Religion And The Brain
In the new field of "neurotheology", scientists seek the
biological basis of
spirituality.
Is God all in our heads?
By Sharon Begley
NEWSWEEK May 7 issue — One Sunday morning inMarch, 19 years
ago, as Dr. James Austin waited for a train in London, he glanced away from
the tracks toward the river Thames. The neurologist—who was spending
a sabbatical year in England—saw nothing out of the ordinary: the grimy
Underground station, a few dingy buildings, some pale gray sky. He was thinking,
a bit absent-mindedly, about the Zen Buddhist retreat he was headed toward.
And then Austin suddenly felt a sense of enlightenment unlike anything he had
ever experienced. His sense of individual existence, of separateness from the
physical world around him, evaporated like morning mist in a bright dawn. He
saw things "as they really are", he recalls. The sense of "I,
me, mine" disappeared. "Time was not present", he says. "I
had a sense of eternity. My old yearnings, loathings, fear of death and insinuations
of selfhood vanished. I had been graced by a comprehension of the ultimate
nature of things".
CALL IT A MYSTICALEXPERIENCE, a spiritual moment, even a religious epiphany,
if you like—but Austin will not. Rather than interpret his instant of grace
as proof of a reality beyond the comprehension of our senses, much less as proof
of a deity, Austin took it as "proof of the existence of the brain". He
isn't being smart-alecky. As a neurologist, he accepts that all we see,
hear, feel and think is mediated or created by the brain. Austin's moment
in the Underground therefore inspired him to explore the neurological underpinnings
of spiritual and mystical experience. In order to feel that time, fear and self-consciousness
have dissolved, he reasoned, certain brain circuits must be interrupted. Which
ones? Activity in the amygdala, which monitors the environment for threats and
registers fear, must be damped. Parietal-lobe circuits, which orient you in space
and mark the sharp distinction between self and world, must go quiet. Frontal-
and temporal-lobe circuits, which mark time and generate self-awareness, must
disengage. When that happens, Austin concludes in a recent paper",what
we think of as our 'higher' functions of selfhood appear briefly
to 'drop out,' 'dissolve,' or be 'deleted from
consciousness'". When he spun out his theories in 1998, in the 844-page "Zen
and the Brain", it was published not by some flaky New Age outfit but by
MIT Press.
Since then, more and more scientists have flocked to "neurotheology", the
study of the neurobiology of religion and spirituality. Last year the American
Psychological Association published "Varieties of Anomalous Experience", covering
enigmas from near-death experiences to mystical ones. At Columbia University's
new Center for the Study of Science and Religion, one program investigates how
spiritual experiences reflect "peculiarly recurrent events in human
brains". In
December, the scholarly Journal of Consciousness Studies devoted its issue to
religious moments ranging from "Christic visions" to "shamanic
states of consciousness". In May the book "Religion in Mind", tackling
subjects such as how religious practices act back on the brain's frontal
lobes to inspire optimism and even creativity, reaches stores. And in "Why
God Won't Go Away", published in April, Dr. Andrew Newberg of the
University of Pennsylvania and his late collaborator, Eugene d'Aquili,
use brain-imaging data they collected from Tibetan Buddhists lost in meditation
and from Franciscan nuns deep in prayer to ... well, what they do involves a
lot of neuro-jargon about lobes and fissures. In a nutshell, though, they use
the data to identify what seems to be the brain's spirituality circuit,
and to explain how it is that religious rituals have the power to move believers
and nonbelievers alike.
OUTSIDE OF TIME AND SPACE
What all the new research shares is a passion for uncovering the neurological
underpinnings of spiritual and mystical experiences—for discovering, in
short, what happens in our brains when we sense that we "have encountered
a reality different from—and, in some crucial sense, higher than—the
reality of everyday experience", as psychologist David Wulff of Wheaton
College in Massachusetts puts it. In neurotheology, psychologists and neurologists
try to pinpoint which regions turn on, and which turn off, during experiences
that seem to exist outside time and space. In this way it differs from the rudimentary
research of the 1950s and 1960s that found, yeah, brain waves change when you
meditate. But that research was silent on why brain waves change, or which specific
regions in the brain lie behind the change. Neuroimaging of a living, working
brain simply didn't exist back then. In contrast, today's studies
try to identify the brain circuits that surge with activity when we think we
have encountered the divine, and when we feel transported by intense prayer,
an uplifting ritual or sacred music. Although the field is brand new and the
answers only tentative, one thing is clear. Spiritual experiences are so consistent
across cultures, across time and across faiths, says Wulff, that it "suggest[s]
a common core that is likely a reflection of structures and processes in the
human brain".
