Response to “Could 
Pam Reynolds Hear?” 

Stuart Hameroff, M.D. 
Unitersity of Arizona 

ABSTRACT: In this article,! reply to Gerald Woerlee’s (2011, this issue) claim 
that during Pam Reynolds’ near-death experience (NUE), she actually could hear 
through normal means. I respond in terms of my 35 years experience as a clinical 
anesthesiologist, researcher into mechanisms of anesthesia and consciousness, 
and proponent of a theory of non-local consciousness put forth by mathematical 
physicist Sir Roger Penrose and me. 

KEYWORDS: near-death experience, consciousness, awareness under anesthe 
sia, out-of-body experience 

I do not claim expertise on the Pam Reynolds case, nor any other 
particular case of near-death experience (NDE), out-of-body experi 
ence (OBE), extrasensory perception (ESP), etc., all of which I con 
sider to be claims or examples of non-local consciousness. I do consider 
non-local consciousness to be quite plausible, as consciousness is, I 
maintain, a quantum process. Specifically, I ascribe consciousness to 
quantum computing in microtubules inside neurons, as mathematical 
physicist Sir Roger Penrose and I have proposed (Hameroff & Pen 
rose, 1996; Penrose & Hameroff, 1995). Quantum processes are inher 
ently non-local. 

Thus, I stake my belief in non-local consciousness not in any one 
case or example but in (1) a multitude of claims from many cultures 
over eons, (2) scientific plausibility for non-local, quantum conscious 
ness, and (3) the lack of any materialistic explanation for normal inthe-
brain consciousness. 

Stuart Hameroff, M.D.. is Professor of Anesthesiology and Psychology and Director of 
the Center for consciousness Studies at The University of Arizona in Tucson, Arizona. 
His research website is www.quantumconsciousness.org. Correspondence regardingthis article should be sent to Dr. Hameroff at e-mail; hameroflIgu.arizona.edu. 

26 Journui of Near-Death Studies. 30(1), FaIl 2011 2011 LANDS 

STUART HAMER0FF, M.D. 

Having said that, and having read Woerlee’s account, and assum 
ing it is accurate, especially in its portrayal of the case and the Sabom 
description, I have to say that Woerlee does cast some doubt that the 
Pam Reynolds case is airtight for non-local consciousness. It appears 
that the four examples of auditory awareness occurred when Ms. Reyn 
olds was under general anesthesia, not when she was on hypothermic 
circulatory arrest. Thus it is possible she experienced awareness dur 
ing anesthesia, a recognized complication of anesthesia. Against this 
(and in favor of something non-local) is the BAER, brain-stem audi 
tory evoked response, which, at that time and still today, is the gold 
standard to monitor depth of anesthesia and to detect and prevent 
possible signs of awareness. 

Woerlee did not present the actual BAER results; rather, he re 
ported that they indicated Reynolds was unconscious and asserted 
they were faulty. He is correct that monitoring depth of anesthesia 
to avoid awareness is imperfect, as recent studies with EEG-based 
devices have shown (Avidan et al, 2011). But BAER is regarded as the 
definitive depth-of-anesthesia monitor. 

So if we are willing to assume the BAER was faulty or improperly 
utilized, then it is possible Reynolds had awareness during anesthesia 
rather than an OBE or NDE. (We proponents of non-local conscious 
ness should be even more rigorous than our critics!) Auditory percep 
tion is the sensory process most resistant to anesthesia. But, again, 
that is why BAER is so sensitive. If no auditory stimuli register in 
the brain, it is difficult to understand how auditory stimuli can reach 
consciousness. I know Dr. Spetzler and many of the anesthesiologists 
at Barrow-Neurological Institute. They were at that time, and remain, 
world leaders in neurosurgery and neuroanesthesia, so I find it highly 
unlikely that the BAER was improperly utilized. That would be tan 
tamount to pilot error on Air Force One. Nonetheless, it is possible. In 
addition, the lack of EEG burst suppression by the barbiturates prior 
to bypass and hypothermia is surprising—and worrisome. But burst 
suppression is not necessary for adequate anesthetic depth. 

Woerlee questioned how auditory consciousness can occur without 
ears (and visual consciousness without eyes). To me, these questions 
are not problematic, because the means by which auditory or visual 
consciousness occur with ears and eyes in awake, conscious subjects 
under normal circumstances is unknown. In both cases the conscious 
experience is in the brain, or rather, according to Penrose and Ham 
eroff (1995), is at the level of Planck scale geometry in the brain but 
capable of distributing non-locally. 


JOURNAL OF NEAR DEATH TUDIES 

Nor am I bothered by Woerlee’s objection to non-local conscious 
ness passing through material objects, like a building floor and roof 
in another case described. If Penrose and I are correct, consciousness 
involves perturbations at the finest level of space-time geometry at 
the Planck scale—far, far smaller than atoms or sub-atomic particles. 
Non-locality is non-locality. Quantum entanglement is not blocked by 
material objects. 

To me the most interesting developments in this field stem from 
brain monitoring at the time of death, for example as performed by 
Lakhmir Chawla, Associate Professor of Anesthesiology and Critical 
Care Medicine at The George Washington University Medical Cen 
ter. Chawla and colleagues (2009) have found bursts of coherent high 
frequency EEG—seemingly indicative of conscious awareness—at the 
time of death, after heart rate and blood pressure have dropped off. I 
would be curious to hear how Woerlee, or any skeptic, would account 
for these findings. 

I didn’t know Ms. Reynolds passed away. May she rest in peace. 

References 

Avidan, M. S., Jacobsohn, E., Glick, D., Burnside, B. A., Zhang, L., Villafranca, A., 
-Mashour, 0. A. (2011). Prevention of intraoperative awareness in a highrisk 
surgical population. New England Journal of Medicine. 365(7), 591 600. 

Chawla, L. S., Akst, S., Junker, C., Jacobs, B.. & Seneff, M. G. (2009). Surges of electroen 
cephalogram acti~ ii) at the time of death: A case series. Journal of Palliative ttedic,ne, 
)2(12),1095 1100. 

Hameroff, S., & Penrose, R. (1996). Orchestrated reduction of quantum coherence 
in brain microtubules: A model for consciousness? In S. R. Hameroff, A. W. 
Kaszniak, & A. C. Scott (Eds)., Toward a science of consciousness: The first 
Thcson discussions and debates (pp. 507—540). Cambridge, MA: MIT Press, 

pp. 507—540. 
Haineroff, S., & Penrose, R. (1996). Conscious events as orchesLrated space-time selections. 
Journal ofConsciousness Studies, 3(l), 36—53. 
Penrose, R., & Hameroff, S. (1995). Gaps, what gaps? Reply to Crush and Churchlan. 
Journal of Consciousness Studies, 2(2), 99—112. 

Response to “Could Pam 
Reynolds Hear?” 

Chris Carter, P.PE, M.A. 
Winnipeg, Manitoba, Canada 

ABSTRACT: The near-death experience (NDE) of Pam Reynolds is one of the 
most impressive and medically well-documented NDEs in the literature. It took 
place daring an operation to remove a brain aneurism, and it included almost all 
the aspects of a classic NDE, including accurate visual perception of the operat 
ing theater. Furthermore, parts of the experience would seem to have occurred 
when no brain activity whatsoever was possible. Despite testimony to the con 
trary by the medical personnel involved, Gerald Woerlee has attempted to ex 
plain Reynolds’ experience as a result of auditory impressions combined with an 
anesthesia-induced fantasy. I argue here that Woerlee’s attempted explanation 
is simply unsupported by the documented facts of the case. I also invite Woerlee 
to accompany me to the Barrow Neurological Institute to participate in an em 
pirical test under the exact auditory conditions Reynolds experienced. 

KEYWORDS: Pam Reynolds, Gerald Woerlee, near-death experience, material 
ism, skepticism 

Who are you going to believe? Me, or your own eyes? 
—Groucho Marx, Duck Soup (Mankiewicz & McCarey, 1933) 

In this article I respond to Gerald Woerlee’s attempt to explain how 
Pam Reynolds, during her now-famous near-death experience (NDE), 
could have physically heard various sounds in the operating room de 
spite being heavily anesthetized and despite having speakers inserted 
in her ears that emitted continuous clicking sounds at a rate of 11.3 
per second at an intensity of 100 decibels. 

Chris Carter, P.P.E., MA., is author of Science and Psychic Phenomena: The Fall of 
the House of Skeptics (2012) and Science and the .Vear-Death Experience (2010). He 
teaches mathematics and theory of knowledge in the International Baccalaureate pro 
gram based in Geneva, Switzerland. Communication regarding this article should be 
sent to Mr. Carter at email: webslinger 999@yahoo.com. 

Joor,wtofXear’Deotti Studies. 30(0. Fall 2011 20!? lANDS 


JOURNAL OF NEAR-DEATH STUDIES 

The NDE of then-35-year-old Reynolds is one of the most remark 
able ever recorded. Woerlee’s description is concerned only with her 
memories of accurately hearing various sounds in the operating room 
and, thereby, omits most of the story. In fact, Woerlee even remarked, 
“These are the four verifiable fragments of sounds, music, and speech 
that Reynolds reported subsequent to recovering evident conscious 
ness and the ability to speak. The fact that she reported only these 
things subsequent to recovering consciousness and the ability to speak 
indicates that she had explicit long-term memories of these percep 
tions (Woerlee, p. 5, emphasis added). In fact, Reynolds reported much 
more than “only these things.” However, Woerlee’s article is concerned 
only with trying to provide a “normal” explanation for the veridical au 
ditory components of Reynolds’ experience, and so it is on these points 
that I will focus. 

The experience occurred during neurosurgery at the Barrow Neuro 
logical Institute in Phoenix, Arizona, on an August morning in 1991. 
Reynolds was undergoing surgery for a giant aneurysm in the wall of 
her basilar artery located at the base of her brain. A weakness in the 
wall of the large artery had caused it to balloon out like a bubble on 
the side of a faulty inner tube. Unless removed, the eventual rupture 
of the aneurysm would be immediately fatal. 

