Next Article in Journal
Cultural Variance in Reception and Interpretation of Social Media COVID-19 Disinformation in French-Speaking Regions
Next Article in Special Issue
Social Isolation in Older Adults: A Qualitative Study on the Social Dimensions of Group Outdoor Health Walks
Previous Article in Journal
The Nutritional Condition of the Spanish Soldier: “Spain. Nutrition Survey of the Armed Forces, a Report by the Interdepartmental Committee on Nutrition for National Defence 1958
Previous Article in Special Issue
Comparison of the Effectiveness of an Abbreviated Program versus a Standard Program in Mindfulness, Self-Compassion and Self-Perceived Empathy in Tutors and Resident Intern Specialists of Family and Community Medicine and Nursing in Spain
Font Type:
Arial Georgia Verdana
Font Size:
Aa Aa Aa
Line Spacing:
Column Width:

Psychosocial and Biological Outcomes of Immersive, Mindfulness-Based Treks in Nature for Groups of Young Adults and Caregivers Affected by Cancer: Results from a Single Arm Program Evaluation from 2016–2021

by 1,2,3,*, 1, 1, 1, 4, 1, 1,5, 1, 6, 1, 1, 1,7, 1, 1, 1,8, 1, 4, 4, 9, 1, 1, 1, 1,2, 1,3 and 1,10add Show full author list remove Hide full author list
True North Treks, Evanston, IL 60201, USA
Department of Medical Social Sciences, Northwestern University Feinberg School of Medicine, Chicago, IL 60611, USA
Robert H. Lurie Comprehensive Cancer Center of Northwestern University, Chicago, IL 60611, USA
Breakwater Expeditions, Sandpoint, ID 83864, USA
Anschutz Medical Campus, University of Colorado Comprehensive Cancer Center, Aurora, CO 80045, USA
Encompass Learning, Duluth, MN 55804, USA
Department of Human Development and Family Studies, College of Health and Human Sciences, Colorado State University, Fort Collins, CO 80523, USA
Upper Penninsula Forestry Innovatoin Center, College of Agriculture and Natural Resources, Michigan State University, East Lansing, MI 48824, USA
Deparment of Anthropology and Institute for Policy Research, Weinberg College of Arts and Sciences, Northwestern University, Evanston, IL 60208, USA
Wake Forest School of Medicine and Wake Forest Baptist Comprehensive Cancer Center, Winston-Salem, NC 27157, USA
Author to whom correspondence should be addressed.
Int. J. Environ. Res. Public Health 2021, 18(23), 12622;
Submission received: 29 October 2021 / Revised: 24 November 2021 / Accepted: 25 November 2021 / Published: 30 November 2021


The COVID-19 pandemic has left many individuals suffering from “connection deficit disorder” given changes to the way we work, go to school, socialize, and engage in daily activities. Young adults affected by cancer between the ages of 18–39 have known this connection deficit long before the pandemic. Being diagnosed and treated for cancer during this time can significantly disrupt engagement in important educational, career, social, and reproductive pursuits, and contribute to increased stress, anxiety, depression, and other negative outcomes. Experiencing meaningful connection—with nature, with peers who understand, and with oneself, may help assuage this adverse effect of disconnect. A single arm within-subjects program evaluation was conducted to examine outcomes following participation in immersive, multi-night, mindfulness-based treks in nature in a sample of young adults (n = 157) and caregivers (n = 50) affected by cancer from 2016–2021. Pre to post-trek changes included significant (p < 0.001) self-reported improvements in feeling connected to nature (d = 0.93–0.95), peers (d = 1.1–1.3), and oneself (d = 0.57–1.5); significant (p < 0.001) improvements on PROMIS Anxiety (d = 0.62–0.78), Depression (d = 0.87–0.89), and Sleep Disturbance (d = 0.37–0.48) short forms; and significant (p < 0.05) changes in pro-inflammatory biomarkers (d = 0.55–0.82). Connection-promoting experiences like this have the potential to improve health and wellbeing in this population and serve as a model for others.

1. Introduction

The COVID-19 pandemic has left many individuals suffering from “connection deficit disorder” as a result of the collective separation, isolation, and social disconnection many have experienced through changes in the way we work, go to school, socialize, and engage in daily activities [1,2]. Young adults affected by cancer between the ages of 18–39 have been living the socially isolated “pandemic life” long before COVID-19 and often complain of feeling alone and separated from their peers and the life they once knew.
Being diagnosed and treated for cancer during this age period often leads to experiencing a host of disconnecting life experiences [3]. This may include quitting or postponing educational or professional pursuits; losing important friendships and relationships; facing challenges with dating or finding a romantic partner; feeling overly dependent on one’s parents; becoming infertile or having other reproductive health issues; experiencing a myriad of short and long-term treatment-related side effects; and suffering from significant depression, anxiety, and fear of recurrence [3,4,5,6,7,8]. As a result, young adults affected by cancer are at high risk of experiencing the “adverse effect of disconnect”. Experiencing meaningful connections may help lessen this burden and serve as an important source of support and resilience.
Connecting with nature in different ways has received growing attention over the past several decades, both from the popular media, as well as from the scientific research community [9]. Mounting empirical evidence suggests that spending time in green and blue spaces can be good for our health and wellbeing [10,11,12,13,14,15,16,17]. While many questions remain regarding how we define nature contact and associated causal pathways and mechanisms of action, nature connection is increasingly considered an important health determinant for disease prevention and health promotion efforts [18].
Connecting with other beings in meaningful ways is another highly recognized form of connection with a considerable amount of supporting scientific evidence [19,20,21,22]. Compelling empirical data on the health benefits of feeling connected with others have been reported by researchers for decades for improved mood, decreased cardiovascular disease risk and even all-cause mortality risk [21,23,24]. Only recently have public health efforts begun to acknowledge and prioritize the importance of social connection in large-scale implementation initiatives.
Connecting with oneself through mindfulness meditation is a more internally-focused type of connection also supported by decades of scientific investigation [25,26]. With Buddhist origins that stem back over 2500 years, mindfulness is characterized as connecting with our present moment experiences with an attitude of curiosity, openness, acceptance, and self-compassion [27]. Not unlike connection with nature and others, mindfulness has also been shown in a number of research trials to improve a host of emotional, cognitive, physical, and social domains, such as mood and negative affect [28,29], attention [30], and even regulation of biological processes associated with the body’s stress response [31,32].
Despite mounting empirical support for these connection-centered health determinants, they are often missing from conventional cancer treatment, survivorship settings and supportive care programs. In 2009, a cancer support nonprofit was established called True North Treks (TNT), whose mission is to support young adults and caregivers affected by cancer to “find direction through connection” through engaging in free, multi-night backpacking and canoeing treks in remote wilderness destinations. The purpose of this current report is to present pre-post program evaluation data from the past five seasons of TNT’s programming (2016–2021), which focuses on outcomes of connection, anxiety, depression, sleep disturbance, and biological inflammation.

