nervous system, Panic Attacks Aaron Mitchum nervous system, Panic Attacks Aaron Mitchum

Panic Attacks Aren't About Fear. They're About Being Left.

Most panic treatment targets fear. But panic and fear run on separate systems in the brain, with different chemistry, different circuitry, and different jobs. Understanding which one is actually firing changes what kind of help works.

Girl on steps with head down alone

Most people describe a panic attack the same way. It felt like dying. Like the room was closing in. Like something terrible was about to happen. So we treat panic like a fear problem. We teach breathing exercises, we challenge catastrophic thoughts, we tell the nervous system "you are safe right now," and sometimes that helps.

But it doesn't always help. I think that's because we're answering the wrong question. Panic isn't your brain asking "am I in danger?" It's an alert. An old, loud signal whose entire job is to maintain connection, by telling you, urgently, that you are disconnected right now or convinced that disconnection is about to happen.

Two different alarm systems

Your brain has more than one way to sound an alarm, and they're not the same circuit doing the same job at different volumes.

FEAR is the system that responds to a predator, a car swerving into your lane, a hand on a hot stove (by the way when something is all caps it means it’s a label for a brain system, when it’s not it means it is labeling an emotional feeling). It runs through the amygdala, it's fast, and it's built for immediate physical threat. This is the system most anxiety treatment is designed to address.

PANIC is different, and researchers actually call it PANIC/GRIEF, because it's one system with two faces. It runs a separate route from FEAR, through deep midbrain structures up to the anterior cingulate cortex, and it isn't regulated by the same threat chemistry. It runs largely on your body's own opioid system, the same chemistry involved in bonding and the comfort of closeness. When that opioid supply drops, the alarm goes off.

PANIC/GRIEF is unusual among the seven basic emotion systems in that its name captures two distinct phases of feeling. When panic does not result in feeling secure in connection or attachment again, or we have given up hope of that happening, our system collapses into the other side of that coin: an experience of grief. Grief is what it feels like when connection is already lost. It's the helplessness, the pain of isolation, the collapse that comes when there's nothing left to do about it. The feelings of panic come before that. PANIC's job isn't to cause us to brace for danger. It's to sound the alarm loudly enough, and urgently enough, that connection gets restored before it's lost for good. A panic attack is your system raising every biological and emotional signal it has, fast, because as far as it's concerned, the only thing standing between you and that collapse is whether the alarm works.

This is the same pattern researchers have long described in young mammals separated from a caregiver. First an active, distressed protest: calling out, searching, trying to restore contact. Only later, if reconnection doesn't come, a collapse into something quieter and more despairing. Panic is the protest call. It exists to bring someone back, or to bring you back to yourself, before the despair sets in.

This is also why a panic attack so often doesn't match the size of whatever triggered it. You're not overreacting to a small thing or having symptoms out of nowhere. A fast, old part of your brain has registered that the helplessness of isolation might be coming, and it's throwing everything it has at preventing that outcome, before you've even had time to name what's happening.

What "disconnection" actually means here

Surprisingly, the PANIC/GRIEF system doesn't only fire when someone physically leaves the room. It fires on a prediction (remember, the brain is a prediction machine, as neuropsychoanalyst Mark Solms has argued), and what it's predicting is whether GRIEF is about to arrive.

Underneath every panic attack is a fast, mostly unconscious assessment running on three things at once. A memory of what that helpless, isolated collapse has felt like before. A prediction about whether it's about to happen again right now. And a read on both yourself and the other person: whether you can survive being without them, whether they're still actually with you, whether this is the moment you finally fall into that state you already know.

That's why panic can show up in places that have nothing to do with relationships on the surface. A work presentation. A crowded store. A plane. What's actually being evaluated underneath isn't your presenting skills, the room, or the plane. It's closer to: "if this goes badly, will I end up alone with no way to fix it, and has that helplessness happened to me before?" If your history has taught your nervous system what that collapse feels like, your brain doesn't wait for it to arrive. It panics early, trying to head it off, because heading it off is the whole point of the system.

What's happening in your body

This system has a different chemical signature than fear does, and that's part of why fear-based treatment doesn't always land.

Where the FEAR system runs largely on CRF, norepinephrine, and the threat-detection chemistry of the amygdala, the PANIC/GRIEF system runs primarily on the brain's own opioids, along with oxytocin and prolactin, the same chemicals involved in bonding and the comfort of closeness. In animal studies, giving opioids is the single most effective way to quiet a separated infant's distress calls. That tells you what the alarm is actually built to respond to. Not threat reduction. Reconnection. It goes off when that opioid-driven sense of closeness drops, and it shuts off when closeness is restored, not when danger passes.