Reynolds had been referred to neurosurgeon Robert Spetzler of the 
Barrow Institute, as Spetzler had pioneered a daring surgical proce 
dure known as hypothermic cardiac arrest that would allow Reynolds’ 
aneurysm to be removed with a reasonable chance of success. This op 
eration, nicknamed “standstill” by the surgeons who perform it, would 
require her body temperature to be lowered to 60 degrees Fahrenheit, 
her heartbeat and breathing stopped, the electrical activity in her 
brain extinguished, and the blood drained from her head. In ordinary 
clinical terms, Reynolds would be dead. 

This extraordinary episode in the history of NDE research is de 
scribed in great detail by cardiologist and pioneering NDE researcher 
Michael Sabom (1998) in Chapter 3 of his book Light & Death. As Sa 
bom noted, the medical documentation of the events surrounding this 
case “far exceeds any recorded before and provides us with our most 
complete scientific glimpse yet into the near-death experience” (p. 38, 
emphasis original). 

At 7:15 in the morning Reynolds was wheeled into the operating 
room, given general anesthesia to induce unconsciousness, and then 
prepared for surgery. Instruments were set up to monitor her blood 
pressure, body temperature, and heartbeat. In addition, SEG elec 

CHRIS CARTER, P.P.E., MA. 

trodes were taped to her head to record brain activity in the cerebral 
cortex. The auditory nerve center located in the brainstem was tested 
repeatedly using 100-decibel clicks emitted from small speakers in 
serted into her ears, clicking at a rate of 1L3 clicks per second, creat 
ing a loud staccato noise in each ear separately for three-minute in 
tervals, with the other ear exposed to “white noise masking.” As long 
as Reynolds’ brainstem was still functioning, these clicks would evoke 
sharp spikes on the electrogram. 

By 8:40 a.m. Reynolds was ready for surgery, and over 20 physi 
cians, nurses, and technicians had scrubbed in. Spetzler began the 
surgery by opening the scalp with a surgical blade and folding the 
scalp back to expose the skull. A nurse handed Spetzler the Midas Rex 
pneumatically-powered bone saw, and a loud buzzing noise filled the 
room as the thumb.sized motor hidden in the brass head of the bone 
saw revved up. Spetzler then began to carve out a section of Reynolds’ 
skull. According to Reynolds, her experience began at about this time. 

“The next thing I recall was the sound: It was a natural D. As I lis 
tened to the sound, I felt it was pulling me out of the top of my head. 
The further out of my body I got, the more clear the tone became. I 
had the impression it was like a road, a frequency that you go on. -. I 
remember seeing several things in the operating room when I was 
looking down. It was the most aware that I think I have ever beea in 
my entire life . --I was metaphorically sitting on Dr. Spetzler’s shoul 
der. It was not like normal vision. It was brighter and more focused 
and clearer than normal vision. . -. There was so much in the operat 
ing room that I didn’t recognize, and so many people. 

I thought the way they had my head shaved was very peculiar. I 
expected them to take all of the hair, but they did not. 


The saw thing that I hated the sound of looked like an electric 
toothbrush and it had a dent in it, a groove at the top where the saw 
appeared to go into the handle, but it didn’t.. . . And the saw had in 
terchangeable blades, too, but these blades were in what looked like a 
socket wrench case. . . -I heard the saw crank up. I didn’t see them use 
it on my head, but I think I heard it being used on something. It was 
humming at a relatively high pitch and then all of a sudden it went 
Brrrrrrrrrr! like that.” (Sabom, 1998, 41) 

Spetzler removed a section of bone from Reynolds’ skull, exposing 
the outermost membrane of her brain-He cut this membrane open 
with scissors, and the operating microscope was swung into position. 
Meanwhile, a female cardiac surgeon located the femoral artery and 
vein in Reynolds’ right groin. These vessels turned out to be too small 
to handle the large flow of blood required by the cardiopulmonary by



JOURNAL OF NEAR DEATH STUDIES 

pass machine, and so the left femoral artery and vein were prepared 
instead. Reynolds later claimed to remember this point in the surgery: 

“I distinctly remember a female voice saying ‘We have a problem. Her 
arteries are too small.’ And then a male voice: ‘Try the other side.’ 
It seemed to come from further down the table. I do remember won 
dering, ‘What are they doing there, because this is brain surgery!” 
(Broome, 2002) 

After cutting through the tough fibrous membrane, Spetzler probed 
deep into Reynolds’ brain until he located the aneurysm on the neck 
of the giant basilar artery. As feared, it turned out to be, as Spetzler 
noted in his medical records, “extremely large and extended up into 
the brain” (Sabom, 1998, p. 42). The risky procedure of hypothermic 
cardiac arrest (“operation standstill”) would unfortunately be needed. 

At 10:50 a.m. the cardiac surgeon and heart-pump technicians in 
serted tubes into the femoral artery and vein and connected these 
tubes to plastic hoses leading to and from the cardiopulmonary by 
pass machine. Warm blood traveled from the artery into the large 
resefloir cylinders of the bypass machine where it was cooled before 
being returned to Reynolds’ body. Reynolds’ body temperature began 
to fall. 

At 11:00 am. Reynolds’ core body temperature had dropped 25 
degrees, and as a result of this lowered body temperature, the car 
diac monitor’s warning tone indicated cardiac malfunction. Reynolds’ 
heart began beating in the irregular, disorganized pattern known 
as ventricular fibrillation. Sabom (1998) described what the surgical 
team did next. 

Five minutes later, the remaining electrical spasms of Pam’s dying 
heart were extinguished with massive intravenous doses of potassium 
chloride. Cardiac arrest was complete. 

As Pam’s heart arrested, her brain waves flattened into complete 
electrocerebral silence. Brain-stem function weakened as the clicks 
from the ear speakers produced lower and lower spikes on the moni 
toring electrogram. 

Twenty minutes later, her core body temperature had fallen an 
other 13 degrees to a tomblike 60 degrees Fahrenheit. The clicks from 
her ear speakers no longer elicited a response. Total brain shutdown. 

Then, at precisely 11:25 am., Pam was subjected to one of the 
most daring and remarkable surgical maneuvers ever performed in 
an operating room. The head of the operating table was tilted up, the 
cardiopulmonary bypass machine was turned off, and the blood was 
drained from Pam’s body like oil from a car. (p. 43) 

CHRIS CARTER, PEE., MA. 

Reynolds recalled that sometime during this period she felt a sen 
sation of being pulled quickly through a vortex that she described as 
being “like a tunnel but it wasn’t a tunnel” (Sabom, 1998, p 44). 

“At some point very early in the tunnel vortex I became aware of my 
grandmother calling me-But I didn’t hear her call me with my ears. 

-. It was a clearer hearing than with my ears. I trust the sense more 
than I trust my own ears. The feeling was that she wanted me to come 
to her, so I continued with no fear down the shaft. It’s a dark shaft 
that I went through, and at the very end there was this very little 
tiny pinpoint of light that kept getting bigger and bigger and bigger.” 
(Sabom, 1998, p. 44) 

Reynolds described how she entered the light and, there, sensed 
presences which at first she could not see-Then she was able to dis 
cern various figures in the light, which slowly began to form shapes of 
deceased persons she could recognize. 

“I could see that one of them was my grandmother. I don’t know if 
it was reality or projection, but I would know my grandmother, the 
sound of her, anytime, anywhere. 

Everyone I saw, looking back on it, fit perfectly into my under 
standing of what that person looked like at their best during their 
lives. 

I recognized a lot of people. My uncle Gene was there-So was my 
great-great Aunt Maggie, who was really a cousin. On Papa’s side of 
the family, my grandfather was there. ---They were specifically tak 
ing care of me, looking after me. 

They would permit me to go no further.-.-It was communicated 
to me—that’s the best way I know how to say it, because they didn’t 
speak like I’m speaking that if I went all the way into the light some 
thing would happen to me physically. They would be unable to put 
this me back into the body me, like I had gone too far and they couldn’t 
reconnect. So they wouldn’t let me go anywhere or do anything.” (Sa 
bom, 1998, pp. 45—46) 

When all the blood had drained from Reynolds’ brain, the aneu 
rysm “collapsed like a deflated balloon” (Sabom, 1998, p. 45). It was 
removed by Spetzler, the cardiopulmonary machine was turned back 
on, and warmed blood was pumped back into Reynolds’ body. As her 
body temperature began to rise, blips on the electrogram registered 
the first signs of life as the brainstem began to again respond to the 
clicking speakers in Reynolds’ ears. Soon after, waves on the EEG 
screen indicated electrical activity in her higher brain centers. Reyn 
olds’ body appeared to be waking up. 

Then, at approximately noon, the surgical team faced a serious 


JOURNAL OF NEAR DEATH STUDIES 

problem. The initially silent heart monitor indicated Reynolds’ heart 
was beating again but with the irregular rhythm of ventricular fi 
brillation. If not corrected, Reynolds’ heart would be damaged within 
minutes. The cardiac surgeon placed the two defibrillator paddles on 
Reynolds’ chest and shocked her heart. When 50 joules of electric 
ity produced no response, the machine was charged withloo joules. A 
second jolt restored the normal heart rhythm, bringing sighs of relief 
from the cardiac surgical team, who were preparing to cut open her 
chest. 

Reynolds described how her NDE came to a close: 

“My grandmother didn’t take me back through the tunnel, or even 
send me back or ask me to go. She just looked up at me. I expected to 
go with her, but it was communicated to me that she just didn’t think 
she would do that. My uncle said he would do it. He’s the one who 
took me back through the end of the tunnel. Everything was fine. I 
did want to go. 

But then I got to the end of it and saw the thing, my body. I didn’t 
want to get into it. . . . It looked terrible, like a train wreck. It looked 
like what it was: dead. I believe it was covered. It scared me and I 
didn’t want to look at it. 

It was communicated to me that it was like jumping into a swim 
ming pool. No problem, just jump right into the swimming pool. I 
didn’t want to, but I guess I was late or something because he [the 
uncle) pushed me. I felt a definite repelling and at the same time a 
pulling from the body. The body was pulling and the tunnel was push 
ing. . . . It was like diving into a pool of ice water. . -It hurt!” (Sabom, 
1998, p. 46) 

By 12:32 p.m., Reynolds’ body was warmed to a life-sustaining but 
still subnormal temperature of 89.6 degrees, and the bypass machine 
was turned off. Her surgical wounds were closed, and when she was 
still under general anesthesia in the operating theater, but with the 
clicks still emitted through the speakers in her ears (Robert Spetzler, 
personal communication, March 17, 2011), Reynolds reported hear 
ing the song “Hotel California,” and the line was “You can check out 
anytime you like, but you can never leave.” The record indicates that 
at 2:10 p.m. she was taken to the recovery room in stable condition. 
Reynolds first mentioned her NDE to Spetzler several days later when 
he spoke to her on the usual rounds performed after surgery. 