2. Materials and Methods

2.1. Design and Setting

A single-arm, anonymous, pre-post program evaluation study design was implemented by TNT and approved by the Internal Review Board of Northwestern University (STU00215456) to analyze and disseminate these findings (see Figure 1). TNT has gathered anonymous, pre-post, participant-reported outcomes on its nature-based programs since its first trek in 2010. However, in 2016 they also began administering validated short forms of anxiety, depression, and sleep disturbance from the Patient Reported Outcomes Measurement Information System (PROMIS) [33,34] along with their standard survey questions. In addition, during the 2016 season, they collected finger-pricked dried blood spot samples from a subset of participants before and after treks to examine potential changes in levels of chronic inflammation. This report only includes data collected from 2016–2021 in which these outcomes were measured. Note, due to the COVID-19 pandemic, no treks were offered in 2020.
To meet the diverse needs and interests of its young adult cancer survivor participants, TNT offers a variety of different ways to engage in its programming. Treks are either primarily backpacking or canoeing-focused and have been offered in different remote wilderness destinations, including Montana, Oregon, Wyoming, Idaho, Utah, Minnesota, the Upper Peninsula of Michigan, and the Bahamas. Treks are available either for survivors-only or for survivors who wish to bring a caregiver (defined as anyone who has “been there” for the survivor during their cancer journey). Trek lengths either include 5 nights of backcountry camping or three nights at a nature-based retreat facility located in a wilderness setting.

2.2. Participants and Enrollment

Eligible participants are either young adults between the ages of 18–39 who were diagnosed with cancer during this same age range or adult caregivers ≥ 18 years of age and may include a family member (e.g., parent, child, sibling, spouse/partner) or close friend. Interested survivors and caregivers submit an application found on TNT’s website. Survivors ask their primary cancer physician to complete an extensive medical form on their behalf, which is reviewed by TNT’s Medical Director who is a clinical oncologist. If the application is approved, participants communicate regularly with TNT personnel and trek guides to help them prepare for their experience, including what to expect and pack, as well as things they can do to be as mentally and physically prepared as possible.

2.3. Trek Activities, Objectives, and Curriculum

TNT’s programming is rooted in three crucial connections often missing from conventional cancer care, which include: (1) Connecting with nature after experiencing something as unnatural as cancer treatment, (2) Connecting with peers who “get it” and have walked a similar path, and (3) Connecting with oneself through mindful awareness practices or MAPs. While backpacking or canoeing in grizzly bear country may be considered adventurous to many, the purposeful inclusion of adventure-based activities (e.g., rock climbing, river rafting, surfing) is not generally how TNT engages the natural world. Rather, participants hike and paddle in nature at the pace of the slowest participants, being reminded that anywhere they are exactly where they are supposed to be. Nature is regarded as a containing, “holding environment” through which participants might be able to experience a new sense of physical and psychological openness, spaciousness, and embodiment; unbound by traditional conventions of the time, linearity, and modernity; an environment that models impermanence and transformation and is supportive of slowing down and pausing, reflecting and noticing, appreciating, taking inventory, and feeling grounded, re-centered and recalibrated.
During the welcome session around the fire on the first night, participants introduce themselves and briefly share why they came, they learn about TNT’s history and mission, and they are reminded of TNT’s basic requests of them: (1) To be safe (e.g., wearing a PFD while swimming in a river or minding cliff edges when hiking), (2) To take care of themselves and their needs (e.g., asking for a second helping of food, telling a guide about a blister, bringing something up they wish to discuss and not waiting or expecting it will be brought up by others), (3) To actively look for opportunities to get each other’s backs (e.g., taking turns cooking or washing dishes, calling out a stump or branch on the trail, or just listening fully without interrupting or trying to offer advice); and (4) To lean into this unique experience because what they put in is directly proportional to what they will get back.
For many participants, this is their first time experiencing the outdoors in such a raw and immersive way, which can be both exciting and scary. TNT guides play a crucial role in establishing a safe, fun, and welcoming environment through which participants may encounter new opportunities to explore, reflect, learn and have fun. On TNT’s week-long backcountry treks there are usually three guides, two of whom are wilderness first responder (WFR) certified, and a third guide who has experience teaching mindfulness meditation and yoga. TNT’s nature retreat facility-based treks may or may not include WFR-certified guides, depending on whether overnight camping in the backcountry occurs. Safety and participant wellbeing are TNT’s first and foremost priorities and the guides help ensure that participants stay warm, dry, well hydrated, well-fed, and get a good night’s sleep. Participants are exposed to opportunities to build greater outdoor efficacy through learning skills, such as the ABC’s of packing a backpack, how to set up a tent, safely cooking outdoors, backcountry hygiene, plant and wildlife identification, tying knots, being “bear aware” (and aware of other potentially dangerous animals), paddling and steering a canoe, using a map, purifying water, learning primitive skills, etc. In addition to these foundational outdoor skills, TNT guides also model expedition attitude and behavior, including wilderness risk management, active communication, good judgment, planning and decision making, taking initiative, flexibility, and tolerance for adversity and ambiguity. One of TNT’s guiding values is the Nordic adage, “There is no bad weather—just bad gear”. Curating these outdoor survival skills and leadership attributes is akin to curating good “gear”, which can have direct and powerful applications to a person’s cancer survivorship toolkit and mindset.
Each day, in addition to eating, hiking and/or canoeing, and having some un-programmed downtime, participants engage in MAPs, which include instruction in basic, experiential mindfulness practices that can help foster greater present moment awareness and self-compassion. Every morning at sunrise yoga a new daily mindfulness intention is introduced, which includes: Beginner’s Mind and Non-Judgment (Day 1), Accepting and Acknowledging (Day 2), Letting Go and Letting Be (Day 3), Self-Compassion and Lovingkindness (Day 4), and Gratitude (Day 5). Throughout the day this theme is informally explored in different ways through nature contact (e.g., during a silent hike or paddle, eating meditation, brief guided mindfulness practices and sit-spots), and each evening around the fire a more extended guided meditation is offered through practices focused on breath and body awareness, sensory awareness, open-monitoring, metta, etc. After each guided practice, participants are led through a period of mindful inquiry, in which they are taught to openly reflect upon and share different things they noticed and observed during their practice. Mindful inquiry can help participants gain insights and feel validated and supported that they are not alone in experiencing common challenges in this practice or think they are the only ones who are “not good” at meditating [35]. At times mindful inquiry may offer opportunities for participants to make observations and connections between what they noticed in their practice and their experience as a cancer survivor or caregiver. Lastly, woven throughout is extensive use of nature and mindfulness-relevant poetry to help reinforce and clarify themes.