Here's the piece that explains what a panic attack actually feels like in the body. This circuit doesn't stop at producing an emotional signal. It directly regulates breathing, heart rate, and pain sensitivity as part of its basic function, and its territory overlaps with structures that also drive the body's fear and arousal chemistry, including norepinephrine. So when this alarm fires, it doesn't stay contained to "I feel disconnected." It recruits your sympathetic nervous system, the same system responsible for fight-or-flight, and that's where the racing heart, the shallow breathing, the sweating, and the trembling come from. The alert has to be loud enough, physically, to actually move you or someone else to act. A quiet signal doesn't restore connection. A racing heart and a flood of adrenaline-like chemistry does, because it's built to be impossible to ignore.

This is also why a panic attack can feel indistinguishable from a heart attack or a respiratory emergency. It isn't your imagination and it isn't "just anxiety." Your sympathetic nervous system has activated for real, your heart rate has climbed for real, your breathing has changed for real. The alarm is bodily because it has to be. A signal whose entire purpose is to summon connection back doesn't work if it's subtle.

The old proof: two problems, two drugs

Long before anyone had mapped this circuitry, clinicians stumbled onto evidence that panic and anxiety are actually two different problems, by accident, through a drug that only fixed one of them.

In 1960, a psychiatrist named Donald Klein was working at Hillside Hospital in Queens, New York, treating patients with severe anxiety attacks and agoraphobia. He was testing imipramine, one of the first antidepressants, which had only been introduced a few years earlier. What he found surprised him. Imipramine stopped the panic attacks themselves, often within weeks. But it didn't touch something else these patients were still carrying: the fear of having another attack. That anticipatory dread, and the avoidance behavior built around it, the not going to the store, the not getting on the plane, stuck around long after the attacks had stopped. It took a different kind of medication, an anti-anxiety drug, to work on that part.

Klein published this finding in 1962, and he called his method "pharmacological dissection." The logic was simple. If one drug stops the attacks and a different drug is needed for the fear of the attacks, you're probably not looking at one problem with two symptoms. You're looking at two different mechanisms that happen to sit next to each other. That observation eventually helped separate panic disorder from generalized anxiety disorder in psychiatric diagnosis, decades before anyone could point to the separate neurochemistry behind it.

It's a striking piece of history to sit next to everything above. Clinicians noticed, just from watching patients respond to medication, that panic and anxiety about panic were not the same thing and did not resolve through the same channel. That's the same split this whole piece has been describing, just discovered from the outside in, one prescription at a time, instead of from the inside out through brain circuitry.

Why this changes what helps

If panic is fundamentally a fear response, the treatment is exposure and reassurance. Prove to your nervous system that the room is not, in fact, dangerous.

If panic is fundamentally an attempt to maintain connection, the treatment has to focus on that. It's not enough to convince your nervous system that the plane won't crash, and it's not enough to slow the breathing once the sympathetic nervous system has already taken over, although that can help in the moment. The deeper work has two parts. One is with the prediction itself: what your body believes will happen, and what memory that belief is built on. The other is with your capacity to actually tolerate the thing panic is working so hard to avoid. As long as grief feels unsurvivable, the system has every reason to keep sounding the alarm rather than risk falling into it. Part of the work is building enough safety and support that helplessness and isolation, if they do show up, are no longer the catastrophe your body believes them to be.

This is part of why somatic and trauma informed approaches often reach panic in a way that pure cognitive reassurance doesn't. You can't think your way out of a prediction your body learned before you had words for it, and you can't think your way into trusting that grief, if it comes, is survivable. That trust tends to get built through relationship, through the body, through slowly proving to your nervous system, in small doses, that the helplessness it's so afraid of isn't the end of you.

The question underneath the question

If you've had a panic attack and wondered why "you're safe" never really helped, this might be why. Your nervous system wasn't asking about safety from harm. It was trying, urgently, to keep you from falling into a helplessness it’s known before.

That's not a flaw in your wiring. It's an old, well-intentioned system working as hard as it can to keep you from a pain it has every reason to believe is coming, sometimes in situations where that pain was never actually on the way. Understanding that doesn't make the panic disappear. But it changes what you're treating. You're not just talking your body out of a false alarm. You're slowly teaching it that even if grief came, you wouldn't be as alone in it as it fears.

An important note: most current clinical guidelines still treat panic attacks as an exaggerated fear response centered on the amygdala. The separation based view laid out here is a real, published alternative within affective neuroscience, but not something every researcher or clinician would sign off on. I find it more clinically useful for a lot of what shows up in the room, but it is a minority position within panic disorder research specifically, even though the PANIC/GRIEF system itself is well established as distinct from FEAR in the broader affective neuroscience literature.

