Tag: biomedical science

Dr. Benoit’s “Joy of Pet Ownership”

by gwilson on Oct.18, 2013, under Projects

2013-10-18_15-43-07_756 Each year when Dr. Benoit teaches our freshman BIMS course on Unicellular Organisms, students leave with more than just knowledge and a grade….they take with them a pet.

In BIMS 1101 Unicellular Organisms Lab, Dr. Benoit takes students through an amazing tour of the unseen world, one filled with bacteria and protozoa and algae and yeast.  The course teaches basic cell biology and the diversity that exists among the smallest forms of life.  As a way of demonstrating the metabolic diversity of bacteria, all students create Winogradsky columns by filling Falcon flasks with diatomaceous earth, a variety of chemicals, and some water drawn from pond sludge (see photo).  These are the students’ pets, cared for and tended to by the students.  Dr. B encourages students to drop by the lab regularly to visit their pets and to enjoy their journey to maturation.  At the end of the semester, students are free to take them home where they can continue to mature and change for many years.

The preparation begins white usually, but chemical changes caused by a variety of bacterial turn the many minerals present into a technicolor show.  A good balance of chemicals and diversity of bacteria can result in reds and greens and blacks and yellows and purples as one species of bacteria after another transforms the minerals into colorful compounds.  It is the microbial equivalent of a garden filled with diverse plants.

As educational as the Winogradsky column is, the fun take on the project by Dr. Benoit demonstrates an important component of science at McMurry – if it isn’t fun, something is wrong!

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Programs Worth Keeping

by gwilson on Oct.19, 2012, under Program

IMG_0359I’ve heard it said that the best way to become immortal is to become an academic program.  Once instituted, they can never be eliminated – the politics become too heated to consider such a fate, no matter the common sense of such a decision.  I think that is one of the great weaknesses of academic institutions – the tendency to let history and tradition interfere with market realities and the needs for the future.  We should spend more time listening to the futurists who tell us the most sought-after jobs of the next 20 years (the sweet spot of our graduates’ careers) are not even on our radar screen today.  How can old programs focused on old job descriptions and unaware of any of this possibly be preparing students to be agile and versatile graduates?

But we may be entering a time where dropping ineffective academic programs will be more common.  The backlash against rising tuition costs and student debt, and the decreased funding for higher education from state and federal sources will cause many institutions to ask which programs are worth paying for and which can be eliminated to make limited bucks go farther.  We are already seeing many colleges and universities scaling back on the programs they offer, and the trend is bound to only grow!  How can we make our programs those that are “worth keeping” in an atmosphere of cuts and reductions?

I have some ideas on what we should be doing to shape our programs to be programs worth keeping, should our institutions ever find themselves in the position to need to rethink their programs.  So here are some qualities I believe are central to programs worth keeping…

1. Programs worth keeping can attract students.  It makes no sense for a college to deliver a major nobody wants.  Go into any store in town and ask to purchase a slide rule or a 5.25″ floppy disk.  Those were hot items at one time.  That time is long gone.  Are you clinging to what was important to you instead of what is important to potential students?  Our programs have to offer relevant programs of obvious value to the student or they will not attract students.  How can a college justify keeping a program with more faculty than majors?  So why not look at what futurists say about where job growth is headed and realize the importance of preparing our students to enter one of these fields?  Talk to Admissions Counselors to see what programs high-schoolers are asking about?  Consider modifying their programs to attract new students?  And a program better be good at selling its value!  Any program that cannot drum up excitement in prospective students will soon snuff out whatever excitement they brought to campus as freshmen.  Good programs have a product with value and they know how to build enthusiasm for potential (and current) customers.  Programs that are expendable don’t get this point.  If you are the rare individual who happens to wander into their “store” wanting their rare and unpopular product, they will serve you (who initiates the actions here?).  But these programs are not centering their time and energy on the future and promotion of their products!  Want to know why BIMS is one of the programs recruiting the most freshmen every year?  It is because we shaped our program to focus on the sweet-spot of future job growth and thus have something to sell that has value.  And we sell an approach to education that is refreshing and new and proven to be successful.