2.4. Data Collection Procedure

All enrolled TNT participants completed an anonymous pre-trek assessment within one week of their trek, followed by engaging in their respective trek experience. Within one week of completing their trek, participants completed a similar post-trek assessment. Participants were asked to write the same 4-digit ID number they would remember on each assessment so their pre and post responses could be compared at a later time. The majority of assessments were completed using an online survey administration tool, however, some participants completed paper-pencil versions in which data were entered into a central database.
Blood samples were collected from a subset of 2016 participants on the first and last afternoons of the trek (between 12–5 pm) by a trained TNT guide using standardized procedures [36]. After putting on surgical gloves, the guide sanitized the participants’ non-dominant ring finger with an alcohol pad. Next, a single-use disposable micro-lancet was used to prick the participants’ finger followed by gently pressing it from below the puncture site to allow a large drop of blood to form. The first drop of blood was wiped away with gauze, and the ensuing five blood drops were placed within each circle on the blood spot collection card. Samples were allowed to air dry completely before being placed in a large zip lock back and stored at room temperature until the trek was over at which time it was moved to a laboratory freezer at −30 °C. Samples were analyzed in duplicate batches in a laboratory led by co-author TM using high-sensitivity immunoassay protocols that have been validated to detect C-reactive protein (CRP) and Interleukin-6 (IL-6) from dried blood spot samples [37,38]. Average values were used in analyses. To minimize measurement error, all samples were analyzed in the same batch.

2.5. Measurement of Outcomes

2.5.1. Connection

Participants answered three single-item indicators (written by TNT) at both time points related to: (1) Perceived feelings of connection to oneself and ability to reflect on one’s path and direction as a cancer survivor or caregiver, (2) Perceived feelings of connection with nature, and (3) Perceived feelings of connection with other young adult cancer survivors or caregivers. All items used a 5-point Likert response scale (Not at all, Very Little, Somewhat, Quite a Bit, a Great Deal).

2.5.2. Knowledge and Efficacy

Participants answered three single-item indicators (written by TNT) at both time points related to: (1) Knowledge of the health benefits of mindfulness, (2) Confidence in one’s ability to incorporate mindfulness into daily life, and (3) Comfort doing outdoor activities like hiking, canoeing, backpacking, and camping. All items used a 5-point Likert response scale (Not at all, Very Little, Somewhat, Quite a Bit, a Great Deal).

2.5.3. Post-Trek Enjoyment, Appreciation, Insights, and Learning

Participants answered 15 single-item indicators (written by TNT) during the post-trek assessment related to enjoyment, appreciation, and things they learned as a result of their trek. All items used a 5-point Likert response scale (Not at all, Very Little, Somewhat, Quite a Bit, a Great Deal). The highest two categories of endorsement (e.g., “quite a bit” and “a great deal”) were presented as percentages.

2.5.4. Symptoms of Anxiety, Depression, and Sleep Disturbance

Participants answered validated questionnaires at both time points using the 4-item versions of the PROMIS Anxiety, Depression, and Sleep Disturbance short forms that have a 5-point Likert response scale (Never, Rarely, Sometimes, Often, Always, or Not at All, A Little Bit, Somewhat, Quite a Bit, Very Much). Anxiety items focused on feeling fearful, uneasy, overwhelmed by worries, and having difficulty focusing on anything besides anxiety; Depression items dealt with feeling worthless, helpless, hopeless, and depressed; and Sleep items pertained to having problems sleeping or falling asleep, how refreshing sleep was, and overall sleep quality.

2.5.5. Inflammation

Survivor (n = 16) participants from three 2016 week-long backcountry treks (Green River of Utah, Boundary Waters of Minnesota, Selkirk Mountains of Idaho) provided guide-collected whole dried blood spots to assess inflammatory markers IL-6 and CRP using a standardized minimally invasive finger prick technique.

2.6. Statistical Analysis

Statistical analyses were conducted with IBM SPSS Statistics for Windows Version 27.0. Descriptive statistics were calculated for all variables using measures of central tendency and frequencies. PROMIS raw scores were converted into standard T scores (Mean = 50, Standard Deviation = 10) prior to analysis. Raw CRP and IL-6 estimates were logarithmically transformed using log10(x) prior to analysis to adjust for non-normal distributions. General linear models were applied to examine pre-post differences in outcomes in separate cancer survivor and caregiver analyses using p < 0.05 as a threshold of statistical significance. Exploratory comparisons examined the role of the primary mode of in-field locomotion (e.g., canoeing vs. backpacking focused) and trek type/duration (e.g., week-long backcountry vs. long-weekend nature retreat) on post-trek outcomes, holding pre-trek values constant. Cohen’s d effect sizes were calculated to determine the magnitude of effect, taking the correlation between pre and post-test values into account per recommendations from Morris [39] for within subjects estimates. Cohen [40] suggested small effects were between 0.2–0.4, medium effects between 0.5–0.07, and large effects ≥ 0.08.

3. Results

3.1. Socio-Demographic and Cancer-Related Characteristics

During 2016–2021, 157 young adult cancer survivors and 50 caregivers participated in treks (see Table 1). The majority of cancer survivors identified as female (75%) while the majority of caregivers identified as male (64%) with an average age of 33.6 and 39.1, respectively. Participants represented all major regions of the United States, including minor representation from Canada (n = 4) and Australia (n = 1). The majority of cancer types were breast (30.6%) and hematological (28.7%). During this time period, slightly more participants went on canoeing-focused treks (n = 91) compared with backpacking (n = 43). Nearly double went on week-long treks in the backcountry (n = 134) compared with long-weekend mini treks at a nature retreat facility (n = 73). These differences are likely more of a reflection of permits requiring smaller group sizes on backpacking treks and the mini-treks just starting in 2016 than other factors like participant preference. Complete, pre-post survey information was received from roughly 140 cancer survivors and 40 caregivers, a response rate > 80%.

3.2. Changes in Connection

Both survivors and caregivers had significant (p < 0.001) score increases in being able to reflect on their path and direction as a survivor or caregiver (d = 0.57 and 1.5, respectively), feeling connected to nature and the outdoors (d = 0.95 and 0.93, respectively), and feeling connected to other survivors or caregivers (d = 0.83 and 1.3, respectively). See Table 2.

3.3. Changes in Knowledge and Efficacy

Similarly, both survivors and caregivers reported significant (p < 0.001) increases in awareness of the health benefits of mindfulness (d = 0.89 and 1.4, respectively) and confidence in incorporating mindfulness into their daily lives (d = 1.3 and 1.5, respectively). Survivors, but not caregivers, had significant score increases (p < 0.001) in feeling comfortable doing outdoor activities. See Table 2.

3.4. Trek Enjoyment, Appreciation, Insights, and Learning

At the post-trek assessment, while the vast majority of survivors and caregivers reported enjoying their trek experience (89.3% and 92.5%, respectively), the caregiver rating (mean = 4.92/5.0) was statistically significantly higher (p = 0.02) than survivor rating (mean = 4.74/5.0). Similarly, while the majority of both groups reported intentions to spend time in the outdoors after they returned home (86.7% and 90%, respectively), the survivor rating (mean = 4.77/5.0) was statistically significantly higher (p = 0.04) than the caregiver rating (mean = 4.61/5.0). No other significant group differences were observed with the majority of survivors and caregivers reporting: (1) greater appreciation for nature and the outdoors (86.8% and 90%, respectively), (2) feeling like this experience will continue to affect them in positive ways after they return home (88.7% and 92.5%, respectively), (3) learning new skills, such as managing stress and uncertainty (74.1% and 87.5%, respectively), (4) being kind and compassionate to themselves (77.2% and 90%), (5) learning to be more accepting of themselves and their experiences (79.1% and 85%, respectively), and (6) planning to continue practicing mindfulness meditation (78.5% and 80%, respectively). See Table 3.

