Category Archives: depression

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The Healing Power of Nature on Human Health

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Much has been written on the positive impact that exposure to nature has on general well-being, physical, and mental health. And yet, it seems that developers have not gotten the message. Why, I do not know. Maybe they are not aware of the research on the health benefits of nature. If not, here is some material to share.

A website post and two reviews, from most recent to next (within past five years):

Benefits of Nature Experience from Canada, posted in April 2024, lists the following benefits:

  • Attention: Our attention is a limited resource and it can become ‘fatigued’ throughout the day. Nature has been shown to restore attention and our ability to concentrate (Mason et al., 2022). Nature has also been found to reduce symptoms of Attention-Deficit/Hyperactivity Disorder (ADHD) (Faber Taylor & Kuo, 2009).
  • Mood: Nature improves mood and makes people feel happier (Neill et al., 2019). There is evidence that nature exposure can improve symptoms of depression (Berman et al, 2012).
  • Self-regulation: Nature helps us feel calmer and less irritable. This means that we are better able to control our impulses (Beute & de Kort, 2014; Weeland et al., 2019).
  • Stress: Nature reduces symptoms of anxiety, physical stress, and heart rate. It also helps us feel more relaxed (Shuda et al., 2020).
  • Social: Nature tends to increase generosity, cooperation, and our sense of social connection (Arbuthnott, 2023; Weinstein et al., 2009).

Impact of Nature on Human Health. An open access article, published in 2022:

this review has documented the increasing body of evidence in support of [nature-based-interventions] NBIs as effective tools to improve mental, physical, and cognitive health outcomes, and highlighted key factors that improve engagement with the natural world. [bracketed explanation of acronym inserted from elsewhere in the article]. Emphasis added.

And, finally, from 2021, another open access review, Association between Nature Exposure and Health, concluded that:

 We assessed the strength of evidence from experimental and observational studies and found evidence for associations between exposure to nature and improved cognitive function, brain activity, blood pressure, mental health, physical activity, and sleep. Evidence from experimental studies suggested protective effects of exposure to natural environments on mental health outcomes and cognitive function. Cross-sectional observational studies provide evidence of positive associations between exposure to nature, higher levels of physical activity and lower levels of cardiovascular disease. Longitudinal observational studies are starting to assess the long-term effects of exposure to nature on depression, anxiety, cognitive function, and chronic disease. Limitations and gaps in studies of nature exposure and health include inconsistent measures of exposure to nature, knowledge of the impacts of the type and quality of green space, and the health effects of the duration and frequency of exposure among different populations (e.g., adults, children, historically marginalized).

Reminds me of John Sebastian’s tune,  Daydream.  And also that I should take a walk outside about now…

2024-10-20-Monarch-IMG_9401

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Do you wanna dance?

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Costa V, Suassuna AOB, Brito TSS, da Rocha TF, Gianlorenco AC. Physical exercise for treating non-motor symptoms assessed by general Parkinson’s disease scales: systematic review and meta-analysis of clinical trials. BMJ Neurol Open. 2023 Oct 4;5(2):e000469. doi: 10.1136/bmjno-2023-000469. PMID: 37808516; PMCID: PMC10551973.

This study was a systematic review and meta-analysis.  Like many such desk reviews and meta-analyses, it winds up, in layperson’s terminology, comparing apples and oranges and pears and papayas and tangerines and dragon fruit and kiwis to each other. Treatments included “multimodal, aerobic, resistance, dance, conventional physical therapy and other types.” Five studies apparently were vulnerable to bias (in favor of the treatment being studied, one would suppose). They did conclude that, after sifting the studies down to eight, that aerobic exercise had a stronger effect than conventional exercise on non-motor symptoms. This is in conformance with other reviews that I have read (or read the abstracts of) in the past.

And then we have this study, which might have been kicked out due to possibility of bias, or maybe it wasn’t published early enough to be included.

Physical activity based on dance movements as complementary therapy for Parkinson’s disease: Effects on movement, executive functions, depressive symptoms, and quality of life
Duarte JdS, Alcantara WA, Brito JS, Barbosa LCS, Machado IPR, et al. (2023) Physical activity based on dance movements as complementary therapy for Parkinson’s disease: Effects on movement, executive functions, depressive symptoms, and quality of life. PLOS ONE 18(2): e0281204. https://doi.org/10.1371/journal.pone.0281204

Methods used were described as follows:

13 individuals with PD (Hoehn & Yahr I-III, MDS-UPDRS 67.62 ± 20.83), underwent physical activity based on dance movements (2x week for 6 months). Participants were assessed at baseline and after 6 months on movement (POMA, TUG and MDS-UPDRS Part III), executive function (FAB), depressive symptoms (MADRS), quality of life (PDQ-39), and severity of PD (MDS-UPDRS TOTAL).

