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211 results for “placeboeffect”
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A new study from the Università Cattolica in Milan demonstrated that taking a fake supplement (placebo) for three weeks can lead to both physical and cognitive improvements in older adults. People who knew they were taking a placebo had better results than those who did not. Here's the full story from Medicalxpress.com.
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🥴 Oh, the groundbreaking revelation that not all placebos wear the same lab coat! Our esteemed author regales us with tales of 18th-century gadgetry more effective at relieving wallets than ailments. 🚜✨ Who knew the placebo elite had such a rich history of being equally useless but differently priced?
https://www.samstack.io/p/all-placebos-are-not-created-equal #placebohistory #18thcenturygadgets #placeboeffect #medicalhumor #historicalinsights #HackerNews #ngated -
German researchers tested if side effects (e.g., a burning nose from a nasal spray) could enhance treatment. Turns out, they do! People felt less pain with placebo sprays causing mild side effects, believing "the meds work."
:doi: https://doi.org/10.1093/brain/awae132
This makes us rethink: could even mild sensations (bitter taste, slight burning) make drugs seem more effective? 🤔 No wonder this study won an #IgNobelPrize - it’s both funny and thought-provoking!
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Hotels and houseplants: why we should doubt Ellen Langer's mind-over-matter miracles - The Skeptic https://www.skeptic.org.uk/2024/06/hotels-and-houseplants-why-we-should-doubt-ellen-langers-mind-over-matter-miracles/ #skepticism #science #placeboEffect
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DATE: May 19, 2026 at 06:00PM
SOURCE: PSYPOST.ORG** Research quality varies widely from fantastic to small exploratory studies. Please check research methods when conclusions are very important to you. **
-------------------------------------------------TITLE: Brain connectivity predicts how well antidepressants work compared to placebos
People seeking treatment for depression often experience symptom relief whether they receive an active medication or an inactive placebo. By pooling data from various symptom surveys, researchers discovered that while the pattern of mood improvement looks remarkably similar in both scenarios, the active medication triggers a more intense recovery that is uniquely linked to a patient’s baseline brain connectivity. These findings were published in the journal Psychological Medicine.
Measuring mood improvement is notoriously difficult. Clinicians typically rely on standard questionnaires that condense a wide range of symptoms into a single score. This approach can blur the lines between different aspects of mental health, such as sadness, anxiety, and suicidal thoughts. It also makes it difficult to separate the effects of a pharmacological drug from the placebo effect.
The placebo effect occurs when a patient’s condition improves simply because they expect the treatment to work. Past studies comparing antidepressants to placebos often show little statistical difference when using broad, conventional rating scales. When patients take a pill, the expectation of feeling better often drives real neurobiological changes. To understand the true effect of a drug, researchers need tools that can distinguish the unique benefits of the medication from the baseline response generated by the mind.
Lucie Berkovitch, a researcher in the Department of Psychiatry at the Yale University School of Medicine, led a team to investigate this measurement problem. The researchers suspected that standard clinical evaluations were hiding subtle differences between pharmacological and placebo responses. They wanted to know if the underlying pattern of symptom relief was the same for both groups. They also sought to determine if an individual’s brain wiring before treatment could predict their chance of recovery.
To answer these questions, the team analyzed data from a past clinical trial involving 192 individuals with major depressive disorder. In the first phase of this trial, patients were randomly assigned to receive either a common antidepressant medication called sertraline or a placebo pill for eight weeks. The original trial researchers had collected detailed information on the patients’ depression, anxiety, suicidal thoughts, and manic symptoms. They also took magnetic resonance imaging scans of the patients’ brains before any treatment began.
During the trial, clinicians used a simple seven-point rating system called the Clinical Global Impressions scale to judge if patients were getting better. Based on this broad assessment, the original results showed no statistical difference between the sertraline and placebo groups. The percentage of people considered responders to the treatment was nearly identical between the active drug and the sugar pill.