2. Programs worth keeping take risks. Show me any successful person and I will show you someone who has taken a risk and succeeded. If you ask them, they will also tell you there were plenty of setbacks along the way.  Perseverance and learning from mistakes turns risk into a growth opportunity leading to success.  Too often, faculty will tell students there is one right way of doing things and penalize them for finding another route to the same end.  That is just plain foolish.  Nobody makes a new discovery by following the same tried and true paths.  The two most important words for success are, “What if…”  We should encourage our students to “boldly go where no man has gone before…”   Don’t just tolerate risk – encourage it!  Let them take risks in the safety of our labs under our supervision.  They take ownership, find pride in the results, and occasionally make a discovery that proves to be more important than they could have guessed.  This is a foundational reason we do open-ended research in our normal BIMS classes.  We are cultivating an environment for risk-taking, where it is rewarded instead of being punished.  Contrast this attitude to one where those students thinking “outside the box” or taking a bit longer to master a concept are summarily dismissed as “not being suited to a career in science”.  Which program is more likely to cultivate a generation of world-changers?

3. Programs worth keeping can demonstrate success.  I think a lot of programs are more “Wizard of Oz” than anything else.  Lots of animation and smoke and mirrors – plenty of activity with very little substance to show for their work.  At the end of the day, what has a program accomplished?  Are graduates more likely to pursue and be successful in graduate programs or professional schools or discipline-related employment?  Or do they abandon science?  Ask faculty teaching undergraduates at many colleges around the country where there graduates are, and more than likely they can point to the success of a handful of their stars.  They tend to equate the success of a few with the success of the program.  At McMurry, our BIMS program can tell you where every BIMS graduate has gone and is doing.  Granted, the number is small for the young program.  But we know the importance in tracking every graduate, using feedback to help shape and improve our major.  So far, our graduates have entered medical school, physician’s assistant programs, and graduate programs, or they are in the application process to do so.  The success we have seen (and can relate to anyone interested) proves this program is more than satisfying its purpose of preparing graduates for lives in the biomedical sciences.  Programs not interested in such work or unwilling to expend the effort will have a hard time proving the quality of their effort.  And it makes one wonder whether they are programs worth keeping.

4. Programs worth keeping teach the process of using skills of the major to accomplish something.  It was interesting to hear from a researcher friend at a professional school of his experience hiring a technician for his lab.  He said he had applicants with high gpas and degrees from major universities who looked great on paper but who couldn’t do anything in the lab.  Knowledge level was high, but skills level was nonexistent.  Why?  Too many programs believe filling a head with facts equates to readying someone for the workforce.   At McMurry, we want our graduates to be able to tell their prospective  bosses (or graduate advisors or professional school admissions committees) what they can DO as well as what they know.  Ever sequence a gene?  Yes, as part of my senior capstone project.  (vs. No, but I know the theory behind the process).  Ever  do a Western blot? Yes, as part of my senior capstone project. (vs. We did it once during my Molecular Biology lab).  Our students should know both theory and practice; not just theory.  Want evidence?  Take a look at their senior capstone presentation!  How does your program stack up in this way?

