstrated that there were no differences in the number of OPN-positive alveolar macrophages between air- and O3-exposed wild-type mice. O3 exposure also increased BALF epithelial cells, protein, and neutrophils in wild-type and OPN-deficient mice compared with genotype-matched, air-exposed controls. However, following O3 exposure, BALF neutrophils were significantly reduced in OPN-deficient compared with wild-type mice. When airway responsiveness to inhaled acetyl-β-methylcholine chloride (methacholine) was assessed using the forced oscillation technique, O3 exposure caused hyperresponsiveness to methacholine in the airways and lung parenchyma of wild-type mice, but not OPN-deficient mice. These results demonstrate that OPN is increased in the air spaces following acute exposure to O3 and functionally contributes to the development of O3-induced pulmonary inflammation and airway and lung parenchymal hyperresponsiveness to methacholine.

Published
2013

15. Plasminogen activator inhibitor-1 does not contribute to the pulmonary pathology induced by acute exposure to ozone

Author

Chantal Y. Spencer, Kevin R. Cromar, Richard A. Johnston, Hamza S. Elkhidir, Katherine J. Cockerill, Roger E. Price, Amy L. Alexander, Constance L. Atkins, Jeremy B. Richards, Cynthia S. Bell, Farhan Malik, and Ikram U. Haque

Subjects
0301 basic medicine, medicine.medical_specialty, Physiology, medicine.medical_treatment, Immunology, Lung injury, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Airway hyperresponsiveness, Physiology (medical), Internal medicine, Fibrinolysis, Medicine, Respiratory Physiology, lung injury, macrophage inflammatory protein‐2, Macrophage inflammatory protein, Original Research, Lung, medicine.diagnostic_test, business.industry, epithelial cell, neutrophil, Interleukin, 3. Good health, 030104 developmental biology, Bronchoalveolar lavage, Endocrinology, medicine.anatomical_structure, 030228 respiratory system, chemistry, Plasminogen activator inhibitor-1, business, Toxins, Pollutants and Chemical Agents, Plasminogen activator
Abstract

Expression of plasminogen activator inhibitor (PAI)‐1, the major physiological inhibitor of fibrinolysis, is increased in the lung following inhalation of ozone (O3), a gaseous air pollutant. PAI‐1 regulates expression of interleukin (IL)‐6, keratinocyte chemoattractant (KC), and macrophage inflammatory protein (MIP)‐2, which are cytokines that promote lung injury, pulmonary inflammation, and/or airway hyperresponsiveness following acute exposure to O3. Given these observations, we hypothesized that PAI‐1 contributes to the severity of the aforementioned sequelae by regulating expression of IL‐6, KC, and MIP‐2 following acute exposure to O3. To test our hypothesis, wild‐type mice and mice genetically deficient in PAI‐1 (PAI‐1‐deficient mice) were acutely exposed to either filtered room air or O3 (2 ppm) for 3 h. Four and/or twenty‐four hours following cessation of exposure, indices of lung injury [bronchoalveolar lavage fluid (BALF) protein and epithelial cells], pulmonary inflammation (BALF IL‐6, KC, MIP‐2, macrophages, and neutrophils), and airway responsiveness to aerosolized acetyl‐β‐methylcholine chloride (respiratory system resistance) were measured in wild‐type and PAI‐1‐deficient mice. O3 significantly increased indices of lung injury, pulmonary inflammation, and airway responsiveness in wild‐type and PAI‐1‐deficient mice. With the exception of MIP‐2, which was significantly lower in PAI‐1‐deficient as compared to wild‐type mice 24 h following cessation of exposure to O3, no other genotype‐related differences occurred subsequent to O3 exposure. Thus, following acute exposure to O3, PAI‐1 neither regulates pulmonary expression of IL‐6 and KC nor functionally contributes to any of the pulmonary pathological sequelae that arise from the noxious effects of inhaled O3.