Berkovitch and the team approached the data differently. They used a statistical technique to evaluate the responses across all the individual questions from four separate psychological surveys. Instead of just looking at the final scores calculated by doctors, the researchers let a computer algorithm find the most dominant pattern of change across 73 individual symptom questions. This data-driven approach compressed the wide variety of patient answers into a single mathematical dimension of clinical improvement.
The results revealed that patients in both the medication and placebo groups improved along the exact same path. Whether they received the active drug or the sugar pill, their symptom relief followed a shared geometry. The mathematical type of symptoms that changed over time remained consistent regardless of the pill they took.
However, the patients taking sertraline advanced much further along this path. The mathematical model showed that the antidepressant prompted a stronger overall recovery than the placebo. This heightened effect was driven largely by greater reductions in anxiety and a lower risk of suicidal thoughts.
This finding highlighted the limitations of the classic clinician rating scale. The basic seven-point assessment had failed to detect this difference in response intensity. Standard surveys often weigh physical symptoms heavily, which can obscure specific psychological improvements tracked by the mathematical model.
The team also looked at the patients’ symptoms at the start of the study to see if initial sickness levels could predict recovery. They found that severe anxiety and suicidal risk at baseline predicted larger improvements on the mathematical model for both groups. Conversely, high baseline scores specifically for depression only predicted recovery in the patients taking sertraline.
After the first eight weeks, the trial included a second phase where patients who did not show improvement were switched to new treatments. Nonresponders to the placebo received sertraline, and nonresponders to sertraline received bupropion, a different class of antidepressant. The researchers ran the mathematical model on this second phase and found the same shared pattern of improvement. This outcome suggests the symptom geometry is consistent even as medications change.
The researchers achieved their most revealing insights when analyzing the baseline brain scans. During a resting state scan, a machine measures how different areas of the brain communicate with one another while the patient is awake but not performing any specific task. The researchers mapped the global connectivity of the brain. They identified how strongly each small region was linked to the rest of the neural network.
They found that higher overall brain connectivity before treatment predicted a stronger recovery on the symptom model for patients taking the antidepressant. This meant that the biological setup of a patient’s brain could forecast how well they would respond to the actual medication. This forecasting effect was not statistically significant for the patients who received the placebo.
Specific networks within the brain also showed different predictive patterns. The connectivity of the amygdala, an almond-shaped cluster of neurons involved in processing fear and emotion, predicted symptom improvement across both groups. The broader overarching brain networks only correlated with the medical drug’s success. The pharmacological treatment appeared to target specific, reproducible brain circuits. The biological roots of the placebo effect proved to be noisier and harder to predict than the drug response.
The study relies on a secondary analysis of a previously completed trial, meaning the data was not collected specifically for this new mathematical approach. The sample size was relatively small for the type of statistical modeling used. Additionally, the original trial design did not include brain scans taken at the end of the eight-week treatment period. Without follow-up imaging, investigators could only observe what predicted recovery rather than seeing how the brain physically changed in response to the drug or the placebo.
Future research featuring larger groups of patients could help confirm if this single path of mood improvement holds true across different demographics and depression subtypes. Conducting new trials that include multiple scans over time would allow scientists to map how these neural networks actually reorganize as symptoms fade. Comparing different types of antidepressants side-by-side using the same computer modeling could reveal how different chemical mechanisms influence recovery. By refining how we measure the mind, doctors may eventually be able to use brain scans to match patients with the most effective personalized treatments.
The study, “A common symptom geometry of mood improvement under sertraline and placebo associated with distinct neural patterns,” was authored by Lucie Berkovitch, Kangjoo Lee, Jie Ji, Markus Helmer, Masih Rahmati, Jure Demsar, Aleksij Kraljic, Andraz Matkovic, Zailyn Tamayo, John Murray, Grega Repovs, John Krystal, William Martin, Clara Fonteneau, and Alan Anticevic.