By three clinical tests flat SEG, no brainstem activity, no blood 
flowing through the brain Reynolds’ brain was dead, with almost 
certainly no activity whatsoever. Yet Reynolds reported the deep-

CHRIS CARTER, P.P.E., MA. 

est NDE Sabom had ever investigated. Reynolds was interviewed on 
CBS’s television show, 48 Hours, along with Sabom and Spetzler. As 
Reynolds’ attending surgeon, Spetzler left no doubt about her clinical 
condition during hypothermic cardiac arrest: “If you would examine 
that patient from a clinical perspective during that hour, that patient 
by all definition would be dead. At this point there is no brain activity, 
no blood going through the brain. Nothing, nothing, nothing” (Sabom, 
1998, 50). 

Like the Dutch patient in the “missing dentures” case (Carter, 2010, 
pp. 217 219; Smit, 2008; Smit & Rivas, 2010; Van Lommel, 2010, pp. 
20—21), Reynolds described seeing events from an elevated location 
events that she could not have inferred by auditory means. Nor could 
she have seen them, as her eyes were taped shut to prevent drying. 
Initially, Sabom was very skeptical when he first listened to Reynolds’ 
description of a bone saw that “looked like an electric toothbrush” with 
“interchangeable blades” (Sabom, 1998, p. 187). But when he received 
a user manual from the Midas Rex Company in Fort Worth, Texas, 
he was shocked at the accuracy of Reynolds’ description. Photographs 
from the manual showed a tool that, indeed, resembled an electric 
toothbrush, with interchangeable blades that were stored in what 
Reynolds had described as a “socket wrench case” (pp. 187—9). 
In addition, Reynolds reported that shortly after part of her skull 
was removed, she heard a female voice say “something about my veins 
and arteries being very small” (Sabom, 1998, p. 185), and the medical 
records indicate that words to this effect were, indeed, spoken. At the 
time, Reynolds’ ears were blocked by small molded speakers inserted 
into her ears to monitor the auditory nerve center in her brainstem. 
The speakers continuously played 100-decibel-level clicks into one or 
the other of her ears at a rate of 11.3 per second. As a point of refer 
ence for readers, 100 decibels is about the level a symphony orchestra 
plays at frill volume, and prolonged exposure to sound more intense 
than 85 decibels will cause hearing loss (Centers for Disease Control, 
2011). 
Steven Cordova, Intraoperative Monitoring Practitioner at the Bar 
row Neurological Institute, provided even more detail (personal com 
munication, November 11, 2011). The clicks alternated in Reynolds’ 
right and left ears at three-minute intervals. While one ear was ex 
posed to the clicks, the other ear was exposed to “white noise masking.” 
This masking involved a very loud, continuous hissing sound so that 
the “masked” ear does not hear anything, and therefore does not give 


JOURNAL OF NEAR-DEATH STUDIES 

a response or brainwave; the brainstem reacts when it senses changes 
in intensity, and therefore, does not react to steady white noise. 

Although Reynolds’ brainstem response was absent during removal 
of the aneurysm, it was not yet absent when the surgeon began cut 
ting into her skull or at the time the cardiac surgeon made the re 
marks that Reynolds remembered hearing. In other words, the veridi 
cal parts of Reynolds’ experience—that is, the parts that others later 
verified to have been accurate—occurred while Reynolds was not yet 
clinically dead but, rather, was under heavy general anesthetic with 
eyes taped shut and with molded speakers playing 100-decibel level 
clicks into her ears. 

Ability of Separated Consciousness to Hear Sound 

Woerlee wrote: 

If a disembodied conscious mind can pass through several concrete 
floors without experiencing any apparent resistance, then it will cer 
tainly not interact in any way with the infinitely less solid air pres 
sure variations of sound waves in air caused by speech or music. Ac 
cordingly, an apparently disembodied conscious mind is unable to 
hear sound waves in air. (p. 7). 

Note, however, that Reynolds commented that her vision “was not 
like normal vision. It was brighter and more focused and clearer than 
normal vision” and that her hearing “was a clearer hearing than with 
my ears.” Clearer than normal hearing is not what one would nor 
mally expect a person to report from a time when their ears were cov 
ered with tape and gauze with 100 decibel clicks in one ear and white 
masking noise hissing into the other. 

I agree with Hameroff (2011, this issue) that “auditory conscious 
ness without ears (and visual consciousness without eyes) . are not 
problematic, because the means by which auditory or visual conscious 
ness occur with ears and eyes is unknown” (p. 27). Researchers sim 
ply have no idea how electrical and chemical activity in the brain is 
transformed into the conscious experience of sense perception. The 
everyday phenomenon of sensory experience should be considered as 
tounding, but because it is commonplace, it is taken for granted. The 
fact that reported disembodied perception is relatively rare does not 
allow such perception to be ruled out on the a priori grounds that it 
is mysterious, because embodied perception is also deeply mysterious. 

Woerlee seems to be committing the fallacy of thinking that if it 

CHRIS CARTER, P.RE., MA. 

cannot be explained how something occurs, then that means that it 
therethre does not occur. This fallacy appears repeatedly in the his 
tory of science. Reports of rocks that fall from the sky—what today 
are known as meteorites were dismissed by scientists for decades on 
the grounds that there are no rocks in the sky to fall (Westrum, 1978). 
For decades, geologists ridiculed Wegener’s evidence for continental 
drift because he could offer no convincing explanation for how the 
landmasses moved about. And such anti-empiricism can cause great 
suffering: Consider that before bacteria and their role in disease were 
known, physicians rejected the practice of hand-washing because it 
made no sense to them, despite evidence that the practice resulted in 
meaningful declines in hospital deaths. 

So, at the present stage of scientific understanding, little more can 
be said other than that disembodied perception of the surrounding en 
vironment, if it in fact occurs, is mediated via a different process than 
that of embodied perception. What this process may be can only be 
speculated, but Woerlee (2011) rejects the possibility that the process 
may involve telepathy or clairvoyance: 

The veridical sounds of apparatus and music are most definitely not 
telepathically perceived, nor are they clairvoyantly perceived with 
any form of paranormal perception. Gambling casinos and the experi 
ences of the countless millions of dead and living blind and deaf people 
are proof that such perceptions do not exist. (p. 7) 

However, not only are abilities such as telepathy and clairvoyance 
reported in anecdotal accounts from virtually all cultures in recorded 
history, but also their existence has been established in repeatable 
experiments conducted in laboratories all over the developed world 
over the past 100 years (Carter, 2007, 2012; Radin, 2007). In my forth 
coming book I even mention several academic skeptics who conceded 
in the early 1950s that if this were any other field, the experimental 
evidence would have been utterly convincing by 1950. Jessica Utts, 
a statistician at the University of California at Davis, in her 1995 
article, “An Assessment of the Evidence for Psychic Functioning,” as 
serted that “using the standards applied to any other area of science, 
it is concluded that psychic functioning has been well established. The 
statistical results of the studies examined are far beyond what is ex 
pected by chance” (p. 3). 

Skeptics of psychokenesis (PK) and other forms of psi are fond of 
pointing out that well-established laboratories for testing PK and 
other psi abilities exist in Reno Las Vegas, and Monte Carlo. So, could 


JOURNAL OF NEAR DEATH STUDIES 

PK be used to beat the odds in the casinos? Not likely. The PK effects 
observed in research laboratories, although statistically significant, 
are simply far too weak to compete with casino odds. Physicist Nick 
Herbert (1993) has calculated that the odds in favor of the house on 
even the most favorable casino games are about 100 times larger than 
most of the deviations from chance observed in the PK experiments. 
Even the most gifted micro.PK subjects do not even come close to dis. 
playing results that would allow them to consistently beat the house 

(pp. 195 197). 
Furthermore, even if some forms of the PK, telepathic, or precog 
nitive effects displayed in laboratories were strong enough in theory 
to beat casinos over a long run, it is highly unlikely they would work 
in practice. First, psi researchers, aware of their subjects’ potential 
for boredom and fatigue, typically limit experimental sessions to only 
15 to 30 minutes. However, in order to heat the casinos over the long 
run, people would need to perform consistently at an optimal level, 
perhaps over a period of months, or even years. Second, conditions 
in psi experiments are designed to be as psi-conducive as possible, 
so they are generally quiet and relaxing with few, if any, distrac 
tions. On the other hand, casinos are designed to be distracting and 
to prevent careful thought and concentration, with bright lights, loud 
music, scantily clad women, and free alcohol. Replications in science 
are meant to be conducted in experimental conditions as neai-ly iden 
tical to the original experiment as possible, not in wildly different 
conditions. 
Woerlee may object at this point that if psi abilities are usually this 
unimpressive, then how can near-death experiencers (NDErs) such as 
Reynolds use psi to accurately perceive the surrounding environment? 

This issue relates to a theory I have discussed at length (Carter, 2010, 
pp. 6—18) that the brain acts as both a receiver/transmitter and a filter 
of consciousness. The theory predicts that consciousness freed from 

the restrictions of a material brain will display enhanced abilities. 
Psychologist Cyril Burt (1975) has elegantly summarized this view: 

The brain is not an organ that generates consciousness, but rather an 
instrument evolved to transmit and limit the processes of conscious 
ness and of conscious attention so as to restrict them to those aspects 
of the material environment which at any moment are crucial for the 
terrestnal success of the individual. In that case such phenomena as 
telepathy and clairvoyance would be merely instances in which some 
of the limitations were removed. (p.60) 

CHRIS CARTER, P.RE., M.A. 

Regarding the experiences of people with blindness and deafness, 
whether or not such people have greater telepathic abilities than the 
unimpaired is an empirical matter. As such, the issue can be settled 
only by experiment and observation and not by a priori arguments. As 
of this time, I am aware of no experiments to test this matter, so this 
question remains unanswered. 

