- Research article
- Open Access
Hypnosis in patients with perceived stress – a systematic review
BMC Complementary and Alternative Medicine volume 17, Article number: 323 (2017)
Although hypnosis and hypnotherapy have become more popular in recent years, the evidence for hypnosis to influence perceived stress is unclear. In this systematic review we searched and evaluated randomized clinical studies investigating the effect of hypnosis on perceived stress reduction and coping.
The Cochrane Central Register of Controlled Trials, the Cochrane Database of Systematic Reviews, the Database of Abstracts of Review of Effects, EMBASE, Medline, PsycINFO, PSYNDEX and PubMed were systematically screened from their inception until December 2015 for randomized controlled trials (RCTs) reporting about hypnosis or hypnotherapy for stress reduction in healthy participants. Risk of Bias was assessed according the Cochrane Collaboration recommendations.
Nine RCTs with a total of 365 participants met the inclusion criteria and were included in this review. Most included participants were medical students, predominantly female (n = 211). Mean age of participants ranged in most studies between 20 and 25 years, in three studies the mean ages were between 30 and 42 years. Perceived stress was measured by a wide range of psychological questionnaires including Face Valid Stress Test, Stress Thermometer, and immunological data was collected. All nine included studies used explorative designs and showed a high risk of bias. Six out of nine studies reported significant positive effects of hypnosis for stress reduction in the main outcome parameter compared to control groups (3 active controls, 3 no therapy controls). Immunological outcomes were assessed in six studies, the results were inconclusive.
Due to exploratory designs and high risk of bias, the effectiveness of hypnosis or hypnotherapy in stress reduction remains still unclear. More high quality clinical research is urgently needed.
Psychological distress and stress-related diseases are considered to be an important health issue world wide [1, 2] (Global Organization for Stress). Selye – one of the pioneers of stress research – postulated that “there is an integrated syndrome of closely interrelated adaptive reactions to non-specific stress itself; this has been termed the ‘General Adaption Syndrome’. It develops in three stages: the ‘Alarm Reaction’, the Stage of Resistance, and the Stage of Exhaustion. In the biological sense stress it is the interaction between damage and defense, just as in physics tension or pressure represents the interplay between a force and the resistance offered to it” . In the 1950s and 1960s Lazarus developed a more cognitive model of stress with more focus on the meaning of appraisal of the stressors by the individual . Heinrichs, Stächele, and Domes provide a modern and more operational definition of “stress” which includes important stress theories and models (e.g. by Selye as well as Lazarus) and their applicability in the clinical context: “Stress results from a threat of physiological and / or psychological integrity of a person, which causes an adaptive physiological, behavioral, emotional, and cognitive response. The individual amount of stress response is determined by integrating the individual psychobiological stress reactivity, the subjective threat assessment and the assessment of available coping resources. Stress thus represents a short-term imbalance between perceived burdensome requirements and regulation of available resources. Chronic stress occurs when the adaptive reaction does not lead to cope with the stressor and the imbalance remains.”  The stress associated symptomatology may include physiological (increased heart rate, muscular tension), cognitive (brooding, difficult concentrating), emotional (anxiety, anger, touchiness, lability) and social symptoms (social withdrawal).
Stress management techniques today play an important role in clinical work. In recent years modern clinical hypnosis and hypnotherapy have become increasingly popular and received greater attention worldwide. Hypnosis is defined as “a state of consciousness involving focused attention and reduced peripheral awareness characterized by an enhanced capacity for response to suggestion” . Hypnotherapy is defined as “the use of hypnosis in the treatment of a medical or psychological disorder or concern”  and additionally includes therapeutic conversation using hypnosystemic language and a resource-activating and solution-oriented attitude. Hypnotizability is defined “an individual’s ability to experience suggested alterations in physiology, sensations, emotions, thoughts, or behavior during hypnosis.” .
Cognitive-behavioral methods and also mindfulness-based stress reduction methods have been thoroughly investigated for their effectiveness and benefits for stress reduction [6,7,8]; several evidence-based cognitive-behavioral stress management trainings are available [9,10,11,12,13,14,15]. In comparison with those approaches the clinical effectiveness of hypnotherapeutic methods for stress reduction is still quite poorly investigated, although there is an abundance of practical literature from the psychotherapeutic practice to teach hypnotherapy interventions for coping with stress [16,17,18,19].
