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Artikel: Mitochondria- and ER-associated actin are required for mitochondrial fusion.

Gatti, Priya / Schiavon, Cara / Manor, Uri / Germain, Marc

bioRxiv : the preprint server for biology

2023

Abstract: Mitochondria play a crucial role in the regulation of cellular metabolism and signalling. Mitochondrial activity is modulated by the processes of mitochondrial fission and fusion, which are required to properly balance respiratory and metabolic functions, ...

Abstract	Mitochondria play a crucial role in the regulation of cellular metabolism and signalling. Mitochondrial activity is modulated by the processes of mitochondrial fission and fusion, which are required to properly balance respiratory and metabolic functions, transfer material between mitochondria, and remove damaged or defective mitochondria. Mitochondrial fission occurs at sites of contact between the endoplasmic reticulum (ER) and mitochondria, and is dependent on the formation of mitochondria- and ER-associated actin filaments that drive the recruitment and activation of the fission GTPase DRP1. On the other hand, the role of mitochondria- and ER-associated actin filaments in mitochondrial fusion remains unknown. Here we show that preventing the formation of actin filaments on either mitochondria or the ER using organelle-targeted Disassembly-promoting, encodable Actin tools (DeActs) blocks both mitochondrial fission and fusion. We show that fusion but not fission is dependent on Arp2/3, and both fission and fusion are dependent on INF2 formin-dependent actin polymerization. Together, our work introduces a novel method for perturbing organelle-associated actin filaments, and demonstrates a previously unknown role for mitochondria- and ER-associated actin in mitochondrial fusion.
Sprache	Englisch
Erscheinungsdatum	2023-06-13
Erscheinungsland	United States
Dokumenttyp	Preprint
DOI	10.1101/2023.06.13.544768
Datenquelle	MEDical Literature Analysis and Retrieval System OnLINE

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Artikel: Mitochondria Endoplasmic Reticulum Contact Sites (MERCs): Proximity Ligation Assay as a Tool to Study Organelle Interaction.

Benhammouda, Sara / Vishwakarma, Anjali / Gatti, Priya / Germain, Marc

Frontiers in cell and developmental biology

2021 Band 9, Seite(n) 789959

Abstract: Organelles cooperate with each other to regulate vital cellular homoeostatic functions. This occurs through the formation of close connections through membrane contact sites. Mitochondria-Endoplasmic-Reticulum (ER) contact sites (MERCS) are one of such ... ...

Abstract	Organelles cooperate with each other to regulate vital cellular homoeostatic functions. This occurs through the formation of close connections through membrane contact sites. Mitochondria-Endoplasmic-Reticulum (ER) contact sites (MERCS) are one of such contact sites that regulate numerous biological processes by controlling calcium and metabolic homeostasis. However, the extent to which contact sites shape cellular biology and the underlying mechanisms remain to be fully elucidated. A number of biochemical and imaging approaches have been established to address these questions, resulting in the identification of a number of molecular tethers between mitochondria and the ER. Among these techniques, fluorescence-based imaging is widely used, including analysing signal overlap between two organelles and more selective techniques such as
Sprache	Englisch
Erscheinungsdatum	2021-12-03
Erscheinungsland	Switzerland
Dokumenttyp	Journal Article ; Review
ZDB-ID	2737824-X
ISSN	2296-634X
ISSN	2296-634X
DOI	10.3389/fcell.2021.789959
Datenquelle	MEDical Literature Analysis and Retrieval System OnLINE

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Artikel ; Online: Mitochondria Endoplasmic Reticulum Contact Sites (MERCs)

Sara Benhammouda / Anjali Vishwakarma / Priya Gatti / Marc Germain

Frontiers in Cell and Developmental Biology, Vol

Proximity Ligation Assay as a Tool to Study Organelle Interaction

2021 Band 9

Abstract	Organelles cooperate with each other to regulate vital cellular homoeostatic functions. This occurs through the formation of close connections through membrane contact sites. Mitochondria-Endoplasmic-Reticulum (ER) contact sites (MERCS) are one of such contact sites that regulate numerous biological processes by controlling calcium and metabolic homeostasis. However, the extent to which contact sites shape cellular biology and the underlying mechanisms remain to be fully elucidated. A number of biochemical and imaging approaches have been established to address these questions, resulting in the identification of a number of molecular tethers between mitochondria and the ER. Among these techniques, fluorescence-based imaging is widely used, including analysing signal overlap between two organelles and more selective techniques such as in-situ proximity ligation assay (PLA). While these two techniques allow the detection of endogenous proteins, preventing some problems associated with techniques relying on overexpression (FRET, split fluorescence probes), they come with their own issues. In addition, proper image analysis is required to minimise potential artefacts associated with these methods. In this review, we discuss the protocols and outline the limitations of fluorescence-based approaches used to assess MERCs using endogenous proteins.
Schlagwörter	mitochondia ; endoplasmic reticulum ; organelle contact sites ; organelle ; contact sites methodologies ; Biology (General) ; QH301-705.5
Sprache	Englisch
Erscheinungsdatum	2021-12-01T00:00:00Z
Verlag	Frontiers Media S.A.
Dokumenttyp	Artikel ; Online
Datenquelle	BASE - Bielefeld Academic Search Engine (Lebenswissenschaftliche Auswahl)

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Artikel ; Online: Protection of wear resistance behaviour of enamel against electron beam irradiation.