Published
2016

16. Effect of Alternative Chest Compression Techniques in Infant and Child on Rescuer Performance

Author

Ikram U. Haque, Jai P. Udassi, Douglas W. Theriaque, Arno Zaritsky, Sharda Udassi, and Jonathan J. Shuster

Subjects
Male, medicine.medical_specialty, business.industry, medicine.medical_treatment, Infant, Thumb, Critical Care and Intensive Care Medicine, Compression (physics), Cardiopulmonary Resuscitation, Article, Surgery, medicine.anatomical_structure, Child, Preschool, Pediatrics, Perinatology and Child Health, Physical therapy, Pressure, Medicine, Humans, Education, Medical, Continuing, Female, Single-Blind Method, Heart massage, Cardiopulmonary resuscitation, business, Fatigue
Abstract

Current chest compression (CC) guidelines for an infant recommend a two-finger (TF) technique with lone rescuer and a two- thumb (TT) technique with two rescuers, and for a child either an one hand (OH) or a two hand (TH) technique with one or two rescuers. The effect of a 30:2 compression:ventilation ratio using these techniques on CC quality and rescuer fatigue is unknown. We hypothesized that during lone rescuer CC, TT technique, in infant and TH in child achieve better compression depth (CD) without additional rescuer fatigue compared with TF and OH, respectively.Randomized observational study.University-affiliated pediatric hospital.Adult healthcare providers certified in basic life support or pediatric advanced life support.Laerdal baby advanced life support trainer and Resusci junior manikin were modified to digitally record CD, compression pressure (CP) and compression rate. Sixteen subjects were randomized to each of the four techniques to perform 5 minutes of lone rescuer 30:2 compression:ventilation cardiopulmonary resuscitation. Rescuer heart rate (HR) and respiratory rate were recorded continuously and the recovery time interval for HR/respiratory rate to return to baseline was determined. Subjects were blinded to data recording. Groups were compared using two-sample, two-sided Student's t tests.Two-thumb technique generated significantly higher CD and peak CP compared with TF (p0.001); there was no significant difference between OH vs. TH. TF showed decay of CD and CP over time compared with TT. Compression rate (per minute) and actual compressions delivered were not significantly different between groups. No significant differences in fatigue and recovery time were observed, except the TT group had greater increase in the rescuer's HR (bpm) from baseline compared with TF group (p = 0.04).Two-thumb compression provides higher CD and CP compared with TF without any evidence of decay in quality and additional rescuer fatigue over 5 minutes. There was no significant difference in child CC quality or rescuer fatigue between OH and TH. Two-thumb technique is preferred for infant CC and our data support the current guidelines for child CC.

Published
2009

17. Abstract P42: Active Compression Decompression-CPR in an Infant Manikin Model Using a Novel Adhesive Glove Device

Author

Sharda Udassi, Jai P Udassi, Melissa Lamb, Doug Theriaque, Arno L Zaritsky, and Ikram U Haque

Subjects
Physiology (medical), Cardiology and Cardiovascular Medicine
Abstract

Introduction: In animals Active Compression-Decompression(ACD)-CPR improves hemodynamics compared with standard CPR (S-CPR). We evaluated the feasibility of achieving ACD-CPR with a novel, simple and inexpensive Adhesive Glove Device (AGD) in an infant manikin model using two thumb (TT) chest compression. Hypothesis: AGD-ACD CPR provides better chest decompression compared to S-CPR in an infant manikin model without excessive rescuer fatigue. Methods: Laerdal ™ Baby ALS Trainer manikin was modified to digitally record compression pressure (CP), compression depth (CD) and decompression depth (DD). The thumb portion of two oven mitts were sewn together and a Velcro adhesive patch was stitched on the underside with an encircling adjustable strap for proper fit to create the AGD. An interlocking Velcro patch was glued to the manikin chest wall. Sixteen BLS or PALS certified healthcare providers were prospectively randomized to perform either two-thumb S-CPR or AGD-ACD-CPR for 5 minutes with a 30:2 compression:ventilation ratio using a crossover design. During AGD-ACD-CPR subjects were asked to pull up during chest decompression. Rescuer heart rate (HR), respiratory rate (RR), recovery time (RT) for HR/RR to return to baseline and actual compressions delivered per minute were recorded. Subjects were blinded to data recordings. Data (mean±SEM) was analyzed using 2 sided paired t-test; p-value ≤0.05 was considered significant. Results: Chest decompression was greater with AGD-ACD-CPR; the mean DD difference was 0.11±0.02 inches, p= Conclusions: Active decompression and improved recoil was achievable with the use of our simple, inexpensive AGD in this infant CPR model. Use of our device did not result in excessive rescuer fatigue compared to S-CPR. The clinical significance of 6 less compressions/minute in the AGD-CPR group needs to be determined.

Published
2008

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