-------------------------------------------------
DAILY EMAIL DIGEST: Email [email protected] -- no subject or message needed.
Private, vetted email list for mental health professionals: https://www.clinicians-exchange.org
Unofficial Psychology Today Xitter to toot feed at Psych Today Unofficial Bot @PTUnofficialBot
NYU Information for Practice puts out 400-500 good quality health-related research posts per week but its too much for many people, so that bot is limited to just subscribers. You can read it or subscribe at @PsychResearchBot
Since 1991 The National Psychologist has focused on keeping practicing psychologists current with news, information and items of interest. Check them out for more free articles, resources, and subscription information: https://www.nationalpsychologist.com
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It's primitive... but it works... mostly...
-------------------------------------------------
#psychology #counseling #socialwork #psychotherapy @psychotherapist @psychotherapists @psychology @socialpsych @socialwork @psychiatry #mentalhealth #psychiatry #healthcare #depression #psychotherapist #BrainConnectivity #DepressionTreatment #SertralineVsPlacebo #Antidepressants #PlaceboEffect #Neuroimaging #RestingState fMRI #MentalHealthResearch #PersonalizedMedicine #PsychologicalMedicine
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I made my husband ill with a few words – nobody is immune to the power of the nocebo effect | Helen Pilcher https://www.theguardian.com/commentisfree/2026/may/08/nocebo-effect-science-health #Health #Science #MedicalResearch #PlaceboEffect #HealthWellbeing #LifeAndStyle #Biology #UkNews
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I made my husband ill with a few words – nobody is immune to the power of the nocebo effect | Helen Pilcher https://www.theguardian.com/commentisfree/2026/may/08/nocebo-effect-science-health #Health #Science #MedicalResearch #PlaceboEffect #HealthWellbeing #LifeAndStyle #Biology #UkNews
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I made my husband ill with a few words – nobody is immune to the power of the nocebo effect | Helen Pilcher https://www.theguardian.com/commentisfree/2026/may/08/nocebo-effect-science-health #Health #Science #MedicalResearch #PlaceboEffect #HealthWellbeing #LifeAndStyle #Biology #UkNews
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I made my husband ill with a few words – nobody is immune to the power of the nocebo effect | Helen Pilcher https://www.theguardian.com/commentisfree/2026/may/08/nocebo-effect-science-health #Health #Science #MedicalResearch #PlaceboEffect #HealthWellbeing #LifeAndStyle #Biology #UkNews
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I made my husband ill with a few words – nobody is immune to the power of the nocebo effect | Helen Pilcher https://www.theguardian.com/commentisfree/2026/may/08/nocebo-effect-science-health #Health #Science #MedicalResearch #PlaceboEffect #HealthWellbeing #LifeAndStyle #Biology #UkNews
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Praiseth the sugar!
--- --- ---
Lobpreiset den Zucker!#KätToon #homoepathy #Satire #Homöopathie #PlaceboEffect #PlaceboEffekt
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Praiseth the sugar!
--- --- ---
Lobpreiset den Zucker!#KätToon #homoepathy #Satire #Homöopathie #PlaceboEffect #PlaceboEffekt
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Praiseth the sugar!
