Your search keyword '"Kocsis, Agnes"' showing total 10 results

1. Automated analysis of mitochondrial dimensions in mesenchymal stem cells: Current methods and future perspectives

Author

Summer, Sabrina, Kocsis, Agnes, Reihs, Eva Ingeborg, Rothbauer, Mario, Lonhus, Kirill, Stys, Dalibor, Ertl, Peter, and Fischer, Michael B.

Published

2023

2. Signature morphoelectric properties of diverse GABAergic interneurons in the human neocortex

Author

Lee, Brian R., primary, Dalley, Rachel, additional, Miller, Jeremy A., additional, Chartrand, Thomas, additional, Close, Jennie, additional, Mann, Rusty, additional, Mukora, Alice, additional, Ng, Lindsay, additional, Alfiler, Lauren, additional, Baker, Katherine, additional, Bertagnolli, Darren, additional, Brouner, Krissy, additional, Casper, Tamara, additional, Csajbok, Eva, additional, Donadio, Nicholas, additional, Driessens, Stan L.W., additional, Egdorf, Tom, additional, Enstrom, Rachel, additional, Galakhova, Anna A., additional, Gary, Amanda, additional, Gelfand, Emily, additional, Goldy, Jeff, additional, Hadley, Kristen, additional, Heistek, Tim S., additional, Hill, Dijon, additional, Hou, Wen-Hsien, additional, Johansen, Nelson, additional, Jorstad, Nik, additional, Kim, Lisa, additional, Kocsis, Agnes Katalin, additional, Kruse, Lauren, additional, Kunst, Michael, additional, León, Gabriela, additional, Long, Brian, additional, Mallory, Matthew, additional, Maxwell, Michelle, additional, McGraw, Medea, additional, McMillen, Delissa, additional, Melief, Erica J., additional, Molnar, Gabor, additional, Mortrud, Marty T., additional, Newman, Dakota, additional, Nyhus, Julie, additional, Opitz-Araya, Ximena, additional, Ozsvár, Attila, additional, Pham, Trangthanh, additional, Pom, Alice, additional, Potekhina, Lydia, additional, Rajanbabu, Ram, additional, Ruiz, Augustin, additional, Sunkin, Susan M., additional, Szöts, Ildikó, additional, Taskin, Naz, additional, Thyagarajan, Bargavi, additional, Tieu, Michael, additional, Trinh, Jessica, additional, Vargas, Sara, additional, Vumbaco, David, additional, Waleboer, Femke, additional, Walling-Bell, Sarah, additional, Weed, Natalie, additional, Williams, Grace, additional, Wilson, Julia, additional, Yao, Shenqin, additional, Zhou, Thomas, additional, Barzó, Pál, additional, Bakken, Trygve, additional, Cobbs, Charles, additional, Dee, Nick, additional, Ellenbogen, Richard G., additional, Esposito, Luke, additional, Ferreira, Manuel, additional, Gouwens, Nathan W., additional, Grannan, Benjamin, additional, Gwinn, Ryder P., additional, Hauptman, Jason S., additional, Hodge, Rebecca, additional, Jarsky, Tim, additional, Keene, C. Dirk, additional, Ko, Andrew L., additional, Korshoej, Anders Rosendal, additional, Levi, Boaz P., additional, Meier, Kaare, additional, Ojemann, Jeffrey G., additional, Patel, Anoop, additional, Ruzevick, Jacob, additional, Silbergeld, Daniel L., additional, Smith, Kimberly, additional, Sørensen, Jens Christian, additional, Waters, Jack, additional, Zeng, Hongkui, additional, Berg, Jim, additional, Capogna, Marco, additional, Goriounova, Natalia A., additional, Kalmbach, Brian, additional, de Kock, Christiaan P.J., additional, Mansvelder, Huib D., additional, Sorensen, Staci A., additional, Tamas, Gabor, additional, Lein, Ed S., additional, and Ting, Jonathan T., additional

