1. Pregnant women may want to get a handle on stress during pregnancy because

 

· Stress and anxiety during pregnancy have been linked with preterm birth and adverse birth outcomes including emergency cesarean. (National Research Council, 2007) (Laursen et al., 2009)

· Maternal anxiety during pregnancy can be detrimental to fetal development; research suggests that negative effects can extend into childhood and adolescence, probably by way of epigenetic processes begun during the fetal period that shape neural pathways. (Van den Bergh et al., 2005) (e.g., Betts et al., 2014; O’Connor et al., 2002)

· When mothers are anxious or depressed, they are less likely to parent their children in sensitive and responsive ways. (Deater-Deckard, 2008)

 

“Mindfulness is a theoretically - and empirically - supported strategy that holds promise for alleviating perinatal mood concerns as well as childbirth-related fear and pain.”  Larissa Duncan, UCSF School of Medicine

 

2. Mindfulness training for childbirth has been shown to

 

· Significantly decrease pregnancy-related anxiety. (Duncan & Bardacke, 2010)

· Reduce the fear of labor, particularly benefiting those experiencing mental health stress. (Veringa et al., 2016) (Duncan, et al., 2014)

· Lessen symptoms of postpartum depression. (Duncan et al., 2017)

· Reduce stress and anxiety into the first year of parenting and improve the overall postpartum experience. (Lonnberg, pending) (Kantrowitz-Gordon et al., 2017)

 

“Mindfulness-Based Childbirth and Parenting is effective at reducing pregnancy-related anxiety and increasing positive emotion among pregnant women, and is beneficial for parenting.” Larissa Duncan, UCSF School of Medicine

 

3. The prenatal period presents an opportunity to change a life’s trajectory

 

· Secure Attachment - Evidence is showing that parents in mindfulness courses are more available for attachment, a cornerstone of well-being for anyone starting out in life (Synder et al., 2010)

· Epigenetic Benefits? - Research currently underway by Richard Davidson’s team at the University of Wisconsin is examining the impact of mindfulness training during pregnancy on the brains of babies, exploring to what degree such experiences in utero might epigenetically predispose a baby toward greater calm and an increased capacity for connection.

 

From www.franticworld.com

• Anxiety, stress, depression, exhaustion and irritability all decrease with regular sessions of meditation (1). Memory improves, reaction times become faster and mental and physical stamina increase (2). In short, regular meditators are happier and more contented, while being far less likely to suffer from psychological distress (15).

 

• The course in the book Mindfulness: Finding Peace in a Frantic World  can significantly reduce anxiety, stress and depression during periods of acute pressure such as university exams. Life satisfaction and self-compassion are also enhanced (28, 29).

 

• Mindfulness can dramatically reduce pain and the emotional reaction to it (5,6). Recent trials suggest that average pain ‘unpleasantness’ levels can be reduced by 57 per cent while accomplished meditators report reductions of up to 93 per cent (7).

 

• Clinical trials show that mindfulness improves mood and quality of life in chronic pain conditions such as fibromyalgia (8) and lower-back pain (9), in chronic functional disorders such as IBS (10), and in challenging medical illnesses, including multiple sclerosis (11) and cancer (12).

 

• Mindfulness improves working memory, creativity, attention span and reaction speeds. It also enhances mental and physical stamina and resilience (13).

 

• Meditation improves emotional intelligence (14).

 

• Mindfulness is at least as good as drugs or counselling for the treatment of clinical-level depression. One structured programme known as Mindfulness-Based Cognitive Therapy (MBCT) is now one of the preferred treatments recommended by the UK’s National Institute for Health and Clinical Excellence (16).

 

• Mindfulness reduces addictive and self-destructive behaviour. These include the abuse of illegal and prescription drugs and excessive alcohol intake (17).

 

• Meditation enhances brain function. It increases grey matter in areas associated with self-awareness, empathy, self-control and attention (18). It soothes the parts of the brain that produce stress hormones (19) and builds those areas that lift mood and promote learning (20) It even reduces some of the thinning of certain areas of the brain that naturally occurs with ageing (although this may result primarily from a reduction in stress levels) (21).

 

• Meditation improves the immune system. Regular meditators are admitted to hospital far less often for cancer, heart disease and numerous infectious diseases (22)

 

•Meditation and mindfulness improve control of blood sugar in type II diabetes (24)

 

• Meditation improves heart and circulatory health by reducing blood pressure and lowering the risk of hypertension. Mindfulness reduces the risks of developing and dying from cardiovascular disease and lowers its severity should it arise (25).

 

1 Baer, R. A., Smith, G. T., Hopkins, J., Kreitemeyer, J. & Toney, L. (2006), ‘Using self-report assessment methods to explore facets of mindfulness’, Assessment, 13, pp. 27–45.