3.5. Changes in Anxiety, Depression, Sleep Disturbance and Inflammation

Survivors and caregivers both saw similarly significant (p < 0.001) decreases in symptoms of anxiety, depression, and sleep disturbance on PROMIS short forms. Biomarker analysis of a subset of 2016 survivors (n = 16) resulted in a moderate, significant (p < 0.05) decrease in IL-6, as well as a large, significant (p < 0.01) increase in CRP. See Figure 2 and Figure 3.

3.6. Primary Mode of In-Field Locomotion and Trek Type/Duration

A set of exploratory analyses were conducted to examine the role of the primary mode of locomotion during week-long backcountry treks (e.g., backpacking [n = 44 survivors; n = 8 caregivers] vs. canoeing [n = 68 survivors; n = 19 caregivers]) as well as trek type and duration (e.g., week-long backcountry treks [n = 94 survivors; n = 19 caregivers], vs. long-weekend nature retreats [n = 46 survivors; n = 19 caregivers) on outcomes of reflection, connection, knowledge, efficacy, and symptoms of anxiety, depression, and sleep disturbance. In a comparison of mode of locomotion, there were no significant differences (p > 0.05) on any of the outcomes.
Similarly, in comparisons between trek type/duration there were no significant differences (p > 0.05) on the majority of outcomes between groups, except that survivors who participated on a week-long backcountry trek reported significantly higher (p = 0.03) increases in feeling connected to nature (post-trek mean [SD] = 4.7 [0.54]) compared with those on a long-weekend nature retreat (post-trek mean [SD] = 4.4 [0.86], ES = 0.45. Further, survivors and caregivers on a week-long backcountry treks reported significantly higher (p < 0.01) sleep disturbance scores (post-trek mean [SD] = 49.9 to 52.1 [8.2 to 9.8], respectively) compared with those on a long-weekend nature retreat (post-trek mean [SD] = 44.9 to 44.5 [9.3 to 8.2], respectively, ES = 0.58 to 0.85, respectively.

4. Discussion

Primary findings indicate that both cancer survivor and caregiver participants’ scores significantly improved in: (1) connecting to nature, (2) connecting to other survivors/caregivers, (3) connecting to oneself through reflecting on one’s path as a survivor/caregiver, (4) understanding the health benefits of mindfulness, and (5) feeling confident applying mindfulness to daily life, all with moderate to large effects. While only survivors had a small, significant score increase in feeling more comfortable doing outdoor activities after their trek, it should be noted that caregiver scores in this domain were already quite high at baseline and improved to roughly the same level as survivors at the follow-up assessment. The majority of participants reported enjoying, appreciating, and learning numerous things related to nature, stress management, mindfulness, and health behaviors.
Survivor and caregiver groups both saw significant and meaningful reductions in symptoms of anxiety, depression, and sleep disturbance, representing minimally important differences in each domain [41]. Of note, the average baseline anxiety scores of survivors and caregivers placed them in the low moderate to high mild level of severity (T = 60.4 and 57.8, respectively), which decreased to within normal limits at the follow-up assessment, a clinically meaningful reduction. While meaningful score decreases were also observed in depression and sleep disturbance scales, these scores were all within a sub-clinical range of severity for these domains.
A significant, moderate decrease was seen in IL-6 values between pre and post-trek, as well as a significant, large increase in CRP values during this time period. A closer inspection of un-transformed estimates reveals that mean pre-IL-6 values (16.7 pg/mL) were within the mild to moderate range of severity and decreased to within normal limits at the post-test (2.1 pg/mL) [42], which is a clinically meaningful reduction. For CRP, both pre and post values (1.03 mg/dL and 1.60 mg/dL, respectively) were within the normal range [43]. While it may have been expected that both biomarkers rise and fall in unison (suggesting the possibility of a distinctive mechanism of concurrent inflammatory activity), given that CRP is a good indication of muscle inflammation, this slight rise (staying within normal values) may be explained by the physical activity of the treks [44]. Given known associations between symptoms of depression and anxiety and acute inflammation [45,46] and the secretion of pro-inflammatory cytokines [47,48], it is important to advance our understanding of how immersive experiences in nature might “get under the skin”. This said, the evaluation design and very small sample of these biomarker analyses place these findings at the very preliminary level of understanding, which should be considered when interpreting these results.
No significant differences in outcomes were observed between canoeing and backpacking-focused week-long treks in the backcountry. A moderate, significant difference was observed, however, in feeling more connected to nature among participants who spent a week in the backcountry compared with those on a long-weekend nature retreat. This is an interesting and somewhat logical finding; that camping, hiking, and canoeing in the backcountry for five nights may lead to greater appraisals of nature connectedness than staying at a nature retreat facility with only day hikes and day paddles. However, it should be noted that nature connection scores in the retreat group were also comparatively high at follow-up (Mean = 4.4, compared to Mean = 4.7 in the backcountry group), which should be considered when interpreting this finding. Finally, a significant difference in sleep disturbance was observed between groups, whereby participants on week-long treks in the backcountry reported relatively poorer sleep experiences compared to long-weekend nature retreat participants. This too is not surprising, that sleeping indoors in a bed (with access to an indoor bathroom) for a shorter period of time may lead to more favorable sleep reports. For context, however, it should be noted that for both groups, average post-trek sleep scores were both within normal limits.
Previous research has supported many of the findings from this evaluation, such as increased reports of connection to the natural world and associated feelings of closeness to others [49], improved mood and sense of wellbeing [13], and increased self-efficacy [50]. While biological data have been collected in the context of brief, Shinrin-Yoku (forest bathing) studies [51], to our knowledge, this is the first evaluation to collect finger-pricked whole blood spots in the backcountry wilderness for the purpose of examining changes in pro-inflammatory biomarkers, such as IL-6 and CRP. This proved to be a safe, feasible, and convenient field-friendly method that has the potential to expand the measurement toolkit of nature and health researchers so that emerging biological outcomes may be included in the understanding of nature’s role on bio-behavioral determinants and mind-body processes.
While this program evaluation helps advance knowledge of the potential impact of immersive, mindfulness-based treks in nature for groups of young adults and caregivers affected by cancer, these findings should be considered within the context of their limitations. First, the single-arm, within-subjects design, while appropriate for program evaluation purposes, prohibits any causal inference that changes in outcomes resulted directly from trek participation and may have been influenced by other unrelated factors and forces. Due to the anonymous nature of the data collection method, it was not possible to examine the influence of other important contextual factors on outcomes, such as certain socio-demographic or cancer-related variables. Further, the relatively lower levels of representation of male survivors and people of color in this sample (25% and 18%, respectively) place restrictions on the generalizability of findings. While it has been reported that cancer support services for young adults are less utilized by men and people of color, these estimates are often confounded by a lack of awareness regarding the existence or availability of such services [52,53]. Further, simply being aware of a service doesn’t always translate into actual use [53]. Future nature programming initiatives, such as this will be strengthened by implementing more rigorous evaluation designs and enacting purposeful strategies to increase representation and reduce inequities to nature access.