"There was a feeling of energy centered within me ... going out to infinite
space and returning ... There was a relaxing of the dualistic mind, and an intense
feeling of love. I felt a profound letting go of the boundaries around me, and
a connection with some kind of energy and state of being that had a quality of
clarity, transparency and joy. I felt a deep and profound sense of connection
to everything, recognizing that there never was a true separation at all".
That is how Dr. Michael J. Baime, a colleague of Andrew Newberg's at Penn,
describes what he feels at the moment of peak transcendence when he practices
Tibetan Buddhist meditation, as he has since he was 14 in 1969. Baime offered
his brain to Newberg, who, since childhood, had wondered about the mystery of
God's existence. At Penn, Newberg's specialty is radiology, so he
teamed with Eugene d'Aquili to use imaging techniques to detect which regions
of the brain are active during spiritual experiences. The scientists recruited
Baime and seven other Tibetan Buddhists, all skilled meditators.
TESTING FOR THE TIMELESS AND INFINITE
In a typical run, Baime settled onto the floor of a small darkened room, lit
only by a few candles and filled with jasmine incense. A string of twine lay
beside him. Concentrating on a mental image, he focused and focused, quieting
his conscious mind (he told the scientists afterward) until something he identifies
as his true inner self emerged. It felt "timeless and infinite", Baime
said afterward",a part of everyone and everything in existence". When
he reached the "peak" of spiritual intensity, he tugged on the twine.
Newberg, huddled outside the room and holding the other end, felt the pull and
quickly injected a radioactive tracer into an IV line that ran into Baime's
left arm. After a few moments, he whisked Baime off to a SPECT (single photon
emission computed tomography) machine. By detecting the tracer, it tracks blood
flow in the brain. Blood flow correlates with neuronal activity.
_________________________________________________
Attention: Linked to concentration, the frontal lobe lights up during meditation
Religious emotions: The middle temporal lobe is linked to emotional aspects of religious experience, such as joy and awe
Sacred images: The lower temporal lobe is involved in the process by which images, such as candles or crosses, facilitate prayer and meditation
Response to religious words: At the juncture of three lobes, this region governs response to language
Cosmic unity: When the parietal lobes quiet down, a person can feel at one with the universe
Source: Newsweek
The SPECT images are as close as scientists have come to snapping a photo
of a transcendent experience. As expected, the prefrontal cortex, seat of attention,
lit up: Baime, after all, was focusing deeply. But it was a quieting of activity
that stood out. A bundle of neurons in the superior parietal lobe, toward the
top and back of the brain, had gone dark. This region, nicknamed the "orientation
association area", processes information about space and time, and the
orientation of the body in space. It determines where the body ends and the
rest of the world begins. Specifically, the left orientation area creates the
sensation of a physically delimited body; the right orientation area creates
the sense of the physical space in which the body exists. (An injury to this
area can so cripple your ability to maneuver in physical space that you cannot
figure the distance and angles needed to navigate the route to a chair across
the room.)
SELF AND NOT-SELF
The orientation area requires sensory input to do its calculus. "If
you
block sensory inputs to this region, as you do during the intense concentration
of meditation, you prevent the brain from forming the distinction between self
and not-self", says Newberg. With no information from the senses arriving,
the left orientation area cannot find any boundary between the self and the world.
As a result, the brain seems to have no choice but "to perceive the
self
as endless and intimately interwoven with everyone and everything", Newberg
and d'Aquili write in "Why God Won't Go Away". The right
orientation area, equally bereft of sensory data, defaults to a feeling of infinite
space. The meditators feel that they have touched infinity.
