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Roderic G. Eckenhoff, MD
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Austin Lamont Professor of Anesthesia
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Department: Anesthesiology and Critical Care
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Contact information
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311A John Morgan Building
3a 3620 Hamilton Walk
Philadelphia, PA 19104-6112
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3a 3620 Hamilton Walk
Philadelphia, PA 19104-6112
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Office: 215-746-8699
32 Fax: 215-349-5078
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32 Fax: 215-349-5078
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Publications
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Links
71 Search PubMed for articles
74 Perioperative Brain Health Initiative: 4d Promoting brain health for older adults around the time of surgery
91 What do we Know About the Mechanism of Anesthesia in 2015?
8e Tadpoles May Help Scientists Discover Better Anesthetics
66 Eckenhoff Lab website
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71 Search PubMed for articles
74 Perioperative Brain Health Initiative: 4d Promoting brain health for older adults around the time of surgery
91 What do we Know About the Mechanism of Anesthesia in 2015?
8e Tadpoles May Help Scientists Discover Better Anesthetics
66 Eckenhoff Lab website
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Education:
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38 University of Miami (Biol/Chem), 1974.
21 9 M.D. c
30 Northwestern University, 1978.
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Permanent link21 a B.S. c
38 University of Miami (Biol/Chem), 1974.
21 9 M.D. c
30 Northwestern University, 1978.
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543 Discovery of the general anesthetics is considered one of the most important medical advances of all time. They are used in over 100 million patients every year, and yet remain the most toxic and poorly understood of all drugs. The goal of my laboratory is a translational understanding of general anesthetic pharmacology, but focused at the most fundamental molecular level. This is a critical foundation on which the subsequent superstructure of molecular, cellular and organism understanding will be built. We have developed a wide variety of experimental approaches to study anesthetic binding to proteins, and the structural and dynamic consequences. Thus, photoaffinity labeling, fluorescence spectroscopy, amide hydrogen exchange, low-affinity elution chromatography and differential/isothermal calorimetry have all been introduced and validated for this purpose. We have moved from simple protein and peptide models to the most relevant and complex ion channels, enzymes, and receptors. We collaborate with Penn Chemistry (William Dailey, Ivan Dmochowski) to introduce novel reagents into our campaign to understand molecular anesthesia. Wide collaborations with many other departments and institutions have facilitated a rapid, multidisciplinary attack on some of the most fundamental questions in anesthetic pharmacology.
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23 NEURODEGENERATIVE DISORDERS
1f7 Our studies of general anesthetics have led to the observation that they can potently promote aggregation of selected peptides and proteins, as well as modulate the immune response. Since a common feature of most neurodegenerative disorders is aggregation of endogenous peptide, and neuroinflammation, the general anesthetics may accelerate the onset of neurodegeneration. Examination of the effects of anesthesia and surgery in a fully translational manner is a growing focus of our laboratory.
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Description of Research Expertise
3f MOLECULAR PHARMACOLOGY OF INHALED ANESTHETICS543 Discovery of the general anesthetics is considered one of the most important medical advances of all time. They are used in over 100 million patients every year, and yet remain the most toxic and poorly understood of all drugs. The goal of my laboratory is a translational understanding of general anesthetic pharmacology, but focused at the most fundamental molecular level. This is a critical foundation on which the subsequent superstructure of molecular, cellular and organism understanding will be built. We have developed a wide variety of experimental approaches to study anesthetic binding to proteins, and the structural and dynamic consequences. Thus, photoaffinity labeling, fluorescence spectroscopy, amide hydrogen exchange, low-affinity elution chromatography and differential/isothermal calorimetry have all been introduced and validated for this purpose. We have moved from simple protein and peptide models to the most relevant and complex ion channels, enzymes, and receptors. We collaborate with Penn Chemistry (William Dailey, Ivan Dmochowski) to introduce novel reagents into our campaign to understand molecular anesthesia. Wide collaborations with many other departments and institutions have facilitated a rapid, multidisciplinary attack on some of the most fundamental questions in anesthetic pharmacology.
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23 NEURODEGENERATIVE DISORDERS
1f7 Our studies of general anesthetics have led to the observation that they can potently promote aggregation of selected peptides and proteins, as well as modulate the immune response. Since a common feature of most neurodegenerative disorders is aggregation of endogenous peptide, and neuroinflammation, the general anesthetics may accelerate the onset of neurodegeneration. Examination of the effects of anesthesia and surgery in a fully translational manner is a growing focus of our laboratory.
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11d Eckenhoff RG, Maze M, Xie Z, Culley DJ, Goodlin SJ, Zuo Z, Wei H, Whittington RA, Terrando N, Orser BA, Eckenhoff MF.: Perioperative Neurocognitive Disorder: State of the Preclinical Science. Anesthesiology 2020.
157 Evered L, Silbert B, Knopman DS, Scott DA, DeKosky ST, Rasmussen LS, Oh ES, Crosby G, Berger M, Eckenhoff RG; Nomenclature Consensus Working Group.: Recommendations for the nomenclature of cognitive change associated with anaesthesia and surgery-2018. Br J Anaesth 2018.