5. Conclusions

Overall, psychosocial and biological outcomes improved after participation in immersive, mindfulness-based treks in nature in a sample of young adults and caregivers affected by cancer. Continued implementation and study of immersive, mindfulness-based nature programs with this population are warranted as it holds the potential to increase access to age-appropriate, supportive care opportunities that improve quality of life and well-being. It may also serve as an exemplar model that could be replicated with other populations that experience the adverse effect of disconnect.

Author Contributions

Conceptualization, S.V., G.V. and J.M.S.; Data curation, D.V., G.D., S.V., G.V., C.M., L.A., K.Q., J.S. and K.S. (Kelle Sajdak); Formal analysis, D.V. and T.W.M.; Investigation, D.V.; Methodology, D.V., G.D., S.V., G.V., B.R.C. and T.W.M.; Project administration, D.V., G.V. and A.B.; Resources, D.V., L.H., C.M., B.R.C., K.S. (Kathy Scortino), Z.B., L.A., I.R., K.Q., A.A., J.S., K.Z., K.S. (Kelle Sajdak), T.M., A.R., A.B., K.M., K.A., C.S., K.S. (Kristin Smith) and J.M.S.; Writing—original draft, D.V.; Writing—review & editing, G.D., S.V., G.V., L.H., C.M., B.R.C., K.S. (Kathy Scortino), Z.B., L.A., I.R., K.Q., A.A., J.S., K.Z., K.S. (Kelle Sajdak), T.M., A.R., T.W.M., A.B., K.M., K.A., C.S., K.S. (Kristin Smith) and J.M.S. All authors have read and agreed to the published version of the manuscript.


This evaluation received no external funding.

Institutional Review Board Statement

The Northwestern University Institutional Review Board (IRB) determined on 21 July 2021 (#STU00215456) that this activity is not considered research involving human subjects due to its anonymous, retrospective, program evaluation nature and that further IRB review and approval is not required.

Data Availability Statement

Data used in this program evaluation will be made available upon request.


We wish to recognize all of the young adults and caregivers affected by cancer who participated on a True North Trek and provided evaluation data for this report. We also wish to acknowledge the following individuals who have supported True North Treks over the years through technical, instrumental, administrative, strategic, and/or medical guidance: Previous board members Michael Victorson, Robert Boncosky, and Roy Arredondo; Previous program director Melanie Richmond; Previous medical director Jennifer Reichek, MD; Medical advisors Stacy Sanford, PhD and Sandra Manley-Eichler, LCSW; Outdoor guides Dennison Webb, Jon Paul Champine, PsyD, Santino Chiappetta, Monica Mckibben, Shelly Annameier, MFT, Gabrielle Chapman, Sara Becerril, Vanessa Hood, Greg Potvin, and Cassie Likens.

Conflicts of Interest

The authors David Victoron, Gretchen Doninger, Scott Victorson, and Gwen Victorson are co-founders of True North Treks. David Victorson and Gretchen Doninger have been volunteer directors since its incorporation and have never received financial remuneration for their activities. Scott Victorson and Gwen Victorson have both received payment for employment-related activities during their tenure, however neither works for True North Treks at present. Co-authors Lars Hall, Carly Maletich, Kelle Sadjak, Zachary Burns, Lori Allen, Ian Rosa, Kelley Quirk, Johanna Strokoff, Kile Zuidema, Kathy Scortino, Thomas Mckibben, Angie Roberts, Amanda Boes, and Christina Sauer have all received previous financial remuneration for employment or independent contractor-related activities related to the delivery of programming or services at True North Treks. Co-authors Brad Corr, Adekunle Adegbemi, Katie McAlinden, Karen Arredondo, Kristin Smith, and John Salsman are current volunteer board members of True North Treks and have never received financial remuneration for their services. Co-author Thomas McDade has no conflict to declare.