"I felt communion, peace, openness to experience
... [There was] an awareness
and responsiveness to God's presence around me, and a feeling of centering,
quieting, nothingness, [as well as] moments of fullness of the presence of God.
[God was] permeating my being".
This is how her 45-minute prayer made Sister Celeste, a Franciscan nun, feel,
just before Newberg SPECT-scanned her. During her most intensely religious moments,
when she felt a palpable sense of God's presence and an absorption of her
self into his being, her brain displayed changes like those in the Tibetan Buddhist
meditators: her orientation area went dark. What Sister Celeste and the other
nuns in the study felt, and what the meditators experienced, Newberg emphasizes, "were
neither mistakes nor wishful thinking. They reflect real, biologically based
events in the brain". The fact that spiritual contemplation affects brain
activity gives the experience a reality that psychologists and neuroscientists
had long denied it, and explains why people experience ineffable, transcendent
events as equally real as seeing a wondrous sunset or stubbing their toes.
PINPOINTING SPIRITUAL EXPERIENCE
That a religious experience is reflected in brain activity is not too surprising,
actually. Everything we experience—from the sound of thunder to the sight
of a poodle, the feeling of fear and the thought of a polka-dot castle—leaves
a trace on the brain. Neurotheology is stalking bigger game than simply affirming
that spiritual feelings leave neural footprints, too. By pinpointing the brain
areas involved in spiritual experiences and tracing how such experiences arise,
the scientists hope to learn whether anyone can have such experiences, and
why spiritual experiences have the qualities they do.
"I could hear the singing of the planets, and
wave after wave of light washed over me. But ... I was the light as well ...
I no longer existed as a
separate 'I' ...
I saw into the structure of the universe. I had the impression of knowing beyond
knowledge and being given glimpses into ALL".
That was how author Sophy Burnham described her experience at Machu Picchu,
in her 1997 book "The Ecstatic Journey". Although there was no scientist
around to whisk her into a SPECT machine and confirm that her orientation area
was AWOL, it was almost certainly quiescent. That said, just because an experience
has a neural correlate does not mean that the experience exists "only" in
the brain, or that it is a figment of brain activity with no independent reality.
Think of what happens when you dig into an apple pie. The brain's olfactory
region registers the aroma of the cinnamon and fruit. The somatosensory cortex
processes the feel of the flaky crust on the tongue and lips. The visual cortex
registers the sight of the pie. Remembrances of pies past (Grandma's kitchen,
the corner bake shop ...) activate association cortices. A neuroscientist with
too much time on his hands could undoubtedly produce a PET scan of "your
brain on apple pie". But that does not negate the reality of the pie. "The
fact that spiritual experiences can be associated with distinct neural activity
does not necessarily mean that such experiences are mere neurological illusions", Newberg
insists. "It's no safer to say that spiritual urges and sensations
are caused by brain activity than it is to say that the neurological changes
through which we experience the pleasure of eating an apple cause the apple to
exist". The bottom line, he says, is that "there is no way
to determine whether the neurological changes associated with spiritual experience
mean
that the brain is causing those experiences ... or is instead perceiving a
spiritual
reality".
PRODUCING VISIONS
In fact, some of the same brain regions involved in the pie experience create
religious experiences, too. When the image of a cross, or a Torah crowned in
silver, triggers a sense of religious awe, it is because the brain's
visual-association area, which interprets what the eyes see and connects images
to emotions and
memories, has learned to link those images to that feeling. Visions that arise
during prayer or ritual are also generated in the association area: electrical
stimulation of the temporal lobes (which nestle along the sides of the head
and house the circuits responsible for language, conceptual thinking and associations)
produces visions.
Temporal-lobe epilepsy—abnormal bursts of electrical activity in these
regions—takes this to extremes. Although some studies have cast doubt on
the connection between temporal-lobe epilepsy and religiosity, others find that
the condition seems to trigger vivid, Joan of Arc-type religious visions and
voices. In his recent book "Lying Awake", novelist Mark Salzman conjures
up the story of a cloistered nun who, after years of being unable to truly feel
the presence of God, begins having visions. The cause is temporal-lobe epilepsy.