The results were:

significant improvement in the movement (balance and gait) by the POMA test, p = 0.0207, executive function by the FAB test, p = 0.0074, abstract reasoning and inhibitory control by the FAB, Conceptualization test, p = 0.0062, and Inhibitory Control, p = 0.0064, depressive symptoms assessed by the MADRS test significantly reduced, p = 0.0214, and the quality of life by the PDQ-39 had a significant increase after the intervention, p = 0.0006, showed significant improvements between the pre-and post-intervention periods of physical activity based on dance movements.

The conclusions were obvious:

Physical activity based on dance movements contributed to significant improvements in movement (balance and gait), executive functions, especially in cognitive flexibility and inhibitory control, and the quality of life too. Sensorimotor integration, most cognitive processing and social skills may have contributed to the results.

Personally, I have to wonder whether inhibitory control and executive functions apply to my individual results, based on feedback from others, but it could be that I just need to keep on dancing more and worry less about what other folks think.

For nerds like myself, clicking on the following link will get you a list of similar articles published within the past five years (2019 – 2024)  available with free full text.

So, to reiterate the title of this post:

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Turn off the TV and get some exercise! (Or use it to exercise to Power for Parkinson’s YouTube videos).

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That’s the takeaway message from an analysis of non-identifiable patient data recently reported in this article:

Too much TV watching correlated with higher rates of dementia, depression, and PD

However, the study did find that some computer screen time had a neuroprotective effect. (This blog’s  author’s note: It would not be a bad idea to set a timer to remind yourself to get up every hour or so and get up, stand up, and dance to a little Bob Marley music for a minute or two, or three).

Methods

  • 473,184 participants initially free of dementia, PD, and depression from UK Biobank, as well as 39,652 participants who had magnetic resonance imaging (MRI) data
  • Self-reported screen time exposure variables included
    • TV viewing and
    • computer use
  • Regression models were used to estimate the association between different types of screen time and
    • Incidence of dementia,
    • Parkinson’s disease,
    • depression, and
    • Multimorbidity status.
  • Multiple linear regression models were used to assess the linear relationship between different types of screen time and MRI biomarkers in a subgroup of participants.

Multimorbidity was defined as two or more diagnoses of chronic diseases occurring simultaneously in an individual.

During the study time frame,

  • 6,091 (1.29%) participants developed dementia
  • 23,632 (4.99%) participants developed depression,
  • 1,214 (0.26%) participants developed both dementia and depression,
  • 486 (0.10%) participants developed both PD and depression

Participants

  •  Highest TV viewing time were
    • Older,
    • Typically male,
    • Higher body mass index (BMI),
    • Lower Physical Activity (PA) and
    • More likely  previous or current smokers.

Risk for dementia and depression increased substantially among those with both low PA and highest TV viewing time.

The main novel finding of this study is that TV viewing time was positively associated with an increased risk of dementia, PD, depression and their multimorbidity status. Moderate computer using time (i.e., approximately 0.5–1 h/day) is associated with a lower risk of dementia, PD, and depression.  

Longitudinal analysis and eliminating cases of depression, dementia, and PD that were diagnosed within the first three years are the strengths of the study. Self-reports on the amount of screen time by participants is a weakness.

In conclusion:

 computer using was U-shaped associated with risk of dementia, PD, depression and their multimorbidity status, while TV viewing was associated with an increased risk. And different screen time may affect diseases risk through its association with brain structures. Although associations between different types of screen time and diseases are not strongly attenuated with different levels of PA. Replacing different types of screen time with daily-life PA or structured exercise is associated with lower disease risk. Our results support the potential of limiting different types of screen time and shifting to physical activity to mitigate disease risk.

And this person with PD has spent too many hours in front of the computer screen writing this up, so I will follow their advice and engage in some PA.

Citation:

Wu, H., Gu, Y., Du, W. et al. Different types of screen time, physical activity, and incident dementia, Parkinson’s disease, depression and multimorbidity status. Int J Behav Nutr Phys Act 20, 130 (2023). https://doi.org/10.1186/s12966-023-01531-0

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ET & PD – is there is or is there ain’t a connection?

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As a person who has had essential tremors ever since his teenage years, and a person who was diagnosed with Parkinson’s disease at the average onset age of 62 years, it was with great interest that the author reviewed the abstracts and full text open access PubMedCenter articles available on the topic.

The author can recall others (medical professionals included) who did not observe tremors, although this subject could feel the tremors within, during teenage years. During undergraduate studies, he once was told that his initial impression on a fellow college student looking to sublet a room was that of a “speed freak” (methamphetamine abuser to those unfamiliar with the term). At age 28, his future wife remarked on his trembling hands as he reached out to touch her cheek in a moment of intimacy. And at age 60, following several recurring episodes of depression and increasing tremors, he was treated for essential tremors for almost two years, beginning in 2010. Then, after having opted for Deep Brain Stimulation (DBS), and undergoing further testing for several months, a third symptom, rigidity, one of the four cardinal symptoms of PD, was observed, allowing the Movement Disorder Specialist to finally make a diagnosis of PD. Mind you, the four cardinal symptoms required to make the call haven’t changed since 1817, when James Parkinson published his Essay On The Shaking Palsy. In case you don’t  already know, they are Tremors, Postural Instability, Bradykinesia, and Rigidity.