The aim of this systematic review is to investigate the actual status of clinical research on hypnotherapeutic approaches for stress reduction especially which psychotherapeutic interventions were used, which outcomes were assessed, how the effectiveness was measured and what effects were observed.
Eligibility criteria for studies to be included
Studies had to meet the following criteria to be eligible for the review:
Studies: Randomized controlled trials (RCTs) were included
Participants: Adult healthy participants (aged >18 years) with elevated perceived stress levels at present or future (preventive and therapeutic)
Interventions: Comparison of hypnosis/hypnotherapy with another active intervention or a no therapy group
Outcomes: Questionnaires measuring perceived stress, in addition immunological parameters possible
The Cochrane Central Register of Controlled Trials, the Cochrane Database of Systematic Reviews, the Database of Abstracts of Review of Effects, EMBASE, Medline, PsycINFO, PSYNDEX and PubMed were searched from their inception (Medline from 1946, EMBASE from 1947, PsycINFO from 1966 and PSYNDEX from 1978) until December 2015 without language restrictions. The key words for our search were: “hypnosis” OR “hypnotherapy” AND “stress management” AND “study”, “hypnosis” OR “hypnotherapy” AND “stress reduction” AND “study”. Additional searches were carried out in April 2017. In PubMed we also did the search with the terms “hypnosis” OR “hypnotherapy” AND “stress” AND “trial”. The Cochrane Central Register of Controlled Trials and the Cochrane Database of Systematic Reviews were furthermore searched with “hypnosis” OR “hypnotherapy” AND “stress”. Additionally, the reference lists of identified original and review articles were searched manually. Abstracts of identified records were screened, and the complete articles of potentially eligible studies were carefully screened by two investigators (SF, MT) independently to determine whether they met the eligibility criteria. Discrepancies were discussed until consensus was reached.
Data extraction and management
Data on included patients, design, interventions and controls, outcomes and results were extracted by SF using a predefined data extraction form. The results were reviewed by a second investigator (MT), discrepancies were discussed until consensus was reached. Study authors were contacted for additional information if necessary.
Assessment of risk of bias
Included RCTs were assessed for risk of bias according the Cochrane collaboration’s tool for assessing bias . This included the domains sequence generation, blinding of participants and personnel, blinding of outcome assessment, incomplete outcome data, selective reporting, and other sources of bias. Risk of bias was assessed for each domain as low, unclear and high risk of bias (SF). The assessments were reviewed by a second investigator (MT) and discrepancies were discussed until a consensus was reached.
The search process is presented in the flow chart (Fig. 1). We identified 247 abstracts of studies after removing duplicates. 219 records were excluded: 193 were not hypnosis-related and/or used no specific stress-measure and/or there were no healthy participants, 22 were no trials and 4 publications were inaccessible. 28 full-text articles were assessed for eligibility. After investigating full text manuscripts 19 papers had to be excluded due to methodological limitations: nine studies without control group design [22,23,24,25,26,27,28,29,30], three without reporting between group differences of testing [31,32,33]. In one study there was no randomization of subjects to groups . In two studies the study intervention was not hypnosis, but a kind of autogenic training  and Reiki in combination with positive imagery respectively . In four studies there were no healthy participants included, but samples of patients with specific disease conditions [37,38,39,40]. The remaining nine studies were included in this systematic review [41,42,43,44,45,46,47,48,49].
Characteristics of the included studies with samples, designs, interventions, type of control conditions, outcome measures, results, and information about the study quality are shown in Table 1.
Setting and participant characteristics
Most participants were medical students [43,44,45,46, 49]. In the study reported by Cardena et al. 79% of the sample were students; another 20% were regular employed persons . Barling and Raine recruited participants with the help of poster announcements around local fitness and health centres and did not provide further sociodemographic data of their participants . One study included high school teachers , another included secretaries from a large company .
More participants were females (n = 211); two studies had predominantly male participants [43, 44]; one study did not report on the gender of participants . Mean age ranged in most studies between 20 and 25 years, in three studies the mean ages were between 30 and 42 years [41, 42, 48], one study did not report on the age of participants .
Six RCTs used no intervention control groups (including waiting-list group design) [41,42,43,44,45, 49], two studies compared hypnosis with active control interventions, e.g. interventions stress reduction education [47, 48] and mock neurofeedback sessions . Two studies used a three- and four-armed-design respectively (Naito: 1. hypnosis, 2. Johrei (a Japanese visualization and healing technique), 3. neurofeedback ; Barling: 1. PMR, 2. PMR + guided imagery (GI), 3. PMR + GI + deep trance, 4. no intervention) .