--- --- ---
Lobpreiset den Zucker!#KätToon #homoepathy #Satire #Homöopathie #PlaceboEffect #PlaceboEffekt
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Scientists discovered a fascinating trick to feeling like you slept great even if you didn’t
On a January evening at a restaurant in Mexico, El Jefe patiently waited for his name to be…
#NewsBeep #News #US #USA #UnitedStates #UnitedStatesOfAmerica #Health #Placebo #placeboeffect #Psychology #researchstudy #Science #ScientificResearch #Sleep #sleephacks #sleeptips #sleepingtechniques
https://www.newsbeep.com/us/466350/ -
Scientists discovered a fascinating trick to feeling like you slept great even if you didn’t
On a January evening at a restaurant in Mexico, El Jefe patiently waited for his name to be…
#NewsBeep #News #US #USA #UnitedStates #UnitedStatesOfAmerica #Health #Placebo #placeboeffect #Psychology #researchstudy #Science #ScientificResearch #Sleep #sleephacks #sleeptips #sleepingtechniques
https://www.newsbeep.com/us/466350/ -
⚠️ The nocebo effect shows that negative expectations can harm your health—your mind truly influences your body. 🧠✨
https://de320.isrefer.com/go/LUYDFREE/Stuartn/
#NoceboEffect #MindBodyConnection #Healing #MindsetMatters #ThinkandGrowEducation #RayBehan #Placeboeffect #Body -
https://de320.isrefer.com/go/LUYDV3RB/Stuartn/
Words have energy—and the impact of yours can change lives. Speak with intention. Be mindful. Be kind. #PowerOfWords #SpeakLife #MindfulCommunication #WordsMatter #KindnessCounts #EnergyInWords #ConsciousLiving #ThinkandGrowEducation #RayBehan #Placeboeffect #Meditation -
https://de320.isrefer.com/go/LUYDV3RB/Stuartn/
Words have energy—and the impact of yours can change lives. Speak with intention. Be mindful. Be kind. #PowerOfWords #SpeakLife #MindfulCommunication #WordsMatter #KindnessCounts #EnergyInWords #ConsciousLiving #ThinkandGrowEducation #RayBehan #Placeboeffect #Meditation -
https://de320.isrefer.com/go/LUYDV3RB/Stuartn/
Words have energy—and the impact of yours can change lives. Speak with intention. Be mindful. Be kind. #PowerOfWords #SpeakLife #MindfulCommunication #WordsMatter #KindnessCounts #EnergyInWords #ConsciousLiving #ThinkandGrowEducation #RayBehan #Placeboeffect #Meditation -
https://de320.isrefer.com/go/LUYDV3RB/Stuartn/
Words have energy—and the impact of yours can change lives. Speak with intention. Be mindful. Be kind. #PowerOfWords #SpeakLife #MindfulCommunication #WordsMatter #KindnessCounts #EnergyInWords #ConsciousLiving #ThinkandGrowEducation #RayBehan #Placeboeffect #Meditation -
1/2
Maybe related;
I've found multiple groupings around #Homeopathy.#EvidenceBasedMedicine says (perhaps) "We need large RandomControlledTrails to determine it's efficacy".
#ScienceBasedMedicine want to reject it's use as it's claimed mechanism is entirely fanciful.
#Skeptics follow #SBM .
#Clinicians (some) see (some) good outcomes and don't care if they're #PlaceboEffect #Placebo or not.
#PleasedUsers get results they want.
#DisappointedUsers try but aren't satisfied. -
CW: More #Punkrock #Placebo
I had some busy days, but now we are back with this italian #skapunk band
Shandon - Placebo Effect
https://invidious.nerdvpn.de/watch?v=NlGO3jbYMGQNearly every day a new punkrock song to make 2023 a better year than 2022 #Shandon #punkrock #PlaceboEffect
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DATE: May 19, 2026 at 06:00PM
SOURCE: PSYPOST.ORG** Research quality varies widely from fantastic to small exploratory studies. Please check research methods when conclusions are very important to you. **
-------------------------------------------------TITLE: Brain connectivity predicts how well antidepressants work compared to placebos
People seeking treatment for depression often experience symptom relief whether they receive an active medication or an inactive placebo. By pooling data from various symptom surveys, researchers discovered that while the pattern of mood improvement looks remarkably similar in both scenarios, the active medication triggers a more intense recovery that is uniquely linked to a patient’s baseline brain connectivity. These findings were published in the journal Psychological Medicine.
Measuring mood improvement is notoriously difficult. Clinicians typically rely on standard questionnaires that condense a wide range of symptoms into a single score. This approach can blur the lines between different aspects of mental health, such as sadness, anxiety, and suicidal thoughts. It also makes it difficult to separate the effects of a pharmacological drug from the placebo effect.