On the other hand, it was only in 2009 that the study “LINGO1 rs9652490 is associated with essential tremor and Parkinson disease” came out online and published in print a few months later in 2010.  In which year, the observant reader will notice, was when this author began receiving treatments for essential tremors, finally diagnosed in late 2011 as Parkinson’s.

After a few articles reported similar results, a few negative results were reported, in part by one group of desk jockeys who conducted a meta-review and concluded that there was NO association between ET and PD.  On looking just briefly at the abstracts, one can see that those that found a positive connection and those that found no connection were looking at different populations. The positive association came from a European background, and those with no association came from a Chinese population sample.  Mix them all together and you get mixed results, which doesn’t mean that a person with a half European background (like myself) with this specific variation doesn’t have an increased risk of developing ET (P = 0.014) and Parkinson’s(P = 0.0003), as reported in the article noted above.

So who should I believe? A study that involved a sample in which the participants were similar in ethnic/DNA background to mine? Or a meta-review which concludes that the null hypothesis is true? Or my own brain and body, which began exhibiting strong tremors back in late teens to early twenties? And which became so severe by age 60  that I couldn’t carry a cup of coffee from the kitchen to the living room without going into extreme oscillations?

Those were rhetorical questions, by the way.

References:

Jiménez-Jiménez FJ, García-Martín E, Lorenzo-Betancor O, Pastor P, Alonso-Navarro H, Agúndez JA. LINGO1 and risk for essential tremor: results of a meta-analysis of rs9652490 and rs11856808. J Neurol Sci. 2012 Jun 15;317(1-2):52-7. doi: 10.1016/j.jns.2012.02.030. Epub 2012 Mar 17. PMID: 22425540.

Agúndez JA, Lorenzo-Betancor O, Pastor P, García-Martín E, Luengo A, Alonso-Navarro H, Jiménez-Jiménez FJ. LINGO1 rs9652490 and rs11856808 are not associated with the risk of Parkinson’s disease: results of a meta-analysis. Parkinsonism Relat Disord. 2012 Jun;18(5):657-9. doi: 10.1016/j.parkreldis.2011.09.005. Epub 2011 Sep 28. PMID: 21955595.

Lorenzo-Betancor O, Samaranch L, García-Martín E, Cervantes S, Agúndez JA, Jiménez-Jiménez FJ, Alonso-Navarro H, Luengo A, Coria F, Lorenzo E, Irigoyen J, Pastor P; Iberian Parkinson’s Disease Genetics Study Group Researchers. LINGO1 gene analysis in Parkinson’s disease phenotypes. Mov Disord. 2011 Mar;26(4):722-7. doi: 10.1002/mds.23452. Epub 2011 Jan 4. PMID: 21506150.

Wu YW, Rong TY, Li HH, Xiao Q, Fei QZ, Tan EK, Ding JQ, Chen SD. Analysis of Lingo1 variant in sporadic and familial essential tremor among Asians. Acta Neurol Scand. 2011 Oct;124(4):264-8. doi: 10.1111/j.1600-0404.2010.01466.x. Epub 2010 Dec 15. PMID: 21158743.

Zuo X, Jiang H, Guo JF, Yu RH, Sun QY, Hu L, Wang L, Yao LY, Shen L, Pan Q, Yan XX, Xia K, Tang BS. Screening for two SNPs of LINGO1 gene in patients with essential tremor or sporadic Parkinson’s disease in Chinese population. Neurosci Lett. 2010 Sep 6;481(2):69-72. doi: 10.1016/j.neulet.2010.06.041. Epub 2010 Jun 19. PMID: 20600614.

Clark LN, Park N, Kisselev S, Rios E, Lee JH, Louis ED. Replication of the LINGO1 gene association with essential tremor in a North American population. Eur J Hum Genet. 2010 Jul;18(7):838-43. doi: 10.1038/ejhg.2010.27. Epub 2010 Apr 7. PMID: 20372186; PMCID: PMC2987362.

Nica AC, Montgomery SB, Dimas AS, Stranger BE, Beazley C, Barroso I, Dermitzakis ET. Candidate causal regulatory effects by integration of expression QTLs with complex trait genetic associations. PLoS Genet. 2010 Apr 1;6(4):e1000895. doi: 10.1371/journal.pgen.1000895. PMID: 20369022; PMCID: PMC2848550.

Vilariño-Güell C, Wider C, Ross OA, Jasinska-Myga B, Kachergus J, Cobb SA, Soto-Ortolaza AI, Behrouz B, Heckman MG, Diehl NN, Testa CM, Wszolek ZK, Uitti RJ, Jankovic J, Louis ED, Clark LN, Rajput A, Farrer MJ. LINGO1 and LINGO2 variants are associated with essential tremor and Parkinson disease. Neurogenetics. 2010 Oct;11(4):401-8. doi: 10.1007/s10048-010-0241-x. Epub 2010 Apr 6. PMID: 20369371; PMCID: PMC3930084.