Six studies assessed the hypnotizability and susceptibility of participants, respectively at baseline and assessed the effect of this variable on outcome measures: The measure most frequently used in the trials was the Harvard Group Scale of Hypnotic Susceptibility, Form A, by Shor and Orne [42, 43, 45, 46, 49, 50]. In contrast, Barling and Raine used the Stanford Hypnotic Clinical Scale for Adults by Morgan and Hilgard [41, 51]. Kiecolt-Glaser et al. who wanted to examine especially high susceptible participants, used the Harvard Group Scale of Hypnotic Susceptibility, Form A, by Shor and Orne  and as a second measure the Stanford Hypnotic Susceptibility Scale, Form C by Weitzenhoffer and Hilgard [45, 52].
Limitations/risk of bias
All included studies used exploratory designs and, following the publications, showed a high risk of bias (see Table 2) according to the Cochrane collaboration’s tool for assessing bias (compare table 2) . All studies were reported as RCTs, but details of randomization sequence generation and allocation concealment were only reported by Cardena et al. . No study reported blinding procedures of patients or therapists or blinding of outcome assessments. Only two studies reported on a low drop out rate [41, 44], the other studies had an unclear or high risk of attrition bias. However, the risk of outcome reporting bias was low in most studies. In the studies by Barling and Raine and Gruzelier et al. selective reporting due to incomplete presentation of results is possible with a high risk of outcome reporting bias [41, 43].
Most included studies had very small samples sizes. Due to the exploratory nature of the trials, none of the studies applied and reported sample size calculations.
Three studies used a combination of one or more sessions of group-hypnosis in combination with the use of an audiotape of the recorded interventions, that participants were instructed to use for home-based self-hypnosis for several weeks. The advised frequency of self-practice hypnosis varied in the trials from no specifications , to “at least 3 times a week”  to “3 times a day” . In one study only an audiotape with hypnosis intervention was given to the participants for self-practicing at least once a day for 14 days . Three studies used a combination of 5–10 and 14 sessions of group-hypnosis respectively and requested participants to practice self-hypnosis daily without an audiotape [44, 45, 49]. Kiecolt-Glaser et al. gave their participants a written manual as guide book to self-hypnosis. In two of the studies 2 and 4 group sessions were conducted, respectively, without further self-hypnosis training [47, 48].
Most studies used a hypnosis protocol consisting of the following procedures: Hypnotic induction, deepening exercises, imagery exercises, posthypnotic suggestions. The hypnotic induction techniques included focusing the attention on breathing [42, 47, 48], visual fixation , and the Spiegel-type eye-roll . Kiecolt-Glaser et al. did not report on their induction techniques [44, 45].
For deepening trance several techniques were used; Cardena et al. and Stanton used counting [42, 47]. Some studies used imagery of places of security, peace, or control , others did not specify the kind of imagination used [41, 44, 45]. Naito et al. combined their relaxation induction with a specific guided imagery of the immune system which was not further described . Stanton developed a hypnosis procedure using several creative imagery interventions to aim at physical relaxation, mental calmness, disposing of fears and doubts, removal of self-destructive thoughts, and remaking the day  (for further details see Table 1).
Several studies used posthypnotic suggestions aimed to improve immune function [41, 42] and to activate resources by increasing alertness, energy and concentration , greater relaxation throughout the day and enhanced comprehension and retention of learning content [44, 45]. Stanton applied a combination of hypnosis and Rational Emotive Therapy (RET) and gave his participants ten positive suggestions derived from key elements of RET which were based on a reformulation of Ellis’ challenges to his clients irrational ideas .
Barling and Raine reported that they compared three types of interventions, but did not explain in detail how their interventions were structured. They used Progressive muscle relaxation (PMR) vs. PMR and guided imagery vs. PMR and guided imagery and “deep trance with mind-body healing language” . Whitehouse et al. did not report the type of interventions they used .
Stress was measured and operationalized by a wide range of psychological questionnaires [41,42,43,44,45, 49] (compare Table 1), Face Valid Stress Test and Stress Thermometer, respectively [47, 48], and immunologic data [41, 43,44,45,46, 49].