The placebo effect occurs when a patient’s condition improves simply because they expect the treatment to work. Past studies comparing antidepressants to placebos often show little statistical difference when using broad, conventional rating scales. When patients take a pill, the expectation of feeling better often drives real neurobiological changes. To understand the true effect of a drug, researchers need tools that can distinguish the unique benefits of the medication from the baseline response generated by the mind.
Lucie Berkovitch, a researcher in the Department of Psychiatry at the Yale University School of Medicine, led a team to investigate this measurement problem. The researchers suspected that standard clinical evaluations were hiding subtle differences between pharmacological and placebo responses. They wanted to know if the underlying pattern of symptom relief was the same for both groups. They also sought to determine if an individual’s brain wiring before treatment could predict their chance of recovery.
To answer these questions, the team analyzed data from a past clinical trial involving 192 individuals with major depressive disorder. In the first phase of this trial, patients were randomly assigned to receive either a common antidepressant medication called sertraline or a placebo pill for eight weeks. The original trial researchers had collected detailed information on the patients’ depression, anxiety, suicidal thoughts, and manic symptoms. They also took magnetic resonance imaging scans of the patients’ brains before any treatment began.
During the trial, clinicians used a simple seven-point rating system called the Clinical Global Impressions scale to judge if patients were getting better. Based on this broad assessment, the original results showed no statistical difference between the sertraline and placebo groups. The percentage of people considered responders to the treatment was nearly identical between the active drug and the sugar pill.
Berkovitch and the team approached the data differently. They used a statistical technique to evaluate the responses across all the individual questions from four separate psychological surveys. Instead of just looking at the final scores calculated by doctors, the researchers let a computer algorithm find the most dominant pattern of change across 73 individual symptom questions. This data-driven approach compressed the wide variety of patient answers into a single mathematical dimension of clinical improvement.
The results revealed that patients in both the medication and placebo groups improved along the exact same path. Whether they received the active drug or the sugar pill, their symptom relief followed a shared geometry. The mathematical type of symptoms that changed over time remained consistent regardless of the pill they took.
However, the patients taking sertraline advanced much further along this path. The mathematical model showed that the antidepressant prompted a stronger overall recovery than the placebo. This heightened effect was driven largely by greater reductions in anxiety and a lower risk of suicidal thoughts.
This finding highlighted the limitations of the classic clinician rating scale. The basic seven-point assessment had failed to detect this difference in response intensity. Standard surveys often weigh physical symptoms heavily, which can obscure specific psychological improvements tracked by the mathematical model.
The team also looked at the patients’ symptoms at the start of the study to see if initial sickness levels could predict recovery. They found that severe anxiety and suicidal risk at baseline predicted larger improvements on the mathematical model for both groups. Conversely, high baseline scores specifically for depression only predicted recovery in the patients taking sertraline.
After the first eight weeks, the trial included a second phase where patients who did not show improvement were switched to new treatments. Nonresponders to the placebo received sertraline, and nonresponders to sertraline received bupropion, a different class of antidepressant. The researchers ran the mathematical model on this second phase and found the same shared pattern of improvement. This outcome suggests the symptom geometry is consistent even as medications change.
The researchers achieved their most revealing insights when analyzing the baseline brain scans. During a resting state scan, a machine measures how different areas of the brain communicate with one another while the patient is awake but not performing any specific task. The researchers mapped the global connectivity of the brain. They identified how strongly each small region was linked to the rest of the neural network.
They found that higher overall brain connectivity before treatment predicted a stronger recovery on the symptom model for patients taking the antidepressant. This meant that the biological setup of a patient’s brain could forecast how well they would respond to the actual medication. This forecasting effect was not statistically significant for the patients who received the placebo.