Awareness During General Anesthesia 

In 2007, research psychologists Emily Kelly and Edward Kelly and 
psychiatrist Bruce Greyson wrote, 

Studies of memory and awareness in anesthesia have been highly in 

consistent, and there is no convincing evidence for adequately anes 

thetized patients having any explicit, or conscious, memory of events 

during the surgery (apart from patients who have reported such 

memories in connection with an NDE). (Kelly, Greyson, & Kelly, 2007, 

p-388) 

Of course, the key word in this quote is “adequately.” It could, of course, 
be argued that anyone who had conscious memories during surgery 
was not adequately anesthetized, whether or not the anesthesiologist 
administered what should have been an appropriate dosage to render 
the patient unconscious. 

The last controlled study Kelly et al. mentioned was published in 
1997. Since then, a prospective study of awareness during anesthe 
sia was performed using data from 19,575 patients, all of whom were 
interviewed in the recovery room and at least a week after surgery 
(Sebel, Bowdle, Ghoneim, Rampil, Padilla, Gan, & Domino, 2004). In 
general, the attending anesthesiologist was not aware of patient pat 
ticipation in the study. The researchers identified a total of 25 cases of 
awareness during anesthesia (O.13°o incidence), suggesting an aware 
ness rate of 1 2 cases per 1,000 patients. Age and sex did not influence 
the incidence of awareness. The authors wrote that “awareness is often 
associated with significant adverse psychological sequelae, including 
posttraumatic stress disorder. The occurrence of awareness is often 
the consequence of light-anesthetic techniques or smaller anesthetic 
doses” (Sebel et aL, 2004, p. 833). 

The following table, reproduced from Sebel et al. (2004, p. 836), 
summarizes the results, in which at least some of the 25 patients re 
ported more than one symptom: 


JOURNAL OF NEAR DEATH STUDIES 

Table 1: Symptoms Reported by Patients Who 
Experienced Anesthesia Awareness 

Variable n 
Auditory perceptions 12 48 
Unable to move or breath 12 48 
Anxiety/stress. 9 36 
Pain 7 28 
Sensation of endotracheal tube 6 24 
Feeling surgery without pain 2 8 

Source: Sebel eta1. (2004), p. 836. Reproduced by permission 
of Dr Sebol and of Anesthesia & Analgesia. 

Noteworthy from the above Table is the high frequency of anxiety, 
stress, and pain, all absent from Reynolds’ account. Indeed, apart 
from one notable exception, none of the 25 descriptions Sebel et al. 
(2004) provided of the patients’ experiences resemble the experience 
Reynolds reported. Some sample patient descriptions are: 

The patient recalled “a great deal of conversation.” She recalled hear 
ing conversations about her tattoos and what they found in her abdo 
men. She remembered being unable to move and “it was like being in 
a box. It was dark and I could not move at all.” (p. 835) 

“During the surgery I became conscious. I was in total darkness; I 
was paralyzed. I felt as if I wanted to take a few breaths, but I couldn’t. 
It was a terrible experience. After a few minutes I lost consciousness.” 

(p. 835) 
Reported “Yes, feeling pain, cutting, someone asking for a scalpel, 
feeling of cutting.” Worst thing was “waking up in OR while para 
lyzed. I woke up during the procedure and could hear the doctors talk 
ing and I could feel the pain in my wound. I was not able to move or 
speak and it is one of the worst scares I’ve had in my long history of 
serious illness.” (p. 835) 

“I remember trying to talk to them and telling that I was awake. I 
woke up during surgery enough to know that I was in surgery and was 
trying to figure out a way to tell them I was awake. I knew my arms 
were tied and my eyes were taped shut. PANIC!!” (p. 835) 

Interested readers can find all 25 patients’ descriptions in Appen 
dix A. A comparison indicates that almost all of those 25 patients’ 
descriptions of their experiences contrast strongly with Reynolds’ de 

CHRIS CARTER, P.P.E, MA. 

scription of her experience that included no pain or panic and that 
included visual perception: 

“I remember seeing several things in the operating room when I was 
looking down. It was the most aware that I think I have ever been 
in my entire life . . . I was metaphorically sitting on Dr. Spetzler’s 
shoulder. It was not like normal vision. It was brighter and more fo 
cused and clearer than normal vision. . . . There was so much in the 
operating room that I didn’t recognize, and so many people.” (Sabom, 
1998, p. 41) 

Only one of the 25 descriptions in Sebel et al.’s (2004) study in 
cluded a visual component: 

The patient reported an “out of body experience” at some point during 
the surgery with her floating out of her body and watching the surgery 
from above. She thought it was very “weird.” She thought frequently 
about it. (p. 835) 

So, it would seem that visual experiences occur only when the pa 
tient reports an out-of-body experience (OBE). It also appears that 
these experiences are very different from other instances of awareness 
during anesthesia, in which only auditory perceptions are reported 
and which are frequently accompanied by darkness, anxiety, and 
pain—all very different from Reynolds’ reported experience. 

Regarding the frequency of OBEs and NDEs during anesthesia 
Kelly et al. (2007) wrote: 

In our collection at the University of Virginia, 23% of the computercoded 
cases occurred under anesthesia, and these involved the same 
features that characterize other NDEs, such as having an OBE and 
watching medical personnel working on their body, an unusually 
bright or vivid light, meeting deceased persons, and significantly 
thoughts, memories, and sensations that were as clear or clearer than 
usual. (p. 416) 

Can Semi-Conscious Aural Perception Explain 
Reynolds’ Visual Memories? 

Woerlee was able to explain Reynolds’ visual memories only as “re 
membered perceptions of bodily sensations” (Woerlee, p. 18). In other 
words, he apparently believed Reynolds heard the various sounds and 
conversation while under the anesthetic with her eyes taped shut and 
later conjured up a visual image of what was going on. 


JOURNAL OF NEAR DEATH STUDIES 

Sabom (1982, 153—156) has dealt extensively with this possibility. 
He provided four reasons why it is highly unlikely that semi-conscious 
aural perception can explain the visual descriptions of resuscitations 
and other details of the environment so often found in NDE accounts. 

First, when patients who had been under general anesthesia dur 
ing a major operation have been later hypnotized and regressed hack 
to the time of the operation, they can sometimes recall conversations 
among the attending physicians and nurses but not visual impres 
sions. Such recall, even when frightening, has been reported by these 
patients to be of an auditory nature, quite unlike the detailed visual 
impressions of an NDE. 

Second, the experience of a semiconscious patient undergoing re 
suscitation can be compared to that of a semiconscious patient un 
dergoing elective cardioversion. In order to correct abnormal heart 
rhythm, patients sometimes voluntarily undergo this procedure in 
which electric shocks are applied to the chest. A similar technique 
called defibrillation uses more powerful electric shocks and is com 
monly used during cardiac resuscitations to correct life-threatening 
rhythmic disturbances of the heart. In the elective situation the pa 
tient is commonly given a sedative to render semiconsciousness and 
to minimize the pain of the shock. However, patients in this semicon 
scious state can sometimes hear nearby conversations and recall the 
sensations associated with the shock; for example: “It’s like having 
everything torn out of your insides” (Sabom, 1982, p. 154). If NDEs 
occur when individuals are merely semiconscious, then NDErs would 
be expected to report similar sensations while watching defibrillation 
being performed on their bodies-However, the accounts are very dif 
ferent following an NDE, as excerpts from these three reports from 
Sabom (1982) illustrate: 

I could see myself jolt, but again it didn’t hurt like an electric shock 

should hurt. . . .1 wasn’t hurting, I wasn’t anxious. -. . I had no pain. 

(p. 155) 
They were rubbing those things together and then I bounced off 
the table -. . I came off the table about nine to ten inches, I seemed 
to arch. . . -[While watching] I seemed to be in a very peaceful state. 

(p. 155) 
I thought they had given my body too much voltage because my 
body jumped about two feet off the table. --. [While watching, I felt] 
floating, soft, easy, comfortable, nothing wrong. (p. 155) 

As described above, during Reynolds’ resuscitation, the cardiac sur 
geon placed defibrillator paddles on Reynolds’ chest and shocked her 

CHRIS CARTER, P.P.E., MA. 

heart. When 50 joules of electricity produced no response, the machine 
was charged with 100 joules. The second jolt restored normal heart 
rhythm. 

According to Reynolds’ account, she re.entered her body during 
the time between the two shocks, with the assistance of her deceased 
uncle. She reported only seeing her body react to the first jolt but actu 
ally feeling the second jolt. “I saw the body jump. Then he [her uncle] 
pushed me, and I felt it” (Broome, 2002). Reynolds’ description of ob 
serving the first shock from above but feeling the second from within 
the body is, of course, perfectly consistent with both the OBE and non 
OBE accounts above. 

Ignoring the complete absence of pain in the visual accounts of de 
fibrillation, Woerlee maintained these same observations “prove” that 
they are “remembered perceptions of bodily sensations.” He wrote of 

highly inaccurate descriptions of events during OBEs . . . such as a 
person who described viewing from an OBE point of view how their 
body jumped up to two feet in the air as a result of the electric shock 
of cardioversion. There is no muscular mechanism or physical possi 
bility by which such a two foot jump—or even a one millimeter jump. 
for that matter—could occur as a result of an electrical shock applied 
to the chest. I suggest that all such observations prove OBEs are not 
due to disembodiment of a separate conscious mind but are, rather, 
remembered perceptions of bodily sensations. (Woerlee, p. 18) 

Regarding this statement, Sabom has remarked: 

Woerlee claims that such a statement by this patient has to be totally 
false since no one’s body can jump two feet off a table while lying Rat 
on its back. This man’s statement was not a scientifically-measured 
assessment but was made in exaggeration for emphasis since, at this 
point in the interview, he was quite excited and exaggerated the “two 
feet” statement as most anyone would when recalling a very emo 
tional, unusual, unexpected, and life-threatening personal event. 
Such exaggeration also comports with what has been found in studies 
evaluating the general (in)accuracy of eyewitness testimony following 
the experience of a life-threatening, unexpected event. (personal com 
munication, September 24, 2011) 

Recently-retired cardiologist Pim van Lommel also drew a different 
conclusion: 

Defibrillation causes a kind of stretching of the whole body, with the 
chest a bit upwards as well, but not a jump of two feet off the table. 
But it will be difficult to estimate the jump while watching it from 
above. The fact that the patient describes the detail of the rubbing 


JOURNAL OF NEAR DEATH STUDIES 

of the paddles before the electric shock is applied to his chest makes 
it really possible that the defibrillation was indeed perceived from 
above. Most patients will not know that the paddles are rubbed with 
gel before defibrillation. (personal communication, June 20, 2011) 

Woerlee was impressed by OBE cases that involved some inaccu 
rate perception, but how impressive is the incidence of cases involving 
accurate visual impressions reported after an NDE? In 2007, NDE 
researcher Janice Holden searched for every case of apparently veridi 
cal perception during an NDE that had been reported in books prior 
to 1975 when NDEs became widely known and in scholarly sources 
since 1975. She found 107 such cases from 39 different publications 
by 37 different authors or author teams. Using the most stringent 
criterion—that a case would be classified as inaccurate if even one 
detail was found not to correspond to reality—Holden found that only 
8°~ involved some inaccuracy. In contrast, 37% of the cases—almost 
5 times as many—were determined to be completely accurate by in 
dependent objective sources, such as the investigation of researchers 
reporting the cases (Holden, 2007, pp. 193—197). 

