Andy Daniel • UCSF Profiles (original) (raw)

  1. Predicting therapeutic clinical trial enrollment for adult patients with low- and high-grade glioma using supervised machine learning. Sci Adv. 2025 Jun 06; 11(23):eadt5708. Mehari M, Warrier G, Dada A, Kabir A, Haskell-Mendoza AP, Tripathy A, Jha R, Nieblas-Bedolla E, Jackson JD, Gonzalez AT, Reason EH, Flusche AM, Reihl S, Dalton T, Negussie M, Gonzales CN, Ambati VS, Desjardins A, Daniel AGS, Krishna S, Chang S, Porter A, Fecci PE, Hollon T, Chukwueke UN, Badal K, Molinaro AM, Hervey-Jumper SL. PMID: 40465719; PMCID: PMC12136030.
    View in: PubMed Mentions: 1 Fields:
    Translation:Humans
  2. Aperiodic neural dynamics define a novel signature of glioma-induced excitation-inhibition dysregulation. bioRxiv. 2025 May 24. Sibih YE, Dada AO, Cunningham E, Olshausen N, Kaur J, Jayabal V, Oten S, Herr S, Gonzales CN, Daniel A, Krishna S, Ambati VS, Aabedi AA, Umbach G, Mirchia K, Lalwani P, Chang EF, Raleigh DR, Nagarajan S, Brang D, Hervey-Jumper SL. PMID: 40475422; PMCID: PMC12139770.
    View in: PubMed Mentions: 1
  3. Glioma-neuronal circuit remodeling induces regional immunosuppression. Nat Commun. 2025 May 22; 16(1):4770. Nejo T, Krishna S, Yamamichi A, Lakshmanachetty S, Jimenez C, Lee KY, Baker DL, Young JS, Chen T, Phyu SSS, Phung L, Gallus M, Maldonado GC, Okada K, Ogino H, Watchmaker PB, Diebold D, Choudhury A, Daniel AGS, Cadwell CR, Raleigh DR, Hervey-Jumper SL, Okada H. PMID: 40404658; PMCID: PMC12098748.
    View in: PubMed Mentions: 11 Fields:
    Translation:HumansAnimalsCells
  4. Gabapentinoids confer survival benefit in human glioblastoma. Nat Commun. 2025 May 15; 16(1):4483. Bernstock JD, Mehari M, E Gerstl JV, Meredith DM, Valdes PA, Heesen P, Ambati VS, Krishna S, Chen JA, Arora H, Johnston BR, Negussie M, Grieco K, Nava Gonzales C, Dada A, Lebouille-Veldman AB, Kabir A, Spanehl L, Kaur J, Oten S, Sibih YE, Mekary RA, Daniel A, de Groot JF, Izzy S, Gessler FA, Stone S, Arnaout O, Lu Y, Choi BD, Hall MD, Mehta MP, Odia Y, Friedman GK, Chiocca EA, Peruzzi PP, Smith TR, Hervey-Jumper SL. PMID: 40374596; PMCID: PMC12081740.
    View in: PubMed Mentions: 9 Fields:
    Translation:Humans
  5. Glioma-neuronal circuit remodeling induces regional immunosuppression. bioRxiv. 2023 Aug 06. Nejo T, Krishna S, Jimenez C, Yamamichi A, Young JS, Lakshmanachetty S, Chen T, Phyu SSS, Ogino H, Watchmaker P, Diebold D, Choudhury A, Daniel AGS, Raleigh DR, Hervey-Jumper SL, Okada H. PMID: 37577659; PMCID: PMC10418167.
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  6. Glioblastoma remodelling of human neural circuits decreases survival. Nature. 2023 05; 617(7961):599-607. Krishna S, Choudhury A, Keough MB, Seo K, Ni L, Kakaizada S, Lee A, Aabedi A, Popova G, Lipkin B, Cao C, Nava Gonzales C, Sudharshan R, Egladyous A, Almeida N, Zhang Y, Molinaro AM, Venkatesh HS, Daniel AGS, Shamardani K, Hyer J, Chang EF, Findlay A, Phillips JJ, Nagarajan S, Raleigh DR, Brang D, Monje M, Hervey-Jumper SL. PMID: 37138086; PMCID: PMC10191851.
    View in: PubMed Mentions: 179 Fields:
    Translation:Humans
  7. Structural gray matter alterations in glioblastoma and high-grade glioma-A potential biomarker of survival. Neurooncol Adv. 2023 Jan-Dec; 5(1):vdad034. Lamichhane B, Luckett PH, Dierker D, Yun Park K, Burton H, Olufawo M, Trevino G, Lee JJ, Daniel AGS, Hacker CD, Marcus DS, Shimony JS, Leuthardt EC. PMID: 37152811; PMCID: PMC10162111.
    View in: PubMed Mentions: 6
  8. Preoperative functional connectivity by magnetic resonance imaging for refractory neocortical epilepsy. medRxiv. 2023 Jan 11. Johnson EA, Lee JJ, Hacker CD, Park KY, Rustamov N, Daniel AGS, Shimony JS, Leuthardt EC. PMID: 36712003; PMCID: PMC9882436.
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  9. A virtual innovation bootcamp to remotely connect and empower students to solve COVID-19-related medical problems. Nat Biotechnol. 2022 06; 40(6):976-979. Russo MV, Appukutty AJ, Shah AP, Mohan HK, Daniel AGS, Pack A, Xie R. PMID: 35705707.
    View in: PubMed Mentions: 1 Fields:
    Translation:Humans
  10. Neuro-Oncology Patients as Human Research Subjects: Ethical Considerations for Cognitive and Behavioral Testing for Research Purposes. Cancers (Basel). 2022 Jan 29; 14(3). Kaur J, Egladyous A, Valdivia C, Daniel AGS, Krishna S, Aabedi AA, Brang D, Hervey-Jumper SL. PMID: 35158959; PMCID: PMC8833547.
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  11. Homotopic functional connectivity disruptions in glioma patients are associated with tumor malignancy and overall survival. Neurooncol Adv. 2021 Jan-Dec; 3(1):vdab176. Daniel AGS, Hacker CD, Lee JJ, Dierker D, Humphries JB, Shimony JS, Leuthardt EC. PMID: 34988455; PMCID: PMC8694208.