Two studies used the Perceived Stress Scale (PSS) by Cohen et al.  to assess stress [42, 45], two studies used the Brief Symptom Inventory (BSI) by Derogatis and Spencer  to assess global stress [44, 49]. The remaining studies used different questionnaires or self-ratings for assessing burnout, depression, anxiety, positive and negative affects, and/or mood states as measurements of stress.
Barling and Raine reported significant differences in changes of burnout, anxiety and depression between hypnosis and control group . Cardena et al. reported less stress and better overall health in the hypnosis group compared to control group .
Kiecolt-Glaser et al. described in students a significant group x time interaction with non-significant changes between baseline and examination period within the relaxation group compared to significant increases in anxiety, obsessive compulsive symptomatology, and in the global severity index of Brief Symptom Inventory by Derogatis and Spencer  in the no-intervention group during examination period .
Whitehouse described a significant group x time interaction with significant lower results in the anxiety scale of Brief Symptom Inventory by Derogatis and Spencer  in the self-hypnosis group compared to the waiting list control group in students during examination period .
In the study by Stanton teachers in the hypnosis group experienced a significant reduction in irrational thinking compared to control group (4 sessions discussing stress reduction methods) directly after treatment, but also at a 12-month-follow-up, where the intervention group had a significant lower stress level than the control group .
Stanton reported that secretaries in the hypnosis group had significantly greater stress reduction compared to control group (2 sessions discussing stress management procedures) immediately after the intervention and at the 2-month-follow-up .
Immunological outcome measures
Gruzelier et al. described a significant interaction between group and session with a reduction in NK cells with exam stress in controls (no intervention) compared to a non-significant increase with hypnosis . Kiecolt-Glaser reported stable values of PHA stimulation (blastogenic response to phytohemagglutinin), Con A concentrations (blastogenic response to concanavalin A), CD3 + − and CD4 + T-lymphocytes for hypnotic-relaxation participants compared with declines for control group, for other immunologic parameters no significant group differences were observed .
Naito et al. reported that the extent of change of CD56+ NK cells and CD4+ T cells was significant greater in the Johrei group compared to the biofeedback group and to the hypnosis group .
Effects of hypnotizability/ susceptibility
Those studies, which investigates the effect of hypnotizability and susceptibilityon changes of psychological or immunological outcomes, respectively did not find any [41, 43, 45, 46, 49] or not more than scattered positive correlations  between hypnotizability measures and stress measures.
To date only very few studies have investigated the effectiveness of hypnosis on stress reduction. Summarizing our findings, we found unclear evidence for the effectiveness of hypnosis in stress reduction in healthy subjects. This result is mainly due to methodological limitations of the available included studies, such as the use of exploratory designs, small sample sizes and incomplete reporting. However, six out of nine studies reported a significant reduction of perceived stress with hypnosis [41, 42, 44, 47,48,49], in three studies immunological changes were reported, yet due to different outcomes measured a conclusion is difficult to draw [43, 45, 46]. Altogether the included studies did not find significant correlations between the hypnotizability or susceptibility of participants and the amount of stress reduction. The one study that included only highly susceptible participants found no evidence of an effect of hypnosis on psychological measures of stress reduction at all .
Strengths and limitations of this review
To our knowledge this is the first available systematic review on hypnosis for stress reduction in healthy subjects. It included only RCTs and only study designs with between group comparisons and included only studies clearly using hypnosis as intervention and using psychological outcome measures to assess perceived stress levels. Therefore we did not include studies on autogenic training which is described by some authors as a special and very standardized form of hypnosis [24, 55]. There may be more RCTs available for evaluation if the search would be extended to intervention strategies derived or inspired by hypnosis such as autogenic training or active imagination. We did also exclude research publications with diseased subjects and stress reduction as this was not the focus of our research questions.
Methodological concerns of the included studies
All identified studies used exploratory designs and included small samples of participants. Therefore the external validity of the results is questionable. In fact, most of the subjects included in the studies were students. This could be seen as a potential source of community bias. It is unclear if the results of the studies can be generalized to the population. However, the results of this review are partly in line with previous reviews on stress-management-programs for medical students [56, 57] and for mental health nurses, respectively , that included several studies with different methods of stress management (i.a. hypnosis). They found evidence for the effectiveness of stress management programs for these samples, but criticized similar methodological concerns, e.g. “a lack of consistency of outcome measures across studies”  and “a lack of careful control in most studies, few validated outcome measures, and heterogeneous interventions” .
