Losing your sense of smell takes away more than scents and flavours – it can fundamentally change the way you relate to other people.
Nick Johnson skims the lunch menu at the White Dog Café, a warren of little rooms and anterooms in Philadelphia’s university district. “Beef empanadas … I would have loved those. But all that braised beef would just get lost on me. Fish and chips I avoid: all fried foods taste the same. I’m looking at the fish tacos. I know I’ll get the spicy heat and a little bit of pineapple flavour, and with the peppers and the guacamole, there’ll be some mouth feel there.”
He orders the tacos, and we get a beer that’s on tap. It’s called Nugget Nectar, and it’s produced by the local craft brewery that Nick’s worked at for the past 10 years. Nugget Nectar used to be his favourite beer. “It has a real nice balance of sweetness and hops. But now,” he says, and his face falls, “it’s a shell of its former self to me.” He can describe what it smells like: “piney”, “citrusy”, “grapefruity”. But he can’t smell it any more.
Unexpected effectsWe don’t think of ourselves as being good smellers, especially compared with other animals. But research shows that smells can have a powerful subconscious influence on human thoughts and behaviour. People who can no longer smell, following an accident or illness, report a strong sense of loss, with effects on their lives they could never have imagined. Perhaps we don’t rank smell very highly among our senses because it’s hard to appreciate what it does for us – until it’s gone.
Nick, who’s 34, can pinpoint the moment he lost his sense of smell. It was January 9 last year. He was playing ice hockey with friends on the frozen pond at his parents’ place in Collegeville, Pennsylvania. “I’ve done it millions of times,” he says. “I was skating backwards, slowly, and I hit a rut on the ice. My feet went out from under me. I hit the back right side of my head. I was out. I came to in the ambulance, people surrounding me, blood pouring out of my ear.” He had ruptured an eardrum and fractured his skull in three places. He had blood on his brain, and was suffering from seizures. “I had no idea what was going on.”
After making a rapid recovery, he was cleared to drive again six weeks later and returned to work as regional sales manager at Tröegs brewery. Before long, he found himself in a meeting about a new beer. “We were tasting it, and the others were saying, ‘Can you smell the hops in the beer?’ I couldn’t. Then I tasted it. There were guys saying, ‘It’s got this pale biscuity flavour’ and I couldn’t taste it. Then I went and tried one of the hoppier ones … and I couldn’t smell it. That’s when it clicked.”
The stress of the injury and all the medication perhaps explain why he didn’t realise he had lost his sense of smell sooner. It came as a shock, he says. Now, though, he is acutely aware of the effects it has had.
Losing taste and the scent of others Losing enjoyment of food and drink is a common complaint for people who lose their sense of smell. You can taste sweet, salty, bitter, sour and umami (savoury taste of glutamates) with your tongue. More complex flavours – such as grapefruit or barbecued steak – depend on smell. But for Nick, as for many people who can’t smell, there’s another category of loss altogether.
At the time of his accident, Nick’s wife was eight months pregnant with their second child. Over lunch, he says: “I joke I can’t smell my daughter’s diaper. But I can’t smell my daughter. She was up at 4 o’clock this morning. I was holding her, we were laying in bed. I know what my son smelt like as a little baby, as a young kid. Sometimes not so good, but he still had that great little kid smell to him. With her, I’ve never experienced that.”
Nick takes a deep sniff of his glass of Nugget Nectar, the beer that was once his favourite. Volatile chemicals from the liquid are drawn high up into his nostrils, to the roof of his nasal cavity, the part specialised for smelling. Then he takes a sip, and those same chemicals travel up from the back of his mouth to the same part of his nose. So far, so good.
Next, the molecules are absorbed into the mucus inside his nose. This is critical for something to be smelly: at the moment, no one can look at a molecule and say, based solely on its structure, how it will smell, or even whether it will smell at all. All we know is that, for something to have a smell, its molecules must easily evaporate so they can be carried in air and inhaled, but they must also dissolve in mucus to be detected.
Smells and signals For a healthy person sniffing a beer, or their child, or a T-shirt belonging to their partner, exactly what happens next, leading to a perception of the beer or the person as a complex aromatic whole, is only hazily understood. Lurking within the mucus of the nose are the tips of olfactory receptor cells. These nerve cells lead directly to the brain. Though we have millions of these cells, there seem to be only about 400 types, each of which binds to a specific molecule (the number is debated; some argue it could be closer to a mere 100).
Based on the pattern of activation of the various receptor types, when I sniff Nugget Nectar, I recognise it as “beer”. Nick smells nothing – the impact of his fall probably damaged or even killed his olfactory nerve cells, and his brain receives no information about the smell of his drink.
