Connie Smiley, one of my favorite people and a survivor who was a friend to our lab for years, passed August 6, 2019; I just found out.
Connie was zero-nonsense and smart, and exemplified what a super survivor is.
From an earlier post:
A super survivor is “…someone so unwilling to let go of their career, their independence, or a personal passion that they are compelled to recover. They intertwine recovery with what they love to do.”
When somebody can use their life's passion to drive recovery everything is made easier.
- It's easier for the therapist because they don't have to motivate.
- It's easier for the stroke survivor because they have a cherished task which drives recovery.
- It's easier for the survivor’s brain because when it comes to driving plastic changes "the power is in the focus.” And we tend to focus on what we care about.
Rewiring the
brain in a way that is robust enough to reestablish control over wayward
muscles takes a concentrated focus on the affected-side of the body. The focus needs
to be near total. This level of focus is only
accessible to stroke survivors who have a passion or avocation that drives them
to the highest possible level of recovery. Connie Smiley was a survivor who used her avocation to drive her nervous systems
towards recovery far beyond any expectations.
Smiley had her
stroke "The day before Easter," as she remembers it, 1991. The stroke
was on the right side of her brain, affecting her left, non-dominant side. Prior
to her stroke, Smiley was fully aware of the absolutely devastating impact
stroke. “My husband lived for almost 6 years in a nursing home following his
stroke. The damage was too severe to recover—even though he tried. One of the
things that motivated me was seeing the restrictive life he led. I realized
that the same could be true for me, but I decided that, if there was anything I
could do towards recovery, I would do it.”
It is not unusual for stroke
survivors to use the fear of a “restrictive life” as a powerful motivator. Fear
of isolation, fear of falling, fear of dependence–all can motivate. And
motivation is vital to overcoming one of the hardest parts of recovery from
stroke: there is often little interest in relearning how to move. There is none
of the inherent joy of learning as the stroke survivor relearns movement that
they used to do perfectly well. But fear of a “restrictive life” was not Smiley's
only motivator. It was not even her primary motivator.
Smiley has a master’s
degree in education and has been a teacher of one sort or another, since. For
more than 30 years she taught primary school. While she was teaching school she
began volunteering at the Cincinnati Zoo, eventually landing a paid full-time
position managing the Zoo’s community outreach program. Her job involved bringing
small animals local schools and introducing the kids to the animals. She has the war wounds to prove it! Smiley
has been bit by every type of mammal she has handled. She sports scars from
snakes, alligators, bearded dragons and was once taloned by a hawk. Although
she was forced into retirement by her stroke she almost immediately went back
to work at the zoo.
As Smiley got
back to work, a remarkable neuroplastic metamorphosis took place. In
order for Smiley to be able to handle the animals she was forced to use the
limited dexterity in her affected left hand. Because she was powerfully
motivated by her avocation, the amount of neuroplastic rewiring was remarkable.
But what was more remarkable was where the rewiring took place. Smiley enrolled
in a series of clinical trials at our lab; at the time at University of Cincinnati. All of the clinical trials involved
brain scans; functional magnetic resonance imaging (fMRI) of Smiley's brain.
Traditional MRI provides a static picture of the brain. Functional MRI involves
doing something, in Connie's case a finger tapping task, in the MRI machine.
The fMRI machine measures change in blood flow in the brain as the task is
being done.
Usually, the
fingers of the left hand are controlled by the motor cortex that is on the right
side of the brain. But Smiley had rewired her own brain in a rather curious
way. When her fMRI was analyzed it was found that she was controlling her left
hand, not with the right side of the brain, but with the left side. What made
it even more curious was that the scan showed that the left hand had
essentially "borrowed" neuronal firepower from the area of the brain
usually controls the right-hand.
Neuroplasticity happens. The brain decides where it happens. Connie showed us that the brain can do the right thing in the "wrong" part of the brain. That's what super survivors do.
Thank you Connie!!