Religion And The Brain

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 every- day 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 ex- ist 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. Neuro-imaging 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.

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.

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.)

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.