Published

2023

3. Morphoelectric and transcriptomic divergence of the layer 1 interneuron repertoire in human versus mouse neocortex

Author

Chartrand, Thomas, Dalley, Rachel, Close, Jennie, Goriounova, Natalia A., Lee, Brian R., Mann, Rusty, Miller, Jeremy A., Molnar, Gabor, Mukora, Alice, Alfiler, Lauren, Baker, Katherine, Bakken, Trygve E., Berg, Jim, Bertagnolli, Darren, Braun, Thomas, Brouner, Krissy, Casper, Tamara, Csajbok, Eva Adrienn, Dee, Nick, Egdorf, Tom, Enstrom, Rachel, Galakhova, Anna A., Gary, Amanda, Gelfand, Emily, Goldy, Jeff, Hadley, Kristen, Heistek, Tim S., Hill, Di Jon, Jorstad, Nik, Kim, Lisa, Kocsis, Agnes Katalin, Kruse, Lauren, Kunst, Michael, Leon, Gabriela, Long, Brian, Mallory, Matthew, McGraw, Medea, McMillen, Delissa, Melief, Erica J., Mihut, Norbert, Ng, Lindsay, Nyhus, Julie, Oláh, Gáspár, Ozsvár, Attila, Omstead, Victoria, Peterfi, Zoltan, Pom, Alice, Potekhina, Lydia, Rajanbabu, Ramkumar, Rozsa, Marton, Ruiz, Augustin, Sandle, Joanna, Sunkin, Susan M., Szots, Ildiko, Tieu, Michael, Toth, Martin, Trinh, Jessica, Vargas, Sara, Vumbaco, David, Williams, Grace, Wilson, Julia, Yao, Zizhen, Barzo, Pal, Cobbs, Charles, Ellenbogen, Richard G., Esposito, Luke, Ferreira, Manuel, Gouwens, Nathan W., Grannan, Benjamin, Gwinn, Ryder P., Hauptman, Jason S., Jarsky, Tim, Keene, C. Dirk, Ko, Andrew L., Koch, Christof, Ojemann, Jeffrey G., Patel, Anoop, Ruzevick, Jacob, Silbergeld, Daniel L., Smith, Kimberly, Sorensen, Staci A., Tasic, Bosiljka, Ting, Jonathan T., Waters, Jack, de Kock, Christiaan P.J., Mansvelder, Huib D., Tamas, Gabor, Zeng, Hongkui, Kalmbach, Brian, Lein, Ed S., Chartrand, Thomas, Dalley, Rachel, Close, Jennie, Goriounova, Natalia A., Lee, Brian R., Mann, Rusty, Miller, Jeremy A., Molnar, Gabor, Mukora, Alice, Alfiler, Lauren, Baker, Katherine, Bakken, Trygve E., Berg, Jim, Bertagnolli, Darren, Braun, Thomas, Brouner, Krissy, Casper, Tamara, Csajbok, Eva Adrienn, Dee, Nick, Egdorf, Tom, Enstrom, Rachel, Galakhova, Anna A., Gary, Amanda, Gelfand, Emily, Goldy, Jeff, Hadley, Kristen, Heistek, Tim S., Hill, Di Jon, Jorstad, Nik, Kim, Lisa, Kocsis, Agnes Katalin, Kruse, Lauren, Kunst, Michael, Leon, Gabriela, Long, Brian, Mallory, Matthew, McGraw, Medea, McMillen, Delissa, Melief, Erica J., Mihut, Norbert, Ng, Lindsay, Nyhus, Julie, Oláh, Gáspár, Ozsvár, Attila, Omstead, Victoria, Peterfi, Zoltan, Pom, Alice, Potekhina, Lydia, Rajanbabu, Ramkumar, Rozsa, Marton, Ruiz, Augustin, Sandle, Joanna, Sunkin, Susan M., Szots, Ildiko, Tieu, Michael, Toth, Martin, Trinh, Jessica, Vargas, Sara, Vumbaco, David, Williams, Grace, Wilson, Julia, Yao, Zizhen, Barzo, Pal, Cobbs, Charles, Ellenbogen, Richard G., Esposito, Luke, Ferreira, Manuel, Gouwens, Nathan W., Grannan, Benjamin, Gwinn, Ryder P., Hauptman, Jason S., Jarsky, Tim, Keene, C. Dirk, Ko, Andrew L., Koch, Christof, Ojemann, Jeffrey G., Patel, Anoop, Ruzevick, Jacob, Silbergeld, Daniel L., Smith, Kimberly, Sorensen, Staci A., Tasic, Bosiljka, Ting, Jonathan T., Waters, Jack, de Kock, Christiaan P.J., Mansvelder, Huib D., Tamas, Gabor, Zeng, Hongkui, Kalmbach, Brian, and Lein, Ed S.