Sister John of the Cross must wrestle with whether to have surgery, which would
probably cure her—but would also end her visions. Dostoevsky, Saint Paul,
Saint Teresa of Avila, Proust and others are thought to have had temporal-lobe
epilepsy, leaving them obsessed with matters of the spirit.
Although temporal-lobe epilepsy is rare, researchers suspect that focused bursts
of electrical activity called "temporal-lobe transients" may yield
mystical experiences. To test this idea, Michael Persinger of Laurentian University
in Canada fits a helmet jury-rigged with electromagnets onto a volunteer's
head. The helmet creates a weak magnetic field, no stronger than that produced
by a computer monitor. The field triggers bursts of electrical activity in the
temporal lobes, Persinger finds, producing sensations that volunteers describe
as supernatural or spiritual: an out-of-body experience, a sense of the divine.
He suspects that religious experiences are evoked by mini electrical storms in
the temporal lobes, and that such storms can be triggered by anxiety, personal
crisis, lack of oxygen, low blood sugar and simple fatigue—suggesting a
reason that some people "find God" in such moments. Why the
temporal lobes? Persinger speculates that our left temporal lobe maintains our sense
of self. When that region is stimulated but the right stays quiescent, the
left
interprets this as a sensed presence, as the self departing the body, or ofGod.
"I was alone upon the seashore ... I felt that I ... return[ed] from
the solitude of individuation into the consciousness of unity with all that is
... Earth, heaven, and sea resounded as in one vast world encircling harmony
...
I felt myself one with them".
Is an experience like this one, described by the German philosopher Malwida
von Meysenburg in 1900, within the reach of anyone? "Not everyone
who meditates encounters these sorts of unitive experiences", says Robert K.C. Forman,
a scholar of comparative religion at Hunter College in New York City. "This
suggests that some people may be genetically or temperamentally predisposed
to mystical ability". Those most open to mystical experience tend also to
be open to new experiences generally. They are usually creative and innovative,
with a breadth of interests and a tolerance for ambiguity (as determined by questionnaire).
They also tend toward fantasy, notes David Wulff",suggesting a capacity
to suspend the judging process that distinguishes imaginings and real events". Since "we
all have the brain circuits that mediate spiritual experiences, probably most
people have the capacity for having such experiences", says Wulff. "But
it's possible to foreclose that possibility. If you are rational, controlled,
not prone to fantasy, you will probably resist the experience".
MEASURING SPIRITUAL FORCE
In survey after survey since the 1960s, between 30 and 40 percent or so of
those asked say they have, at least once or twice, felt "very close
to a powerful, spiritual force that seemed to lift you out of yourself". Gallup polls
in the 1990s found that 53 percent of American adults said they had had "a
moment of sudden religious awakening or insight". Reports of mystical
experience increase with education, income and age (people in their 40s and
50s are most
likely to have them).
Yet many people seem no more able to have such an experience than to fly to
Venus. One explanation came in 1999, when Australian researchers found that
people who
report mystical and spiritual experiences tend to have unusually easy access
to subliminal consciousness. "In people whose unconscious thoughts
tend to break through into consciousness more readily, we find some correlation
with
spiritual experiences", says psychologist Michael Thalbourne of the University
of Adelaide. Unfortunately, scientists are pretty clueless about what allows
subconscious thoughts to pop into the consciousness of some people and not others.
The single strongest predictor of such experiences, however, is something called "dissociation." In
this state, different regions of the brain disengage from others. "This
theory, which explains hypnotizability so well, might explain mystical states,
too", says Michael Shermer, director of the Skeptics Society, which debunks
paranormal phenomena. "Something really seems to be going on in the
brain, with some module dissociating from the rest of the cortex".
