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Difference between revisions of "Talk:Bioblast 2022"

From Bioblast
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|  ||  || 14:00|| [[Komlodi 2022 MitoFit |The protonmotive force - not merely membrane potential]] || [[Komlodi Timea]]
|  ||  || 14:00|| [[Komlodi 2022 MitoFit |The protonmotive force - not merely membrane potential]] || [[Komlodi Timea]]
[[Sobotka 2022 Abstract Bioblast| The Crabtree effect and clinical nutrition]] || [[Sobotka Lubos]]
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|  || || 14:30 || [[Cecatto 2022 Abstract Bioblast|Mitochondrial calcium uptake capacity is lower than calcium retention capacity in the presence and absence of cyclosporin A]] || [[Cecatto Cristiane]]
|  || || 14:30 || [[Cecatto 2022 Abstract Bioblast|Mitochondrial calcium uptake capacity is lower than calcium retention capacity in the presence and absence of cyclosporin A]] || [[Cecatto Cristiane]]
[[Heimler 2022 MitoFit|Platelet bioenergetics are associated with resting metabolic rate and exercise capacity in older women]] || [[Molina Anthony JA]]
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|  || || 14:45 ||  [[Cardoso 2022 Abstract Bioblast |Redox monitoring and respiration - a new horizon with the NextGen-O2k]] || [[Cardoso Luiza HD]]  
|  || || 14:45 ||  [[Cardoso 2022 Abstract Bioblast |Redox monitoring and respiration - a new horizon with the NextGen-O2k]] || [[Cardoso Luiza HD]]  
[[Neuzil 2022 Abstract Bioblast|Metabolic switch utilizing ammonia supports proliferation in regenerating liver]] || [[Neuzil Jiri]]
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|| '''Short talks 4+1''' ||  || ||
|  '''15:00  - 15:30''' || '''Poster session''' || || ||  
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|  ||  || 15:00 || [[Arandarcikaite 2022 Abstract Bioblast|Hypoxia-induced lesions to different age Wistar rat brain mitochondria]]|| [[Arandarcikaite Odeta]]
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|  ||  || 15:05 || TBC ||
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|  ||  || 15:10|| [[Meszaros 2022 Abstract Bioblast|Pre-transplant mitochondrial respiration as a clinical prognostic marker during static cold storage and machine perfusion of the liver]] || [[Meszaros Andras]]
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|  ||  || 15:15 || [[Lerink 2022 Abstract Bioblast|Renal respiratory conductance: a complex matter]] || Lerink LJS
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|  ||  || 15:20 || [[Iyer 2022 Abstract Bioblast|Bioenergetics health index ratio in Leigh Syndrome patient fibroblasts as a measure of disease severity]] || [[Iyer Shilpa]]
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|  ||  || 15:25 || TBC ||  
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| '''16:00-17:00''' ||'''Scientific Session IV''' || || '''Perspectives of bioenergetics in health and disease II''' ||
| '''16:00-16:50''' ||'''Scientific Session IV''' || ||  ||  
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||  || 16:00|| [[Abed Rabbo 2022 MitoFit|NUBPL: a mitochondrial Complex I deficiency disorder]] || [[Stiban Johnny]]
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|  || || 16:15|| [[Ganguly 2022 MitoFit|Rotenone cytotoxicity on SH-SY5Y cells: role of ferroptosis, mitochondria and alpha-synuclein]] || [[Chakrabarti Sasanka]]