Some NDEs involve perceptual errors, and it would indeed be sur 
prising if no errors were ever reported. Human beings, after all, are 
fallible. It would also be surprising if people never hallucinated while 
near death. However, as Holden (2007) remarked, her results “cer 
tainly call into question how an allegedly hallucinatory phenomenon 
could produce only 8 percent of cases with any apparent error what 
soever and 37 percent of cases with apparently completely accurate 
content that had been objectively verified” (p. 41). 

Sabom provided a third reason why it is highly unlikely that 
semi-conscious aural perception can explain the visual descriptions 
of resuscitations and other details of the environment. Several per 
sons who had described an NDE to Sabom could distinguish between 
semiconscious auditory perception of nearby conversation and the 
subsequent occurrence of an NDE complete with visual perception. 
One man found his vision fading as he suffered a heart attack. He 
described what he experienced as medical personnel rushed to his aid: 

“1 was in total blackness and I didn’t have any ability to move but I 
could hear well and understand. I heard them talk and I heard the 
guy say my pressure was zero and who it was and I heard Dr. J say, 
“Shall we try to get a pulse?” And I wanted to answer and tried to an 
swer but couldn’t. . . . That’s when I had the experience [ND El—After 
sound and all had gone and I couldn’t hear anymore.” (Sabom, 1982, 

p. 155; emphasis original) 
CHRIS CARTER, P.P.E., MA. 

Another man who had experienced both the semiconscious state 
with auditory perception and unconsciousness associated with an 
NDE compared the two situations: 

“I didn’t see nothing. I just heard. This other time with the cardiac 
arrest [and NDE], I was looking down from the ceiling and there were 
no ifs, ands or buts about it.” (Sabom, 1982, p. 156) 

These reports show that individuals who have experienced both semi 
conscious hearing and NDE with visual perception could clearly dis 
tinguish between the two. 

Finally, Sabom (1982) pointed out that NDEs including visual per 
ception of the environment have been reported by individuals who 
were unconscious and near death while no one else was present. Obvi 
ously in these cases, NDErs’ visual images could not have been the 
result of verbal information that the NDErs perceived during semi 
consciousness and later converted into visual images, because no one 
was around to provide the verbal information. 

Could Reynolds Have Heard 
via Normal Channels? 

In his Addendum, Woerlee (2011) wrote: 

Nowhere in the otherwise excellent account of the Pam Reynolds ex 
perience is there any mention of her hearing the clicking sounds of 
the BAEP stimuli in the ear to which it was applied. Yet there is men 
tion that the BAEP was used to determine her level of consciousness 
throughout her operation, clearly indicating that these stimuli were 
con-ectly applied. This discrepancy indicates that she ignoi-ed these 
clicking sounds, much as people typically ignore engine noise in an 
automobile or airplane. (p. 20, emphasis added) 

The alternative explanation is, of course, that Reynolds did not 
mention hearing the loud clicks because she was unconscious due 
to the heavy anesthetic and was therefore unable to hear through 
normal sensory channels. There is no defensible basis to claim that 
Reynolds “undoubtedly heard these sounds” simply because brainstem 
auditory evoked potentials were being monitored. The conscious 
perception of sound is a function of the cortex, but the response to the 
clicks being monitored was in the brainstem. Brainstem responses 
whether BAEPs or pupil constriction in response to light shone into 


JOURNAL OF NEAR-DEATH STUDIES 

the eyes—do not require that the patient be conscious. Kelly et al, 
(2007) explained why: 

Brain areas essential to the global workplace [the idea that the essen 
tial substrate for conscious experience are high-frequency EEG oscil 
lations linking widely separated, computationally specialized regions 
of the brain] are consistently deactivated individually and decoupled 
functioaally in surgically adequate anesthesia and related states of 
unconsciousness. Auditory and other stimuli are still able to activate 
their primary receiving areas, since the sensory pathways remain 
relatively unimpaired, but these stimuli are no loager able to ignite 
the large-scale cooperative network interactions that normally accom 
pany conscious experience. (p. 417) 

In other words, it is certainly possible for the brainstem to register 
sound without the individual consciously hearing anything. 

In 2007—in response to skeptical objections that Reynolds may 
have simply overheard the surgeon’s remarks—Sabom added more de 
tail to his account: 

Steven Cordova, Neuroscience Manager at the Barrow Neurological 
Institute, who was the intraoperative technologist responsible for in 
serting small molded speakers into Spetzler’s patients in the early 
1990s when Reynolds’ surgery was performed, told me that after 
these speakers were molded into each external auditory canal, they 
were further affixed with “mounds of tape and gauze to seal securely 
the ear piece into the ear canal.” This “tape and gauze” would “cover 
the whole ear pinnae” making it extremely unlikely that Reynolds 
could have physically overheard operating room conversation one 
hour and twenty minutes after anesthesia had been induced. (Sabom, 
2007, 259) 

Ordinary conversation is at around 60 decibels, and the 100-decibel 
clicks were 10,000 times more intense than that; the decibel scale is a 
logarithmic scale based on multiples of 10, so a sound at 70 decibels is 
10 times more intense than a sound at 60 decibels. Perceived loudness 
depends on both intensity and frequency, so loudness is partly, but not 
completely, a function of intensity alone. In her testimony Reynolds 
neither mentioned hearing loud clicks nor struggling to hear through 
them. 

Spetzler, Reynolds’ neurosurgeon, added these words: 

“I don’t think that the observations she made were based on what she 
experienced as she went into the operating theater. They were just 
not available to her. For example, the drill and so on, those things 
are all covered up. They aren’t visible; they were inside their pack-

CHRIS CARTER, P.RE., MA. 

ages. You really don’t begin to open until the patient is completely 
asleep, so that you mamtaia a sterile environment. -. -At that stage 
in the operation nobody can observe, hear in that state. And I find it 
inconceivable that the normal senses, such as hearing, let alone the 
fact that she had clicking modules in each ear, that there was any 
way for her to hear through normal auditory pathways. I don’t have 
an explanation for it. I don’t know how it’s possible for it to happen.” 
(Broome, 2002) 

The CareFusion Corporation manufactured the equipment that 
was used to evoke the brainstem auditory potentials during Reynolds’ 
operation. I asked them the question, “Would a fully conscious person 
hear these clicks?” Technologist Michael Christie responded with re 
gard to 95 decibel clicks, not even as loud as the 100 decibels used in 
Reynolds’ surgery: 

95 db NHL would be heard by an awake person. If this is the sound 
pressure level then it is very loud and uncomfortable for an awake 
person of normal hearing. I would personally ask for it to be turned 
down. This is very loud for a person with normal hearing. (personal 

communication, Sept 21, 2011) 

Cordova also has weighed in. Though the following posting is listed 
under the name Chase Slate, Cordova has confirmed that in fact, he 
is the author (Steven Cordova, personal communication, September 
20, 2011): 

I am the lead IONM practitioner at Barrow Neurological Institute 
(where the surgery was performed). J was a lead technologist back 
then, and am most familiar with the technical parameters that were 
used. I was actually monitoring a case in the next operating room 
when my colleague monitored the case in discussion. 

The auditory stimuli in the ipsi ear was a broad based frequency 
spectrum click.... We stimulated at a rate of 11.3/second with a pulse 
duration of 100 microseconds. The contralateral ear was masked with 
40—60 decibel white noise. We used Hal-hen brand ear pieces (prob 
ably size 5) to introduce the stimuli, which was generated by a Nicolet 
brand T-300 audio generator. We then used vi-drape sticky “glue” on 
the inner area of the piaae of the eat-, before sealing up the system 
with gauze and micropore tape. 

I know how loud we played the music in those operating rooms (we 
have new operating rooms now) and I know the individual team mem 
bers and how loud their voices are. I would be surprised if a repeated 
experiment with the exact parameters allowed a person to hear through 
the stimuli. Of course none of this information is a scientific argument 
for the fact that she did or did not hear: what is need is an experiment. 


JOURNAL OF NEAR DEATH STUDIES 

Now at least you have the correct parameters to determine if one con 
hear externaUy during auditory stimulation if you re-run the experi 
ment. (Cordova, 2011, emphasis added) 

Cordova has kindly offered to re-enact the clicking with test sub 
jects, using the exact same parameters. I hereby invite Gerald Woer 
lee to travel with me to Phoenix, Arizona, where he and I will serve as 
test subjects in a filmed experiment. The simulation Woerlee described 
in his Addendum simply makes far too many arbitrary assumptions 
to be considered realistic. Regarding Woerlee’s simulation, Cordova 
has remarked, “There are just too many assumptions that must be 
made to be equivocal in any statement about Pam’s level of conscious 
ness during the procedure without a trial with the exact parameters 
utilized that day. So, that being said, there is only one way to know, 
reproduce the exact parameters and monitor the sound levels” (Ste. 
yen Cordova, personal communication, December 15, 2011). Thus, the 
proposed experiment is the only way to definitively settle the issue of 
whether or not Reynolds could have heard conversation and music via 
normal channels. 