Hegde, Mithra N / Gatti, Priya / Hegde, Nidarsh D

BDJ open

2019 Band 5, Seite(n) 11

Abstract: Introduction: Irradiation is known to cause oxidation process among the tissue-altering the properties of teeth leading to tissue necrosis and caries formation. Hence protection of the oral cavity is a major concern to deal with therapy side effects.: ...

Abstract	Introduction: Irradiation is known to cause oxidation process among the tissue-altering the properties of teeth leading to tissue necrosis and caries formation. Hence protection of the oral cavity is a major concern to deal with therapy side effects. Aim: Evaluation of wear resistance property of Enamel against electron beam radiation and analysing the radio protective effects of natural organic compounds. Materials and methods: Total of 36 healthy extracted human molar teeth were collected, four samples were used as control, and remaining 32 were divided into four groups ( Results and discussion: The particle size of radiation control samples had increased showing decrease in its crystallinity index. Calcium to Phosphorous ratio had also decreased along with structural changes as observed by SEM analysis. But groups treated with organic compounds has maintained tooth integrity in comparable to control groups after radiation treatment. Conclusion: Virgin coconut oil, vitamin E oil and curcumin has potential radioprotective action against radiation in protecting tissue properties. Hence, with further advanced research, these natural substances should emerge as a topical applicator during radiotherapy to oral cancer patients.
Sprache	Englisch
Erscheinungsdatum	2019-07-11
Erscheinungsland	England
Dokumenttyp	Journal Article
ISSN	2056-807X
ISSN (online)	2056-807X
DOI	10.1038/s41405-019-0021-0
Datenquelle	MEDical Literature Analysis and Retrieval System OnLINE

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Artikel: Mitochondria Targeted Viral Replication and Survival Strategies-Prospective on SARS-CoV-2.

Gatti, Priya / Ilamathi, Hema Saranya / Todkar, Kiran / Germain, Marc

Frontiers in pharmacology

2020 Band 11, Seite(n) 578599

Abstract: SARS-CoV-2 is a positive sense RNA coronavirus that constitutes a new threat for the global community and economy. While vaccines against SARS-CoV-2 are being developed, the mechanisms through which this virus takes control of an infected cell to ... ...

Abstract	SARS-CoV-2 is a positive sense RNA coronavirus that constitutes a new threat for the global community and economy. While vaccines against SARS-CoV-2 are being developed, the mechanisms through which this virus takes control of an infected cell to replicate remains poorly understood. Upon infection, viruses completely rely on host cell molecular machinery to survive and replicate. To escape from the immune response and proliferate, viruses strategically modulate cellular metabolism and alter subcellular organelle architecture and functions. One way they do this is by modulating the structure and function of mitochondria, a critical cellular metabolic hub but also a key platform for the regulation of cellular immunity. This versatile nature of mitochondria defends host cells from viruses through several mechanisms including cellular apoptosis, ROS signaling, MAVS activation and mitochondrial DNA-dependent immune activation. These events are regulated by mitochondrial dynamics, a process by which mitochondria alter their structure (including their length and connectivity) in response to stress or other cues. It is therefore not surprising that viruses, including coronaviruses hijack these processes for their survival. In this review, we highlight how positive sense RNA viruses modulate mitochondrial dynamics and metabolism to evade mitochondrial mediated immune response in order to proliferate.
Schlagwörter	covid19
Sprache	Englisch
Erscheinungsdatum	2020-08-28
Erscheinungsland	Switzerland
Dokumenttyp	Journal Article ; Review
ZDB-ID	2587355-6
ISSN	1663-9812
ISSN	1663-9812
DOI	10.3389/fphar.2020.578599
Datenquelle	MEDical Literature Analysis and Retrieval System OnLINE

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Artikel ; Online: Mitochondria Targeted Viral Replication and Survival Strategies—Prospective on SARS-CoV-2

Gatti, Priya / Ilamathi, Hema Saranya / Todkar, Kiran / Germain, Marc

Frontiers in Pharmacology

2020 Band 11

Schlagwörter	Pharmacology (medical) ; Pharmacology ; covid19
Verlag	Frontiers Media SA
Erscheinungsland	ch
Dokumenttyp	Artikel ; Online
ZDB-ID	2587355-6
ISSN	1663-9812
ISSN	1663-9812
DOI	10.3389/fphar.2020.578599
Datenquelle	BASE - Bielefeld Academic Search Engine (Lebenswissenschaftliche Auswahl)

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Artikel ; Online: Mitochondria Targeted Viral Replication and Survival Strategies—Prospective on SARS-CoV-2