Most of the included exploratory studies investigated a high variety of outcome measures without defining primary outcomes in advance. Several studies conducted numerous post hoc analyses as a way of exploring the data [43,44,45,46, 49] with some positive and some negative results. In such cases, it is still very difficult to draw conclusions. Also a variety of different psychological outcome measures were used resulting in difficulties in comparison.
The fact that no study reported blinding procedures of patients or therapists or blinding of outcome assessments has to do with the nature of investigated treatment technique. People usually recognize if they are hypnotized, if direct and classical methods of hypnosis are used. An effort to create a form of control condition, that might appear to be hypnosis yet is not, is unrealistic to implement.
Our review clearly shows that research efforts about the effect of hypnosis on stress reduction in healthy subjects have never proceeded from the initial exploratory phase to a stage of confirmatory clinical studies.
One of our research questions was to find out which hypnotherapeutic interventions had been used successfully in the past. In summary the hypnotherapeutic techniques used as interventions in the included studies were very heterogeneous and were often not very well described. Most of the study interventions used aimed to increase relaxation. Some of them had their focus more on investigating the effect of hypnosis on the immune system rather than stress reduction [43,44,45,46]. Barling and Raine as well as Whitehouse et al. did not report in detail what kind of hypnotherapeutic techniques were used [41, 49]. Cardena as well as Gruzelier et al. only used basic hypnotherapeutic strategies such as imagining a place of peace and quiet in combination with some suggestions for improved immune functions [42, 43]. Some interventions aimed to specifically increase stress coping by improving the ability to relax physically and calm down mentally using various specific imagery exercises and suggestions [44,45,46]. But as Yapko stated, relaxation is “simply a stepping stone in the direction of facilitating more complex hypnotic experiences. … No one would simply do a relaxation process and then expect the client to undergo a painless surgery.” .
So at least in theory (and teaching) hypnosis offers specific possibilities and suggestions to improve one’s ability to cope with stress that go beyond simple relaxation techniques including many cognitive and behavioral components. Examples for those specific hypnotic interventions can be found at Stanton (1991), who used techniques aiming to improve one’s ability to protect oneself from stressors  or changing irrational cognitions about one’s performance orientation . One of our hypotheses, derived from hypnotherapeutic theory, was that the effect of the interventions can be increased by the use of more specific and individualized suggestions. Our data is insufficient to discuss this hypothesis, but for future prospective trials it would be interesting to include arms with general relaxation techniques only and others with augmented specific suggestions and techniques.
Implications for further research
Overall the role of hypnosis in stress reduction has to be investigated more thoroughly by using accurate research methods. For future trials we would recommend including the following aspects:
Implementation of qualitative research in order to find out which hypnotherapeutic interventions are really used by psychotherapists in their daily clinical work and which outcomes are reported by patients.
Development of standardized or semi-standardized (allowing individualization) hypnotherapeutic interventions together with stakeholders (e.g. therapists, patients). The use of well suited outcome measures for perceived stress, quality of life and other measures such as self-efficacy and others.
A pre-testing of interventions and outcome measures using mixed methods research.
The use of a confirmatory RCT design comparing active and semi-standardized hypnotherapeutic interventions with active control groups (e.g. behavioral therapy, empathic listening, listening to music) or no intervention control (e.g. waiting list). This may include group or individual interventions.
Due to the exploratory nature and low quality of the included studies the effectiveness of hypnosis or hypnotherapy for stress reduction remains unclear. More high quality clinical research is needed.
Heinrichs M, Stächele T, Domes G. Stress und Stressbewältigung. Hogrefe Verlag: Göttingen; 2015.
Anderson NB, Bennett Johnson S, Belar CD, Breckler SJ, Nordal KC, Ballard D, et al. Stress in America: our health at risk. In: Am Psychol Assoc. 2012;
Selye H. Stress and the general adaptation syndrome. Br med J. 1950;1(4667):1383–92.
Lazarus RS, Folkman S. Stress, Appraisal and Coping. New York: Springer Publishing Company; 1984.
Elkins GR, Barabasz AF, Council JR, Spiegel D. Advancing research and practice: the revised APA division 30 definition of hypnosis. Am J Clin Hypn. 2015;57(4):378–85.
de Vibe M, Solhaug I, Tyssen R, Friborg O, Rosenvinge JH, Sørlie T, et al. Mindfulness training for stress management: a randomised controlled study of medical and psychology students. BMC Med Educ. 2013;13(1):1.