Wu Y, Wang X, Xu W, Liu W, Fang F, Ding J, Song Y, Chen S. Genetic variation in LINGO-1 (rs9652490) and risk of Parkinson’s disease: twelve studies and a meta-analysis. Neurosci Lett. 2012 Jul 26;522(1):67-72. doi: 10.1016/j.neulet.2012.06.018. Epub 2012 Jun 15. PMID: 22710005.

Jasinska-Myga B, Wider C. Genetics of essential tremor. Parkinsonism Relat Disord. 2012 Jan;18 Suppl 1:S138-9. doi: 10.1016/S1353-8020(11)70043-8. PMID: 22166413.

Bourassa CV, Rivière JB, Dion PA, Bernard G, Diab S, Panisset M, Chouinard S, Dupré N, Fournier H, Raelson J, Belouchi M, Rouleau GA. LINGO1 variants in the French-Canadian population. PLoS One. 2011 Jan 11;6(1):e16254. doi: 10.1371/journal.pone.0016254. PMID: 21264305; PMCID: PMC3019170.

Guo Y, Jankovic J, Song Z, Yang H, Zheng W, Le W, Tang X, Deng X, Yang Y, Deng S, Luo Z, Deng H. LINGO1 rs9652490 variant in Parkinson disease patients. Neurosci Lett. 2011 Jan 7;487(2):174-6. doi: 10.1016/j.neulet.2010.10.016. Epub 2010 Oct 15. PMID: 20951767.

Thier S, Lorenz D, Nothnagel M, Stevanin G, Dürr A, Nebel A, Schreiber S, Kuhlenbäumer G, Deuschl G, Klebe S. LINGO1 polymorphisms are associated with essential tremor in Europeans. Mov Disord. 2010 Apr 30;25(6):717-23. doi: 10.1002/mds.22887. PMID: 20310002.

Vilariño-Güell C, Ross OA, Wider C, Jasinska-Myga B, Cobb SA, Soto-Ortolaza AI, Kachergus JM, Keeling BH, Dachsel JC, Melrose HL, Behrouz B, Wszolek ZK, Uitti RJ, Aasly JO, Rajput A, Farrer MJ. LINGO1 rs9652490 is associated with essential tremor and Parkinson disease. Parkinsonism Relat Disord. 2010 Feb;16(2):109-11. doi: 10.1016/j.parkreldis.2009.08.006. Epub 2009 Aug 31. PMID: 19720553; PMCID: PMC2844122.

Deng H, Gu S, Jankovic J. LINGO1 variants in essential tremor and Parkinson’s disease. Acta Neurol Scand. 2012 Jan;125(1):1-7. doi: 10.1111/j.1600-0404.2011.01516.x. Epub 2011 Apr 7. PMID: 21470193.

Zimprich A. Genetics of Parkinson’s disease and essential tremor. Curr Opin Neurol. 2011 Aug;24(4):318-23. doi: 10.1097/WCO.0b013e3283484b87. PMID: 21734494.

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Music, movement, and PD

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Jerry Coker, who was one of my instructors my first year in undergraduate college, and then again my last semester before graduation , had an hypothesis that for improvisation to be enjoyable, it had to be approximately 75% predictable and 25% unpredictable. Vary too far from those parameters, and you end up with something that is either too boring and predictable, or something that leaves the listener wondering what’s going on, trying to guess where the melody is.

I never advanced far enough to get his insights on swing, or the concept of where the beat is. Duke Ellington, whom I saw at a festival once, did have a short primer on swing. He began with the person who snaps his fingers or taps his feet on the downbeats (ONE-and-TWO-and….). Then he progressed to the folks who tapped their feet or snapped their fingers on the upbeat (1-AND-two-AND..). I forget where it went from there (maybe to Latin rhythm patterns), although I do remember him saying that when he greeted people, he always gave two kisses to the right, and two to the left, one for each cheek.

Love You Madly (ending)

Today’s readings all relate to music and movement –

From  Saluja A, Goyal V, Dhamija RK. Multi-Modal Rehabilitation Therapy in Parkinson’s Disease and Related Disorders. Ann Indian Acad Neurol. 2023 Jan;26(Suppl 1):S15-S25. doi: 10.4103/aian.aian_164_22. Epub 2022 Nov 21. PMID: 37092020; PMCID: PMC10114534. 