Specific networks within the brain also showed different predictive patterns. The connectivity of the amygdala, an almond-shaped cluster of neurons involved in processing fear and emotion, predicted symptom improvement across both groups. The broader overarching brain networks only correlated with the medical drug’s success. The pharmacological treatment appeared to target specific, reproducible brain circuits. The biological roots of the placebo effect proved to be noisier and harder to predict than the drug response.
The study relies on a secondary analysis of a previously completed trial, meaning the data was not collected specifically for this new mathematical approach. The sample size was relatively small for the type of statistical modeling used. Additionally, the original trial design did not include brain scans taken at the end of the eight-week treatment period. Without follow-up imaging, investigators could only observe what predicted recovery rather than seeing how the brain physically changed in response to the drug or the placebo.
Future research featuring larger groups of patients could help confirm if this single path of mood improvement holds true across different demographics and depression subtypes. Conducting new trials that include multiple scans over time would allow scientists to map how these neural networks actually reorganize as symptoms fade. Comparing different types of antidepressants side-by-side using the same computer modeling could reveal how different chemical mechanisms influence recovery. By refining how we measure the mind, doctors may eventually be able to use brain scans to match patients with the most effective personalized treatments.
The study, “A common symptom geometry of mood improvement under sertraline and placebo associated with distinct neural patterns,” was authored by Lucie Berkovitch, Kangjoo Lee, Jie Ji, Markus Helmer, Masih Rahmati, Jure Demsar, Aleksij Kraljic, Andraz Matkovic, Zailyn Tamayo, John Murray, Grega Repovs, John Krystal, William Martin, Clara Fonteneau, and Alan Anticevic.
-------------------------------------------------
DAILY EMAIL DIGEST: Email [email protected] -- no subject or message needed.
Private, vetted email list for mental health professionals: https://www.clinicians-exchange.org
Unofficial Psychology Today Xitter to toot feed at Psych Today Unofficial Bot @PTUnofficialBot
NYU Information for Practice puts out 400-500 good quality health-related research posts per week but its too much for many people, so that bot is limited to just subscribers. You can read it or subscribe at @PsychResearchBot
Since 1991 The National Psychologist has focused on keeping practicing psychologists current with news, information and items of interest. Check them out for more free articles, resources, and subscription information: https://www.nationalpsychologist.com
EMAIL DAILY DIGEST OF RSS FEEDS -- SUBSCRIBE: http://subscribe-article-digests.clinicians-exchange.org
READ ONLINE: http://read-the-rss-mega-archive.clinicians-exchange.org
It's primitive... but it works... mostly...
-------------------------------------------------
#psychology #counseling #socialwork #psychotherapy @psychotherapist @psychotherapists @psychology @socialpsych @socialwork @psychiatry #mentalhealth #psychiatry #healthcare #depression #psychotherapist #BrainConnectivity #DepressionTreatment #SertralineVsPlacebo #Antidepressants #PlaceboEffect #Neuroimaging #RestingState fMRI #MentalHealthResearch #PersonalizedMedicine #PsychologicalMedicine
-
DATE: May 19, 2026 at 06:00PM
SOURCE: PSYPOST.ORG** Research quality varies widely from fantastic to small exploratory studies. Please check research methods when conclusions are very important to you. **
-------------------------------------------------TITLE: Brain connectivity predicts how well antidepressants work compared to placebos
People seeking treatment for depression often experience symptom relief whether they receive an active medication or an inactive placebo. By pooling data from various symptom surveys, researchers discovered that while the pattern of mood improvement looks remarkably similar in both scenarios, the active medication triggers a more intense recovery that is uniquely linked to a patient’s baseline brain connectivity. These findings were published in the journal Psychological Medicine.
Measuring mood improvement is notoriously difficult. Clinicians typically rely on standard questionnaires that condense a wide range of symptoms into a single score. This approach can blur the lines between different aspects of mental health, such as sadness, anxiety, and suicidal thoughts. It also makes it difficult to separate the effects of a pharmacological drug from the placebo effect.