1ad Woll Kellie A, Zhou Xiaojuan, Bhanu Natarajan V, Garcia Benjamin A, Covarrubias Manuel, Miller Keith W, Eckenhoff Roderic G: Identification of binding sites contributing to volatile anesthetic effects on GABA type A receptors. FASEB journal : official publication of the Federation of American Societies for Experimental Biology 32(8): 4172-4189, Aug 2018.
169 Bensel Brandon M, Guzik-Lendrum Stephanie, Masucci Erin M, Woll Kellie A, Eckenhoff Roderic G, Gilbert Susan P: Common general anesthetic propofol impairs kinesin processivity. Proceedings of the National Academy of Sciences of the United States of America 114(21): E4281-E4287, May 2017.
107 Ho J, Perez-Aguilar JM, Gao L, Saven JG, Matsunami H, Eckenhoff RG: Molecular recognition of ketamine by a subset of olfactory G protein–coupled receptors. Sci. Signal. 8(370), April 2015.
13e Tang Junxia X, Mardini Feras, Janik Luke S, Garrity Sean T, Li Rosie Q, Bachlani Gulnaz, Eckenhoff Roderic G, Eckenhoff Maryellen F: Modulation of murine Alzheimer pathogenesis and behavior by surgery. Annals of surgery 257(3): 439-48, Mar 2013.
146 Hall Michael A, Xi Jin, Lor Chong, Dai Shuiping, Pearce Robert, Dailey William P, Eckenhoff Roderic G: m-Azipropofol (AziPm) a photoactive analogue of the intravenous general anesthetic propofol. Journal of medicinal chemistry 53(15): 5667-75, Aug 2010.
ec Liu R, Loll PJ, Eckenhoff RG: Structural basis for high-affinity volatile anesthetic binding in a natural 4-helix bundle protein. FASEB J. 19(6): 567-76, Apr 2005.
123 Eckenhoff RG, Johansson JS, Wei H, Carnini A, Kang B, Wei W, Pidikiti R, Keller JM, Eckenhoff MF: Inhaled anesthetic enhancement of amyloid-beta oligomerization and cytotoxicity. Anesthesiology 101(3): 703-9, Sep 2004.
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Selected Publications
1c5 Vasunilashorn SM, Lunardi N, Newman JC, Crosby G, Acker L, Abel T, Bhatnagar S, Cunningham C, de Cabo R, Dugan L, Hippensteel JA, Ishizawa Y, Lahiri S, Marcantonio ER, Xie Z, Inouye SK, Terrando N, Eckenhoff RG; NIDUS Delirium Network.: Preclinical and translational models for delirium: Recommendations for future research from the NIDUS delirium network. Alzheimers Dement 2023.11d Eckenhoff RG, Maze M, Xie Z, Culley DJ, Goodlin SJ, Zuo Z, Wei H, Whittington RA, Terrando N, Orser BA, Eckenhoff MF.: Perioperative Neurocognitive Disorder: State of the Preclinical Science. Anesthesiology 2020.
157 Evered L, Silbert B, Knopman DS, Scott DA, DeKosky ST, Rasmussen LS, Oh ES, Crosby G, Berger M, Eckenhoff RG; Nomenclature Consensus Working Group.: Recommendations for the nomenclature of cognitive change associated with anaesthesia and surgery-2018. Br J Anaesth 2018.
1ad Woll Kellie A, Zhou Xiaojuan, Bhanu Natarajan V, Garcia Benjamin A, Covarrubias Manuel, Miller Keith W, Eckenhoff Roderic G: Identification of binding sites contributing to volatile anesthetic effects on GABA type A receptors. FASEB journal : official publication of the Federation of American Societies for Experimental Biology 32(8): 4172-4189, Aug 2018.
169 Bensel Brandon M, Guzik-Lendrum Stephanie, Masucci Erin M, Woll Kellie A, Eckenhoff Roderic G, Gilbert Susan P: Common general anesthetic propofol impairs kinesin processivity. Proceedings of the National Academy of Sciences of the United States of America 114(21): E4281-E4287, May 2017.
107 Ho J, Perez-Aguilar JM, Gao L, Saven JG, Matsunami H, Eckenhoff RG: Molecular recognition of ketamine by a subset of olfactory G protein–coupled receptors. Sci. Signal. 8(370), April 2015.
13e Tang Junxia X, Mardini Feras, Janik Luke S, Garrity Sean T, Li Rosie Q, Bachlani Gulnaz, Eckenhoff Roderic G, Eckenhoff Maryellen F: Modulation of murine Alzheimer pathogenesis and behavior by surgery. Annals of surgery 257(3): 439-48, Mar 2013.
146 Hall Michael A, Xi Jin, Lor Chong, Dai Shuiping, Pearce Robert, Dailey William P, Eckenhoff Roderic G: m-Azipropofol (AziPm) a photoactive analogue of the intravenous general anesthetic propofol. Journal of medicinal chemistry 53(15): 5667-75, Aug 2010.
ec Liu R, Loll PJ, Eckenhoff RG: Structural basis for high-affinity volatile anesthetic binding in a natural 4-helix bundle protein. FASEB J. 19(6): 567-76, Apr 2005.
123 Eckenhoff RG, Johansson JS, Wei H, Carnini A, Kang B, Wei W, Pidikiti R, Keller JM, Eckenhoff MF: Inhaled anesthetic enhancement of amyloid-beta oligomerization and cytotoxicity. Anesthesiology 101(3): 703-9, Sep 2004.
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