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|  ||  || 16:00 || [[Heimler 2022 MitoFit|Platelet bioenergetics are associated with resting metabolic rate and exercise capacity in older women]] || [[Molina Anthony JA]]
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|  || '''Short talks 4+1''' ||  || ||
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|  || || 16:15 || [[Granata 2022 Abstract Bioblast |Exercise training-induced enhancement of electron flow to the OXPHOS system is more important than increasing the OXPHOS machinery content to improve ATP generation in human skeletal muscle]] || [[Granata Cesare]]
[[Ganguly 2022 MitoFit|Rotenone cytotoxicity on SH-SY5Y cells: role of ferroptosis, mitochondria and alpha-synuclein]] || [[Chakrabarti Sasanka]]
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|  || || 16:30|| [[Karabatsiakis 2022 Abstract Bioblast|Effects of eye-movement desensitization and reprocessing (EMDR) therapy on mitochondrial bioenergetics in immune cells from patients with post-traumatic stress disorder (PTSD): a pilot study]] || [[Karabatsiakis Alexander]]
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|  || || 16:20 || [[Chabi 2022 Abstract Bioblast|Coordination between MAMs, mitochondrial function and protein synthesis in exercised and myopathic muscles]] || [[Chabi Beatrice]]
[[Karabatsiakis 2022 Abstract Bioblast|Effects of eye-movement desensitization and reprocessing (EMDR) therapy on mitochondrial bioenergetics in immune cells from patients with post-traumatic stress disorder (PTSD): a pilot study]] || [[Karabatsiakis Alexander]]
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|  || || 16:35|| [[Chabi 2022 Abstract Bioblast|Coordination between MAMs, mitochondrial function and protein synthesis in exercised and myopathic muscles]] || [[Chabi Beatrice]]
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|  || || 16:25 || [[Lai 2022 Abstract Bioblast|Effect of isolation protocol of skeletal muscle mitochondrial subpopulations on bioenergetic function]] || [[Lai Nicola]]
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|  || || 16:40|| [[Eggelbusch 2022 Abstract Bioblast|Nutrient overload and insulin resistance precede reductions in mitochondrial respiration in skeletal muscle after bed rest]] || Eggelbusch M
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|  || || 16:30 || [[Garcia-Roves 2022 Abstract Bioblast|Tuning the assessment of coenzyme Q redox state and respiration in skeletal muscle permeabilized fibers]] || [[Garcia-Roves Pablo Miguel]]
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|  || || 16:45|| [[Goulding 2022 Abstract Bioblast|Mitochondrial function is not impaired in type 1 diabetes but does not respond to 4-weeks endurance training]] || Goulding RP
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|  || || 16:45 || [[Goulding 2022 Abstract Bioblast|Mitochondrial function is not impaired in type 1 diabetes but does not respond to 4-weeks endurance training]] || Goulding RP
|  || || 16:50|| [[Irving 2022 Abstract Bioblast| Impact of nitric oxide promotors on mitochondrial bioenergetics in a murine model of Alzheimer's Disease]] || [[Irving Brian A]]
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[[Irving 2022 Abstract Bioblast| Impact of nitric oxide promotors on mitochondrial bioenergetics in a murine model of Alzheimer's Disease]] || [[Irving Brian A]]