The placebo effect occurs when a patient’s condition improves simply because they expect the treatment to work. Past studies comparing antidepressants to placebos often show little statistical difference when using broad, conventional rating scales. When patients take a pill, the expectation of feeling better often drives real neurobiological changes. To understand the true effect of a drug, researchers need tools that can distinguish the unique benefits of the medication from the baseline response generated by the mind.
Lucie Berkovitch, a researcher in the Department of Psychiatry at the Yale University School of Medicine, led a team to investigate this measurement problem. The researchers suspected that standard clinical evaluations were hiding subtle differences between pharmacological and placebo responses. They wanted to know if the underlying pattern of symptom relief was the same for both groups. They also sought to determine if an individual’s brain wiring before treatment could predict their chance of recovery.
To answer these questions, the team analyzed data from a past clinical trial involving 192 individuals with major depressive disorder. In the first phase of this trial, patients were randomly assigned to receive either a common antidepressant medication called sertraline or a placebo pill for eight weeks. The original trial researchers had collected detailed information on the patients’ depression, anxiety, suicidal thoughts, and manic symptoms. They also took magnetic resonance imaging scans of the patients’ brains before any treatment began.
During the trial, clinicians used a simple seven-point rating system called the Clinical Global Impressions scale to judge if patients were getting better. Based on this broad assessment, the original results showed no statistical difference between the sertraline and placebo groups. The percentage of people considered responders to the treatment was nearly identical between the active drug and the sugar pill.
Berkovitch and the team approached the data differently. They used a statistical technique to evaluate the responses across all the individual questions from four separate psychological surveys. Instead of just looking at the final scores calculated by doctors, the researchers let a computer algorithm find the most dominant pattern of change across 73 individual symptom questions. This data-driven approach compressed the wide variety of patient answers into a single mathematical dimension of clinical improvement.
The results revealed that patients in both the medication and placebo groups improved along the exact same path. Whether they received the active drug or the sugar pill, their symptom relief followed a shared geometry. The mathematical type of symptoms that changed over time remained consistent regardless of the pill they took.
However, the patients taking sertraline advanced much further along this path. The mathematical model showed that the antidepressant prompted a stronger overall recovery than the placebo. This heightened effect was driven largely by greater reductions in anxiety and a lower risk of suicidal thoughts.
This finding highlighted the limitations of the classic clinician rating scale. The basic seven-point assessment had failed to detect this difference in response intensity. Standard surveys often weigh physical symptoms heavily, which can obscure specific psychological improvements tracked by the mathematical model.
The team also looked at the patients’ symptoms at the start of the study to see if initial sickness levels could predict recovery. They found that severe anxiety and suicidal risk at baseline predicted larger improvements on the mathematical model for both groups. Conversely, high baseline scores specifically for depression only predicted recovery in the patients taking sertraline.
After the first eight weeks, the trial included a second phase where patients who did not show improvement were switched to new treatments. Nonresponders to the placebo received sertraline, and nonresponders to sertraline received bupropion, a different class of antidepressant. The researchers ran the mathematical model on this second phase and found the same shared pattern of improvement. This outcome suggests the symptom geometry is consistent even as medications change.
The researchers achieved their most revealing insights when analyzing the baseline brain scans. During a resting state scan, a machine measures how different areas of the brain communicate with one another while the patient is awake but not performing any specific task. The researchers mapped the global connectivity of the brain. They identified how strongly each small region was linked to the rest of the neural network.
They found that higher overall brain connectivity before treatment predicted a stronger recovery on the symptom model for patients taking the antidepressant. This meant that the biological setup of a patient’s brain could forecast how well they would respond to the actual medication. This forecasting effect was not statistically significant for the patients who received the placebo.
Specific networks within the brain also showed different predictive patterns. The connectivity of the amygdala, an almond-shaped cluster of neurons involved in processing fear and emotion, predicted symptom improvement across both groups. The broader overarching brain networks only correlated with the medical drug’s success. The pharmacological treatment appeared to target specific, reproducible brain circuits. The biological roots of the placebo effect proved to be noisier and harder to predict than the drug response.