2 Jha, A., et al. (2007), ‘Mindfulness training modifies subsystems of attention’, Cognitive Affective and Behavioral Neuroscience, 7, pp. 109–19; Tang, Y. Y., Ma, Y., Wang, J., Fan, Y., Feng, S., Lu, Q., et al. (2007), ‘Short-term meditation training improves attention and self-regulation’, Proceedings of the National Academy of Sciences (US), 104(43), pp. 17152–6; McCracken, L. M. & Yang, S.-Y. (2008), ‘A contextual cognitive-behavioral analysis of rehabilitation workers’ health and well-being: Influences of acceptance, mindful- ness and values-based action’, Rehabilitation Psychology, 53, pp.479–85; Ortner, C. N. M., Kilner, S. J. & Zelazo, P. D. (2007), ‘Mindfulness meditation and reduced emotional interference on a cognitive task’, Motivation and Emotion, 31, pp. 271–83; Brefczynski-Lewis, J. A., Lutz, A., Schaefer, H. S., Levinson, D. B. & Davidson, R. J. (2007), ‘Neural correlates of attentional expert- ise in long-term meditation practitioners’, Proceedings of the National Academy of Sciences (US), 104(27), pp. 11483–8.

3. Brown, Christopher A., Jones, Anthony K. P., (2013) ‘Psychobiological Correlates of Improved Mental Health in Patients With Musculo- skeletal Pain After a Mindfulness-based Pain Management Program’, Clinical Journal of Pain, 29(3), pp. 233–44.

4. Zeidan, F., Martucci, K. T., Kraft, R. A., Gordon, N. S., McHaffie, J. G. & Coghill, R. C. 2011, ‘Brain Mechanisms Supporting the Modu- lation of Pain by Mindfulness Meditation’, Journal of Neuroscience, 31(14), p. 5540. See also the accompanying comments regarding mor- phine effectiveness by Fadel Zeidan of the Wake Forest University School of Medicine at http://ow.ly/i8rZs.

5. Kabat-Zinn, J., Lipworth, L., Burncy, R. & Sellers, W. (1986), ‘Four- year follow-up of a meditation-based program for the self- regulation of chronic pain: Treatment outcomes and compliance’, Clinical Journal of Pain, 2, p. 159; Morone, N. E., Greco, C. M. & Weiner, D. K. (2008), ‘Mindfulness meditation for the treatment of chronic low back pain in older adults: A randomized controlled pilot study’, Pain, 134(3), pp. 310–19; Grant, J. A. & Rainville, P. (2009), ‘Pain sensitivity and analgesic effects of mindful states in zen medi- tators: A cross-sectional study’, Psychosomatic Medicine, 71(1), pp. 106–14.

6. Brown, Christopher A., Jones, Anthony K. P. 2013, MD, ‘Psycho- biological Correlates of Improved Mental Health in Patients With Musculoskeletal Pain After a Mindfulness-based Pain Management Program’, Clinical Journal of Pain, 29(3), pp. 233–44.

7. Zeidan, F., Martucci, K. T., Kraft, R. A., Gordon, N. S., McHaffie, J. G. & Coghill, R. C. 2011, ‘Brain Mechanisms Supporting the Modulation of Pain by Mindfulness Meditation’, Journal of Neuro- science, 31(14), p. 5540. See also the accompanying comments regarding morphine effectiveness by Fadel Zeidan of the Wake Forest University School of Medicine at http://ow.ly/i8rZs.

8. Grossman, P., Tiefenthaler-Gilmer, U., Raysz, A. & Kesper, U. (2007), ‘Mindfulness training as an intervention for fibromyalgia: evidence of postintervention and 3-year follow-up benefits in well-being’, Psychotherapy and Psychosomatics, 76, pp. 226–233; Sephton, S. E., Salmon, P., Weissbecker, I., Ulmer, C., Floyd, A., Hoover, K., et al. (2007), ‘Mindfulness meditation alleviates depressive symptoms in women with fibromyalgia: results of a randomized clinical trial’, Arthritis & Rheumatism, 57, pp. 77–85; Schmidt, S., Grossman, P., Schwarzer, B., Jena, S., Naumann, J., and Walach, H. (2011), ‘Treating fibromyalgia with mindfulness-based stress reduction: results from a 3- armed randomized controlled trial’, Pain 152, pp. 361–9.

9. Morone, N. E., Lynch, C. S., Greco, C. M., Tindle, H. A. & Weiner, D. K. (2008b), ‘“I felt like a new person” – the effects of mindfulness med- itation on older adults with chronic pain: qualitative narrative analysis of diary entries’, Journal of Pain, 9, pp. 841–8.

10. Gaylord, S. A., Palsson, O. S., Garland, E. L., Faurot, K. R., Coble, R. S., Mann, J. D., et al. (2011), ‘Mindfulness training reduces the sever- ity of irritable bowel syndrome in women: results of a randomized controlled trial’, American Journal of Gastroenterology, 106, pp. 1678–88.