Abstract

Neocortical layer 1 (L1) is a site of convergence between pyramidal-neuron dendrites and feedback axons where local inhibitory signaling can profoundly shape cortical processing. Evolutionary expansion of human neocortex is marked by distinctive pyramidal neurons with extensive L1 branching, but whether L1 interneurons are similarly diverse is underexplored. Using Patch-seq recordings from human neurosurgical tissue, we identified four transcriptomic subclasses with mouse L1 homologs, along with distinct subtypes and types unmatched in mouse L1. Subclass and subtype comparisons showed stronger transcriptomic differences in human L1 and were correlated with strong morphoelectric variability along dimensions distinct from mouse L1 variability. Accompanied by greater layer thickness and other cytoarchitecture changes, these findings suggest that L1 has diverged in evolution, reflecting the demands of regulating the expanded human neocortical circuit.

Published

2023

4. Piloting a new model of personalised care for people with fibromyalgia in primary care with secondary care multidisciplinary support

Author

Stellman, Selena, primary, Ellis, Benjamin, additional, Dawson, Helen, additional, Kocsis, Agnes, additional, Mundra, Jag, additional, Hill, Cameron, additional, Sahota, Kalwant, additional, and Douglas, Sarah, additional

Published

2022

5. Signature morpho-electric properties of diverse GABAergic interneurons in the human neocortex

Author

Lee, Brian, primary, Dalley, Rachel, additional, Miller, Jeremy A, additional, Chartrand, Thomas, additional, Close, Jennie, additional, Mann, Rusty, additional, Mukora, Alice, additional, Ng, Lindsay, additional, Alfiler, Lauren, additional, Baker, Katherine, additional, Bertagnolli, Darren, additional, Brouner, Krissy, additional, Casper, Tamara, additional, Csajbok, Eva, additional, Dee, Nick, additional, Donadio, Nicholas, additional, Driessens, Stan L.W., additional, Egdorf, Tom, additional, Enstrom, Rachel, additional, Galakhova, Anna A, additional, Gary, Amanda, additional, Gelfand, Emily, additional, Goldy, Jeff, additional, Hadley, Kristen, additional, Heistek, Tim S., additional, Hill, Dijon, additional, Johansen, Nelson, additional, Jorstad, Nik, additional, Kim, Lisa, additional, Kocsis, Agnes Katalin, additional, Kruse, Lauren, additional, Kunst, Michael, additional, Leon, Gabriela, additional, Long, Brian, additional, Mallory, Matthew, additional, Maxwell, Michelle, additional, McGraw, Medea, additional, McMillen, Delissa, additional, Melief, Erica J, additional, Molnar, Gabor, additional, Mortrud, Marty T, additional, Newman, Dakota, additional, Nyhus, Julie, additional, Opitz-Araya, Ximena, additional, Pham, Trangthanh, additional, Pom, Alice, additional, Potekhina, Lydia, additional, Rajanbabu, Ram, additional, Ruiz, Augustin, additional, Sunkin, Susan M, additional, Szots, Ildiko, additional, Taskin, Naz, additional, Thyagarajan, Bargavi, additional, Tieu, Michael, additional, Trinh, Jessica, additional, Vargas, Sara, additional, Vumbaco, David, additional, Waleboer, Femke, additional, Weed, Natalie, additional, Williams, Grace, additional, Wilson, Julia, additional, Yao, Shenqin, additional, Zhou, Thomas, additional, Barzo, Pal, additional, Bakken, Trygve, additional, Cobbs, Charles, additional, Ellenbogen, Richard G., additional, Esposito, Luke, additional, Ferreira, Manuel, additional, Gouwens, Nathan W, additional, Grannan, Benjamin, additional, Gwinn, Ryder P., additional, Hauptman, Jason S., additional, Hodge, Rebecca, additional, Jarsky, Tim, additional, Keene, C.Dirk, additional, Ko, Andrew L., additional, Levi, Boaz, additional, Ojemann, Jeffrey G., additional, Patel, Anoop, additional, Ruzevick, Jacob, additional, Silbergeld, Daniel L., additional, Smith, Kim, additional, Waters, Jack, additional, Zeng, Hongkui, additional, Berg, Jim, additional, Goriounova, Natalia A., additional, Kalmbach, Brian, additional, de Kock, Christiaan P.J., additional, Mansvelder, Huib D, additional, Sorensen, Staci A, additional, Tamas, Gabor, additional, Lein, Ed S., additional, and Ting, Jonathan T, additional