References Used for this: The distinction between the FEAR and PANIC/GRIEF systems, including their separate neuroanatomy (amygdala and dorsal periaqueductal gray for FEAR; anterior cingulate, bed nucleus of the stria terminalis, and periaqueductal gray for PANIC/GRIEF) and their different core chemistry (CRF and norepinephrine for FEAR; endogenous opioids, oxytocin, and prolactin for PANIC/GRIEF), comes from the affective neuroscience research tradition built by Jaak Panksepp. It's summarized well in a 2020 paper by Gianni Francesetti, Antonio Alcaro, and Michele Settanni, "Panic disorder: attack of fear or acute attack of solitude? Convergences between affective neuroscience and phenomenological-Gestalt perspective," published in Research in Psychotherapy: Psychopathology, Process and Outcome. The protest and despair pattern in separated young mammals draws on John Bowlby's attachment research. The role of the PANIC/GRIEF circuit in directly regulating breathing, heart rate, and pain sensitivity, and the finding that opioids are the most effective known way to quiet separation distress calls in animal studies, are also drawn from that same research tradition. The sympathetic nervous system's role in producing panic attack symptoms such as rapid heart rate, shallow breathing, and sweating is well established in the clinical panic disorder literature more broadly. The imipramine finding comes from Klein DF, Fink M, "Psychiatric reaction patterns to imipramine," American Journal of Psychiatry, 1962;119:432-438, with later work on benzodiazepines and anticipatory anxiety summarized in Zitrin, Woerner, and Klein, 1981. Mark Solms's work on the brain as a predictive system draws on his 2021 book The Hidden Spring: A Journey to the Source of Consciousness.

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Your Eyes Are Talking to Your Nervous System

Most people think about their eyes as the tools they use to see. What they don’t usually think about is that their eyes are part of their brain. Literally. In utero, the eyes separate from the same brain tissue that becomes everything else. The connection never goes away.

Close-up of a woman's eye in soft natural light

Most people think about their eyes as the tools they use to see. What they don’t usually think about is that their eyes are part of their brain. Literally. In utero, the eyes separate from the same brain tissue that becomes everything else. The connection never goes away.

My friend and colleague, Lillian Giocondo, turned me on to following the Biology of Trauma podcast, and a recent episode with neuro-optometrist Dr. Bryce Appelbaum grabbed my attention. Not because the information was fringe or surprising exactly, but because it put language to something we work with in Somatic Experiencing all the time.

In SE, we pay a lot of attention to the eyes.

We’ll sometimes ask a client to let their gaze soften. To notice what’s in their peripheral field without turning their head. To slowly move their eyes in different directions and notice what happens in the body. Or even to track our fingers and notice when the eye sight glitches. These aren’t quirky add-ons to the work. They’re rooted in the same biology Dr. Appelbaum describes.

Two-thirds of the neurons entering the brain come through the eyes. That’s not a small number. Your nervous system is constantly reading visual input to decide whether you’re safe or in danger. And one of the clearest signals it looks for is whether your peripheral vision is open.

When the nervous system shifts into fight or flight, peripheral vision collapses. The world narrows. You stop seeing what’s beside you and start locking onto what’s in front of you. This is your threat response working exactly as designed. The problem is that for many people who carry stored trauma or chronic stress, that narrowing becomes the default. The tunnel becomes baseline.

Dr. Appelbaum describes this as the body adapting to a tunneled state. The brain stops expecting wide vision. It reorganizes. And over time, people describe feeling like they’re looking through paper towel rolls. Which is just their eyes staying in a survival state.

In SE, one type of eye work we do is called, “orienting.” When a client can slowly, voluntarily move their eyes around the room and allow their eyes stop and focus on what they see, that’s the nervous system checking in with reality and finding it safe. The body follows. Shoulders often drop. Breath often comes in a little more easily.

Dr. Appelbaum introduces three simple exercises in the episode: peripheral pointing, eye push-ups, and eye stretches. Peripheral pointing involves fixing your gaze on a point in the room and then noticing, without moving your eyes, what else is out there. Pointing to it. Then checking. It rebuilds the body’s sense of being in space rather than locked into a single threat point.

These exercises build the same capacity we’re reaching for in SE. The ability to be in a body that can take in more of the world, to have more capacity not just tolerance. A nervous system that isn’t white-knuckling.

If you’ve ever wondered why we slow things down in trauma therapy, why we ask what you notice in your body or what catches your eye in the room, or to stop and feel into your eyes, this episode offers one clear answer. The eyes are not passive recorders. They’re active participants in whether you feel okay right now.

Worth a listen.

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