Bazarko D, Cate RA, Azocar F, Kreitzer MJ. The impact of an innovative mindfulness-based stress reduction program on the health and well-being of nurses employed in a corporate setting. J Workplace Behav Health. 2013;28(2):107–33.
Morledge TJ, Allexandre D, Fox E, Fu AZ, Higashi MK, Kruzikas DT, et al. Feasibility of an online mindfulness program for stress management—a randomized, controlled trial. Ann Behav med. 2013;46(2):137–48.
Drexler D. Das integrierte Stressbewältigungsprogramm ISP. Manual und Materialien für Therapie und Beratung. 3rd ed. Stuttgart: Klett-Cotta; 2012.
Meichenbaum D. Intervention bei Stress: Anwendung und Wirkung des Stressimpfungstrainings. 3rd ed. Bern: Huber; 2012.
Schelp T, Gravemeier R, Maluck D. Rational-emotive Therapie als Gruppentraining gegen Streß. Seminarkonzepte und Materialien. Bern: Huber; 1997.
Kaluza G. Gelassen und sicher im Stress. Psychologisches Programm zur Gesundheitsförderung. Berlin: Springer; 1996.
Reschke K, Schröder H. Optimistisch den Stress meistern. Tübingen. DGVT-Verlag: Tübingen; 2000.
Müller H, Kröger CB: Der erfolgreiche Umgang mit täglichen Belastungen. Programm zur Stressbewältigung, 6 edn. München: IFT; 2013.
Wagner-Link A. Verhaltenstraining zur Stressbewältigung. Arbeitsbuch für Therapeuten und Trainer. Stuttgart: Klett-Cotta Verlag; 2010.
Hammond DC. Handbook of hypnotic suggestions and metaphors. New York: W. W. Norton & Company; 1990.
Alman BM, Lambrou PT. Self-hypnosis: the complete manual for health and self-change. 2nd ed. New York: Routledge; 2013.
Zeyer R. Hypnotherapeutische Strategien bei akutem und chronischem Stress. Heidelberg: Carl-Auer Verlag; 2012.
Revenstorf D, Zeyer R. Hypnose lernen. Leistungssteigerung und Streßbewältigung durch Selbsthypnose. 7th ed. Heidelberg: Carl-Auer; 2006.
Moher D, Liberati A, Tetzlaff J, Altman DG. Preferred reporting items for systematic reviews and meta-analyses: the PRISMA statement. PLoS med. 2009;6(7):e1000097.
Higgins JP, Altman DG, Gotzsche PC, Juni P, Moher D, Oxman AD, Savovic J, Schulz KF, Weeks L, Sterne JA: The Cochrane Collaboration's tool for assessing risk of bias in randomised trials. Bmj (Clinical research ed) 2011, 343:d5928.
Airosa F, Andersson SK, Falkenberg T, Forsberg C, Nordby-Hornell E, Ohlen G, et al. Tactile massage and hypnosis as a health promotion for nurses in emergency care--a qualitative study. BMC Complement Altern med. 2011;11:83.
Dominguez TB, Martinez G, Silvia A, Zaldivar I, Olvera Y, Victorio A. Streß-Management mit Hypnose und sensorisch-emotionale Umwandlung bei chronischen Schmerzen. Experimentelle und Klinische Hypnose. 1997;13(2):125–32.
Houghton DM. Autogenic training: a self-hypnosis technique to achieve physiological change in a stress management programme. Contemp Hypn. 1996;13(1):39–43.
Soskis DA, Orne EC, Orne MT, Dinges DF. Self-hypnosis and meditation for stress management: a brief communication. Int J Clin exp Hypn. 1989;37(4):285–9.
Schoen M, Nowack K. Reconditioning the stress response with hypnosis CD reduces the inflammatory cytokine IL-6 and influences resilience: a pilot study. Complement Ther Clin Pract. 2013;19(2):83–8.
VandeVusse L, Hanson L, Berner MA, White Winters JM. Impact of self-hypnosis in women on select physiologic and psychological parameters. J Obstet, Gynecol Neonatal Nurs. 2010;39(2):159–68.
Wood GJ, Bughi S, Morrison J, Tanavoli S, Tanavoli S, Zadeh HH. Hypnosis, differential expression of cytokines by T-cell subsets, and the hypothalamo-pituitary-adrenal axis. Am J Clin Hypn. 2003;45(3):179–96.
Yu CKC. Application of cognitive-behavioural hypnotic treatment for anxiety management in the Chinese. Contemp Hypn. 2005;22(2):104–14.