Published

2022

6. Morpho-electric and transcriptomic divergence of the layer 1 interneuron repertoire in human versus mouse neocortex

Author

Chartrand, Thomas, primary, Dalley, Rachel, additional, Close, Jennie, additional, Goriounova, Natalia A., additional, Lee, Brian R., additional, Mann, Rusty, additional, Miller, Jeremy A., additional, Molnar, Gabor, additional, Mukora, Alice, additional, Alfiler, Lauren, additional, Baker, Katherine, additional, Bakken, Trygve E., additional, Berg, Jim, additional, Bertagnolli, Darren, additional, Braun, Thomas, additional, Brouner, Krissy, additional, Casper, Tamara, additional, Csajbok, Eva Adrienn, additional, Dee, Nick, additional, Egdorf, Tom, additional, Enstrom, Rachel, additional, Galakhova, Anna A., additional, Gary, Amanda, additional, Gelfand, Emily, additional, Goldy, Jeff, additional, Hadley, Kristen, additional, Heistek, Tim S., additional, Hill, DiJon, additional, Jorstad, Nik, additional, Kim, Lisa, additional, Kocsis, Agnes Katalin, additional, Kruse, Lauren, additional, Kunst, Michael, additional, Leon, Gabriela, additional, Long, Brian, additional, Mallory, Matthew, additional, McGraw, Medea, additional, McMillen, Delissa, additional, Melief, Erica J., additional, Mihut, Norbert, additional, Ng, Lindsay, additional, Nyhus, Julie, additional, Omstead, Victoria, additional, Peterfi, Zoltan, additional, Pom, Alice, additional, Potekhina, Lydia, additional, Rajanbabu, Ramkumar, additional, Rozsa, Marton, additional, Ruiz, Augustin, additional, Sandle, Joanna, additional, Sunkin, Susan M., additional, Szots, Ildiko, additional, Tieu, Michael, additional, Toth, Martin, additional, Trinh, Jessica, additional, Vargas, Sara, additional, Vumbaco, David, additional, Williams, Grace, additional, Wilson, Julia, additional, Yao, Zizhen, additional, Barzo, Pal, additional, Cobbs, Charles, additional, Ellenbogen, Richard G., additional, Esposito, Luke, additional, Ferreira, Manuel, additional, Gouwens, Nathan W., additional, Grannan, Benjamin, additional, Gwinn, Ryder P., additional, Hauptman, Jason S., additional, Jarsky, Tim, additional, Keene, C.Dirk, additional, Ko, Andrew L., additional, Koch, Christof, additional, Ojemann, Jeffrey G., additional, Patel, Anoop, additional, Ruzevick, Jacob, additional, Silberberg, Daniel L., additional, Smith, Kimberly, additional, Sorensen, Staci A., additional, Tasic, Bosiljka, additional, Ting, Jonathan T., additional, Waters, Jack, additional, de Kock, Christiaan P.J., additional, Mansvelder, Huib D., additional, Tamas, Gabor, additional, Zeng, Hongkui, additional, Kalmbach, Brian, additional, and Lein, Ed S., additional

Published

2022

7. Piloting a new model of personalised care for people with fibromyalgia in primary care with secondary care multidisciplinary support.

Author

Stellman, Selena, Ellis, Benjamin, Dawson, Helen, Kocsis, Agnes, Mundra, Jag, Hill, Cameron, Sahota, Kalwant, and Douglas, Sarah

Subjects

CHRONIC pain treatment, TREATMENT of fibromyalgia, COMPETENCY assessment (Law), EVALUATION of medical care, CONFIDENCE, SELF-management (Psychology), INDIVIDUALIZED medicine, ACQUISITION of data, PRIMARY health care, FIBROMYALGIA, HEALTH literacy, PATIENTS' attitudes, ATTITUDES toward illness, HEALTH care teams, MUSCULOSKELETAL pain, CLINICAL competence, MEDICAL records, QUESTIONNAIRES, MEDICAL referrals, THEMATIC analysis, SYMPTOMS

Abstract

Objective: An estimated 5.5 million people in England have high‐impact chronic pain, which is severe pain associated with significant disability. Current models of healthcare often fail to address their broad range of symptoms and address their complex non‐medical needs. Methods: A pilot project was designed with the aim of improving the quality of care and addressing unmet needs of patients high‐impact musculoskeletal (MSK) pain through providing a personalised approach to their pain and wider psychosocial needs. The model comprised a longer initial appointment with a general practitioner, a later follow‐appointment, and support of the multidisciplinary team (MDT) (informally and through a formal MDT meeting) with both primary care clinicians and specialists based in secondary care. Results: Forty six patients were seen using this model, with prominent themes of consultations including self‐management, social needs, mental health and understanding their diagnosis. Evaluation of the pilot demonstrated improvements in MSK and non‐MSK symptoms, together with improved patient confidence in self‐management and knowledge and understanding of their condition. Multidisciplinary working proved to be invaluable in addressing patients' wider needs but also upskilling and supporting primary care clinicians. Primary care staff also found it to be a satisfying way to care for patients, and developed increasing skills and confidence in supporting patients with chronic pain. Conclusion: This model of care appears to be an effective way to help primary care teams to provide more holistic personalised care to a group of patients who are highly complex and so often forgotten. [ABSTRACT FROM AUTHOR]