  1. Pietrabissa, G.; Simpson, S.G. Psychological Consequences of Social Isolation During COVID-19 Outbreak. Front. Psychol. 2020, 11, 2201. [Google Scholar] [CrossRef] [PubMed]
  2. O’Sullivan, R.; Burns, A.; Leavey, G.; Leroi, I.; Burholt, V.; Lubben, J.; Holt-Lunstad, J.; Victor, C.; Lawlor, B.; Vilar-Compte, M.; et al. Impact of the COVID-19 Pandemic on Loneliness and Social Isolation: A Multi-Country Study. Int. J. Environ. Res. Public Health 2021, 18, 9982. [Google Scholar] [CrossRef]
  3. Victorson, D.; Garcia, S.F.; Sanford, S.; Snyder, M.A.; Lampert, S.; Salsman, J.M. A Qualitative Focus Group Study to Illu-minate the Lived Emotional and Social Impacts of Cancer and Its Treatment on Young Adults. J. Adolesc. Young Adult Oncol. 2019, 8, 649–659. [Google Scholar] [CrossRef] [PubMed]
  4. Munoz, A.R.; Kaiser, K.; Yanez, B.; Victorson, D.; Garcia, S.F.; Snyder, M.A.; Salsman, J.M. Cancer experiences and health-related quality of life among racial and ethnic minority survivors of young adult cancer: A mixed methods study. Support. Care Cancer 2016, 24, 4861–4870. [Google Scholar] [CrossRef] [Green Version]
  5. Salsman, J.M.; Garcia, S.F.; Yanez, B.; Sanford, S.D.; Snyder, M.A.; Victorson, D. Physical, emotional, and social health differences between posttreatment young adults with cancer and matched healthy controls. Cancer 2014, 120, 2247–2254. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  6. Yanez, B.; Garcia, S.F.; Victorson, D.; Salsman, J.M. Distress among young adult cancer survivors: A cohort study. Support. Care Cancer 2013, 21, 2403–2408. [Google Scholar] [CrossRef] [Green Version]
  7. Ryder-Burbidge, C.; Diaz, R.L.; Barr, R.D.; Gupta, S.; Nathan, P.C.; McKillop, S.J.; Fidler-Benaoudia, M.M. The Burden of Late Effects and Related Risk Factors in Adolescent and Young Adult Cancer Survivors: A Scoping Review. Cancers 2021, 13, 4870. [Google Scholar] [CrossRef] [PubMed]
  8. Lang, M.J.; David, V.; Giese-Davis, J. The Age Conundrum: A Scoping Review of Younger Age or Adolescent and Young Adult as a Risk Factor for Clinical Distress, Depression, or Anxiety in Cancer. J. Adolesc. Young Adult Oncol. 2015, 4, 157–173. [Google Scholar] [CrossRef] [Green Version]
  9. Victorson, D.; Luberto, C.; Koffler, K. Nature as Medicine: Mind, Body, and Soil. J. Altern. Complement. Med. 2020, 26, 658–662. [Google Scholar] [CrossRef]
  10. Gianfredi, V.; Buffoli, M.; Rebecchi, A.; Croci, R.; Oradini-Alacreu, A.; Stirparo, G.; Marino, A.; Odone, A.; Capolongo, S.; Signorelli, C. Association between Urban Greenspace and Health: A Systematic Review of Literature. Int. J. Environ. Res. Public Health 2021, 18, 5137. [Google Scholar] [CrossRef] [PubMed]
  11. Zhang, R.; Zhang, C.-Q.; Rhodes, R.E. The pathways linking objectively-measured greenspace exposure and mental health: A systematic review of observational studies. Environ. Res. 2021, 198, 111233. [Google Scholar] [CrossRef] [PubMed]
  12. Masterton, W.; Carver, H.; Parkes, T.; Park, K. Greenspace interventions for mental health in clinical and non-clinical populations: What works, for whom, and in what circumstances? Health Place 2020, 64, 102338. [Google Scholar] [CrossRef]
  13. White, M.P.; Alcock, I.; Grellier, J.; Wheeler, B.; Hartig, T.; Warber, S.L.; Bone, A.; Depledge, M.H.; Fleming, L.E. Spending at least 120 minutes a week in nature is associated with good health and wellbeing. Sci. Rep. 2019, 9, 7730. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  14. Twohig-Bennett, C.; Jones, A. The health benefits of the great outdoors: A systematic review and meta-analysis of greenspace exposure and health outcomes. Environ. Res. 2018, 166, 628–637. [Google Scholar] [CrossRef] [PubMed]
  15. Houlden, V.; Weich, S.; De Albuquerque, J.P.; Jarvis, S.; Rees, K. The relationship between greenspace and the mental wellbeing of adults: A systematic review. PLoS ONE 2018, 13, e0203000. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  16. Dzhambov, A.M.; Markevych, I.; Hartig, T.; Tilov, B.; Arabadzhiev, Z.; Stoyanov, D.; Gatseva, P.; Dimitrova, D.D. Multiple pathways link urban green- and bluespace to mental health in young adults. Environ. Res. 2018, 166, 223–233. [Google Scholar] [CrossRef] [PubMed]
  17. Kuo, M. How might contact with nature promote human health? Promising mechanisms and a possible central pathway. Front. Psychol. 2015, 6, 1093. [Google Scholar] [CrossRef]
  18. Frumkin, H.; Bratman, G.N.; Breslow, S.J.; Cochran, B.; Kahn, P.H., Jr.; Lawler, J.J.; Levin, P.S.; Tandon, P.S.; Varanasi, U.; Wolf, K.L.; et al. Nature Contact and Human Health: A Research Agenda. Environ. Health Perspect. 2017, 125, 075001. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  19. Cui, R.; Gujral, S.; Galfalvy, H.; Szanto, K. The Role of Perceived and Objective Social Connectedness on Risk for Suicidal Thoughts and Behavior in Late-Life and Their Moderating Effect on Cognitive Deficits. Am. J. Geriatr. Psychiatry 2021. [Google Scholar] [CrossRef]
  20. Akers, S.W.; Joseph, R.A. Reducing the Negative Impact of Social Distancing Through Intentional Connectedness. J. Christ. Nurs. 2021, 38, 216–223. [Google Scholar] [CrossRef]
  21. Preston, A.J.; Rew, L. Connectedness, Self-Esteem, and Prosocial Behaviors Protect Adolescent Mental Health Following Social Isolation: A Systematic Review. Issues Ment. Health Nurs. 2021, 4, 1–10. [Google Scholar] [CrossRef]
  22. Bailey, M.; Cao, R.; Kuchler, T.; Stroebel, J.; Wong, A. Social Connectedness: Measurement, Determinants, and Effects. J. Econ. Perspect. 2018, 32, 259–280. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  23. Nitschke, J.P.; Forbes, P.A.G.; Ali, N.; Cutler, J.; Apps, M.A.J.; Lockwood, P.L.; Lamm, C. Resilience during uncertainty? Greater social connectedness during COVID-19 lockdown is associated with reduced distress and fatigue. Br. J. Health Psychol. 2021, 26, 553–569. [Google Scholar] [CrossRef] [PubMed]
  24. Wu, Z.; Nguyen, N.H.; Wang, D.; Lynch, B.M.; Hodge, A.M.; Bassett, J.K.; White, V.M.; Borland, R.; English, D.R.; Milne, R.L.; et al. Social connectedness and mortality after prostate cancer diagnosis: A prospective cohort study. Int. J. Cancer 2020, 147, 766–776. [Google Scholar] [CrossRef]
  25. Victorson, D.E.; Sauer, C.M.; Wolters, L.; Maletich, C.; Lukoff, K.; Sufrin, N. Meta-analysis of Technology-Enabled Mind-fulness-Based Programs for Negative Affect and Mindful Awareness. Mindfulness 2020, 11, 1884–1899. [Google Scholar] [CrossRef]
  26. Victorson, D.K.; Kentor, M.; Maletich, C.; Lawton, R.C.; Hankin Kaufman, V.; Borrero, M.; Languido, L.; Lewett, K.; Pancoe, H.; Berkowitz, C. A Systematic Review and Meta-Analysis of Mindfulness-Based Randomized Controlled Trials Relevant to Lifestyle Medicine. Am. J. Lifestyle Med. 2015, 9, 185–211. [Google Scholar] [CrossRef]
  27. Kabat-Zinn, J. Full Catastrophe Living: Using the Wisdom of Your Mind to Face Stress, Pain and Illness; Dell Publishing: New York, NY, USA, 1990. [Google Scholar]
  28. Basso, J.C.; McHale, A.; Ende, V.; Oberlin, D.J.; Suzuki, W.A. Brief, daily meditation enhances attention, memory, mood, and emotional regulation in non-experienced meditators. Behav. Brain Res. 2019, 356, 208–220. [Google Scholar] [CrossRef]
  29. Rodrigues, M.F.; Nardi, A.E.; Levitan, M. Mindfulness in mood and anxiety disorders: A review of the literature. Trends Psychiatry Psychother. 2017, 39, 207–215. [Google Scholar] [CrossRef] [PubMed]
  30. Oliva, F.; Malandrone, F.; di Girolamo, G.; Mirabella, S.; Colombi, N.; Carletto, S.; Ostacoli, L. The efficacy of mindfulness-based interventions in attention-deficit/hyperactivity disorder beyond core symptoms: A systematic review, meta-analysis, and meta-regression. J. Affect. Disord. 2021, 292, 475–486. [Google Scholar] [CrossRef]
  31. Pedro, J.; Monteiro-Reis, S.; Carvalho-Maia, C.; Henrique, R.; Jerónimo, C.; Silva, E.R. Evidence of psychological and biological effects of structured Mindfulness-Based Interventions for cancer patients and survivors: A meta-review. Psycho-Oncol. 2021, 30, 1836–1848. [Google Scholar] [CrossRef]
  32. Reich, R.R.; Lengacher, C.A.; Klein, T.W.; Newton, C.; Shivers, S.; Ramesar, S.; Alinat, C.B.; Paterson, C.; Le, A.; Park, J.Y.; et al. A Randomized Controlled Trial of the Effects of Mindfulness-Based Stress Reduction (MBSR[BC]) on Levels of Inflammatory Biomarkers Among Recovering Breast Cancer Survivors. Biol. Res. Nurs. 2017, 19, 456–464. [Google Scholar] [CrossRef]
  33. Pilkonis, P.A.; Choi, S.W.; Reise, S.P.; Stover, A.M.; Riley, W.T.; Cella, D.; Group, P.C. Item banks for measuring emotional distress from the Patient-Reported Outcomes Measurement Information System (PROMIS(R)): Depression, anxiety, and anger. Assessment 2011, 18, 263–283. [Google Scholar] [CrossRef]
  34. Yu, L.; Buysse, D.J.; Germain, A.; Moul, D.E.; Stover, A.; Dodds, N.E.; Johnston, K.L.; Pilkonis, P.A. Development of Short Forms From the PROMIS™ Sleep Disturbance and Sleep-Related Impairment Item Banks. Behav. Sleep Med. 2012, 10, 6–24. [Google Scholar] [CrossRef]
  35. Crane, R.S.; Stanley, S.; Rooney, M.; Bartley, T.; Cooper, L.; Mardula, J. Disciplined Improvisation: Characteristics of Inquiry in Mindfulness-Based Teaching. Mindfulness 2015, 6, 1104–1114. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  36. McDade, T.W. Development and validation of assay protocols for use with dried blood spot samples. Am. J. Hum. Biol. 2013, 26, 1–9. [Google Scholar] [CrossRef]