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! Time (CET) !! Topic !! Time per lecture  !!Title !! Speaker
! Time (CET) !! Topic !! Time per lecture  !!Title !! Speaker
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| '''09:15 - 10:30''' || '''Scientific Session V''' ||  || '''Mitochondrial pharmacology''' ||  
| '''09:00 - 10:30''' || '''Session V''' ||  || ||  
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|  ||  || 09:15 || [[Koopman 2022 Abstract Bioblast|The decylTPP mitochondria-targeting moiety lowers electron transport chain supercomplex levels in primary human skin fibroblasts]] ||  [[Koopman_Werner_JH]]
|  ||  || 09:00 || [[Koopman 2022 Abstract Bioblast|The decylTPP mitochondria-targeting moiety lowers electron transport chain supercomplex levels in primary human skin fibroblasts]] ||  [[Koopman_Werner_JH]]
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|  || || 09:30 ||  [Aasander Frostner 2022 MitoFit|Towards a treatment for mitochondrial disease: Current compounds in clinical development] || [[Aasander Frostner Eleonor]]
|  || || 09:15 ||  [[Abed Rabbo 2022 MitoFit|NUBPL: a mitochondrial Complex I deficiency disorder]] || [[Stiban Johnny]]
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|  || || 09:45 || [[Dambrova 2022 Abstract Bioblast|Mitochondrial metabolites acylcarnitines: therapeutic potential and drug targets]]|| [[Dambrova Maija]]
|  || || 09:30 || [[Chicco 2022 MitoFit |Resolving the Rotenone Paradox: elucidating the Complexity of multi-substrate respirometry protocols]] || [[Chicco Adam J]]
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|  || || 10:00 || [[Torres-Quesada 2022 MitoFit Kinase|Kinase perturbations redirect mitochondrial function]] || [[Torres-Quesada Omar]]
|  || || 09:45 || [[Torres-Quesada 2022 MitoFit Kinase|Kinase perturbations redirect mitochondrial function]] || [[Torres-Quesada Omar]]
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|  || || 10:10 || [[Stefan 2022 Abstract Bioblast|Tracking patient-mutation and lead-molecule driven alterations of kinase activity conformations]] || [[Stefan Eduard]]
|  || || 09:55 || [[Stefan 2022 Abstract Bioblast|Tracking patient-mutation and lead-molecule driven alterations of kinase activity conformations]] || [[Stefan Eduard]]
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|  || '''Short talks 4+1''' ||  || ||
|  || || 10:05 ||  [[Pilot-Storck 2022 Abstract Bioblast |Hacd1 and Hacd2 genes control mitochondrial energetic efficiency through the modulation of mitochondrial membranes phospholipid composition]] || Pilot-Storck F
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|  || || 10:20 ||  [[Sumbalova 2022 Abstract Bioblast|Ubiquinol supplementation accelerates the recovery of mitochondrial health of patients with post COVID-19 syndrome on mountain spa rehabilitation]]|| [[Sumbalova Zuzana]]
|  || || 10:10 ||  [[Magri 2022 Abstract Bioblast|Modulation of mitochondrial respiration in ALS cells by hexokinase-based peptides: a novel therapeutic approach to fight neurodegeneration]]|| [[Magri Andrea]]
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|  || || 10:25 || [[Batra 2022 Abstract Bioblast|Nano-encapsulated Dichloroacetophenone (DAP) essential mitochondrial enzyme, is a potential inhibitor of prostate cancer cell growth]]|| Batra Jyotsna
|  || || 10:15 || [[Pallotta 2022 Abstract Bioblast|NAD(P)+/NAD(P)H pool and the art of mitochondrial survival]]|| [[Pallotta Maria Luigia]]
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|  || || 10:30 || [[Magri 2022 Abstract Bioblast|Modulation of mitochondrial respiration in ALS cells by hexokinase-based peptides: a novel therapeutic approach to fight neurodegeneration]]|| [[Magri Andrea]]
|  || || 10:20 || [[Iyer 2022 Abstract Bioblast|Bioenergetics health index ratio in Leigh Syndrome patient fibroblasts as a measure of disease severity]] || [[Iyer Shilpa]]
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'''10:30  - 11:00''' || '''Poster session''' || || ||  
|  || || 10:25 || [[Mutschler 2022 MitoFit|Membranes as therapeutic targets - liposomes as therapeutic options]] || [Mutschler Rainer]]
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| '''11:00 - 11:30''' || '''Coffee Break''' || || ||  
| '''10:30  - 11:15''' || '''Coffee Break''' || || ||  
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| '''11:30 - 12:30''' || '''Scientific Session VI''' ||  || '''Methodological advancements in bioenergetics''' ||  
| '''11:15 - 12:30''' || '''Session VI''' ||  ||   ||  