The study relies on a secondary analysis of a previously completed trial, meaning the data was not collected specifically for this new mathematical approach. The sample size was relatively small for the type of statistical modeling used. Additionally, the original trial design did not include brain scans taken at the end of the eight-week treatment period. Without follow-up imaging, investigators could only observe what predicted recovery rather than seeing how the brain physically changed in response to the drug or the placebo.
Future research featuring larger groups of patients could help confirm if this single path of mood improvement holds true across different demographics and depression subtypes. Conducting new trials that include multiple scans over time would allow scientists to map how these neural networks actually reorganize as symptoms fade. Comparing different types of antidepressants side-by-side using the same computer modeling could reveal how different chemical mechanisms influence recovery. By refining how we measure the mind, doctors may eventually be able to use brain scans to match patients with the most effective personalized treatments.
The study, “A common symptom geometry of mood improvement under sertraline and placebo associated with distinct neural patterns,” was authored by Lucie Berkovitch, Kangjoo Lee, Jie Ji, Markus Helmer, Masih Rahmati, Jure Demsar, Aleksij Kraljic, Andraz Matkovic, Zailyn Tamayo, John Murray, Grega Repovs, John Krystal, William Martin, Clara Fonteneau, and Alan Anticevic.
-------------------------------------------------
DAILY EMAIL DIGEST: Email [email protected] -- no subject or message needed.
Private, vetted email list for mental health professionals: https://www.clinicians-exchange.org
Unofficial Psychology Today Xitter to toot feed at Psych Today Unofficial Bot @PTUnofficialBot
NYU Information for Practice puts out 400-500 good quality health-related research posts per week but its too much for many people, so that bot is limited to just subscribers. You can read it or subscribe at @PsychResearchBot
Since 1991 The National Psychologist has focused on keeping practicing psychologists current with news, information and items of interest. Check them out for more free articles, resources, and subscription information: https://www.nationalpsychologist.com
EMAIL DAILY DIGEST OF RSS FEEDS -- SUBSCRIBE: http://subscribe-article-digests.clinicians-exchange.org
READ ONLINE: http://read-the-rss-mega-archive.clinicians-exchange.org
It's primitive... but it works... mostly...
-------------------------------------------------
#psychology #counseling #socialwork #psychotherapy @psychotherapist @psychotherapists @psychology @socialpsych @socialwork @psychiatry #mentalhealth #psychiatry #healthcare #depression #psychotherapist #BrainConnectivity #DepressionTreatment #SertralineVsPlacebo #Antidepressants #PlaceboEffect #Neuroimaging #RestingState fMRI #MentalHealthResearch #PersonalizedMedicine #PsychologicalMedicine
-
The nocebo effect is real negative expectations can create negative outcomes. Be mindful of what you believe, because your mindset can shape your reality more than you think.
https://de320.isrefer.com/go/LUYDFREE/Stuartn/
#NoceboEffect #MindBodyConnection #PowerOfBelief #MindsetMatters #HealthAwareness #PositiveThinking #MentalStrength #WellnessJourney #ThinkandGrowEducation #RayBehan #NoceboEffect #PlaceboEffect -
Scientists discovered a fascinating trick to feeling like you slept great even if you didn't
https://web.brid.gy/r/https://www.upworthy.com/placebo-sleep-study
-
Scientists discovered a fascinating trick to feeling like you slept great even if you didn't
https://fed.brid.gy/r/https://www.upworthy.com/placebo-sleep-study
-
Scientists discovered a fascinating trick to feeling like you slept great even if you didn't
https://web.brid.gy/r/https://www.upworthy.com/placebo-sleep-study
-
Scientists discovered a fascinating trick to feeling like you slept great even if you didn't
https://web.brid.gy/r/https://www.upworthy.com/placebo-sleep-study