Concluding Remarks 

The crux of this case is, of course, whether Pam Reynolds could have 
heard conversation and music in the operating room despite 100 deci 
bel clicks and white noise masking in her ears and being under heavy 
anesthetic, and could then have used this auditory information to 
create highly detailed and accurate visual impressions of the operat 
ing room. Despite testimony to the contrary by the medical person 
nel involved, Woerlee is determined to dismiss Reynolds’ experience 
as due to auditory impressions combined with an anesthesia-induced 
fantasy that somehow included almost all of the components of the 
classic NDE. 

Why should this be so? Why are there so many “skeptics” such as 
Gerald Woerlee eager to debunk not just reports of psychic phenomena 
but also phenomena such as the NDE? As I discuss in my book, Sci 
ence and Psychic Phenomena, this militant opposition is something 
peculiar to Western societies, and it is basically due to the historical 
conflict in the West between secular and religious members of society. 

Genuine skepticism plays an important role in science, but genuine 
skepticism involves the suspension of belief, not the refusal of belief. 
So individuals such as Woerlee are not practicing genuine skepticism 

CHRIS CARTER, P.P.E., MA. 

but rather pseudo.skepticism, as they strenuously defend the theory 
of materialism in the face of data that refute it. As the celebrated 
philosopher of science Karl Popper (e.g., 1965) stressed, science pro 
gresses with the refutation of theories; it follows from this statement 
that defending a theory by strenuously denying the data that refute it 
must be one of the defining characteristics of pseudo-science. 

Essentially, as I argued in my first book (Carter, 2007), this debate 
is not primarily about evidence. Rather, the debunkers and deniers 
are defending an outmoded worldview in which psychic phenomena 
and OBEs are simply not allowed to exist. It is essential to realize 
that most of the deniers and pseudo-skeptics are militant atheists and 
secular humanists; as author of a book titled The Unholy Legacy of 
Abraham, Woerlee (2008) seems clearly to qualify as a militant athe 
ist. For various reasons, such people display an ideological agenda 
that is anti-religious and anti-superstitious (Carter, in press). One of 
the main pillars of their opposition to religion and superstition is the 
philosophical doctrine of materialism, that is, the doctrine that all 
events have a physical cause and, therefore, that the brain produces 
the mind. If they conceded the existence of psychic abilities such as te 
lepathy, and of NDEs as involving a genuine separation of mind from 
body, then the materialistic pillar of their opposition to religion and 
superstition would crumble—a development they fear would usher in 
a return to an age of religious fanaticism, superstition, and irratio 
nality. This fear, in my view, explains their dogmatic denial of the 
evidence that proves materialism false. 

References 

Broome, K. (Producer). (2002). The day I died: The mind, the brain, and neal’death 
experiences [Motion picture]. Princeton, NJ: Films for the Humanities 
and Sciences. 

Burt, C. (1975). ESPand psychology. London, England: Weidenfeld and Nicolson. 
Carter, C. (2007). Parapsychology and the skeptics. Philadelphia, PA: 
Sterlinghouse. 
Carter, C. (2010) Science and the near-death experience. Rochester, VT: Inner 
Traditions. 

Carter, C. (2010). Persistent denial: A century of denying the evidence. In S. 
Krippner & H. Friedman (Eds.), Debating psychic experience (pp. 77 -109). 
New York, NY: Praeger. 

Carter, C. (2012). Science and psychic phenomena: The fail of the house of skep. 
tics. Rochester, VT: Inner Traditions. 
Centers for Disease Control. (2011). About hearing loss. Retrieved from http 
www.cdc.gov/healthyyouth)noise~’signs.htm 


JOURNAL OF NEAR-DEATH STUDIES 

Cordova, S. [posted as Chase Slate]. (2011, September 14). Reply to Woerlee, 
retrieved from: http:I/www.amazon.comfreview/R2C2V8J3JMO8Q1)refcm 
cd_pg...pg2?ie=UTF8&cdForumFxNPU9ZANWBS7C&cdPage=2&asinlS94 
773564&store=books&cdSort=newest&CdThreadTx1XKOOVD3JOSDQ#wasT 
hisHelpful. 

Evans, C. (1973). Parapsychology—what the questionnaire revealed. New Sci 
entist, 25, 209. 

Hansen, 0. (1992). CSICOP and the skeptics: An overview. Journal of the Ameri 
can Society for Psychical Research, 86, 19—63. 

Herbert, N. (1993). Elemental mind: Human consciousness and the new physics. 
New York, NY: Penguin Books. 

Holden, J. (2007) ‘More things in heaven and earth: A response to “Near-Death 
Experiences with Hallucinatory Features.” Journal of Near-Death Studies, 26, 
33—42. 

Kelly, E. W., Greyson, B., & Kelly, E. F. (2007). Unusual experiences near death 
and related phenomena. In S. F. Kelly, E. W. Kelly, A. Crabtree, A. Gauld, 

M. Grosso, & B. Greyson, Irreducible mind: Toward a psychology for the 21st 
century (pp. 367—421). New York, NY: Rowman & Littlefleld. 
Kurtz, Paul, 1976. “Committee to Scientifically Investigate Claims of Paranor 
mal and Other Phenomena”, The Humanist, 1976 (May/June), p. 28. 
Mankiewicz, H. J. (Producer), & McCarey, L. (Director). (1933). Duck soup [Mo 
tion picture]. United States: Paramount pictures. 

Popper, Karl. (1965). Conjectures and re/iitations. New York, NY: Harper & Row. 

Radin, D. (1997). The conscious universe. New York, NY: HarperCollins. 

Sabom, M. (1982). Recollections of death: A medical investigation. New York, 
NY: Harper & Row. 

Sabom, M. (1998). Light and death. Grand Rapids, MI: Zondervan. 

Sabom, M. (2007). Commentary on “Does Paranormal Perception Occur in Near-

Death Experiences?” Journal of Near-Death Studies, 25, 257—260. 
Sebel, P., Bowdle, A., Ghoneim, M., Rampil, I., Padilla, R., Gan, T., & Domino, 

K. (2004) The incidence of awareness during anesthesia: A multicenter United 
States study. Anesthesia & Analgesia, 99, 833—839. 
Smit, R. H. (2008). Corroboration of the dentures anecdote involving veridical 
perception in a near-death experience. Journal of Near-Death Studies, 27, 
47—61. 

Smit, R. H., & Rivas, T. (2010). Rejoinder to “Response to Corroboration of the 
Dentures Anecdote Involving Veridical Perception in a Near-Death Experi 
ence.” Journal of Near-Death Studies, 28, 193 205. 

Utts, 3. (1996)-An assessment of the evidence for psychic functioning. Journal of 
Scientific Exploration, 10, 3 30. 
van Lommel, P. (2010). £~onsciousness beyond life: The science of the near-death 
experience. New York, NY: Harper Collins. 
Westrum, R. (1978). Science and social intelligence about anomalies: The case of 
meteorites. Social Studies of Science, 8, 461—493. 

CHRIS CARTER, P.P.E., MA. 

Appendix A 

Descriptions of Anesthesia Awareness 

1) The patient reported waking up during the operation and felt the 
surgeons working on her eye and could hear them talking. She 
tried to move and talk but could not and felt helpless. There was 
no pain. 

2) The patient said that she heard the chief surgeon or a male voice 
saying “careful, careful” and “to the left.” The voices “faded in and 
out.” No other sensation or discomfort. The experience did not 
bother her at the time. 

3) The patient recalled “a great deal of conversation.” She recalled 
hearing conversations about her tattoos and what they found in 
her abdomen. She remembered being unable to move and “it was 
like being in a box. It was dark and I could not move at all.” 

4) The patient reported an “out of body experience” at some point 
during the surgery with her floating out of her body and watch 
ing the surgery from above. She thought it was very “weird.” She 
thought frequently about it. 

5) She remembered waking up and feeling the tube in her throat. 
She wanted to make sure that the anesthesiologist knew that, 
because she did not know whether the surgery was still going on 
or not. 

6) “Feeling tube going down throat and could not breathe” was last 
thing remembered. “I tried to open my eyes and couldn’t. I tried to 
move my fingers. I then tried to breathe and couldn’t.” 

7) Reported choking on tube. Worst thing was “felt like couldn’t 
breathe.” 


8) “During this surgery I became conscious, I was in total darkness; 
I was paralyzed. I felt as if I wanted to take a few breaths, but I 
couldn’t. It was a terrible experience. After a few minutes I lost 
consciousness.” 

9) Reported “Yes, feeling pain, cutting, someone asking for scalpel, 
feeling of cutting.” Worst thing was “waking up in OR while 
paralyzed.” “I woke up during the procedure and could hear the 
doctors talking and I could feel the pain in my wound. I was not 
able to move or speak and it is one of the worst scares I’ve had in 
my long history of serious illness.” 

10) Reports “not being able to breathe, trying to move my hand to 
let them know I felt the mask being forced on my face and no 
air, couldn’t breathe, finally said this is it, I’m going to die and 
thought to myself ‘Oh well, the hell with it’ and just gave up.” 


JOURNAL OF NEAR DEATH STUDIES 

11) “1 remember trying to talk to them and telling that I was 
awake.” “I woke up during surgery enough to know that! was 
in surgery and was trying to figure out a way to tell them I was 
awake. I knew my arms were tied and my eyes were taped shut. 
PANIC!!” 


12) He tried to open his eyes but couldn’t; tried to move his arms, 
couldn’t. Heard conversations in OR. 


13) Experienced the sound of somebody asking about liquid on floor. 
Heard that the doctor forgot to connect the catheter of the bag; 
the floor was full of urine. Other jumbled conversations, someone 
was angry and yelling about it. All these ran together. 

14) Recollections with lights, sounds, noises, lots of noises, pain, 
sound of somebody asking “Where are you going? What are you 
doing?” The patient was unable to talk; felt like she was in a 
hurricane and had a sensation of wanting to get out. 


15) People were talking to each other saying things were okay. He 
tried to talk to tell them that he couldn’t breathe. No one was 
paying attention. Arms felt to be fastened down, had severe 
chest pain. 


16) He heard the doctor ask for a stent which was identified by a 
number. He heard conversations off in the distance. No pain, no 
sensation of paralysis. 


17) Sensation of two flat surfaces moving on each other leaving 
sharp, intense pain. Felt sensation in the neck, sensation of 
choking and felt bone being cut away from the neck. 