11. Grossman, P., Kappos, L., Gensicke, H., D’souza, M., Mohr, D. C., Penner, I. K., et al. (2010), ‘MS quality of life, depression, and fatigue improve after mindfulness training: a randomized trial’, Neurology, 75, pp. 1141–9.

12. Speca, M., Carlson, L., Goodey, E. & Angen, M. (2000), ‘A random- ized, wait-list controlled clinical trial: the effect of a mindfulness meditation-based stress reduction program on mood and symptoms of stress in cancer outpatients’, Psychosomatic Medicine, 62, pp. 613–22.

13. Jha, A., et al. (2007), ‘Mindfulness training modifies subsystems of attention’, Cognitive Affective and Behavioral Neuroscience, 7, pp. 109–19; Tang, Y. Y., Ma, Y., Wang, J., Fan, Y., Feng, S., Lu, Q., et al. (2007), ‘Short-term meditation training improves attention and self- regulation’, Proceedings of the National Academy of Sciences (US), 104(43), pp. 17152–6. McCracken, L. M. & Yang, S.-Y. (2008), ‘A contextual cognitive-behavioral analysis of rehabilitation workers’ health and well-being: Influences of acceptance, mindfulness and values-based action’, Rehabilitation Psychology, 53, pp.479–85; Ortner, C. N. M., Kilner, S. J. & Zelazo, P. D. (2007), ‘Mindfulness meditation and reduced emotional interference on a cognitive task’, Motivation and Emotion, 31, pp. 271–83; Brefczynski-Lewis, J. A., Lutz, A., Schaefer, H. S., Levinson, D. B. & Davidson, R. J. (2007), ‘Neural correlates of attentional expertise in long-term meditation practitioners’, Proceedings of the National Academy of Sciences (US), 104(27), pp. 11483–8.

14. Brown, Kirk Warren, Ryan, Richard, M. (2003), ‘The benefits of being present: Mindfulness and its role in psychological well-being’, Journal of Personality and Social Psychology, 84(4), pp. 822–48; Lykins, Emily L. B. & Baer, Ruth A. (2009), ‘Psychological Functioning in a Sample of Long-Term Practitioners of Mindfulness Meditation’, Journal of Cognitive Psychotherapy, 23(3), pp. 226–41.

15. Ivanowski, B. & Malhi, G. S. (2007), ‘The psychological and neuro- physiological concomitants of mindfulness forms of meditation’, Acta Neuropsychiatrica, 19, pp. 76–91; Shapiro, S. L., Oman, D., Thoresen, C. E., Plante, T. G. & Flinders, T. (2008), ‘Cultivating mindfulness: effects on well-being’, Journal of Clinical Psychology, 64(7), pp. 840–62; Shapiro, S. L., Schwartz, G. E. & Bonner, G. (1998), ‘Effects of mindfulness-based stress reduction on medical and pre- medical students’, Journal of Behavioral Medicine, 21, pp. 581–99.

16. See NICE Guidelines for Management of Depression (2004, 2009). Ma, J. & Teasdale, J. D. (2004), ‘Mindfulness-based cognitive therapy for depression: Replication and exploration of differential relapse preven- tion effects’, Journal of Consulting and Clinical Psychology, 72, pp. 31–40; Segal, Z. V., Williams, J. M. G. & Teasdale, J. D., Mindfulness-based Cognitive Therapy for Depression: a new approach to preventing relapse (Guilford Press, 2002); Kenny, M. A. & Williams, J. M. G. (2007), ‘Treatment-resistant depressed patients show a good response to Mindfulness-Based Cognitive Therapy’, Behaviour Research & Therapy, 45, pp. 617–25; Eisendraeth, S. J., Delucchi, K., Bitner, R., Fenimore, P., Smit, M. & McLane, M. (2008), ‘Mindfulness-Based Cognitive Therapy for Treatment-Resistant Depression: A Pilot Study’, Psychotherapy and Psychosomatics, 77, pp. 319–20; Kingston, T., et al. (2007), ‘Mindfulness-based cognitive therapy for residual depressive symptoms’, Psychology and Psychotherapy, 80, pp. 193–203.

17. Bowen, S., et al. (2006), ‘Mindfulness Meditation and Substance Use in an Incarcerated Population’, Psychology of Addictive Behaviors, 20, pp. 343–7.