  37. McDade, T.W.; Burhop, J.; Dohnal, J. High-Sensitivity Enzyme Immunoassay for C-Reactive Protein in Dried Blood Spots. Clin. Chem. 2004, 50, 652–654. [Google Scholar] [CrossRef] [Green Version]
  38. McDade, T.W.; Miller, A.; Tran, T.T.; Borders, A.E.B.; Miller, G. A highly sensitive multiplex immunoassay for inflammatory cytokines in dried blood spots. Am. J. Hum. Biol. 2021, 33, e23558. [Google Scholar] [CrossRef] [PubMed]
  39. Morris, S.B. Estimating Effect Sizes From Pretest-Posttest-Control Group Designs. Organ. Res. Methods 2008, 11, 364–386. [Google Scholar] [CrossRef]
  40. Cohen, J. Statistical Power Analysis for the Behavioral Sciences, 2nd ed.; Erlbaum: Hillsdale, NJ, USA, 1988. [Google Scholar]
  41. Yost, K.J.; Eton, D.T.; Garcia, S.F.; Cella, D. Minimally important differences were estimated for six Patient-Reported Out-comes Measurement Information System-Cancer scales in advanced-stage cancer patients. J. Clin. Epidemiol. 2011, 64, 507–516. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  42. Guirao, J.J.; Cabrera, C.M.; Jiménez, N.; Rincón, L.; Urra, J.M. High serum IL-6 values increase the risk of mortality and the severity of pneumonia in patients diagnosed with COVID-19. Mol. Immunol. 2020, 128, 64–68. [Google Scholar] [CrossRef]
  43. Nehring, S.M.; Goyal, A.; Bansal, P.; Patel, B.C. C Reactive Protein; StatPearls: Treasure Island, FL, USA, 2021. [Google Scholar]
  44. Cerqueira, É.; Marinho, D.A.; Neiva, H.P.; Lourenço, O. Inflammatory Effects of High and Moderate Intensity Exercise—A Systematic Review. Front. Physiol. 2020, 10, 1550. [Google Scholar] [CrossRef]
  45. Cho, S.H.; Lim, J.-E.; Lee, J.; Lee, J.S.; Jeong, H.-G.; Lee, M.-S.; Ko, Y.-H.; Han, C.; Ham, B.-J.; Han, K.-M. Association between high-sensitivity C-reactive protein levels and depression: Moderation by age, sex, obesity, and aerobic physical activity. J. Affect. Disord. 2021, 291, 375–383. [Google Scholar] [CrossRef]
  46. Khan, A.; Leonard, D.; Defina, L.; Barlow, C.E.; Willis, B.; Brown, E.S. Association between C reactive protein and depression in a population of healthy adults: The Cooper Center Longitudinal Study. J. Investig. Med. 2020, 68, 1019–1023. [Google Scholar] [CrossRef] [PubMed]
  47. Roohi, E.; Jaafari, N.; Hashemian, F. On inflammatory hypothesis of depression: What is the role of IL-6 in the middle of the chaos? J. Neuroinflamm. 2021, 18, 1–15. [Google Scholar] [CrossRef] [PubMed]
  48. O’Donovan, A.; Hughes, B.M.; Slavich, G.M.; Lynch, L.; Cronin, M.-T.; O’Farrelly, C.; Malone, K.M. Clinical anxiety, cortisol and interleukin-6: Evidence for specificity in emotion–biology relationships. Brain Behav. Immun. 2010, 24, 1074–1077. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  49. Capaldi, C.; Dopko, R.L.; Zelenski, J.M. The relationship between nature connectedness and happiness: A meta-analysis. Front. Psychol. 2014, 5, 976. [Google Scholar] [CrossRef] [Green Version]
  50. Whitburn, J.; Linklater, W.; Abrahamse, W. Meta-analysis of human connection to nature and proenvironmental behavior. Conserv. Biol. 2020, 34, 180–193. [Google Scholar] [CrossRef] [PubMed]
  51. Hansen, M.M.; Jones, R.; Tocchini, K. Shinrin-Yoku (Forest Bathing) and Nature Therapy: A State-of-the-Art Review. Int. J. Environ. Res. Public Health 2017, 14, 851. [Google Scholar] [CrossRef] [Green Version]
  52. Zebrack, B.; Hamilton, R.; Smith, A.W. Psychosocial Outcomes and Service Use Among Young Adults With Cancer. Semin. Oncol. 2009, 36, 468–477. [Google Scholar] [CrossRef]
  53. Zebrack, B.J.; Block, R.; Hayes-Lattin, B.; Embry, L.; Aguilar, C.; Meeske, K.A.; Li, Y.; Butler, M.; Cole, S. Psychosocial service use and unmet need among recently diagnosed adolescent and young adult cancer patients. Cancer 2013, 119, 201–214. [Google Scholar] [CrossRef] [PubMed] [Green Version]
Figure 1. Study Flow.
Figure 1. Study Flow.
Ijerph 18 12622 g001
Figure 2. Pre-Post Changes in PROMIS Anxiety, Depression and Sleep Disturbance among Survivors (n = 139–141) and Caregivers (n = 37–38), 2016–2021. Note: Significance values and effect sizes represent pre-post changes within each respective group, and not comparisons between survivors and caregivers.
Figure 2. Pre-Post Changes in PROMIS Anxiety, Depression and Sleep Disturbance among Survivors (n = 139–141) and Caregivers (n = 37–38), 2016–2021. Note: Significance values and effect sizes represent pre-post changes within each respective group, and not comparisons between survivors and caregivers.
Ijerph 18 12622 g002
Figure 3. Pre-Post Changes in Interleukin-6 and C-Reactive Protein among Survivors (n = 16), 2016 Note: Values reflect log-transformed estimates.
Figure 3. Pre-Post Changes in Interleukin-6 and C-Reactive Protein among Survivors (n = 16), 2016 Note: Values reflect log-transformed estimates.
Ijerph 18 12622 g003
Table 1. Socio-Demographic and Cancer-Related Characteristics of Participants (2016–2021).
Table 1. Socio-Demographic and Cancer-Related Characteristics of Participants (2016–2021).
All (n = 207) Cancer Survivor (n = 157) Caregiver (n = 50)
Mean (SD)
Age34.9 (7.4) 33.6 (5.3) 39.1 (10.7)
Age at first cancer diagnosis -- 26.6 (8.2) --
Years since first cancer diagnosis -- 6.7 (7.1) --
Value (Percentage)
US Region
Northeast42(20.8%)------ --
Southeast29(14.4%)------ --
Midwest86(42.6%)------ --
Southwest9(4.5%)------ --
West36(17.8%)------ --
Primary Cancer Type
Brain----19(12.1%)-- --
Breast----48(30.6%)-- --
Colorectal----6(3.8%)-- --
Head and Neck----4(2.5%)----
Hematological----45(28.7%) -- --
Kidney & Renal----1(0.6%)-- --
Melanoma----2(1.3%)-- --
Mesothelioma----1(0.6%)-- --
Sarcoma----12(7.6%)-- --
Stomach----2(1.3%)-- --
Testicular----3(1.9%)-- --
Thyroid----5(3.2%)-- --
Trek Locations from 2016–2021
Bahamas 10(4.8%)5(3.2%)5(10.0%)
Boundary Waters (Minnesota)21(10.1%)21(13.4%)0(0.0%)
Green River (Utah)60(29.0%)40(25.5%)20(40.0%)
Selkirk Mountains (Idaho)19(9.2%)14(8.9%)5(10.0%)
Upper Peninsula (Michigan) 63(30.4%)47(29.9%)16(32.0%)
Wind Rivers (Wyoming)23(11.1%)19(12.1%)4(8.0%)
Yellowstone (Wyoming)11(5.3%)11(7.0%)0(0.00%)
Note: Missing values represent types of data that are only relevant to one group (e.g., cancer survivors, but not the other (e.g., caregivers).
Table 2. Pre-Post Changes in Reflection, Connection, Knowledge, and Efficacy (2016–2021).
Table 2. Pre-Post Changes in Reflection, Connection, Knowledge, and Efficacy (2016–2021).
Cancer Survivors (n = 140)Caregivers (n = 38)
Connection Item Indicators
Feel connected to nature and the outdoors3.60.994.60.660.0010.953.60.974.50.740.0010.93
Feel connected to other young adult cancer survivors
Feel connected to other caregivers affected by cancer ------------
Able to reflect on my path & direction as a survivor 3.60.964.30.800.0010.57------------
Able to reflect on my path & direction as a caregiver------------3.20.894.50.640.0011.5
Knowledge and Efficacy Item Indicators
Aware of benefits of mindfulness for health3.
Comfortable doing outdoor activities 3.90.964.30.800.0010.374.10.974.20.850.3990.18
Confident incorporating mindfulness into daily life2.
Note: M = Mean; SD = Standard Deviation; Sig = Significance; ES = Cohen’s d effect size; Response Options of Single Items: 1 = Not at all, 2 = Very little, 3 = Somewhat, 4 = Quite a bit, 5 = A great deal; Missing values represent types of data that are only relevant to one group (e.g., cancer survivors, but not the other (e.g., caregivers).
Table 3. Percentage of Post-Trek Enjoyment, Appreciation, Insights, and Learning (2016–2021).
Table 3. Percentage of Post-Trek Enjoyment, Appreciation, Insights, and Learning (2016–2021).
Cancer Survivors (n = 146)Caregivers
(n = 40)
Single Item IndicatorsQuite a BitGreat DealTotalQuite a BitGreat DealTotalp
Had fun.22.866.589.37.585.092.50.02
Appreciation for nature and the outdoors increased.26.060.886.822.567.590.00.69
Gained insights into things that can cause stress, frustration or discomfort.32.339.972.242.542.585.00.59
Learned some things to help manage stress and uncertainties in life.32.341.874.152.535.087.50.09
Learned ways to slow down and just notice mind and body.25.353.278.527.557.585.00.99
Learned different ways to “respond” to stress instead of “reacting” to it.
Learned about being a more accepting “observer” to myself and my experiences.
I learned about being kind and compassionate to myself, even for the “little things.”
Gained deeper appreciation for some of life’s simpler things (e.g., walking, eating)30.452.582.915.062.577.50.07
Learned about “sitting” with unpleasant experiences without becoming overwhelmed.31.636.167.737.540.077.50.87
Have a better understanding of what mindfulness is and isn’t.38.643.782.355.
Feel more confident in ability to do things to stay healthy and well as a cancer survivor.37.337.374.638.541.079.50.87
Plan to keep learning and practicing mindfulness meditation when return home.28.550.078.540.
Plan to spend more time in the outdoors, even if it’s just at a park, after return home.19.667.186.735.
Feel like this experience will continue to affect me in positive ways after return home.16.572.288.77.585.092.50.13
Note: Response options were 1 = Not at all, 2 = Very little, 3 = Somewhat, 4 = Quite a bit, 5 = A great deal; p = significance level from mean comparison.
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Share and Cite