Published

2023

8. Optofluidic Micromachined Platform for Refractive Index Measurement

Author

Đinović, Zoran, Đinović, Zoran, Tomić, Miloš, Kocsis, Agnes, Đinović, Zoran, Đinović, Zoran, Tomić, Miloš, and Kocsis, Agnes

Abstract

We present a combination of micromachined optofluidic platforms equipped with a fiber-optic sensing configuration based on a three-path Mach–Zehnder interferometer (MZI) for simultaneous measurement of the refractive index of liquids and the autocalibration in dynamic regime. The sensing principle is based on the low-coherence interferometry, characterized by a generation of Gaussian enveloped interferograms, for which the position of its maximum depends on the optical path difference (OPD) between the sensing and reference arm of the MZI. When liquid flows through the central microchannel of the optofluidic platform it crosses the light beam between the two optical fibers in the sensing arm causing the OPD change. An algorithm has been applied for the calculation of the refractive index of liquids out of the raw interference signals. We obtained a very good agreement between the experimental results and literature data of refractive indices of subjected fluids. The accuracy of refractive index measurement is approximately 1%, predominantly determined by the accuracy of reading the position of the mechanical scanner. The proposed sensor is attractive for the label-free biological, biochemical, and chemical sensing owing autocalibration and high sensitivity yet consuming a very small sample volume of 1 µL. It is capable to measure the refractive index of various liquids and/or gases simultaneously in the process.

Published

2022

9. Optofluidic Micromachined Platform for Refractive Index Measurement

Author

Djinović, Zoran, primary, Tomić, Miloš, additional, and Kocsis, Agnes, additional

Published

2022

10. Morphoelectric and transcriptomic divergence of the layer 1 interneuron repertoire in human versus mouse neocortex.

Author

Chartrand T, Dalley R, Close J, Goriounova NA, Lee BR, Mann R, Miller JA, Molnar G, Mukora A, Alfiler L, Baker K, Bakken TE, Berg J, Bertagnolli D, Braun T, Brouner K, Casper T, Csajbok EA, Dee N, Egdorf T, Enstrom R, Galakhova AA, Gary A, Gelfand E, Goldy J, Hadley K, Heistek TS, Hill D, Jorstad N, Kim L, Kocsis AK, Kruse L, Kunst M, Leon G, Long B, Mallory M, McGraw M, McMillen D, Melief EJ, Mihut N, Ng L, Nyhus J, Oláh G, Ozsvár A, Omstead V, Peterfi Z, Pom A, Potekhina L, Rajanbabu R, Rozsa M, Ruiz A, Sandle J, Sunkin SM, Szots I, Tieu M, Toth M, Trinh J, Vargas S, Vumbaco D, Williams G, Wilson J, Yao Z, Barzo P, Cobbs C, Ellenbogen RG, Esposito L, Ferreira M, Gouwens NW, Grannan B, Gwinn RP, Hauptman JS, Jarsky T, Keene CD, Ko AL, Koch C, Ojemann JG, Patel A, Ruzevick J, Silbergeld DL, Smith K, Sorensen SA, Tasic B, Ting JT, Waters J, de Kock CPJ, Mansvelder HD, Tamas G, Zeng H, Kalmbach B, and Lein ES

Subjects

Animals, Humans, Mice, Axons metabolism, Interneurons metabolism, Pyramidal Cells metabolism, Transcriptome, Neocortex cytology, Neocortex metabolism

Abstract

Neocortical layer 1 (L1) is a site of convergence between pyramidal-neuron dendrites and feedback axons where local inhibitory signaling can profoundly shape cortical processing. Evolutionary expansion of human neocortex is marked by distinctive pyramidal neurons with extensive L1 branching, but whether L1 interneurons are similarly diverse is underexplored. Using Patch-seq recordings from human neurosurgical tissue, we identified four transcriptomic subclasses with mouse L1 homologs, along with distinct subtypes and types unmatched in mouse L1. Subclass and subtype comparisons showed stronger transcriptomic differences in human L1 and were correlated with strong morphoelectric variability along dimensions distinct from mouse L1 variability. Accompanied by greater layer thickness and other cytoarchitecture changes, these findings suggest that L1 has diverged in evolution, reflecting the demands of regulating the expanded human neocortical circuit.

Published

2023