(emphasis added to the section quoted below):

Dance, Music, and Singing Therapy in Pd Rehabilitation

Dancing may improve speed of movement, balance, wellbeing, and QOL in patients with PD.[74,75] Multiple dancing interventions and their impact on symptomatology of PD patients have been assessed. In a systematic review of 38 articles that studied the role of various dancing interventions (tango, waltz/foxtrot, Sardinian folk dancing, Irish set dancing, Brazilian samba, Zumba, mixed dance forms, and home-based dance interventions), there was a moderate-to-large beneficial effect of dancing interventions in mild-to-moderate PD. Dancing sessions (once/week to daily for 30 minutes to 2 hours) significantly improved balance, total UPDRS, mobility, endurance, gait freezing, and depression among PD patients.[76]

Music and rhythmic auditory stimulation can improve gait parameters in PD.[77] BEATWALK is a smartphone-based application that initially assesses cadence in PD patients and then progressively increases musical tempo in order to reach the desired speed. A recent study found that BEATWALK significantly improved gait velocity (P < 0.01), cadence (P: 0.01), stride length (P: 0.04), and distance (P: 0.01) among 39 PD patients who could walk unaided and had no gait freezing.[78] The ParkinSong trial studied the effect of singing intervention (at weekly and monthly intervals) in PD and found significant improvements in vocal intensity (P = 0.018), maximum expiratory pressure (P = 0.032), and voice-related QOL (P = 0.043) among PD patients when compared to controls.[79] A recent systematic review and meta-analysis including 67 publications found that tango resulted in significantly improved UPDRS-III scores (Z = 2.87, P = 0.004) and TUG scores (Z = 11.25, P < 0.00001), whereas PD-specific dance resulted in improvement in PDQ-39 scores (Z = 3.77, P = 0.0002) when compared to usual care.[80]

Cox L, Youmans-Jones J. Dance Is a Healing Art. Curr Treat Options Allergy. 2023 Apr 10:1-12. doi: 10.1007/s40521-023-00332-x. Epub ahead of print. PMID: 37361639; PMCID: PMC10088655.

This article is considered an Opinion Statement rather than a “research study,”although they used the same armchair/desk jockey methods used by many reviews and meta-reviews. From the abstract (emphasis added):

The purpose of this review is to evaluate the health benefits of dance and dance therapy in various health domains. Dance interventions included movement therapy with certified therapists, common dances such as ballroom dancing, salsa, and cha-cha as well as ethnic dances, such as the Chinese Guozhuang Dance and the Native American jingle dance. The health domains included depression, cognitive function, neuromotor function, dementia, balance, neurological growth factors, and subjective well-being. The National Library of Medicine, Congress of Library, and the Internet were searched using the terms: dance, dance movement therapy, health, cognitive function, healing, neurological function, neuromotor function, and affective disorders from 1831 to January 2, 2023. Two-thousand five hundred and ninety-one articles were identified. Articles were selected if they provided information on the health benefits of dance in one or more of the above domains as compared to a “non-dance” control population. Studies included systematic reviews, randomized controlled studies, and long-term perspective studies. Most of the subjects in the studies were considered “elderly,” which was generally defined as 65 years or older. However, the benefits of DI on executive function were also demonstrated in primary school children. Overall, the studies demonstrated that DI provided benefits in several physical and psychological parameters as well as executive function as compared with regular exercise alone. Impressive findings were that dance was associated with increased brain volume and function and neurotrophic growth function. The populations studied included subjects who were “healthy” older adults and children who had dementia, cognitive dysfunction, Parkinson’s disease, or depression.

The benefits of dance for PwPs include movements and connections with others:

Jola C, Sundström M, McLeod J. Benefits of dance for Parkinson’s: The music, the moves, and the company. PLoS One. 2022 Nov 21;17(11):e0265921. doi: 10.1371/journal.pone.0265921. PMID: 36409733; PMCID: PMC9678293.

From the abstract:

Dance classes designed for people with Parkinson’s are very popular and associated not only with increasing individuals’ motor control abilities but also their mood; not least by providing a social network and the enjoyment of the music. However, quantitative evidence of the benefits is inconsistent and often lacks in power. For a better understanding of the contradictory findings between participants’ felt experiences and existing quantitative findings in response to dance classes, we employed a mixed method approach that focussed on the effects of music. Participant experience of the dance class was explored by means of semi-structured interviews and gait changes were measured in a within-subjects design through the Timed Up and Go (TUG) test before and after class, with and without music. We chose the TUG test for its ecological validity, as it is a simple test that resembles movements done in class. We hypothesised that the music and the dance class would have a facilitating effect on the TUG performance. In line with existing research, we found that before class, the gait of 26 participants was significantly improved when accompanied by a soundtrack. However, after class, music did not have a significantly facilitating effect, yet gait without music significantly improved after class compared to before.We suggest that whilst the music acts as an external stimulator for movement before the dance class, after the dance class, participants have an internalised music or rhythm that supports their motor control. Thus, externally played music is of less relevance. The importance of music was further emphasised in the qualitative data alongside social themes. A better understanding of how music and dance affects Parkinson’s symptoms and what aspects make individuals ‘feel better’ will help in the design of future interventions.

The entire article is Open Access at the link above. My own impression of the discussion of the contradictory results (from what was expected) reminded me of a quote my statistics professor was fond of repeating: It is meaningless to discuss what the data might have been if the data were something other than what they are. 