Newsweek On Air: God and the Brain
THE NEURAL BASIS FOR RELIGIOUS EXPERIENCE
That dissociation may reflect unusual electrical crackling in one or more brain
regions. In 1997, neurologist Vilayanur Ramachandran told the annual meeting
of the Society for Neuroscience that there is "a neural basis for
religious experience". His preliminary results suggested that depth of religious
feeling, or religiosity, might depend on natural—not helmet-induced—enhancements
in the electrical activity of the temporal lobes. Interestingly, this region
of the brain also seems important for speech perception. One experience common
to many spiritual states is hearing the voice of God. It seems to arise when
you misattribute inner speech (the "little voice" in your head that
you know you generate yourself) to something outside yourself. During such experiences,
the brain's Broca's area (responsible for speech production) switches
on. Most of us can tell this is our inner voice speaking. But when sensory information
is restricted, as happens during meditation or prayer, people are "more
likely to misattribute internally generated thoughts to an external source", suggests
psychologist Richard Bentall of the University of Manchester in England in the
book "Varieties of Anomalous Experience".
Stress and emotional arousal can also interfere with the brain's ability
to find the source of a voice, Bentall adds. In a 1998 study, researchers found
that one particular brain region, called the right anterior cingulate, turned
on when people heard something in the environment—a voice or a sound—and
also when they hallucinated hearing something. But it stayed quiet when they
imagined hearing something and thus were sure it came from their own brain. This
region, says Bentall",may contain the neural circuits responsible
for tagging events as originating from the external world". When it is inappropriately
switched on, we are fooled into thinking the voice we hear comes from outside
us.
Even people who describe themselves as nonspiritual can be moved by religious
ceremonies and liturgy. Hence the power of ritual. Drumming, dancing, incantations—all
rivet attention on a single, intense source of sensory stimulation, including
the body's own movements. They also evoke powerful emotional responses.
That combination—focused attention that excludes other sensory stimuli,
plus heightened emotion—is key. Together, they seem to send the brain's
arousal system into hyperdrive, much as intense fear does. When this happens,
explains Newberg, one of the brain structures responsible for maintaining equilibrium—the
hippocampus—puts on the brakes. It inhibits the flow of signals between
neurons, like a traffic cop preventing any more cars from entering the on-ramp
to a tied-up highway.
'SOFTENING OF THE BOUNDARIES OF THE SELF'
The result is that certain regions of the brain are deprived of neuronal input.
One such deprived region seems to be the orientation area, the same spot that
goes quiet during meditation and prayer. As in those states, without sensory
input the orientation area cannot do its job of maintaining a sense of where
the self leaves off and the world begins. That's why ritual and liturgy
can bring on what Newberg calls a "softening of the boundaries of
the self"—and
the sense of oneness and spiritual unity. Slow chanting, elegiac liturgical melodies
and whispered ritualistic prayer all seem to work their magic in much the same
way: they turn on the hippocampus directly and block neuronal traffic to some
brain regions. The result again is "blurring the edges of the brain's
sense of self, opening the door to the unitary states that are the primary goal
of religious ritual", says Newberg.
Researchers' newfound interest in neurotheology reflects more than the
availability of cool new toys to peer inside the working brain. Psychology and
neuroscience have long neglected religion. Despite its centrality to the mental
lives of so many people, religion has been met by what David Wulff calls "indifference
or even apathy" on the part of science. When one psychologist, a practicing
Christian, tried to discuss in his introductory psych book the role of faith
in people's lives, his publisher edited out most of it—for fear of
offending readers. The rise of neurotheology represents a radical shift in that
attitude. And whatever light science is shedding on spirituality, spirituality
is returning the favor: mystical experiences, says Forman, may tell us something
about consciousness, arguably the greatest mystery in neuroscience. "In
mystical experiences, the content of the mind fades, sensory awareness drops
out, so you are left only with pure consciousness", says Forman. "This
tells you that consciousness does not need an object, and is not a mere byproduct
of sensory action".
For all the tentative successes that scientists are scoring in their search
for the biological bases of religious, spiritual and mystical experience, one
mystery
will surely lie forever beyond their grasp. They may trace a sense of transcendence
to this bulge in our gray matter. And they may trace a feeling of the divine
to that one. But it is likely that they will never resolve the greatest question
of all—namely, whether our brain wiring creates God, or whether God created
our brain wiring. Which you believe is, in the end, a matter of faith.
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With Anne Underwood