Yu CKC. Cognitive-behavioural hypnotic treatment for managing examination anxiety and facilitating performance. Contemp Hypn. 2006;23(2):72–82.
Johansson B, Unestahl LE. Stress reducing regulative effects of integrated mental training with self-hypnosis on the secretion of dehydroepiandrosterone sulfate (DHEA-S) and cortisol in plasma: a pilot study. Contemp Hypn. 2006;23(3):101–10.
Johnson VC, Walker LG, Heys SD, Whiting PH, Eremin O. Can relaxation training and hypnotherapy modify the immune response to stress, and is hypnotizability relevant? Contemp Hypn. 1996;13:100–8.
Palan BM, Chandwani S. Coping with examination stress through hypnosis: an experimental study. Am J Clin Hypn. 1989;31(3):173–80.
Jambrik Z, Sebastiani L, Picano E, Ghelarducci B, Santarcangelo EL. Hypnotic modulation of flow-mediated endothelial response to mental stress. Int J Psychophysiol. 2005;55(2):221–7.
Charlesworth EA, Murphy S, Beutler LE. Stress management skill for nursing students. J Clin Psychol. 1981;37(2):284–90.
Bowden D, Goddard L, Gruzelier J. A randomised controlled singel-blind trial of the effects of Reiki and positive imagery on well-being and salivary cortisol. Brain res Bull. 2010;81:66–72.
Faymonville ME, Mambourg PH, Joris J, Vrijens B, Fissette J, Albert A, et al. Psychological approaches during conscious sedation. Hypnosis versus stress reducing strategies: a prospective randomized study. Pain. 1997;73(3):361–7.
Pfitzer BE, Clark K, Revenstorf D. [medical hypnosis in cases of herpes labialis improves resistance for recurrence. A pilot study]. Der Hautarzt. Zeitschrift fur Dermatologie, Venerologie, und Verwandte Gebiete. 2005;56(6):562–8.
Swirsky-Sacchetti T, Margolis CG. The effects of a comprehensive self-hypnosis training program on the use of factor VIII in severe hemophilia. Int J Clin exp Hypn. 1986;34(2):71–83.
Taylor DN. Effects of a behavioral stress-management program on anxiety, mood, self-esteem, and T-cell count in HIV positive men. Psychol rep. 1995;76(2):451–7.
Barling NR, Raine SJ. Some effects of hypnosis on negative affect and immune system response. J Clin Exp Hypn. 2005;33(2):160–77.
Cardena E, Svensson C, Hejdstrom F. Hypnotic tape intervention ameliorates stress: a randomized, control study. Int J Clin exp Hypn. 2013;61(2):125–45.
Gruzelier J, Smith F, Nagy A, Henderson D. Cellular and humoral immunity, mood and exam stress: the influences of self-hypnosis and personality predictors. Int J Psychophysiol. 2001;42(1):55–71.
Kiecolt-Glaser JK, Glaser R, Strain EC, Stout JC, Tarr KL, Holliday JE, et al. Modulation of cellular immunity in medical students. J Behav med. 1986;9(1):5–21.
Kiecolt-Glaser JK, Marucha PT, Atkinson C, Glaser R. Hypnosis as a modulator of cellular immune dysregulation during acute stress. J Consult Clin Psychol. 2001;69(4):674–82.
Naito A, Laidlaw TM, Henderson DC, Farahani L, Dwivedi P, Gruzelier JH. The impact of self-hypnosis and Johrei on lymphocyte subpopulations at exam time: a controlled study. Brain res Bull. 2003;62(3):241–53.
Stanton HE. Hypnosis and rational-emotive therapy--a de-stressing combination: a brief communication. Int J Clin exp Hypn. 1989;37(2):95–9.
Stanton HE: The reduction in secretarial stress. Contemp Hypn 1991, 8(1).
Whitehouse WG, Dinges DF, Orne EC, Keller SE, Bates BL, Bauer NK, et al. Psychosocial and immune effects of self-hypnosis training for stress management throughout the first semester of medical school. Psychosom med. 1996;58(3):249–63.
Shor R, Orne E. The Harvard group scale of hypnotic susceptibility, form a. CA: Consulting Psychologists: Palo Alto; 1962.
Morgan AH, Hilgard JR. The Stanford hypnotic clinical scale for adults. Am J Clin Hypn. 1978;21(2–3):134–47.