As a PwP, one explanation for the lack of significance difference in the TUG post-test could very well be fatigue. I, therefore, suggest that this could be looked into as a possible explanation for the lack of significant difference between external music v no external  music stimulus. Clearly, “Further research is needed.”

Morris ME, McConvey V, Wittwer JE, Slade SC, Blackberry I, Hackney ME, Haines S, Brown L, Collin E. Dancing for Parkinson’s Disease Online: Clinical Trial Process Evaluation. Healthcare (Basel). 2023 Feb 17;11(4):604. doi: 10.3390/healthcare11040604. PMID: 36833138; PMCID: PMC9957486.

The above citation reports on a clinical trial which was conducted with a fairly large and coordinated collaborative effort. Again, an excerpt from the abstract:

Results: Twelve people with PD, four dance instructors and two physiotherapists, participated in a 6-week online dance program. There was no attrition, nor were there any adverse events. Program fidelity was strong with few protocol variations. Classes were delivered as planned, with 100% attendance. Dancers valued skills mastery. Dance teachers found digital delivery to be engaging and practical. The safety of online testing was facilitated by careful screening and a home safety checklist. Conclusions: It is feasible to deliver online dancing to people with early PD.

As a PwP who has participated in Power for Parkinson’s online video dance Rhythm and Moves and other exercise videos, both live and asynchronously, the last line comes as no surprise.

The hour grows late, and I have medications to take before I sleep, oh so many medications to take before I sleep. To sleep, perchance to dream…

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Deep Brain Stimulation (DBS), depression, Maimonides, Parkinson's, prodromal, Research, The Meaning of Life , , , , , , , , , , ,

Moses Maimonides, James Parkinson, and me

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Low cholesterol levels – could be a biomarker for PD?

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A couple of articles that look at cholesterol levels and PD.

Fu X, Wang Y, He X, Li H, Liu H, Zhang X. A systematic review and meta-analysis of serum cholesterol and triglyceride levels in patients with Parkinson’s disease. Lipids Health Dis. 2020 May 19;19(1):97. doi: 10.1186/s12944-020-01284-w. PMID: 32430016; PMCID: PMC7236933.

The results suggested that elevated serum levels of triglycerides (TG), low density cholesterol (LDL) and total cholesterol (TC) may be protective factors for the pathogenesis of PD.

And here’s another meta analysis that bottom lines the results in the title:

Hong X, Guo W, Li S. Lower Blood Lipid Level Is Associated with the Occurrence of Parkinson’s Disease: A Meta-Analysis and Systematic Review. Int J Clin Pract. 2022 Jun 9;2022:9773038. doi: 10.1155/2022/9773038. PMID: 35801143; PMCID: PMC9203242.

This meta review  looked at

  • total cholesterol (TC),
  • triglycerides (TG),
  • high-density lipoprotein cholesterol (HDL-C), and
  • low-density lipoprotein cholesterol (LDL-C).

Fifteen cohort studies with 9740 participants, including 2032 PD patients and 7708 controls were analyzed, and the analysis found that lipid levels in the PD patients was significantly lower than that of healthy controls. So dyslipidemia might have a predictive value.

As a Person With PD (PwP), this sort of information could have been useful, say, oh, between 50 or 60 years ago. Of course, it would have taken general practitioners with a broad knowledge of factors affecting the prodromal symptoms and signs of PD to pick up on it. (And that information wasn’t available at that time).

As it so happened, I had essential tremors, and could feel resting tremors oscillating away, even though they were not visible to the human eye. And other prodromal symptoms were present, too, and at an early age. Fortunately, I did not have the LRRK or PARK gene variations that cause early onset PD that can not be denied (Michael J. Fox’s case comes to mind). Unfortunately, my particular set of symptoms did not result in an actual diagnosis of PD until after I had been retired early due to one of my other prodromal symptoms (MDD) put me on disability leave for over 9 months, and I was unable to hold down a steady job for a couple of years.  Fortunately, the Social Security Administration provided me with retroactive disability benefits to the day following the date the insurance company gave up on trying to recoup their losses by representing my case to the OASDI. Fortunately, I have been able to find folks who have supported me through the years, intellectually and socially, as my continuing journey with PD has become a larger part of my life.

Perhaps the future of medicine lies in something like the application of IBM’s Big Blue computer (or other advanced Artificial Intelligence systems) to assimilating the huge (not just big) data residing in the NIH and other medical libraries, so that correlations among various signs could be identified and point to diagnostic criteria and effective treatment modalities, so that until there is a cure for Parkinson’s (and other diseases), we can do what we can to identify the probability of an eventual diagnosis (provided decent medical information and observations) and then to  defer or delay and to mitigate the symptoms.

And until then, I will do my best to forgive those who have caused me harm, whether through omission or commission, while asking forgiveness of those against whom I have “trespassed,” to use the word in the KJV.

(Didn’t mean to take an ethical/religious tangent at the end, but there it is. I’ve said too much, I haven’t said enough… I was sentenced to twenty years of boredom, for trying to change the system from within…[insert your favorite poplar song phrase here]).