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|  || || 11:30 || [[Ecker 2022 Abstract Bioblast|Contextual Tissue Cytometry with AI – Functional Single Cell Analyses ''in-situ'']] || [[Ecker Rupert]]
|  || || 11:15 || [[Baglivo 2022 MitoFit-QC|Statistical analysis of instrumental reproducibility as internal quality control in high-resolution respirometry]] || [[Baglivo Eleonora]]
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|  || || 11:45 || [[Heichler_2022_MitoFit|Physiometabolic RTCA on an automated platform for short and long term applications]] || [[Wolf Peter]]
|  || || 11:30 || [[Heichler_2022_MitoFit|Physiometabolic RTCA on an automated platform for short and long term applications]] || [[Wolf Peter]]
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|  || || 12:00 || [[Posch 2022 MitoFit|How to optimize respiratory models for SARS-CoV-2 research]] || [[Wilflingseder Doris]]
|  || || 11:45 || [[Posch 2022 MitoFit|How to optimize respiratory models for SARS-CoV-2 research]] || [[Wilflingseder Doris]]
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|  ||  || 12:15 ||  
|  ||  || 12:00 || [[Ecker 2022 Abstract Bioblast|Contextual Tissue Cytometry with AI – Functional Single Cell Analyses ''in-situ'']] || [[Ecker Rupert]]
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|  ||  || 12:15 || [[Sumbalova 2022 Abstract Bioblast|Ubiquinol supplementation accelerates the recovery of mitochondrial health of patients with post COVID-19 syndrome on mountain spa rehabilitation]]|| [[Sumbalova Zuzana]]
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| '''14:00-15:05''' ||'''Scientific Session VII''' || || '''Methodological advancements in bioenergetics II''' ||  
| '''14:00-14:45''' ||'''Session VII''' || || ||  
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|  ||  || 14:00 ||   
|  ||  || 14:00 ||  [[Dambrova 2022 Abstract Bioblast|Mitochondrial metabolites acylcarnitines: therapeutic potential and drug targets]]|| [[Dambrova Maija]]
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|  || || 14:15 || [[Garcia-Roves 2022 Abstract Bioblast|Tuning the assessment of coenzyme Q redox state and respiration in skeletal muscle permeabilized fibers]] || [[Garcia-Roves Pablo Miguel]]
|  || || 14:15 || [Aasander Frostner 2022 MitoFit|Towards a treatment for mitochondrial disease: Current compounds in clinical development] || [[Aasander Frostner Eleonor]]
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|  || || 14:30 ||  
|  || || 14:30 || [[Neuzil 2022 Abstract Bioblast|Metabolic switch utilizing ammonia supports proliferation in regenerating liver]] || [[Neuzil Jiri]]
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|  || || 14:45 ||  
|  || || 14:45 || [[Meszaros 2022 Abstract Bioblast|Pre-transplant mitochondrial respiration as a clinical prognostic marker during static cold storage and machine perfusion of the liver]] || [[Meszaros Andras]]
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|  || '''Short talks 4+1''' || || ||
|  || || 14:50 || [[Lerink 2022 Abstract Bioblast|Renal respiratory conductance: a complex matter]] || Lerink LJS
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|  || || 15:00 || [[Lai 2022 Abstract Bioblast|Effect of isolation protocol of skeletal muscle mitochondrial subpopulations on bioenergetic function]] || [[Lai Nicola]]
|  || || 14:55 || [[Axelrod 2022 Abstract Bioblast |Segmental regulation of intestinal mitochondrial function]] || [[Axelrod Christopher L]]
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| '''15:05 - 15:30''' || '''Poster session''' ||  ||  ||  
| '''15:00 - 15:30''' || '''Poster session''' ||  ||  ||  
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| '''15:30 - 16:00''' || '''Coffee Break''' ||  ||  ||  
| '''15:30 - 16:00''' || '''Coffee Break''' ||  ||  ||  
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| '''16:00-17:00''' ||'''Scientific Session TBC''' || ||  ||  
| '''16:00-17:00''' ||'''Session 8''' || ||  ||  
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|  ||  || 16:00  - 16:15|| [[Baglivo 2022 MitoFit-QC|Statistical analysis of instrumental reproducibility as internal quality control in high-resolution respirometry]] || [[Baglivo Eleonora]]
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|  || || 16:15  - 16:30 || TBC ||
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|  || || 16:30  - 16:45 || TBC ||
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|  || || 16:45  - 17:00 || TBC ||
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| '''17:00-17:30''' ||'''Discussion: Future of BEC''' || ||  ||
 