Before his injury, Nick had a highly sensitive nose. Unlike me, he would have been easily able to distinguish Nugget Nectar from other beers. That ability comes with experience. After the incoming smell signal pattern is processed, this information is sent to different parts of the brain, including regions involved in memory and emotion, as well as to the cortex, where thinking takes place. We can then quickly learn to pair patterns of receptor activation with the source of the smelly molecules.
Until recently, it was thought humans could detect perhaps only 10 000 different scents. But there has been a radical rethink, according to Joel Mainland, who’s researching the fundamentals of smell at the Monell Chemical Senses Centre, a world-leading institute for research on smell and taste in Philadelphia. A recent paper in the journal Science estimated that we can detect more than a trillion smells. A few problems have been raised with the methodology of that study and there’s still a lot of debate about the true figure, but Mainland certainly thinks that we’ve underestimated our abilities.
Untapped potential Because of the nature of his job, Nick underwent all kinds of sensory training to improve his smell and taste. The rest of us probably have untapped potential, too. Yes, dogs are renowned for being able to track a person’s scent across a field. When Mainland was a doctoral student, his supervisor suggested investigating whether humans could be trained to do the same thing. It turned out they could.
Dogs have more types of olfactory receptors than we do – but as Mainland points out, cows have more than dogs (about 1 200 compared with 800) and it’s not clear that cows are significantly better at smelling. The poor reputation of humans may be down to the fact that we spend comparatively little time actively sniffing and so training our sense. What difference would it make if we all put more effort into smelling the world around us?
‘Here, what does that smell of?”
George Preti’s lab is lined with fume cupboards, machinery for analysing gases, and freezers packed with saliva and sweat samples and even archived T-shirts worn by people during experiments into scents produced from our underarms while we’re stressed.
He waves the jar under my nose. It smells … bad. He smiles. “Dirty laundry? It’s from a Japanese group. They’ve isolated the smell from dirty laundry. How about this?” He removes the stopper from another jar. It smells … bad, but in a different way. “That’s 3M2H. It’s one of the principal components of human underarm odour.”
The lab technician grins from a bench where he’s busy preparing sample bottles for a series of new stress and fatigue experiments. “You’ve just been officially Preti-labbed,” he calls.
Human scentsPreti has been studying smell at Monell for decades. He specialises in the scents we humans produce. Our breath, our urine and even our blood contain molecules that smell. But the main source of body odour is the underarm region. It’s rich in apocrine glands, which produce small secretions that ultimately generate underarm odour. When we’re stressed, we produce more of these secretions.
Individual body odour is influenced by genes, and by one group in particular: the genes that determine which proteins combine to form your unique major histocompatibility complex (MHC). This group of proteins is on the surface of almost every cell in your body. It indicates to the immune system that a cell is “self”, and so not to be attacked.
Back in 1995, researchers found that women prefer the smell of men whose suites of MHC genes are different from their own. In 2013, a study found that people can even recognise their own scent, based on their particular MHC.
But it seems there are other smelly components of human body odour that we can detect and that can influence us. Preti and his colleagues have found that extracts of male underarm odours can not only influence female physiology, altering levels of a hormone involved in regulating the menstrual cycle, but also make women feel more relaxed and less tense. “None of the women smelled anything different between the control and the experimental extract,” he says. “There was an impact. But it was not conscious.”
Stress and smellWith Pam Dalton, Preti has also investigated the effect of stress on body odour. In a study published in 2013, they collected body odour from people who’d been made to feel stressed in the lab. Another group smelled these odours while they watched videos of women doing something that might potentially be stressful, such as getting kids ready for school while trying to cook breakfast, but where the women didn’t actually look stressed. “We combed through hundreds – if not more – videos to try to find a set that worked,” Dalton remembers.
The people watching the videos rated the women in them as being more stressed when they were exposed to the “stressed” body odours than when they were exposed to a mild neutral fragrance or to body odour samples collected from volunteers who’d been exercising. Male viewers, but not female ones, also rated the women as being less trustworthy, less competent and less confident, with the stressed odours. Yet the viewers didn’t rate any of the three odours as being more or less pleasant or even as being very different from the others. The team concluded that some kind of subconscious signalling was going on.
Although no one yet knows which specific chemicals convey information about our emotional state in this way, Dalton says just knowing that they exist means we can allow for them. Because she doesn’t believe she produces much body odour, Dalton doesn’t usually wear deodorant, but if she knows she’ll be going into a stressful situation, she puts some on – she wants to protect herself from any potentially psychologically damaging scent signals her own body may produce.
She thinks we could all benefit from a better understanding of how smells can affect us: “If we’re not aware we’re being influenced,” she explains, “we can’t guard against it.”
Nick Johnson is painfully aware that he can no longer smell himself, his daughter or anyone else. It’s not just because he knows what he is missing.