5. Programs worth keeping establish a master-apprentice relationship.  Finally, we believe it is important to build a professional working relationship with every student in the BIMS program.  That is why a senior capstone project is required of each student.  Often, we find that there are students who did not distinguish themselves as outstanding in traditional courses but who are found by their faculty mentor to have exceptional instinct and aptitude for research.  This would have gone undiscovered if not for the capstone research with faculty.  Big schools will sometimes encourage their selected star students to work as technicians in their research labs – supervised by graduate students or post-docs.  We don’t have graduate students or post-docs, so we have the great pleasure of allowing our students to step up into those roles for a deeper and more complete involvement in a research project.  Our students are research designers, hands-on technicians, data analyzers, and project presenters all rolled into one.  They experience all facets of research from thought expressed on whiteboard to poster presented at scientific meeting.  Every step is modeled and overseen by a faculty supervisor teaching those lessons not found in any textbook.  Hard to argue that this is not a better research experience!  We hear often from graduates in professional school or grad school that their classmates from other colleges are intimidated by faculty and have difficulty approaching them when troubles arise.  Not our students, who understand what it means to have a healthy, respectful, and productive professional relationship with faculty.  Such extraordinary experiences make these programs worth keeping – more value-added time is spent shaping students for future success than is commonly encountered.  Campus programs that do not follow this path and prepare students in this way seem to be short-changing their students.

And so there you have it.  Five qualities that lead to programs worth keeping.  May your programs grow to adopt them!

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Off-Ramps on the Biotech Freeway

by gwilson on Sep.14, 2012, under A Day in the Life...

offramp2One great thing about our interstate highway system and the growing number of tollways and freeways is that they feature limited access.  It is easy to keep the wheels rolling forward when cross traffic cannot interfere with your progress. Instead of the stop-and-go interruption of traffic control signals, a plan was devised to allow overpasses to support cross traffic and on- and off-ramps to allow entrance and exit from side roads.

In some ways, education works in the same way.  We begin with an entrance ramp into an educational program in high school or junior college or a university or graduate school, and the completion of one program provides the exit ramp from that course of study.  For instance, my undergraduate degree was not in science, but I was able to enter the “science freeway” as a graduate student and complete my masters and doctorate in microbiology.  Others I know completed a science undergraduate degree and then left science to pursue graduate work in law, communication, and even “dean of students” type stuff.  Suffice it to say that a healthy educational program possesses flexibility in entering and exiting at various endpoints along the way.

I mention this because McMurry’s BIMS program is always looking for articulation agreements with other programs.  Notable examples are our Dental Early Admission Program (DEAP 3+4) with UTHSC-San Antonio Dental School (which allows a BS in BIMS and DDS degree in seven years), and similar programs with Hardin-Simmons School of Physical Therapy for the Doctor of Physical Therapy degree and Texas Chiropractic College for the Doctor of Chiropractic degree.  Others with a variety of additional professional programs are in the works, giving McMurry’s BIMS students quick entry and preferred admission for programs in various medical fields.  This, in and of itself, gives students choosing McMurry a huge advantage over those attending other colleges!

But the most interesting articulation program may be the one in development for biotech education in Abilene, and this truly puts the freeway exit ramp example above in proper perspective.  Cisco College is a two-year community college with campuses in Cisco, Texas, and Abilene.  They offer a certificate program in Biotech that is even newer than the BIMS program.  Its first “graduates” are about ready for the workforce and further education.  McMurry is developing an agreement that will allow some of the training they have received to count toward hours in the BIMS program.  As Cisco moves toward an Associates Program in the field, we will work to make an easy transition into our BS in Biomedical Science program so that those so inclined can work toward a BS in BIMS.  Such a step would mean higher pay, more responsibility, greater opportunity for advancement.  Abilene’s growing biotech industry will be but one of the beneficiaries.  At the same time, a MS in Biotech program offered by Texas Tech is also coming to Abilene.  McMurry will work with TTU to develop an articulation allowing our students quick and easy entry into their program.  Who knows – maybe a PhD in the field will be coming before long!

So, students interested in biotech, forensic science, or any of the other fields that rely heavily on molecular biology, microbiology, and genetics can come to Abilene and get on the Biotech Freeway.  There will be exits at the certificate, associates, bachelors, and masters (and perhaps doctoral) levels of preparation to take them onto side roads important to their future.  McMurry becomes the key connection between entry-level workers and biotech managers and entrepreneurs.  We are excited to get on that freeway!

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