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depression, Exercise, Parkinson's, Physical Therapy, prodromal, Research, Reviews, Sleep , , , , Leave a comment

Exercise & Sleep disorders and Parkinson’s – Oh my!

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My first draft of this got lost in the computer (Thanks, all you coders who think you know how to create intuitive, ease to use interfaces). So here’s another attempt to get stuff from one location to another. We’ll see how it it goes…

A while back I posted a Powerpoint presentation on research on music, dance, and singing, which cited a review in the Movement Disorders Society (2018, I believe), in which the conclusion was that exercise did not affect Parkinson’s Disease (PD) symptoms. Since then, there have been many more studies on the effects of different modalities of exercise. In this first article, a meta review of publications, found that exercise is good for you if have PD.

Yang Y, Wang G, Zhang S, et al. Efficacy and evaluation of therapeutic exercises on adults with Parkinson’s disease: a systematic review and network meta-analysis. BMC Geriatrics. 2022 Oct;22(1):813. DOI: 10.1186/s12877-022-03510-9. PMID: 36271367; PMCID: PMC9587576.

The purpose of the review was to compare and rank the types of exercise that improve PD symptoms by quantifying information from randomised controlled trials.  Out of 10,474 citations, 250 studies were included involving 13,011 participants. The results (drumroll, please):

  • Power training (PT) had the best benefits for motor symptoms
  • Body weight support treadmill training showed the best improvement in balance, gait velocity  and walking distance
  • Robotic assisted gait training had the most benefits for freezing of gait
  • Dance showed the best benefits for depression
  • Only Yoga significantly reduced anxiety symptom compared with controls
  • Only resistance training significantly enhanced sleep quality and cognition
  • Physical Therapy showed the best results for muscle strength
  • Five types of therapy showed improvement in concerns about falling versus control groups.

If interested, the full free text is available at the linked citation above. Other reviews have shown different results. Best recommendation is to find a variety of exercises that you enjoy, and do them as often as you can. But don’t try so hard that you wind up hurting yourself.

The second meta review alluded to in the title has to do with sleep disorders.

Xu Z, Anderson KN, Pavese N. Longitudinal Studies of Sleep Disturbances in Parkinson’s Disease. Current Neurology and Neuroscience Reports. 2022 Oct;22(10):635-655. DOI: 10.1007/s11910-022-01223-5. PMID: 36018498; PMCID: PMC9617954.

Fifty-three longitudinal studies of sleep in PD were identified, which included:

  • Excessive daytime sleepiness,
  • Insomnia,
  • Obstructive sleep apnea,
  • Rapid eye movement sleep behavior disorder (RBD),
  • Restless legs syndrome, and
  • Shift work disorder were studied in addition to other studies that had focused on either multiple sleep disorders or broadly on sleep disorders as a whole.

RBD is now considered an established prodromal feature of PD, but other sleep disorders do not clearly increase risk of subsequent PD.

I’ll throw in one last citation. Not just because it plays on the title to one of Bob Dylan’s songs, but also because it is one of many nutritional supplements prescribed to aid in cleaning out neural cell debris in (where else?) Bob’s Brain:

Kalyanaraman B. NAC, NAC, Knockin’ on Heaven’s door: Interpreting the mechanism of action of N-acetylcysteine in tumor and immune cells. Redox Biology. 2022 Oct;57:102497. DOI: 10.1016/j.redox.2022.102497. PMID: 36242913; PMCID: PMC9563555. 

and that ends this day.

Dance, depression, Music, Parkinson's, prodromal, Research, Singing, Sleep , , , , , Leave a comment

Prodromal symptoms, Parkinson’s Disease (PD), and that old song and dance…

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Here’s a few studies that came up in my news feed from  PubMed Central (PMC) or elsewhere for articles recently published on the topics in which I’m interested – namely, prodromal symptoms related to PD, the relationship of REM sleep disorder and depression to PD, and, of course, the use of singing and dance therapies as complementary approaches to dealing with the symptoms of PD.

Prevalence and duration of non-motor symptoms in prodromal Parkinson’s disease

The prevalence and duration of non-motor symptoms (NMS) in prodromal Parkinson’s disease (PD) has not been extensively studied. The aim of this study was to determine the prevalence and duration of prodromal NMS (pNMS) in a cohort of patients with recently diagnosed PD.

…subtracted the duration of the presence of each individual NMS reported from the duration of the earliest motor symptom. NMS whose duration preceded the duration of motor symptoms were considered a pNMS. Individual pNMS were then grouped into relevant pNMS clusters based on the NMSQuest domains. Motor subtypes were defined as tremor dominant, postural instability gait difficulty (PIGD) and indeterminate type according to the Movement Disorder Society Unified Parkinson’s Disease Rating Scale revision.