 
 
 
 
 
 
 
[[Chicco 2022 MitoFit |Resolving the Rotenone Paradox: elucidating the Complexity of multi-substrate respirometry protocols]] || [[Chicco Adam J]]
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|  || '''Short talks 4+1''' ||  || ||
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|  ||  || 16:00 || [[Sobotka 2022 Abstract Bioblast| The Crabtree effect and clinical nutrition]] || [[Sobotka Lubos]]
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|  || || 12:15 ||  [[Axelrod 2022 Abstract Bioblast |Segmental regulation of intestinal mitochondrial function]] || [[Axelrod Christopher L]]
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|  || || 16:15  || [[Moreno-Sanchez 2022 Abstract Bioblast| Estimation of energy pathway fluxes in cancer cells- beyond the Warburg effect]] || [[Moreno-Sanchez Rafael]]
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|  || || 12:20 || [[Granata 2022 Abstract Bioblast |Exercise training-induced enhancement of electron flow to the OXPHOS system is more important than increasing the OXPHOS machinery content to improve ATP generation in human skeletal muscle]] || [[Granata Cesare]]
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|  || || 16:30 || [[Porter 2022 Abstract Bioblast|A comparison of bioenergetics in human tongue pre-cancerous dysplastic oral keratinocytes and squamous cancer cells ]] || [[Porter Richard K]]
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|  || || 12:25 || 2.6 - [[Pilot-Storck 2022 Abstract Bioblast |Hacd1 and Hacd2 genes control mitochondrial energetic efficiency through the modulation of mitochondrial membranes phospholipid composition]] || Pilot-Storck F
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|  || || 16:45 || [[Eggelbusch 2022 Abstract Bioblast|Nutrient overload and insulin resistance precede reductions in mitochondrial respiration in skeletal muscle after bed rest]] || Eggelbusch M
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|  || || 16:50 || [[Batra 2022 Abstract Bioblast|Nano-encapsulated Dichloroacetophenone (DAP) essential mitochondrial enzyme, is a potential inhibitor of prostate cancer cell growth]]|| Batra Jyotsna
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| '''17:00 - 17:30''' || '''Discussion: The future of BEC''' ||  ||  ||


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Revision as of 18:19, 2 June 2022

Program

2022-06-29 Day 1 of scientific presentations

Time (CET) Topic Time per lecture Title Speaker
09:15-10:30 Session I
09:15 Opening speech Bioblasts - the taxonomic unit of bioenergetics: mitochondria, chloroplasts, aerobic bacteria Gnaiger Erich
09:35 Art introduction by Odra Noel Ana Hidalgo
09:45 Opening Lecture: The alpha and omega of metabolism: why the Krebs cycle brings the earth to life and our own lives to an end Lane Nick
10:15 A unifying hypothesis for the extraordinary energy metabolism of bloodstream Trypanosoma brucei Oliveira Marcus F
10:30-11:15 Coffee Break
11:15-12:30 Session II
11:15 Oxidative stress in photosynthesis Roach Thomas
11:30 Application of the NextGen-O2k for building photosynthesis-irradiance curves in microalgae. Morosinotto Tomas
11:45 The ABC of hypoxia – what is the norm? Donnelly Chris
12:00 Using oxygen and hydrogen gas in studies of mitochondrial respiration and hydrogen peroxide production under hyperoxic, normoxic, and hypoxic conditions Schmitt Sabine
12:15 Metabolic shutdown of bioenergetics: Protection of macromolecules and survivorship during stress Hand Steven
12:30-14:00 Lunch Break
14:00-15:00 Session III
14:00 The protonmotive force - not merely membrane potential Komlodi Timea
14:15 Measuring mitochondrial Ca2+ efflux in isolated mitochondria and permeabilized cells Serna Julian

Estimation of energy pathway fluxes in cancer cells- beyond the Warburg effect || MX Mexiko City Moreno-Sanchez R

14:30 Mitochondrial calcium uptake capacity is lower than calcium retention capacity in the presence and absence of cyclosporin A Cecatto Cristiane
14:45 Redox monitoring and respiration - a new horizon with the NextGen-O2k Cardoso Luiza HD
15:00 - 15:30 Poster session
15:30 - 16:00 Coffee Break
16:00-16:50 Scientific Session IV
16:00 Platelet bioenergetics are associated with resting metabolic rate and exercise capacity in older women Molina Anthony JA
16:15 Exercise training-induced enhancement of electron flow to the OXPHOS system is more important than increasing the OXPHOS machinery content to improve ATP generation in human skeletal muscle Granata Cesare

Rotenone cytotoxicity on SH-SY5Y cells: role of ferroptosis, mitochondria and alpha-synuclein || Chakrabarti Sasanka

16:20 Coordination between MAMs, mitochondrial function and protein synthesis in exercised and myopathic muscles Chabi Beatrice

Effects of eye-movement desensitization and reprocessing (EMDR) therapy on mitochondrial bioenergetics in immune cells from patients with post-traumatic stress disorder (PTSD): a pilot study || Karabatsiakis Alexander