Priya Gatti / Hema Saranya Ilamathi / Kiran Todkar / Marc Germain

Frontiers in Pharmacology, Vol

2020 Band 11

Abstract	SARS-CoV-2 is a positive sense RNA coronavirus that constitutes a new threat for the global community and economy. While vaccines against SARS-CoV-2 are being developed, the mechanisms through which this virus takes control of an infected cell to replicate remains poorly understood. Upon infection, viruses completely rely on host cell molecular machinery to survive and replicate. To escape from the immune response and proliferate, viruses strategically modulate cellular metabolism and alter subcellular organelle architecture and functions. One way they do this is by modulating the structure and function of mitochondria, a critical cellular metabolic hub but also a key platform for the regulation of cellular immunity. This versatile nature of mitochondria defends host cells from viruses through several mechanisms including cellular apoptosis, ROS signaling, MAVS activation and mitochondrial DNA-dependent immune activation. These events are regulated by mitochondrial dynamics, a process by which mitochondria alter their structure (including their length and connectivity) in response to stress or other cues. It is therefore not surprising that viruses, including coronaviruses hijack these processes for their survival. In this review, we highlight how positive sense RNA viruses modulate mitochondrial dynamics and metabolism to evade mitochondrial mediated immune response in order to proliferate.
Schlagwörter	SARS-CoV-2 ; mitochondria ; mitochondrial dynamics ; metabolism ; immune response ; RNA viruses ; Therapeutics. Pharmacology ; RM1-950 ; covid19
Thema/Rubrik (Code)	570
Sprache	Englisch
Erscheinungsdatum	2020-08-01T00:00:00Z
Verlag	Frontiers Media S.A.
Dokumenttyp	Artikel ; Online
Datenquelle	BASE - Bielefeld Academic Search Engine (Lebenswissenschaftliche Auswahl)

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Artikel ; Online: Detection of Human Papilloma Virus and Risk Factors among Patients with Head and Neck Squamous Cell Carcinoma Attending a Tertiary Referral Centre in South India

Bandhary, Satheesh K / Shetty, Veena / Saldanha, Marina / Gatti, Priya / Devegowda, Devananda / R, Pushkal S / Shetty, Avinash K

Asian Pacific journal of cancer prevention : APJCP

2018 Band 19, Heft 5, Seite(n) 1325–1330

Mesh-Begriff(e)	Adult ; Aged ; Carcinoma, Squamous Cell/epidemiology ; Carcinoma, Squamous Cell/pathology ; Carcinoma, Squamous Cell/virology ; Cross-Sectional Studies ; DNA, Viral/genetics ; Female ; Follow-Up Studies ; Head and Neck Neoplasms/epidemiology ; Head and Neck Neoplasms/pathology ; Head and Neck Neoplasms/virology ; Humans ; India/epidemiology ; Male ; Middle Aged ; Papillomaviridae/genetics ; Papillomaviridae/isolation & purification ; Papillomavirus Infections/complications ; Papillomavirus Infections/virology ; Prognosis ; Prospective Studies ; Risk Factors ; Tertiary Care Centers
Chemische Substanzen	DNA, Viral
Sprache	Englisch
Erscheinungsdatum	2018-05-26
Erscheinungsland	Thailand
Dokumenttyp	Journal Article
ISSN	2476-762X
ISSN (online)	2476-762X
DOI	10.22034/APJCP.2018.19.5.1325
Datenquelle	MEDical Literature Analysis and Retrieval System OnLINE

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Artikel ; Online: 2023 Canadian Surgery Forum: Sept. 20-23, 2023.

Brière, Raphaëlle / Émond, Marce / Benhamed, Axel / Blanchard, Pierre-Gilles / Drolet, Sébastien / Habashi, Rogeh / Golbon, Bahar / Shellenberger, Jonas / Pasternak, Jesse / Merchant, Shaila / La, Julie / Sawhney, Monakshi / Brogly, Susan / Cadili, Lina / Horkoff, Michael / Ainslie, Scott / Demetrick, Jeffrey / Chai, Brian / Wiseman, Kevin /