Results: Prodromal NMS were experienced by 90.3% of patients with PD. … males reporting more sexual dysfunction, forgetfulness and dream re-enactment, whereas females reported more unexplained weight change and anxiety. There was a significant association between any prodromal gastrointestinal symptoms and urinary symptoms  and the PIGD phenotype.[n.b.: phenotype includes inherent traits or characteristics that are observable]. [Emphases added].

Citation:  Durcan R, Wiblin L, Lawson RA, Khoo TK, Yarnall AJ, Duncan GW, Brooks DJ, Pavese N, Burn DJ; ICICLE-PD Study Group. Prevalence and duration of non-motor symptoms in prodromal Parkinson’s disease. Eur J Neurol. 2019 Jul;26(7):979-985. doi: 10.1111/ene.13919. Epub 2019 Mar 1. PMID: 30706593; PMCID: PMC6563450.

Associations of Sleep Disorders With Depressive Symptoms in Early and Prodromal Parkinson’s Disease

Purpose: To explore the effect of sleep disorders, including the probable rapid eye movement (REM) sleep behavior disorder (pRBD) and the daytime sleepiness, on depressive symptoms in patients with early and prodromal PD.

5-year follow-up study showed that sleep disorders, including pRBD and daytime sleepiness, were associated with the increased depressive-related score in individuals with early and prodromal PD.

Conclusion:Sleep disorders, including pRBD and daytime sleepiness, are associated with depression at baseline and longitudinally, …  partially mediated by the autonomic dysfunction in early and prodromal PD, …  implication that sleep management is of great value for disease surveillance.

Citation: Ma J, Dou K, Liu R, Liao Y, Yuan Z, Xie A. Associations of Sleep Disorders With Depressive Symptoms in Early and Prodromal Parkinson’s Disease. Front Aging Neurosci. 2022 Jun 10;14:898149. doi: 10.3389/fnagi.2022.898149. PMID: 35754965; PMCID: PMC9226450.

Group therapeutic singing improves clinical motor scores in persons with Parkinson’s disease

Abstract
Background Previous reports suggest that group therapeutic singing (GTS) may have a positive effect on motor symptoms in persons with Parkinson’s disease (PD).

Objective To determine the effect of a single session of GTS on clinical motor symptoms.

Methods Clinical motor symptom assessment was completed immediately before and after 1 hour of GTS in 18 participants.

Results A significant decrease in average scores for gait and posture and tremor, but not speech and facial expression or bradykinesia was revealed.

Conclusion These results support the notion that GTS is a beneficial adjuvant therapy for persons with PD that warrants further research.

Citation: Stegemoller E, Forsyth E, Patel B, et al. Group therapeutic singing improves clinical motor scores in persons with Parkinson’s disease BMJ Neurology Open 2022;4:e000286. doi: 10.1136/bmjno-2022-000286

Dance, Dance for Parkinson's, depression, Research , , , Leave a comment

Keep on Dancing, folks!

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Conclusions first:

Conclusions
This study highlighted the challenges associated with the feasibility of using an RCT design in this setting, demonstrated the acceptability of implementing a dance program inspired by the Dance for PD® model in Belfast, Northern Ireland for people living with Parkinson’s, and made suggestions for future research. The results support existing evidence demonstrating that dance may improve functional mobility and symptoms of depression in people living with mild to moderate Parkinson’s, though these findings should be carefully interpreted in the context of the study design and limitations. The small sample size limits the generalizability of the statistical results, though it was not among the aims of this study to test the efficacy of the intervention. The findings also support the idea that meeting and dancing with other people living with Parkinson’s is motivating and fosters a sense of belonging, and that dancing has the potential to support several aspects of physical, emotional, mental, and social health. (emphasis added).

Working back in the article, the authors are very honest about the limitations, including not being able to  establish a large enough group of participants so that they might be able to compare the dance intervention against another form of exercise.

Only ten Parkinson’s Disease diagnosed participants were recruited, which makes generalization difficult, but modest improvements were seen. (I saw no mention of statistically significant results in the 12 week, 20 session study). Some participants noted that the dance intervention made them more aware of certain deficits, such as posture, and that the classes motivated them to make more mindful efforts to correct these outside of the classes.

Some participants also described using tools learned in class in everyday life. For example, one participant reported using breathing exercises when anxious or fatigued, and another reported using the warm-up exercises outside of class to “stop the stiffness” and “feel better as a result of that. (emphasis added).

So: Small number of participants. Some improved scores, but no statistically significant differences. Positive statements from exit interviews. Nothing to contradict other evidence that dance interventions have a positive effect on the lives of people with Parkinson’s Disease.

Don’t stop moving to the music / keep on dancing,  folks

The article is open access and may be downloaded for free at:

Evaluating the effects of dance on motor outcomes…

Citation for this article:

Carapellotti, A.M., Rodger, M. & Doumas, M. Evaluating the effects of dance on motor outcomes, non-motor outcomes, and quality of life in people living with Parkinson’s: a feasibility study. Pilot Feasibility Stud 8, 36 (2022). https://doi.org/10.1186/s40814-022-00982-9