San Antonio Hybrid PhD in Neuroscience Programs & Neuroscience Doctoral Programs

What is neuroscience? This field of study deals exclusively with the brain and its relationship to the rest of the body. In hybrid PhD in neuroscience programs & neuroscience doctoral programs, scholars study the anatomy, physiology, biology and chemistry of the brain, including treatment for various disorders and diseases. After earning this degree, graduates often pursue careers in research or medical treatment sectors. It is important to note that a neuroscience PhD is not equivalent to a medial degree.

Hybrid Neuroscience Doctoral Program Developed Skills and Abilities

While in school, scholars may have the opportunity to develop a host of abilities and skills that may be important to their professional careers. Commonly used and developed skills and capabilities include:

  • Active listening: When communicating with others about complex problems, it is important to know when to listen and when to ask questions. Active listening, or fully engaging with others, is essential when solving complex neurological issues and gathering important information.
  • Creative and/or complex problem solving: When dealing with the brain’s anatomy, physiology, biology and chemistry as well as other organs, graduates must be able to find solutions that tackle multiple problems.
  • Effective communication: Relating important information about difficult or advanced concepts requires highly developed communication skills. Furthermore, explaining treatments or research to those outside of the neuroscience field necessitates even more adept written and oral communication techniques.
  • Active learning: As with any scientific field, new information is constantly being discovered and professionals often learn much while on the job. Graduates must understand the implications of such new knowledge and adapt accordingly.
  • Social sensitivity: When working with colleagues, patients
  • or trial subjects, gleaning information relies on much more than strict oral or written communications. Being cognizant of others’ emotions and reactions helps graduates navigate important social interactions.
  • Inductive and deductive reasoning: Finding and applying established relationships between ailments, body systems, etc. is imperative for neuroscience graduates. Coursework may aim to develop these abilities for the professional realm.
  • Efficient decision-making: During research or medical work, graduates may need to analyze information and make important decisions. As such, they must learn to do so decisively without sacrificing results.

When dealing with such a complex body system, having many of these skills and tools in the arsenal could be incredibly helpful. Often medical or research solutions are complicated or multifaceted and require multiple areas of knowledge or expertise. Taking advantage of the opportunity to further develop these skills while in school could be incredibly beneficial to graduates as they pursue their ideal posts.

Common Coursework and Subjects of Study in Hybrid PhD in Neuroscience Programs

Though there are plenty of accredited educational institutions with neuroscience programs, the exact details of the curriculum may vary with the facility. Additionally, coursework may vary in accordance with a scholar’s chosen concentration. That said, common subjects of study include:

  • Nutrition
  • Brain function
  • Biochemistry related to aging
  • Cell adhesion
  • Molecular neurobiology
  • Neuroanatomy
  • Genetics
  • Neurophysiology
  • Neurology

If scholars decide to pursue concentrations, their coursework may likely include more concentrated courses. Additionally, it isn’t uncommon for doctoral candidates to complete rotations or internships within the neurology field. Whether or not this type of hands on experience is required may depend on the program and job.

Potential Career Tasks for Hybrid Neuroscience Doctoral Program Graduates

Though neuroscience graduates could choose from multiple industries, the career tasks are remarkably consistent. For instance, graduates turned professionals could expect to[i]:

  • Conduct informative interviews with patients regarding symptoms and medical history
  • Develop treatment plans based patient evaluations and diagnosis
  • Analyze lab results of blood or cerebrospinal fluid
  • Perform diagnostic tests and procedures on patients
  • Interpret outcomes of tests including electroencephalography, lumbar punctures and electromyograph
  • Diagnose neurological disorders based on diagnostic test data and analysis

While day-to-day career tasks may vary depending on the industry of employment, graduates could reasonably expect to encounter the listed responsibilities.

Career Growth and Trends for Hybrid PhD in Neuroscience Programs Graduates

The job outlook for neuroscience program graduates looks great as of 2014. Seventy-four percent of scholars find employment within the health care industry, while another ten percent work for government entities[ii]. Plus, the profession is growing faster than average at 15 to 21 percent[i]. In 2014, median wages were:

  • Hourly: $90 and up[i]
  • Annually: $187,200 and up[i]

Additionally, projected job openings fall just over 150,000 through 2022[i]. Currently, the job market for neuroscience program graduates is performing very well. As scholars pursue their professional careers, they may remain optimistic about finding a great job with a livable wage.

Aside from the benefit of an excellent job outlook, hybrid PhD in neuroscience programs & neuroscience doctoral programs offer students the ability to combine online and on-campus coursework. Some subjects are better left to traditional classroom instruction while others could be expedited with the use of the Internet. With a hybrid program, students get the best of both worlds while earning a doctorate in neuroscience. Start your search for the perfect neuroscience doctoral program on and you’ll be on your way to finding the right match for you.



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