Smell and emotional states Some people born without being able to smell may have trouble identifying the emotional states of others, says Joel Mainland. They’re aware that although they rely heavily on facial expressions, for example, friends who can smell somehow seem to be picking up on signals they’re missing, signals that are so powerful they can override the emotional information contained in a smile or a frown.
They’ll talk about meeting up with a group of friends, Mainland explains, and one friend might say of another: “Oh, she wasn’t happy at all.” And they’ll say, “She looked happy.” And the other will say, “Yeah, she looked happy, but she clearly was not happy.”
Estimates of just how many people can’t smell usually range around a few percent of adults. That means millions of people live without smell – some born without it, others who have lost it. Chronic nasal sinus disease is one of the most common causes of loss in younger people. Another risk stems from the fact that our olfactory receptor neurons dangle down into our nostrils, leaving them exposed to damage from environmental toxins and infections.
In older, but not elderly, people, viral infections are often to blame. Even the common cold can do it, though why it should wipe out smell in some people but not others, no one knows. By the time we get to our 70s and 80s, very few of us will have escaped significant deterioration in our sense of smell. The system has a capacity to regenerate: the nerve cells are dying all the time and being replaced. But as we get older, this process slows, and the patches of nasal tissue without any olfactory receptors get bigger.
In Nick’s case, the cause was probably catastrophic damage to his olfactory receptor neurons. Heading from the nose to the brain, these neurons pass through a bony, sievelike structure. When he hit his head on the ice, the sudden movement of his brain inside his skull could have crushed or even cut them against the bone, preventing signals from his nose from reaching his brain.
No answerOnce he realised his sense of smell was gone, Nick went back to his neurologist and was surprised to be told there was nothing they could do to help. “He told me, ‘You may get your smell back in six to eight months, a year. Or you could never get it back.’
“With everything that had happened to me, I wanted an answer. And he said basically there isn’t an answer.”
There are effective treatments for some people who have lost their sense of smell. If the loss is caused by chronic sinus disease, you can treat that condition and reverse the smell loss – sometimes very rapidly. But for patients like Nick there’s little that can be done. He came to Monell to ask the researchers here if they had any advice, and the main recommendation was to actively smell a few different things a few times a day, because there’s evidence this can help to stimulate the system and may aid recovery.
Things may be different in the future. There is a team at Monell experimenting with nasal stem cells. Right now, they’re investigating the most effective ways of converting these stem cells into nerve cells. The hope is that this approach will provide new olfactory receptor neurons for people whose own have been permanently damaged or defective since birth. The team hope to start animal trials in September and, if those studies go well, to move to people in five to 10 years.
For now, though, Nick has to try to live with the knowledge that his sense of smell may never return.
Staying positiveLife is certainly different, he says. His co-workers are supportive. But he has to rely on their descriptions of how the new beers smell and taste. He misses the brewery’s scent; even that of the ice rink, and, now he notices what he’s lost, the smell of other familiar places.
“I walk into my parents’ house or my wife’s family’s house – and it doesn’t have that smell. And I miss the ambience and the smells when there’s an Eagles game, and everyone sets up grills in all the parking lots in south Philly, and grill up all kinds of crazy food items, and drink beer, hours before the game starts. Stuff you are used to … it’s just gone.”
Nick used to smoke all kinds of meat and regularly barbecue for family and friends. “I used to cook a lot more,” he says. “This has slowed things down.”
But while he can’t detect complex flavours, he can still get sweet, salty, bitter, sour and umami, and also the heat of chilli. “I love salt now. I put a lot of heat into things too, because I can get that. I put lots of cayenne in … At times, my wife will say, ‘This is ridiculous, I can’t even eat it!’”
There are some more serious consequences of not being able to smell, though. The safety valve on his gas cooker broke recently. He was in the kitchen at a time when it must have stunk of gas, but he went to bed oblivious to the danger to his sleeping family.
The glimmer of good news for Nick is that there are some promising signs. Strong-smelling things sometimes do produce a smell sensation, though it’s always the same. It used to be an awful burning-oil-type smell, he says. A few months ago, it shifted to something sweeter. This may be a sign that some kind of repair to the system is going on.
Nick says he’s determined to be positive, and to live life as close as possible to the way it was before the injury. He’s gone back to playing ice hockey – though he says, smiling, that he now has the best helmet money can buy.
The day of our lunch at the White Dog Café, it’s his son’s third birthday. On the way home, he’s going to pick up some kid-sized ice skates as a gift.
He recognises how serious the accident was, but also just how much worse things could have turned out. “I had blood on my brain. I could have died. My outlook is: I’m glad I’m not dead. If the loss of my sense of smell is what’s happened because of this, I’ll take it.”
This story first appeared on Mosaic and is republished here under a creative commons licence. The link to the original story is: http://mosaicscience.com/story/what-nose-knows
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