16:25 Effect of isolation protocol of skeletal muscle mitochondrial subpopulations on bioenergetic function Lai Nicola
16:30 Tuning the assessment of coenzyme Q redox state and respiration in skeletal muscle permeabilized fibers Garcia-Roves Pablo Miguel
16:45 Mitochondrial function is not impaired in type 1 diabetes but does not respond to 4-weeks endurance training Goulding RP 


 Impact of nitric oxide promotors on mitochondrial bioenergetics in a murine model of Alzheimer's Disease || Irving Brian A



2022-06-30 Day 2 of scientific presentations

Time (CET) Topic Time per lecture Title Speaker
09:00 - 10:30 Session V
09:00 The decylTPP mitochondria-targeting moiety lowers electron transport chain supercomplex levels in primary human skin fibroblasts Koopman_Werner_JH
09:15 NUBPL: a mitochondrial Complex I deficiency disorder Stiban Johnny
09:30 Resolving the Rotenone Paradox: elucidating the Complexity of multi-substrate respirometry protocols Chicco Adam J
09:45 Kinase perturbations redirect mitochondrial function Torres-Quesada Omar
09:55 Tracking patient-mutation and lead-molecule driven alterations of kinase activity conformations Stefan Eduard
10:05 Hacd1 and Hacd2 genes control mitochondrial energetic efficiency through the modulation of mitochondrial membranes phospholipid composition Pilot-Storck F
10:10 Modulation of mitochondrial respiration in ALS cells by hexokinase-based peptides: a novel therapeutic approach to fight neurodegeneration Magri Andrea
10:15 NAD(P)+/NAD(P)H pool and the art of mitochondrial survival Pallotta Maria Luigia
10:20 Bioenergetics health index ratio in Leigh Syndrome patient fibroblasts as a measure of disease severity Iyer Shilpa
10:25 Membranes as therapeutic targets - liposomes as therapeutic options [Mutschler Rainer]]
10:30 - 11:15 Coffee Break
11:15 - 12:30 Session VI
11:15 Statistical analysis of instrumental reproducibility as internal quality control in high-resolution respirometry Baglivo Eleonora
11:30 Physiometabolic RTCA on an automated platform for short and long term applications Wolf Peter
11:45 How to optimize respiratory models for SARS-CoV-2 research Wilflingseder Doris
12:00 Contextual Tissue Cytometry with AI – Functional Single Cell Analyses in-situ Ecker Rupert
12:15 Ubiquinol supplementation accelerates the recovery of mitochondrial health of patients with post COVID-19 syndrome on mountain spa rehabilitation Sumbalova Zuzana
12:30 - 14:00 Lunch Break
14:00-14:45 Session VII
14:00 Mitochondrial metabolites acylcarnitines: therapeutic potential and drug targets Dambrova Maija
14:15 Towards a treatment for mitochondrial disease: Current compounds in clinical development] Aasander Frostner Eleonor
14:30 Metabolic switch utilizing ammonia supports proliferation in regenerating liver Neuzil Jiri
14:45 Pre-transplant mitochondrial respiration as a clinical prognostic marker during static cold storage and machine perfusion of the liver Meszaros Andras
14:50 Renal respiratory conductance: a complex matter Lerink LJS
14:55 Segmental regulation of intestinal mitochondrial function Axelrod Christopher L
15:00 - 15:30 Poster session
15:30 - 16:00 Coffee Break
16:00-17:00 Session 8
16:00 The Crabtree effect and clinical nutrition Sobotka Lubos
16:15 Estimation of energy pathway fluxes in cancer cells- beyond the Warburg effect Moreno-Sanchez Rafael
16:30 A comparison of bioenergetics in human tongue pre-cancerous dysplastic oral keratinocytes and squamous cancer cells Porter Richard K
16:45 Nutrient overload and insulin resistance precede reductions in mitochondrial respiration in skeletal muscle after bed rest Eggelbusch M
16:50 Nano-encapsulated Dichloroacetophenone (DAP) essential mitochondrial enzyme, is a potential inhibitor of prostate cancer cell growth Batra Jyotsna
17:00 - 17:30 Discussion: The future of BEC
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