Frontiers in Synaptic Neuroscience

Top Research Topics at Frontiers in Synaptic Neuroscience?

The journal primarily tackles Neuroscience, Synaptic plasticity, Chemistry, Synapse and Neurotransmission. In Frontiers in Synaptic Neuroscience, Long-term potentiation and Postsynaptic potential are investigated in conjunction with one another to address concerns in Neuroscience research. Postsynaptic density is part of Postsynaptic potential studies tackled in Frontiers in Synaptic Neuroscience.

The journal explores issues in Synaptic plasticity which can be linked to other research areas like Glutamate receptor, NMDA receptor and Long-term depression. The journal aims to bridge the gap between the study of Chemistry and research in different fields like AMPA receptor, Cell biology, Biophysics, Dopamine and Glutamatergic. Synapse research featured in it incorporates concerns from various other topics such as Neocortex, Electrophysiology, Neurotransmitter and Synaptogenesis.

Frontiers in Synaptic Neuroscience focuses on Neurotransmission but sometimes tackles the closely related topic of Synaptic vesicle which is concerned with Synaptic cleft. The featured Excitatory postsynaptic potential research is covered under the field of Inhibitory postsynaptic potential. The work on Synaptic scaling tackled in the journal brings together disciplines like Synaptic augmentation and Homeostatic plasticity.

• Neuroscience (97.92%)
• Synaptic plasticity (31.43%)
• Chemistry (25.45%)

What are the most cited papers published in the journal?

• A History of Spike-Timing-Dependent Plasticity (259 citations)
• Spike-timing-dependent plasticity: a comprehensive overview (200 citations)
• Timing is not Everything: Neuromodulation Opens the STDP Gate (192 citations)

Research areas of the most cited articles at Frontiers in Synaptic Neuroscience:

The most cited articles are mainly concerned with subjects like Neuroscience, Synaptic plasticity, Spike-timing-dependent plasticity, Long-term potentiation and Synapse. The most cited articles focus on Neuroscience but the discussions also offer insight into other areas such as Nonsynaptic plasticity, Metaplasticity and Postsynaptic potential. The published articles hold forums on Synaptic plasticity that merge themes from other disciplines such as Dendritic spine, Inhibitory postsynaptic potential, Neurotransmission and Neuron.

What topics the last edition of the journal is best known for?

• Gene
• Neuron
• Neuroscience

The previous edition focused in particular on these issues:

The journal investigates areas of study like Neuroscience, Chemistry, Synaptic plasticity, Hippocampal formation and Synapse. While the journal focused on Neuroscience, it was also able to explore topics like AMPA receptor, Long-term potentiation and Neurotransmission. Long-term potentiation research presented in Frontiers in Synaptic Neuroscience encompasses a variety of subjects, including Depolarization, Long-term depression, Postsynaptic potential and Excitatory postsynaptic potential.

Topics in Synaptic plasticity explored in the journal were investigated in conjunction with research in NMDA receptor, Extinction (psychology), Glutamatergic and Proteomics. Research in Perineuronal net and the interrelating topic of Prefrontal cortex, Electrophysiology, Semaphorin and Multiple sclerosis were among the subjects of interest in the Hippocampal formation studies discussed in Frontiers in Synaptic Neuroscience. In Frontiers in Synaptic Neuroscience, Excitatory synapse and Spinule are investigated in conjunction with one another to address concerns in Synapse research.

The most cited articles from the last journal are:

• Impact of Perineuronal Nets on Electrophysiology of Parvalbumin Interneurons, Principal Neurons, and Brain Oscillations: A Review. (3 citations)
• Voltage-Gated Ca2+-Channel α1-Subunit de novo Missense Mutations: Gain or Loss of Function – Implications for Potential Therapies (3 citations)
• GluN2D NMDA Receptors Gate Fear Extinction Learning and Interneuron Plasticity (2 citations)

Papers citation over time

A key indicator for each journal is its effectiveness in reaching other researchers with the papers published at that venue.

The chart below presents the interquartile range (first quartile 25%, median 50% and third quartile 75%) of the number of citations of articles over time.

Top authors and change over time

The top authors publishing in Frontiers in Synaptic Neuroscience (based on the number of publications) are:

• Denise Manahan-Vaughan (7 papers) absent at the last edition,
• Henry Markram (5 papers) absent at the last edition,
• Wulfram Gerstner (5 papers) absent at the last edition,
• Huibert D. Mansvelder (4 papers) absent at the last edition,
• Per Jesper Sjöström (4 papers) absent at the last edition.