Hwang, Hamish / Alhumoud, Zainab / Salem, Amro / Lau, Rebecca / Aw, Katherine / Nessim, Carolyn / Gawad, Nada / Alibhai, Kameela / Towaij, Chelsea / Doan, Danielle / Raîche, Isabelle / Valji, Rahim / Turner, Simon / Balmes, Patricia Nicole / Hameed, S Morad / Tan, Jun Guang Kendric / Wijesuriya, Ruwan / Hew, Nicole Lee Chui / Lund, Matthew / Hawel, Jeffrey / Gregor, Jamie / Leslie, Ken / Lenet, Tori / McIsaac, Daniel / Hallet, Julie / Jerath, Angela / Lalu, Manoj / Nicholls, Stuart / Presseau, Justin / Tinmouth, Alan / Verret, Michael / Wherrett, Christopher / Fergusson, Dean / Martel, Guillaume / Sharma, Sahil / McKechnie, Tyler / Talwar, Gaurav / Patel, Janhavi / Heimann, Luke / Doumouras, Aristithes / Hong, Dennis / Eskicioglu, Cagla / Wang, Christine / Guo, Michael / Huang, Longlong / Sun, Shaun / Davis, Noelle / Wang, Julian / Skulsky, Samuel / Sikora, Lindsey / Son, Hyo Jin / Gee, Denise / Gomez, David / Jung, James / Selvam, Rajajee / Seguin, Nieve / Zhang, Lisa / Lacaille-Ranger, Ariane / Moloo, Husein / Follett, Alicia / Holly / Organ, Michael / Pace, David / Balvardi, Saba / Kaneva, Pepa / Semsar-Kazerooni, Koorosh / Mueller, Carmen / Vassiliou, Melina / Al Mahroos, Mohammed / Fiore, Julio F / Schwartzman, Kevin / Feldman, Liane / Karimuddin, Ahmer / Liu, Gui Ping / Crump, Trafford / Sutherland, Jason / Hickey, Kala / Bonisteel, Erin M / Umali, Jurgienne / Dogar, Ibrahim / Warden, Geoffrey / Boone, Darrell / Mathieson, Alexander / Hogan, Michael / Li, Yiran / Best, Gordon / Leong, Rachel / Wiseman, Sam / Alaoui, Ahmed Amine / Hajjar, Roy / Wassef, Evelyne / Metellus, Danny Sebastien / Dagbert, François / Loungnarath, Rasmy / Ratelle, Richard / Schwenter, Frank / Debroux, Éric / Wassef, Ramses / Gagnon-Konamna, Marianne / Pomp, Alfons / Richard, Carole S / Sebajang, Herawaty / Santos, Manuela M / Shi, Ge / Leung, Regina / Lim, Christina / Knowles, Sarah / Parmar, Simran / Debru, Estifanos / Mohamed, Fardowsa / Anakin, Megan / Lee, Yung / Samarasinghe, Yasith / Khamar, Jigish / Petrisor, Bradley / Yang, Ilun / Mughal, Hanaa N / Bhugio, Mumtaz / Gok, Muhammed A / Khan, Usman A / Fernandes, Alisha R / Spence, Richard / Porter, Geoffrey / Hoogerboord, C Marius / Neumann, Katerina / Pillar, Michal / Manhas, Neraj / Melck, Adrienne / Kazi, Tania / Jessani, Ghazal / Tessier, Léa / Archer, Vicki / Park, Lily / Cohen, Dan / Parpia, Sameer / Bhandari, Mohit / Dionne, Joanna / Bolin, Sara / Afford, Rebecca / Armstrong, Madeleine / Grant, Aaron / Van Koughnett, Julie Ann / Clement, Elizabeth / Lange, Claire / Roshan, Aishwi / Scott, Tracy / Nadeau, Kara / Macmillan, Jennifer / Wilson, Jaime / Deschenes, Madeleine / Nurullah, Aruba / Cahill, Caitlin / Chen, Victoria H / Patterson, Keiko M / Wiseman, Sam M / Wen, Betty / Bhudial, Joshua / Barton, Anise / Lie, Jessica / Park, Chan Mi / Yang, Laiji / Gouskova, Natalia / Kim, Dae Hyun / Morris-Janzen, Dunavan / McLellan, Alastair / Archer, Victoria / Cloutier, Zacharie / Berg, Annie / Wiercioch, Wojtek / Labonté, Joëlle / Bisson, Pascale / Bégin, André / Cheng-Oviedo, Sonia Gabriela / Collin, Yves / Hossain, Intekhab / Ellsmere, James / El-Kefraoui, Charbel / Do, Uyen / Miller, Andrew / Kouyoumdjian, Araz / Cui, David / Khorasani, Elahe / Landry, Tara / Amar-Zifkin, Alexandre / Lee, Lawrence / Fiore, Julio / Au, Tran Michelle / Oppenheimer, Mark / Logsetty, Sarvesh / AlShammari, Raghad / AlAbri, Mohammad / Brown, Carl / Raval, Manoj J / Phang, Paul Terry / Bird, Samantha / Baig, Zarrukh / Abu-Omar, Nawaf / Gill, Dilip / Suresh, Soumiya / Ginther, Nathan / Karpinski, Marta / Ghuman, Amandeep / Malik, Peter R A / Zabolotniuk, Taryn / Mashal, Sarah / Boulanger, Nathalie / Watt, Larry / Razek, Tarek / Fata, Paola / Grushka, Jeremy / Wong, Evan G / Landry, Maxim / Mackey, Sarah / Fairbridge, Nicholas / Greene, Alison / Borgoankar, Mark / Kim, Cullen / DeCarvalho, Diana / Wigen, Robin / Walser, Emily / Davidson, Jacob / Dorward, Michael / Muszynski, Leanne / Dann, Celia / Seemann, Natashia / Lam, Jennifer / Harding, Kaitlyn / Lowik, A J / Guinard, Caroline / Ma, Odelle / Mocanu, Valentin / Lin, Andrea / Karmali, Shahzeer / Bigam, David / Greaves, Grant / Parker, Brent / Nguyen, Vu / Ahmed, Azim / Yee, Belinda / Perren, Joël / Norman, Mathew / Grey, Morgan / Perini, Rafael / Jowhari, Fahd / Bak, Adrian / Drung, Jeremy / Allen, Laura / Wiseman, Daniele / Moffat, Bradley / Lee, Jeremy K H / McGuire, Catherine / Tudorache, Mihaela / Park, Lily J / Borges, Flavia K / Nenshi, Rahima / Jacka, Michael / Heels-Ansdell, Diane / Simunovic, Marko / Bogach, Jessica / Serrano, Pablo E / Thabane, Lehana / Devereaux, P J / Farooq, Sauleha / Lester, Erica / Kung, Janice / Bradley, Nori / Ahn, San / Prince, Nicole / Cheng-Boivin, Olivia / Wang, Harry / Quartermain, Liam / Tan, Sherry / Shamess, Jennifer / Simard, Mathilde / Vigil, Humberto / Hanna, Mary / Azam, Riordan / Ko, Gary / Zhu, Mayanne / Raveendran, Yanuga / Lam, Christine / Tang, Janet / Bajwa, Amrit / Englesakis, Marina / Reel, Emma / Cleland, Jordan / Snell, Laura / Lorello, Gianni / Cil, Tulin / Ahn, Hilalion San / Dube, Catherine / Smith, David / Leclerc, Alexie / Rostom, Alaa / Calo, Natalia / Thavorn, Kednapa / Laplante, Simon / Liu, Louis / Khan, Nadia / Okrainec, Allan / Bruyninx, Gladys / Georgescu, Ilinca / Khokhotva, Vladislav / Yang, Shuling / Spoyalo, Karina / Rebello, Thais Ayres / Chhipi-Shrestha, Gyan / Mayson, Kelly / Sadiq, Rehan / Hewage, Kasun / MacNeill, Andrea / Muncner, Susan / Li, Mo Yu / Mihajlovic, Igor / Dykstra, Mark / Snelgrove, Ryan / Wang, Haili / Schweitzer, Christina / Garcha, Ivneet / Jogiat, Uzair / Baracos, Vickie / Turner, Simon R / Eurich, Dean / Filafilo, Heather / Rouhi, Armin / Bédard, Alexandre / Bédard, Eric L R / Patel, Yogita S / Alaichi, Jacob A / Agzarian, John / Hanna, Wael C / Provost, Esther / Shayegan, Bobby / Adili, Anthony / Mistry, Nikkita / Gatti, Anthony A / Farrokhyar, Forough / Xie, Feng / Sullivan, Kerrie A / Liberman, Moishe / Gonzalez, Anne V / Nayak, Rahul / Yasufuku, Kazuhiro / Gatti, Anthony A / Cross, Sam / Haché, Pier-Luc / Galvaing, Geraud / Simard, Serge / Grégoire, Jocelyn / Bussières, Jean / Lacasse, Yves / Sassi, Sami / Champagne, Catherine / Laliberté, Anne-Sophie / Jeong, Jin Yong / Wilson, Hillary / Blakely, Pam / Dang, Jerry / Sun, Warren / Wong, Clarence / Hakim, Suhail Yaqoob / Azizi, Samim / El-Menyar, Ayman / Rizoli, Sandro / Al-Thani, Hassan / French, Daniel / Li, Chao / Gossen, Shiloh / Bailey, Jon / Tibbo, Phil / Crocker, Candice / Bondzi-Simpson, Adom / Ribeiro, Tiago / Kidane, Biniam / Ko, Michael / Coburn, Natalie / Kulkarni, Girish / Ramzee, Ahmed Faidh / Afifi, Ibrahim / Alani, Mushrek / Chughtai, Talat / Huo, Bright / Manos, Daria / Xu, Zhaolin / Kontouli, Katerina-Maria / Chun, Samuel / Fris, John / Wallace, Allison M R / French, Daniel G / Giffin, Catherine / Dayan, Gabriel / Farivar, Alexander / Weessies, Cara / Robinson, Madeline / Bednarek, Leeann / Buduhan, Gordon / Liu, Richard / Tan, Lawrence / Srinathan, Sadeesh K / Nasralla, Awrad / Safieddine, Najib / Gazala, Sayf / Simone, Carmine / Ahmadi, Negar / Hilzenrat, Roy / Blitz, Maurice / Deen, Shaun / Humer, Michael / Jugnauth, Anand / Kerr, Laura / Sun, Simon / Browne, Ikennah / Patel, Yogita / Hanna, Wael / Loshusan, Brandon / Shamsil, Arefin / Naish, Michael D / Qiabi, Mehdi / Patel, Rajni / Malthaner, Richard / Pooja, Patel / Roberto, Ribeiro / Greg, Hirsch / Daniel, French / Huynh, Caroline / Sharma, Sohat / Vieira, Arthur / Jain, Fagun / Lee, Yejun / Mousa-Doust, Dorsa / Costa, Jonice / Mezei, Michelle / Chapman, Kristine / Briemberg, Hannah / Jack, Kristin / Grant, Kyle / Choi, James / Yee, John / McGuire, Anna L / Abdul, Sami Aftab / Khazoom, Francois / Gilbert, Sebastien / Sundaresan, Sudhir / Jones, Daniel / Seely, Andrew J E / Villeneuve, Patrick J / Maziak, Donna E / Pigeon, Claudie-Anne / Frigault, Jonathan / Roy, Ève-Marie / Bujold-Pitre, Kristopher / Courval, Valérie / Tessier, Lea / Gangam, Nirupa / Lee, Jay / Patel, Ashaka / Ichhpuniani, Simarpreet / Elder, Geoffrey / Chen, Andrew / Logie, Kathleen / Benko, Randy / Castelo, Matthew / Paszat, Lawrence / Hansen, Bettina / Scheer, Adena / Faught, Neil / Nguyen, Lena / Baxter, Nancy / Wu, Kathy / Passos, Edward / Sachdeva, Anjali / Fei, Linda Y N / Caycedo, Antonio / Patel, Sunil / Popa, Teodora / Boudreau, Lee / Grin, Andrea / Wang, Tao / Phang, Terry / Raval, Manoj / Candy, Sydney / Nanda, Kareena / Li, Christine / Kroeker, Karen / Roy, Haven / Helewa, Ramzi M / Johnson, Garrett / Singh, Harminder / Hyun, Eric / Moffatt, Dana / Vergis, Ashley / Balmes, Patricia / Liu, Jerry / Webber, Sandra / Shariff, Farhana / Hochman, Dave / Park, Jason / Robitaille, Stephan / Wang, Anna / Maalouf, Michael / Alali, Naser / Elhaj, Hiba / Liberman, Sender / Charlebois, Patrick / Stein, Barry / Hu, Richard / Williams, Lara / Musselman, Reilly / Lemke, Maddy / Samarasinghe, Nadeesha / Vogt, Kelly / Brackstone, Muriel / Zwiep, Terry / Alam, Armaghan / Ghuman, Anu / James, Nicholas / Laczko, Dora / Lee, Stephanie / Sritharan, Praveen / Hershorn, Olivia / Phang, P Terry / Chen, Alex / Boutros, Marylise / Caminsky, Natasha / Dumitra, Teodora / Faris-Sabboobeh, Sarah / Demian, Marie / Rigas, Georgia / Monton, Olivia / Smith, Allister / Moon, Jeongyoon / Garfinkle, Richard / Vasilevsky, Carol-Ann / Rajabiyazdi, Fateme / Courage, Emily / LeBlanc, Danielle / Benesch, Matthew / Hartwig, Katia / Armstrong, Casey / Engelbrecht, Reniel / Fagan, Mitchell / Borgaonkar, Mark / Shanahan, Jessica / Salama, Ebram / Arsenault, Mylène / Leon, Nathalie / Loiselle, Carmen / Rajabiyazdi, Fatemeh / Brennan, Kelly / Rai, Mandip / Farooq, Ameer / McClintock, Chad / Kong, Weidong / Boukhili, Neyla / Paradis, Tiffany / Liberman, A Sender / Feldman, Liane S / Abner, Deborah / Alam, Tarik / Beyer, Elaine / Evans, Michele / Hill, Mary / Johnston, Debra / Lohnes, Karla / Menard, Svea / Pitcher, Nicole / Sair, Kelly / Smith, Bev / Yarjau, Bonita / LeBlanc, Kimberly / Karimuddin, Ahmer A / Brown, Carl J / MacDonell, Karen / Harvey, Alexandra / Mckechnie, Tyler / Matta, Mirna / Baker, Laura / Hopkins, Jessica / Rochon, Ryan / Buie, Donald / MacLean, Anthony / Macdonald, Hugh / Wiseman, Vanessa / Booth, Chris / Hann, Tim / Ricci, Alessandro / Kakkar, Rohan / Gonzalez, Emmanuel / Fragoso, Gabriela / Oliero, Manon / Rendos, Hervé Vennin / Djediai, Souad / Cuisiniere, Thibault / Laplante, Patrick / Gerkins, Claire / Ajayi, Ayodeji Samuel / Diop, Khoudia / Taleb, Nassima / Thérien, Sophie / Schampaert, Frédéricke / Alratrout, Hefzi / Cailhier, Jean-François / Routy, Bertrand / Annabi, Borhane / Brereton, Nicholas J B / Richard, Carole / Gimon, Tamara / MacRae, Helen / de Buck van Overstraeten, Anthony / Brar, Mantaj / Chadi, Sami / Kennedy, Erin / Rashanov, Pavel / Alsayari, Rehab / Calvé, Annie / Cuisinière, Thibault / Debroux, Eric / Schmocker, Selina / Stotland, Peter / Jhaveri, Kartik / Kirsch, Richard / Alnajem, Hafssah / Alibrahim, Huseen / Giundi, Christian / Munir, Haroon / Safar, Ali / Sabboobeh, Sarah / Holland, Jessica / Abtahi, Sean / Chhor, Allison / Caminsky, Natasha Grace / Moon, Jenny Jeongyoon / Marinescu, Daniel / Pang, Allison / Al-Abri, Mohammed / Gee, Elliott / Morena, Nina / Ben-Zvi, Libby / Hayman, Victoria / Hou, Mary / Nguyen, Diana / Rentschler, Carrie A / Meguerditchian, Ari N / Mir, Zuhaib / Fei, Linda / McKeown, Sandra / Dinchong, Rachelle / Cofie, Nicholas / Dalgarno, Nancy / Cheifetz, Rona / Jaffer, Alisha / Cullinane, Carolyn / Feeney, Gerard / Jalali, Amirhossein / Merrigan, Anne / Baban, Chwanrow / Buckley, Juliette / Tormey, Shona / Wu, Rongrong / Takabe, Kazuaki / O'Brien, Shalana / Kazazian, Karineh / Abdalaty, Ali Hosni / Brezden, Christine / Burkes, Ron / Chen, Eric / Govindarajan, Anand / Jang, Raymond / Lukovic, Jelena / Mesci, Aruz / Quereshy, Fayez / Swallow, Carol / Marini, Wanda / Zheng, Weiyue / Murakami, Kiichi / Ohashi, Pamela / Reedijk, Michael / Ivankovic, Victoria / Han, Lewis / Gresham, Louise / Mallick, Ranjeeta / Auer, Rebecca / Fontebasso, Adam / Lee, Alex / Bernard-Bedard, Ericka / Wong, Boaz / Li, Heidi / Grose, Elysia / Brandts-Longtin, Olivier / Aw, Katie / Abed, Ahmad / Stevenson, James / Sheikh, Rahat / Chen, Richard / Johnson-Obaseki, Stephanie / Hennessey, Rachel Liu / Meneghetti, Adam T / Bildersheim, Michael / Bouchard-Fortier, Antoine / Nelson, Gregg / Mack, Lloyd / Ghasemi, Farhad / Naeini, Mahtab Malekian / Parsyan, Armen / Kaur, Yuvreet / Covelli, Andrea / Elimova, Elena / Panov, Elan / Brierley, James / Burnett, Bev / Eom, Ashley / Kirkwood, David / Hodgson, Nicole / Whelan, Timothy / Levine, Mark / Parvez, Elena / Ng, Deanna / Lee, Kiera / Lu, Yi Qing / Kim, Dae Kyum / Magalhaes, Marco / Grigor, Emma / Arnaout, Angel / Zhang, Jing / Yee, Elliott K / Look Hong, Nicole J / Wright, Frances C / Gandhi, Sonal / Jerzak, Katarzyna J / Eisen, Andrea / Roberts, Amanda / Ben Lustig, Daniel / Quan, May Lynn / Phan, Tien / Cao, Jeff / Bayley, Conrad / Watanabe, Akie / Yao, Susan / Prisman, Eitan / Groot, Gary / Mitmaker, Elliot / Walker, Ross / Wu, Jonn / Lai, Chi Kien / Eskander, Antoine / Wasserman, Jonathan / Mercier, Frederic / Roth, Kathryn / Gill, Sabrina / Villamil, Carlos / Goldstein, David / Munro, Vicki / Pathak, Alok / Lee, Debon / Nguyen, Anne / Rajendran, Luckshi / Claasen, Marco / Ivanics, Tommy / Selzner, Nazia / McGilvray, Ian / Cattral, Mark / Ghanekar, Anand / Moulton, Carol-Anne / Reichman, Trevor / Shwaartz, Chaya / Metser, Ur / Winter, Erin / Gallinger, Steven / Sapisochin, Gonzalo / Glinka, Juan / Waugh, Evelyn / Skaro, Anton / Tang, Epharaim / Charbonneau, Janyssa / Brind'Amour, Alexandre / Turgeon, Alexis F / O'Connor, Sarah / Couture, Thomas / Wang, Yifan / Yoshino, Osamu / Driedger, Michael / Beckman, Michael / Vrochides, Dionisios / Martinie, John / Alabduljabbar, Abdulrahman / Aali, Maral / Lightfoot, Christopher / Gala-Lopez, Boris / Labelle, Maud / D'Aragon, Frédérick / Hirpara, Dhruvin / Irish, Jonathan / Rashid, Mohammed / Martin, Tharsiya / Zhu, Alice / McKnight, Leah / Hunter, Amber / Jayaraman, Shiva / Wei, Alice / Wright, Frances / Mallette, Katlin / Elnahas, Ahmad / Alkhamesi, Nawar / Schlachta, Christopher / Tang, Ephraim / Punnen, Subin / Zhong, Jade / Yang, Yuwei / Streith, Lucas / Yu, Jordan / Chung, Stephen / Kim, Peter / Chartier-Plante, Stephanie / Segedi, Maja / Bleszynski, Michael / White, Molly / Tsang, Melanie E / Lam-Tin-Cheung, Kimberley / Tsang, Melanie / Greene, Brittany / Pouramin, Panthea / Allen, Susan / Evan Nelson, David / Walsh, Mark / Côté, Julien / Rebolledo, Rolando / Borie, Mélanie / Menaouar, Ahmed / Landry, Carolyne / Plasse, Marylène / Létourneau, Richard / Dagenais, Michel / Rong, Zhixia / Roy, André / Beaudry-Simoneau, Eve / Vandenbroucke-Menu, Franck / Lapointe, Réal / Ferraro, Pasquale / Sarkissian, Shant Der / Noiseux, Nicolas / Turcotte, Simon / Haddad, Yara / Bernard, Antoine / Lafortune, Clara / Brassard, Nathalie / Roy, Annie / Perreault, Claude / Mayer, Gaétan / Marcinkiewicz, Mieczyslaw / Mbikay, Majambu / Chrétien, Michel / Sinclair, Lynne / Shin, Elizabeth / Engelage, Crystal / Muaddi, Hala / Flemming, Jennifer / Dawson, Laura / O'Kane, Grainne / Feld, Jordan / Cleary, Sean / Hamel, Anthonie / Marcoux, Camille / Ngo, Thanh-Quan Philips / Deshaies, Isabelle / Mansouri, Sarah / Amhis, Nawal / Léveillé, Maxime / Lawson, Christine / Achard, Carol / Ilkow, Carolina / Tai, Lee-Hwa / Griffiths, Christopher / D'Souza, Daniel / Rodriguez, Felipe / Panton, O Neely M / Chiu, Chieh Jack / Henao, Oscar / Netto, Fernando Spencer / Mainprize, Marguerite / Jatana, Sukhdeep / Verhoeff, Kevin / Birch, Daniel / Switzer, Noah / Hetherington, Alexandra / Al-Ghaithi, Najla / Vourtzoumis, Phil / Demyttenaere, Sebastian / Court, Olivier / Andalib, Amin / Madsen, Karen / Wu, Ted / He, Wenjing / Hardy, Krista / Zmudzinski, Marta / Daenick, Felica / Linton, Janice / Fowler-Woods, Melinda / Fowler-Woods, Amanda / Shingoose, Geraldine / Molnar, Amber / Nguyen, Francis / Schneider, Romano / Fecso, Andras B / Sharma, Priya / Maeda, Azusa / Jackson, Timothy / McLean, Cheynne / MacVicar, Sarah / McLennan, Steffane / Purich, Kieran / Birch, Daniel W / Switzer, Noah J / Jeffery, Lisa / Ryley, Alexis / Schellenberg, Morgan / Owattanapanich, Natthida / Emigh, Brent / Nichols, Chance / Dilday, Joshua / Ugarte, Chaiss / Onogawa, Atsushi / Matsushima, Kazuhide / Martin, Matthew J / Inaba, Kenji / Shapiro, Doug / Im, Daniel / Lam, Lydia / Rezende-Neto, Joao / Lemke, Madeline / Leeper, William / Walser, Eric / Bateni, Sarah / Barabash, Victoria / Barr, Austin / Chan, Wing / Warraich, Ahmed / Gillman, Lawrence / Ziesmann, Markus / Momic, Jovana / Yassin, Nouf / Kim, Mella / Makish, Amy / Smith, Shane / Ball, Ian / Moffat, Brad / Parry, Neil / Kroeker, Jenna / Evans, David / Fansia, Nahal / Notik, Chana / Coyle, Guire / Seben, David / Smith, Jaiden / Tanenbaum, Brandy / Freedman, Corey / Nathens, Avery / Fowler, Robert / Patel, Prachikumari / Elrick, Tim / Ewing, Meghan / Di Marco, Steven / Engels, Paul / Di Sante, Emily / Vincent, Jessica / Tsiplova, Kate / El-Sayes, Abdullah / Connell, Matthew / Klooster, Amanda / Beck, Jenna / Strickland, Matt / Anantha, Ram / Groszman, Lilly / Caminsky, Natasha G / Livergant, Rachel / McDonald, Brooke / Binda, Catherine / Luthra, Shreya / Ebert, Nicole / Falk, Ryan / Joos, Emilie

Canadian journal of surgery. Journal canadien de chirurgie

2023 Band 66, Heft 6 Suppl 1, Seite(n) S54–S136

Sprache	Englisch
Erscheinungsdatum	2023-12-13
Erscheinungsland	Canada
Dokumenttyp	Journal Article
ZDB-ID	410651-9
ISSN	1488-2310 ; 0008-428X
ISSN (online)	1488-2310
ISSN	0008-428X
DOI	10.1503/cjs.014223
Datenquelle	MEDical Literature Analysis and Retrieval System OnLINE

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