    View in: PubMed Mentions: 10
  12. Resting-State Functional Magnetic Resonance Imaging Networks as a Quantitative Metric for Impact of Neurosurgical Interventions. Front Neurosci. 2021; 15:665016. Yang PH, Hacker CD, Patel B, Daniel AGS, Leuthardt EC. PMID: 34776836; PMCID: PMC8585791.
    View in: PubMed Mentions: 2
  13. Don't Ignore the Tipping Point: A Framework to Fuel Diversity, Equity, and Inclusion Efforts in Health-care Sciences. Educ Health Prof. 2021 May-Aug; 4(2):33-36. Hoyt CR, Pearson AC, Skowronski J, Lancaster S, Smith CR, Daniel AGS. PMID: 40104077; PMCID: PMC11916926.
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  14. Functional connectivity within glioblastoma impacts overall survival. Neuro Oncol. 2021 03 25; 23(3):412-421. Daniel AGS, Park KY, Roland JL, Dierker D, Gross J, Humphries JB, Hacker CD, Snyder AZ, Shimony JS, Leuthardt EC. PMID: 32789494; PMCID: PMC7992880.
    View in: PubMed Mentions: 37 Fields:
    Translation:Humans
  15. Machine Learning Analytics of Resting-State Functional Connectivity Predicts Survival Outcomes of Glioblastoma Multiforme Patients. Front Neurol. 2021; 12:642241. Lamichhane B, Daniel AGS, Lee JJ, Marcus DS, Shimony JS, Leuthardt EC. PMID: 33692747; PMCID: PMC7937731.
    View in: PubMed Mentions: 14
  16. Mapping of the Language Network With Deep Learning. Front Neurol. 2020; 11:819. Luckett P, Lee JJ, Park KY, Dierker D, Daniel AGS, Seitzman BA, Hacker CD, Ances BM, Leuthardt EC, Snyder AZ, Shimony JS. PMID: 32849247; PMCID: PMC7419701.
    View in: PubMed Mentions: 5
  17. Burst suppression uncovers rapid widespread alterations in network excitability caused by an acute seizure focus. Brain. 2019 10 01; 142(10):3045-3058. Liou JY, Baird-Daniel E, Zhao M, Daniel A, Schevon CA, Ma H, Schwartz TH. PMID: 31436790; PMCID: PMC8979325.
    View in: PubMed Mentions: 6 Fields:
    Translation:Animals
  18. Role of inhibitory control in modulating focal seizure spread. Brain. 2018 07 01; 141(7):2083-2097. Liou JY, Ma H, Wenzel M, Zhao M, Baird-Daniel E, Smith EH, Daniel A, Emerson R, Yuste R, Schwartz TH, Schevon CA. PMID: 29757347; PMCID: PMC6022627.
    View in: PubMed Mentions: 56 Fields:
    Translation:AnimalsCells
  19. Glial Calcium Waves are Triggered by Seizure Activity and Not Essential for Initiating Ictal Onset or Neurovascular Coupling. Cereb Cortex. 2017 06 01; 27(6):3318-3330. Baird-Daniel E, Daniel AGS, Wenzel M, Li D, Liou JY, Laffont P, Zhao M, Yuste R, Ma H, Schwartz TH. PMID: 28369176; PMCID: PMC6433182.
    View in: PubMed Mentions: 18 Fields:
    Translation:AnimalsCells
  20. Optogenetic tools for modulating and probing the epileptic network. Epilepsy Res. 2015 Oct; 116:15-26. Zhao M, Alleva R, Ma H, Daniel AG, Schwartz TH. PMID: 26354163; PMCID: PMC4567692.
    View in: PubMed Mentions: 14 Fields:
    Translation:Animals
  21. Optical electrocorticogram (OECoG) using wide-field calcium imaging reveals the divergence of neuronal and glial activity during acute rodent seizures. Epilepsy Behav. 2015 Aug; 49:61-5. Daniel AG, Laffont P, Zhao M, Ma H, Schwartz TH. PMID: 25976183.
    View in: PubMed Mentions: 11 Fields:
    Translation:AnimalsCells
  22. Wide-field in vivo neocortical calcium dye imaging using a convection-enhanced loading technique combined with simultaneous multiwavelength imaging of voltage-sensitive dyes and hemodynamic signals. Neurophotonics. 2014 Jul 24; 1(1):015003. Ma H, Harris S, Rahmani R, Lacefield CO, Zhao M, Daniel AG, Zhou Z, Bruno RM, Berwick J, Schwartz TH. PMID: 25525611; PMCID: PMC4267117.
    View in: PubMed Mentions: 13

This graph shows the number and percent of publications by field. Fields are based on how the National Library of Medicine (NLM) classifies the publications' journals and might not represent the specific topics of the publications. Note that an individual publication can be assigned to more than one field. As a result, the publication counts in this graph might add up to more than the number of publications the person has written. To see the data as text, click here.

This graph shows the number and percent of publications by field. Fields are based on how the National Library of Medicine (NLM) classifies the publications' journals and might not represent the specific topics of the publications. Note that an individual publication can be assigned to more than one field. As a result, the publication counts in this graph might add up to more than the number of publications the person has written. To see the data as text, click here.

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