18) The patient said she felt the incision and characterized the 
awareness as having associations with pain, paralysis, or stress. 
Patient said she had had recurrent memories about the opera 
tion. Patient states she has awareness of “the cut” but was un 
able to tell anyone. Afraid the pain was going to get worse, but it 
didn’t and then she went to sleep. 

19) Claimed to remember a tube being put down his nose and 
vomiting. Characterized the experience as associated with pain, 
paralysis, or stress. 


20) Patient remembers waking up on her side, unable to move, left 
arm suspended, with a breathing tube in her mouth. Remembers 
feeling pain on incision and the surgeon’s voice saying “she’s 
moving.” 

21) Patient told the anesthesiologist he felt pressure at the surgical 
site during the operation but had no pain, He also heard voices 
and the mstruments clanging. 


22) He reported hearing the sound of something being “screwed into 
my head.” He recognized and remembered the sound when he 
heard the ICP monitor being removed after the operation. 


23) Reports remembering feeling pain in hip and having a dream 
that “was interrupted by the pain.” 


CHRIS CARTER, P.P.E., MA. 

24) Reports remembering “being intubated” Remembers “the tube 
in my mouth.” 
25) Reports awareness of intubation, “tube going down throat,” as last 
memory before falling asleep. 

Source: Sebel eta1. (2004), p. 835. Reprinted by permission of Dr. Sebel and 
Anesthesia & Analgesia. 


Rejoinder to Responses to 
“Could Pam Reynolds Hear?” 

Gerald M. Woerlee, M.B.B.S. (Western Australia), 
FRCA (London) 
Leiderdorp, The Netherlands 

ABSTRACT: In this article 1 provide a rejoinder to Stuart Hameroff’s and Chris 
Carter’s responses to my article, ‘Could Pam Reynolds Hear?’ (2011, this issue). 
I address some specifics of anesthesiology and neurosurgical technique to main 
tain my contention that Reynolds could hear through normal physical processes 
during her near-death experience. 

KEYWORDS: Pam Reynolds, anesthesia awareness, hearing, near-death experi 
ence, consciousness 

The responses of Stuart Hameroff (2011, this issue) and Chris Carter 
(2011, this issue) to my article raising the question of whether Pam 
Reynolds could hear during her near-death experience (NDE) are well 
considered. Hameroff’s response is formulated from a viewpoint of ad 
mitted unfamiliarity with the details of the Reynolds case, whereas 
Carter formulated his reply from the viewpoint of dualism. However, 
their main points of critique do overlap somewhat, which is why I 
will respond in this single counter-response. So what are their main 
points? 

1) Both Carter and Hameroff ignored the basic construction of the 
Midas Rex bone saw. I believe that details of the construction 
and use of this apparatus explain the differences in the first two 
veridical sounds that Reynolds reported-

Gerald M. Woerlee, M.B.B.S. (Western Australia), FRCA (London), is an anesthesiol 
ogist affiliated with the Rijnlnnd Hospital in Leiderdorp and Aiphen aan den Rijn, The 
Netherlands and an affiliate associate professor to the Department of Anesthesiology, 
Leiden University Medical Centre, Leiden, The Netherlands. He is author of the books 
Mo,’tal Minds (2003, Prometheus Books) and The Unholy Legacy of Abi-ahani (2008, 
Booklocker) Communications regardtng this article should be sent to Dr. Woerlee at 
eniail gerr~ Wwoerlee.org. 

,Journul of .Yeor-Deoth Studies, 30(1). FoIl 2011 2011 1.-V’DS 

GERALD M. WOERLEE, M.B.B.S. QO 

2) Both Carter and Hameroff ignored the fundamental differences 
between bone conduction of sounds and air conduction. 

3) Carter made a correct point regarding the brainstem auditory 
evoked response (BAER). He stated that the fact that sounds 
register in the brainstem does not mean they are consciously 
perceived. 

4) Hameroff stated incorrectly that the BAER is the gold standard 
to monitor depth of anesthesia and to detect consciousness during 
general anesthesia. BAER is also known as the brainstem audi 
tory evoked potential (BAEP). 

5) Carter cited an excellent large-scale prospective anesthet c aware 
ness study to supposedly, and misleadingly, demonstrate that 
awareness experiences are very different from those that Reyn 
olds reported. 

6) Both Carter and Hameroff consider it possible for an immatenal 
conscious mind to perceive physical sounds and perceive physical 
light while separated from the physical body during an out-ofbody 
experience. 

These are the main points of their responses I discuss in this 
rejoinder. 

1) The Midas Rex& Saw 

I will begin this rejoinder with a discussion of the bone saw used 
during Reynolds’ operation. Sabom’s (1998) account, while generally 
very accurate, contained several inaccuracies overlooked by both him 
and others unfamiliar with neurosurgery. Carter’s response revealed 
this same lack of familiarity. He and many others failed to realize 
the implications of the construction of the bone saw as illustrated and 
described by Sabom (1998, pp. 187—189). Examination of the illustra 
tion of the Midas Rexa bone saw reveals it to be a shielded reciprocat 
ing saw attachment. I say attachment, because the Midas Rex’ is not 
just a bone saw; it is part of a pneumatically powered surgical system 
consisting of a small and powerful pneumatic motor contained in a 
hand-piece to which a large variety of different surgical saws, drills, 
burrs, etc, can be attached (Medtronic, 2009). Spetzler used this handpiece 
to drive at least two different instruments used to open Reyn 
olds’ skull: a burr, and the well-known saw. 

How is such a saw used? The metal lip along the length of the saw, 
and folded over its tip, prevents it being used to make a hole in the 
skull of a patient undergoing a craniotomy (Mayfield, 2010). So the 
first step in using such a saw is to drill a hole in the skull through 


JOURNAL OF NEAR-DEATH STUDIES 

which it can be inserted. Such a hole is never done with a drill bit. 
The use of a drill bit can cause unintended damage to the dura, the 
membrane covering the brain that lies close against the inner surface 
of the skull. Instead, a burr is attached to the hand-piece of the Midas 
Rex®. A burr is actually a round rotating rasp. Dentists also use burrs 
to drill cavities in teeth, and the Midas Rex& burr is a larger version of 
this. Using such an instrument enables the surgeon to carefully drill 
in a controlled manner through the skull. The surgeon stops the mo 
ment dura is seen at the bottom of the hole. A rotating burr makes a 
high-pitched whine similar to that made by a dental drill. Pam Reyn 
olds described this sound as a “natural D” (Sabom, 1998, p. 41). 

Subsequently, the surgeon uses a spatula-like instrument to gently 
push the dura away from the inner surface of the skull as well as to 
enlarge the hole. Once the hole is large enough, the saw attachment is 
coupled to the Midas Rext handpiece. The saw attachment is inserted 
vertically into the hole and moved to the edge of the hole so that the 
folded lip is held flush against the inner surface of the skull, in be 
tween the dura and the inner surface of the skull. Because the folded 
lip is held against the inner surface of the skull, the reciprocating saw 
cuts through only the bone of the skull, and the lip ensures that the 
dura separates from the skull as the saw progresses. The saw blade 
is never continually in motion. Instead, after the motor is activated, 
the saw blade is engaged by a clutch and gear mechanism similar to 
the gearbox of an automobile. Furthermore, the sound it makes when 
cutting through bone is different to that when not cutting through 
bone. This two-step process explains the initial high pitched humming 
sound of the saw and the subsequent sudden “Brrrrrrrrr!” sound (Sa 
bom, 1998, p. 41). 

2) Bone Conduction of the Sounds of the Burr and Saw 

Curiously, except for my website dealing with the Pam Reynolds 
case (Woerlee, 2008) and Charles Tart’s (2009) book, The End of Ma 
terialism, no one seems to have realized the point of bone conduction 
of sound (Tart, 2009, p. 232). In common with all other writers on 
this unusual experience, Carter, in his response, failed to distinguish 
between the mechanisms by which the human ear may hear sounds. 

I contend that the sounds of the burr and the saw were conducted 
through Reynolds’ skull to her cochlea. An awake and aware Reynolds 
would have been able to hear these sounds even were her ears totally 
blocked and subjected to the sounds used to evoke auditory evoked 

GERALD M. WOERLEE, M.B.B.S. 

57 

potentials. Fantasizing further: Reynolds would have heard these 
sounds even if her ears were filled with wax and covered with mounds 
of concrete. This is the reality of sounds heard by bone conduction—a 
process that any audiologist or ear, nose, and throat specialist will 
confirm. 

3) A Measurable BAER Not Proof of Hearing 

Chis Carter was correct when he stated that the BAER is a mea 
sure of only the response of the brainstem to the auditory stimuli ap 
plied to the ears. Conscious perception occurs only when these stimuli 
register in the cortical regions of the brain concerned with secondary 
processing of hearing. This point leads to a discussion of another inac 
curacy in Sabom’s (1998) account and Hameroff’s response. 

4) BAER Not a Measure of Consciousness 

The BAER, or more correctly, the BAEP, is a measure of the re 
sponse of the brainstem structures during the first 10—12 millisec 
onds after application of a sound stimulus. It is not a measure of 
anesthetic depth or level of consciousness, because the waveforms, 
amplitudes, and their latencies are relatively unaffected by anesthetic 
depth (Drummond, Todd, & Hoi, 1985). Instead, BAEP signals are 
used during neurosurgery to signal injury or damage to the auditory 
nerve during operations in the region of the brainstem—the region of 
Reynolds’ operation. 

During Reynolds’ operation, the acoustic signal frequency used 
to elicit BAEP responses was 11.3 Hz, and the responses were re 
coded with “far field” techniques. This phrase means responses were 
derived from the processed signals from EEG electrodes placed far 
away from the ears. This stimulus frequency implies a 1/11.3 = 88-5 
milliseconds to analyze the BAEP and other longer latency signals. 
During 1991 people were studying and using the middle latency audi 
tory evoked potential (MLAEP) as a measure of anesthetic depth or 
level of consciousness. So although it is not mentioned in the Spet 
zler group’s article (Spetzler, Hadley, Rigamonti, Carter, Raduzens, 
Shedd, & Wilkinson, 1988), it is likely this group did use the MLAEP 
to determine the level of consciousness. This was very likely the audi 
tory evoked potential misnamed by Sabom (1998) in his description 
of the Reynolds story. Like BAEP, the MLAEP is an averaged sig 
nal measured 10 100 milliseconds after a sound stimulus. But unlike 


JOURNAL OF NEAR DEATH STUDIES 

the BAEP, the MLAEP does correlate—though not perfectly with 
the depth of anesthesia (Loveman, Hooff, & Smith, 2001; Schwender, 
Daunderer, Mulzer, Klasing, Finsterer, & Peter, 1997). 