18. Hölzel, B. K., Ott, U., Gard, T., Hempel, H., Weygandt, M., Morgen, K. & Vaitl, D. (2008), ‘Investigation of mindfulness meditation prac- titioners with voxel-based morphometry’, Social Cognitive and Affective Neuroscience, 3, pp 55–61; Lazar, S., Kerr, C., Wasserman, R., Gray, J., Greve, D., Treadway, M., McGarvey, M., Quinn, B., Dusek, J., Benson, H., Rauch, S., Moore, C. & Fischl, B. (2005), ‘Meditation experience is associated with increased cortical thickness’, NeuroReport, 16, pp. 1893–7; Luders, Eileen, Toga, Arthur W., Lepore, Natasha & Gaser, Christian (2009), ‘The underlying anatom- ical correlates of long-term meditation: Larger hippocampal and frontal volumes of gray matter’, Neuroimage, 45, pp. 672–8.

19. Tang, Y., Ma, Y., Wang, J., Fan, Y., Feg, S., Lu, Q., Yu, Q., Sui, D., Rothbart, M., Fan, M. & Posner, M. (2007), ‘Short-term meditation training improves attention and self-regulation’, Proceedings of the National Academy of Sciences, 104, pp. 17152–6.

20. Davidson, R. J. (2004), ‘Well-being and affective style: Neural sub- strates and biobehavioural correlates’, Philosophical Transactions of the Royal Society, 359, pp. 1395–1411.

21. Lazar, S., Kerr, C., Wasserman, R., Gray, J., Greve, D., Treadway, M., McGarvey, M., Quinn, B., Dusek, J., Benson, J., Rauch, S., Moore, C. & Fischl, B. (2005), ‘Meditation experience is associated with increased cortical thickness’, NeuroReport, 16, pp 1893–7.

22. Davidson, R. J., Kabat-Zinn, J. Schumacher, J., Rosenkranz, M., Muller, D., Santorelli, S.F., Urbanowski, F., Harrington, A., Bonus, K. & Sheridan, J. F. (2003) ‘Alterations in brain and immune function produced by mindfulness meditation’, Psychosomatic Medicine, 65, pp. 564–70; Tang, Y., Ma, Y., Wang, J., Fan, Y., Feg, S., Lu, Q., Yu, Q., Sui, D., Rothbart, M., Fan, M. & Posner, M. (2007), ‘Short-term med- itation training improves attention and self-regulation’, Proceedings of the National Academy of Sciences, 104, pp. 17152–6.

23. Epel, Elissa, Daubenmier, Jennifer, Tedlie Moskowitz, Judith, Folkman, Susan & Blackburn, Elizabeth (2009), ‘Can Meditation Slow Rate of Cellular Aging? Cognitive Stress, Mindfulness, and Telomeres’, Annals of the New York Academy of Sciences, 1172; Longevity, Regeneration, and Optimal Health Integrating Eastern and Western Perspectives, pp. 34–53.

24. Walsh, R. & Shapiro, S. L. (2006), ‘The meeting of meditative disci- plines and Western psychology: A mutually enriching dialogue’, American Psychologist, 61, pp. 227–39.

25. Ibid. 26. Kabat-Zinn, J., Lipworth, L., Burncy, R. & Sellers, W. (1986), ‘Four-year follow-up of a meditation-based program for the self- regulation of chronic pain: Treatment outcomes and compliance’, Clinical Journal of Pain, 2, p. 159; Brown, Christopher A., Jones, Anthony K. P. (2013), ‘Psychobiological Correlates of Improved Mental Health in Patients With Musculoskeletal Pain After a Mindfulness-based Pain Management Program’, Clinical Journal of Pain, 29(3), pp. 233–44; Lutz, Antoine, McFarlin, Daniel R., Perlman, David M., Salomons, Tim V. & Davidson, Richard J. (2013), ‘Altered anterior insula acti- vation during anticipation and experience of painful stimuli in expert meditators’, Journal NeuroImage, 64, pp. 538–46.

27.Baliki, Marwan N., Bogdan, Petre, Torbey, Souraya, Herrmann, Kristina M., Huang, Leijan, Schnitzer, Thomas J., Fields, Howard L. &, Vania Apkarian, A. (2012), ‘Corticostriatal functional connectivity predicts transition to chronic back pain’, Nature Neuroscience, 15, pp. 1117–19.

28 Julieta Galante, Géraldine Dufour, Maris Vainre, Adam P Wagner, Jan Stochl, Alice Benton, Neal Lathia, Emma Howarth, Peter B Jones; A mindfulness-based intervention to increase resilience to stress in university students (the Mindful Student Study): a pragmatic randomised controlled trial; Lancet Public Health 2018; 3: e72–81; Published Online December 18, 2017 http://dx.doi.org/10.1016/S2468-2667(17)30231-1

29 Billie Lever Taylor, Clara Strauss, Kate Cavanagh, Fergal Jones; The effectiveness of self-help mindfulness-based cognitive therapy in a student sample: A randomised controlled trial; Behaviour Research and TherapyVolume 63, December 2014, Pages 63-69; https://doi.org/10.1016/j.brat.2014.09.007