Weitzenhoffer AM, Hilgard ER. Stanford hypnotic susceptibility scale, form C. CA: Consulting Psychologists: Palo Alto; 1962.
Cohen S, Kamarck T, Mermelstein R. A global measure of perceived stress. J Health soc Behav. 1983;24(4):385–96.
Derogatis LR, Spencer PM. The brief Symptom Inventory (BSI): administration, scoring, and procedures manual I. Clinical Psychometric Research: Baltimore, Md; 1982.
Hammond DC. Hypnosis in the treatment of anxiety- and stress-related disorders. Expert rev Neurother. 2010;10(2):263–73.
Shapiro SL, Shapiro DE, Schwartz GE. Stress management in medical education: a review of the literature. Acad med. 2000;75(7):748–59.
Shiralkar MT, Harris TB, Eddins-Folensbee FF, Coverdale JH. A systematic review of stress-management programs for medical students. Acad Psychiatry. 2013;37(3):158–64.
Edwards D, Burnard P. A systematic review of stress and stress management interventions for mental health nurses. J adv Nurs. 2003;42(2):169–200.
Yapko MD. Essentials of hypnosis. 2nd ed. New York: Routledge; 2015.
Maslach C, Schaufeli WB, Leiter MP. Job burnout. Annu rev Psychol. 2000;52:397–422.
Lovibond SH, Lovibond PF. Manual for the depression anxiety stress scales. Psychology Foundation: Sydney; 1995.
Melamed S, Kushnir T, Shirom A: Burnout and risk factors for cardiovascular diseases. Behav med (Washington, DC) 1992, 18(2):53-60.
Folkman S, Lazarus RR: Ways of coping questionnaire: Consulting Psychologists press; 1988.
Goldberg D, Williams P. A users guide to the general health questionnaire. NFER-Nelson: Slough, United Kingdom; 1988.
Thayer RE. Measurement of activation through self-report. Psychol rep. 1967;20(2):663–78.
Spielberger CD, Gorusch RL, Lushene RD. STAI manual for the state-trait anxiety Inventory. Palo Alto: CA: Consulting Psychologists Press; 1970.
Gruzelier J, Croft R, Kaiser J, Burgess A. Personality syndrome rating scale: reliability, validity and experimental evidence. Int J Psychophysiol. 2000;
Shaver P, Furman W, Buhrmester D. Aspects of al life transition: network changes, social skills, and loneliness. In: Duck S, Perlman D, editors. The sage series in personal relationships. Volume 1 ed. London: Sage; 1984.
Watson D, Clark LA, Tellegen A. Development and validation of brief measures of positive and negative affect: the PANAS scales. J Pers soc Psychol. 1988;54(6):1063–70.
Rubenstein CM, Shaver P. The experience of loneliness. In: Peplau LA, Perlman D, editors. Loneliness: a sourcebook of current theory, research, and therapy. New York: Wiley; 1982. p. 206–23.
Bernard ME, Joyce MR, Rosewarne PM. Helping teachers cope with stress. In: Ellis AA, Bernard ME, editors. Rational-emotive approaches to the problems of childhood. New York: Plenum; 1983. p. 415–66.
Francis, Stanley: Stress thermometer. 1989.
McNair DM, Lorr M, Druppleman LF. EITS manual for the profile of mood states. San Diego: Educational and Industrial Test Services; 1971.
Russell D, Peplau LA, Cutrona CE. The revised UCLA loneliness scale: concurrent and discriminant validity evidence. J Pers soc Psychol. 1980;39(3):472–80.
This was an investigator initiated study without funding.
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The included studies are listed in the references.
SF, MT and BB developed the research idea and the methodology, SF did the literature research, SF screened the identified records, SF and MT screened the complete articles of potentially eligible studies independently to determine whether they met the eligibility criteria. SF extracted the data, MT reviewed the results, discrepancies were discussed until consensus was reached. SF assessed risk of bias, MT reviewed the assessments and discrepancies were discussed until a consensus was reached. SF wrote the first draft of the manuscript, MT and BB edited the manuscript. All authors read and approved the final manuscript.
All authors declare that they have no competing interests.
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Fisch, S., Brinkhaus, B. & Teut, M. Hypnosis in patients with perceived stress – a systematic review. BMC Complement Altern Med 17, 323 (2017). https://doi.org/10.1186/s12906-017-1806-0
- Perceived stress
- Stress reduction
- Systematic review