But during 1991, the use of MLAEPs was a technique in a devel 
opment stage. This was also true for all other electronic measures of 
consciousness employed during 1991. Subsequent research revealed 
that the electronic depth of anesthesia monitoring techniques used 
during 1991 were unable to accurately to detect the presence of con 
sciousness during the standard (for 1991) nitrous oxide and isoflurane 
anesthesia used for Reynolds’ operation (Aceto, Valente, Gorgoglione, 
Adducci, & De Cosmo, 2003; Dwyer, Rampil, Eger, & Bennett, 1994; 
Loveman et al., 2001; Rundeshagen, Schnabel, & Schulte am Esch, 
2002; Schneider, Nahm, Kochs, Bischoff, Kalkman, Kuppe, & Thorn 
ton, 2003; Schwender et aL, 1997). 

5) Reynolds Conscious and Aware? 

Therefore, if Reynolds was conscious and aware, she would have 
been able to hear the sound of the burr, the sound of the bone saw, the 
sound of Murray’s speech, and the sound of the music of “Hotel Cali 
fornia.” But was she awake when these verifiable sounds occurred? 
This question is the core of the whole argument of whether Reynolds 
heard these sounds with her physical hearing rather than by any 
other mechanism. 

Many people express amazement that people can be awake and 
aware during general anesthesia, saying that this occurrence is a 
product of careless or irresponsible anesthesia. However, this belief is 
divorced from an understanding of the reality of anesthesiology prac 
tice. Anesthesiologists are guided by the advised doses of anesthetic 
drugs. These doses and concentrations are based upon averages, but 
not everyone is average. Some people require more and others require 
less. Interactions of medical conditions with the effects of anesthetic 
drugs, as well as the effects of surgery, all result in the anesthesiolo 
gist adjusting doses according to the clinical condition of each patient. 
So although the basis of anesthesiology practice is a science, its prac 
tice is a combination of science and art, and this is true even now 
during 2011. The fact that people do not always respond in a standard 
manner to an average standard dose or concentration of anesthetic 
drug is why people sometimes experience periods of awareness during 
general anesthesia. 

Is it possible to detect moments of awareness during general anes 

GERALD M. WOERLEE, MEWS. 

thesia? Moerman and his colleagues (Moerman, Bonke, & Oosting, 
1993) retrospectively studied persons with psychological distress re 
sulting from awareness during general anesthesia. Anesthetic records 
of 12 of these patients revealed signs indicating possible awareness 
in only one of them (pp. 459 461). This study reveals the fact that 
awareness during anesthesia is seldom detected, a fact repeatedly 
demonstrated in modern studies (Avidan et al, 2008), as well from my 
personal experience. 

A weakness of Moerman et al.’s study was its retrospective nature, 
so it gave no true indication of the incidence and long-term effects of 
the phenomenon. This weakness is corrected by prospective studies, 
so in Carter’s response he quite correctly cited the excellent study by 
Sebel and colleagues (Sebel, Bowdle, Ghoneim, Rampil, Padilla, Gan, 
& Domino, 2004). He also cited the following statistics from the Sebel 
et al. study (p. 836), to which I have added the obvious conclusions. 

-48°o of persons reported auditory perceptions. Therefore, 52 
remembered no auditory perceptions. 
360o of persons reported experiencing anxiety and stress while aware 
during general anesthesia. Therefore, 64% of persons experienced no 
anxiety or stress during awareness while under general anesthesia. 
28°, of persons reported experiencing pain during awareness while 
undergoing surgery under general anesthesia. Therefore, 72% of people 
reported experiencing no pain while aware during surgical procedures 
performed under general anesthesia. 

So these statistics demonstrate that most people feel no pain and 
are not anxious during periods of awareness occurring during surgical 
procedures performed under general anesthesia. Moreover, the three 
different groups of drugs used to maintain general anesthesia explain 
the different categories of awareness experience (Woerlee, 2009) as 
well as Reynolds’ mental state during the periods of consciousness 
when she made her veridical auditory perceptions. 

6) The Immaterial Conscious Mind Able 
to “See” and “Hear”? 

Carter and Hameroff considered it possible for a disembodied imma 
terial conscious mind to “see” light waves and to “hear” sound waves 
in air. I advanced reasons why this was impossible in my original ar 
ticle (2011, this issue). Both claim that because scientists have no idea 
how physical perceptions are converted into conscious perceptions, a 


JOURNAL OF NEAR-DEATH STUDIES 

non-material explanation is as valid as a material explanation. Unfor 
tunately the logic of this argument ignores the fact that translation 
of nerve impulses from the organs of perception into a consciousness 
generated by a physical brain whose structure and organization is 
largely understood is very much more likely than transfer of informa 
tion contained within physical nerve impulses to an immaterial con 
scious mind whose coupling with the physical body is as speculative as 
its structure and function. However, by ignoring these latter facts and 
using the logic of dualism as espoused by Carter and many others, the 
immaterial explanation is an alternative possibility. 

Concluding Remarks 

The veridical auditory perceptions Reynolds reported did occur. I be 
lieve I have clearly demonstrated the possibility that the four veridical 
auditory perceptions Reynolds reported were able to be heard by any 
conscious person; that the electronic monitoring used to determine her 
level of consciousness during 1991 was not 10000 accurate; that people 
undergo undetected periods of awareness during anesthesia induced 
by nitrous oxide, isofiurane, and sufentanil; and that Reynolds’ state 
of mind during these moments of consciousness were explained by the 
actions of these drugs. 

In my view, this physical explanation for the veridical auditory per 
ceptions Reynolds reported is provably possible, whereas the paradigm 
of perception of sounds by a separable immaterial conscious mind lan 
guishes in the situation of an unproven alternative. Nonetheless, the 
fact that the immaterial explanation is unproven does not exclude it, 
because the data available for the Pam Reynolds case are insufficient 
for this purpose. However, these data do mean that Reynolds’ veridical 
auditory perceptions are not proof of the reality of a separable immate 
rial conscious mind. Reynolds’ amazing NDE clearly demonstrates the 
necessity of examining every detail and aspect of apparently inexpli 
cable experiences. I consider this to be the ultimate message implicit 
within experiences like Reynolds’. 

References 

Aceto, P., Valente, K, Gorgoglione, M., Adducci, E., & De Cosmo, G. (2003). Re 

lationship between awareness and middle latency auditory evoked responses 

during surgical anaesthesia. British Journal of Anaesthesia, 90, 630—635. 
Avidan, M. S., Zhang, L., Burnside, B. A., Finkel, K. J., Searleman, A. C., 

GERALD M. WOERLEE. M.B.B.S. 

Selvidge, J. A. --. Evers, A. S. (2008). Anesthesia awareness and the bispectral 
index. New England -Journal of Medicine, 358, 1097 1108. 

Drummond, J. C., Todd, M. M., & fbi, S. U. (1985). The effect of high dose so 
dium thiopental on brain stem authtory and median nerve somatosensory 
evoked responses in humans. Anesthesiology, 63, 249—254. 

Dwyer, R. C., Rampil, I. J, Eger, E. I~, & Bennett, H. L. (1994). The electroen 
cephalogram does not predict depth of isofiurane anesthesia. Anesthesiology, 
81, 403—409. 

Lovemann, E., Hooff, J. C. van, & Smith, D. C-(2001). The auditory response as 
an awareness monitor during anaesthesia. British Journal ofAnaesthesia, 86, 
513—518. 

Mayfield Clinic. (2010). Craniotomy. Retrieved from Imp: /www.rnaytieldclinic.eom 
/PE-Craniotomthtm 
Medtronic. (2009). Midas Rex’ Legend’ tool catalog. Retrieved from hup: ‘~ww 
.mediservis.czlpdf l44-vrtaci’s~ sLem-midas-rex.pdf 
Moerman, N., Bonke, B., & Oosting, J. (1993). Awareness and recall during gen 
eral anesthesia: Facts and feelings. Anesthesiology, 79, 454—464. 

Rundshagen, I., Schnabel, K., & Schulte am Esch, J. (2002). Midlatency auditory 
evoked potentials do not allow the prediction of recovery from general anes 
thesia with isoflurane. Canadian Journal of Anaesthesia, 49, 361—368. 

Sabom, M. B. (1998) Light & death: One doctor’s fascinating account of neardeath 
experiences. Grand Rapids, Ml: Zondervan. 

Schneider, G., Nahm, W., Kochs, E. F., Bischoff, P., Kalkman, C. J., Kuppe, H., 
& Thornton, C-(2003). Quality of perioperative AEP . variability of expert rat 
ings. British Journal ofAnaesthesia, 91, 905—908. 

Schwender, D., Daunderer, M., Mulzer, S., Klasing, S., Finsterer, U., & Peter, 

K. (1997). Midlatency auditory evoked potentials predict movements during 
anesthesia with isoflurane or propofol. Anesthesia & Analgesia, 85, 164—173. 
Sebel, P., Bowdle, A., Ghoneim, M., Rampil, I., Padilla, R., Gan, T., & Domino, K. 
(2004). The incidence of awareness during anesthesia: A multicenter United 
States study. Anesthesia & Analgesia, 99, 833—839. 

Spetzler, R. F., Hadley, M. N., Rigamonti, D., Carter, L. P., Raduzens, P. A., 
Shedd, S.A., & Wilkinson, E. (1988). Aneurysms of the basilar artery treated 
with circulatory arrest, hypothermia, and barbiturate cerebral protection. 
Journal of Neurosurgery, 68, 868—879. 

Tart, C. T. (2009). The end of materialism. How evidence of the paranormal is 
bringing science and spirit together. Oakland, ~A: New Harbinger. 
Woerlee, G. M. (2008). Pam Reynolds near death experience. Retrieved from 
htlp: wwwneardeath.woerlee.org/pam-re~ nolds-near-death-experience.php 
Woerlee, 0. M. (2009). Awareness and paranormal experiences during anesthe 
sia. Retrieved from hap. /www.aneslhesiaweb org/awareness.php