MDPI and ACS Style

Victorson, D.; Doninger, G.; Victorson, S.; Victorson, G.; Hall, L.; Maletich, C.; Corr, B.R.; Scortino, K.; Burns, Z.; Allen, L.; et al. Psychosocial and Biological Outcomes of Immersive, Mindfulness-Based Treks in Nature for Groups of Young Adults and Caregivers Affected by Cancer: Results from a Single Arm Program Evaluation from 2016–2021. Int. J. Environ. Res. Public Health 2021, 18, 12622.

AMA Style

Victorson D, Doninger G, Victorson S, Victorson G, Hall L, Maletich C, Corr BR, Scortino K, Burns Z, Allen L, et al. Psychosocial and Biological Outcomes of Immersive, Mindfulness-Based Treks in Nature for Groups of Young Adults and Caregivers Affected by Cancer: Results from a Single Arm Program Evaluation from 2016–2021. International Journal of Environmental Research and Public Health. 2021; 18(23):12622.

Chicago/Turabian Style

Victorson, David, Gretchen Doninger, Scott Victorson, Gwen Victorson, Lars Hall, Carly Maletich, Bradley R. Corr, Kathy Scortino, Zachary Burns, Lori Allen, and et al. 2021. "Psychosocial and Biological Outcomes of Immersive, Mindfulness-Based Treks in Nature for Groups of Young Adults and Caregivers Affected by Cancer: Results from a Single Arm Program Evaluation from 2016–2021" International Journal of Environmental Research and Public Health 18, no. 23: 12622.

Note that from the first issue of 2016, this journal uses article numbers instead of page numbers. See further details here.

Article Metrics

Back to TopTop