The overall trend for top authors publishing in this journal is outlined below. The chart shows the number of publications at each edition of the journal for top authors.

Top affiliations and change over time

Only papers with recognized affiliations are considered

The top affiliations publishing in Frontiers in Synaptic Neuroscience (based on the number of publications) are:

• University College London (10 papers) published 1 paper at the last edition the same number as at the previous edition,
• University of Bristol (10 papers) absent at the last edition,
• Max Planck Society (10 papers) published 1 paper at the last edition,
• University of Oxford (9 papers) published 1 paper at the last edition,
• Ruhr University Bochum (9 papers) published 1 paper at the last edition.

The overall trend for top affiliations publishing in this journal is outlined below. The chart shows the number of publications at each edition of the journal for top affiliations.

Publication chance based on affiliation

The publication chance index shows the ratio of articles published by the best research institutions in the journal edition to all articles published within that journal. The best research institutions were selected based on the largest number of articles published during all editions of the journal.

The chart below presents the percentage ratio of articles from top institutions (based on their ranking of total papers).Top affiliations were grouped by their rank into the following tiers: top 1-10, top 11-20, top 21-50, and top 51+. Only articles with a recognized affiliation are considered.

During the most recent 2021 edition, 5.17% of publications had an unrecognized affiliation. Out of the publications with recognized affiliations, 14.55% were posted by at least one author from the top 10 institutions publishing in the journal. Another 12.73% included authors affiliated with research institutions from the top 11-20 affiliations. Institutions from the 21-50 range included 29.09% of all publications and 43.64% were from other institutions.

Returning Authors Index

A very common phenomenon observed among researchers publishing scientific articles is the intentional selection of journals they have already attended in the past. In particular, it is worth analyzing the case when the authors participate in the same journal from year to year.

The Returning Authors Index presented below illustrates the ratio of authors who participated in both a given as well as the previous edition of the journal in relation to all participants in a given year.

Returning Institution Index

The graph below shows the Returning Institution Index, illustrating the ratio of institutions that participated in both a given and the previous edition of the conference in relation to all affiliations present in a given year.

The experience to innovation index

Our experience to innovation index was created to show a cross-section of the experience level of authors publishing in a journal. The index includes the authors publishing at the last edition of a journal, grouped by total number of publications throughout their academic career (P) and the total number of citations of these publications ever received (C).

The group intervals were selected empirically to best show the diversity of the authors' experiences, their labels were selected as a convenience, not as judgment. The authors were divided into the following groups:

• Novice - P < 5 or C < 25 (the number of publications less than 5 or the number of citations less than 25),
• Competent - P < 10 or C < 100 (the number of publications less than 10 or the number of citations less than 100),
• Experienced - P < 25 or C < 625 (the number of publications less than 25 or the number of citations less than 625),
• Master - P < 50 or C < 2500 (the number of publications less than 50 or the number of citations less than 2500),
• Star - P ≥ 50 and C ≥ 2500 (both the number of publications greater than 50 and the number of citations greater than 2500).

The chart below illustrates experience levels of first authors in cases of publications with multiple authors.

How to Navigate a Career in Synaptic Neuroscience

Transitioning into a career from conducting research within the field of synaptic neuroscience can be a challenging experience, given the level of expertise required for the subject. To help early-career professionals understand their chosen career path better and enhance their skill sets to compete against other professionals in the field, we have curated a comprehensive guide relevant to our current focus. If you are hoping to specialize in a particular subspecialty, for instance as a speech therapist, it is important to strengthen your understanding of neuroscience, particularly in topics like synaptic plasticity and neurotransmission. This will better equip you to handle relevant disorders and conditions in your field. Getting a comprehensive education is crucial in this matter. If you're interested in understanding more about this, you can learn about how to be a speech therapist in Wisconsin here. Staying up-to-date with the latest research and having a strong publication profile can work in your favor and open up opportunities for career growth. The Frontiers in Synaptic Neuroscience is a great resource for this, offering an extensive list of research articles in the field of synaptic neuroscience. Moreover, attending conferences and building a strong professional network are aspects that can also bolster your position as a candidate in neuroscience fields. This information should provide a good starting point for anyone looking to navigate a career in synaptic neuroscience. The expanse of the neuroscience field offers numerous opportunities for professionals to specialize and establish a career different neuroscience disciplines. The greatest step forward, however, starts with education and a commitment to continuous learning.