Hostname: page-component-586b7cd67f-dsjbd Total loading time: 0 Render date: 2024-11-28T06:23:26.073Z Has data issue: false hasContentIssue false

Health-related quality of life in adults with Marfan syndrome

Published online by Cambridge University Press:  02 October 2024

Anna Stanek Sörner
Affiliation:
Institute of Neuroscience and Physiology/Physiotherapy, Sahlgrenska Academy, University of Gothenburg, Gothenburg, Sweden
Maja Enelund
Affiliation:
Institute of Neuroscience and Physiology/Physiotherapy, Sahlgrenska Academy, University of Gothenburg, Gothenburg, Sweden
Åsa Cider
Affiliation:
Institute of Neuroscience and Physiology/Physiotherapy, Sahlgrenska Academy, University of Gothenburg, Gothenburg, Sweden Occupational and Physical Therapy Department, Sahlgrenska University Hospital, Östra Hospital, Gothenburg, Sweden Adult Congenital Heart Unit, Sahlgrenska University Hospital, Östra Hospital, Gothenburg, Sweden
Linda Ashman Kröönström*
Affiliation:
Institute of Neuroscience and Physiology/Physiotherapy, Sahlgrenska Academy, University of Gothenburg, Gothenburg, Sweden Occupational and Physical Therapy Department, Sahlgrenska University Hospital, Östra Hospital, Gothenburg, Sweden Adult Congenital Heart Unit, Sahlgrenska University Hospital, Östra Hospital, Gothenburg, Sweden
*
Corresponding author: Linda Ashman Kröönström; Email: [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Background and aim:

Marfan syndrome is a rare genetic connective tissue disorder. Research on health-related quality of life in Swedish patients is lacking. We aimed to examine health-related quality of life in patients with Marfan syndrome with respect to reference values, sex, and age.

Methods:

Using the registry for adult CHD, Sahlgrenska University Hospital/Östra Hospital, between 1 April 2009 and 31 January 2023, we identified 1916 patients. Of these, we included 33 patients aged ≥18 years who were diagnosed with Marfan syndrome and had completed the 36-item Short-Form Health Survey.

Results:

The median age was 32 years (interquartile range 25.5–47.0) and 22 (66.7%) were men. Patients with Marfan syndrome had significantly lower values than reference values for all scales in the Short-Form Health Survey except bodily pain, role-emotional, and the physical component summary score. For both men and women with Marfan syndrome, vitality was the subscale with the greatest percentage difference in comparison with healthy reference values (82% in women and 73% in men). Furthermore, men reported significantly higher vitality levels than women (62.5 points, interquartile range 43.8–75.0 vs. 35 points, interquartile range 10.0–65.0, p = 0.026).

Conclusion:

Adults with Marfan syndrome in Sweden showed lower health-related quality of life levels in comparison with reference values for most Short-Form Health Survey scales, and there were differences between patients with Marfan syndrome in terms of sex and age.

Type
Original Article
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution-NonCommercial-NoDerivatives licence (https://creativecommons.org/licenses/by/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided that no alterations are made and the original article is properly cited. The written permission of Cambridge University Press must be obtained prior to any commercial use and/or adaptation of the article.
Copyright
© The Author(s), 2024. Published by Cambridge University Press

Introduction

Marfan syndrome is a rare genetic connective tissue disorder. 1 Marfan syndrome affects multiple organ systems, including the skeletal, ocular, and cardiovascular systems. Reference Ho, Tran and Bektas2 The cause of Marfan syndrome development is a mutation in the FBN1 gene located on chromosome 15. The FBN1 gene encodes the protein fibrillin 1, Reference Dietz, Cutting and Pyeritz3 which is found in various tissues, including the skin, muscles, periosteum, blood vessels, and eyes. Reference Hollister, Godfrey, Sakai and Pyeritz4 Patients with Marfan syndrome often have a deficiency of fibrillin 1, leading to issues indicating need 1 such as an increased risk of aortic aneurysm and aortic dissection. Reference Kaemmerer, Oechslin and Seidel5 According to these connective tissue problems, patients with Marfan syndrome often experience restrictions in terms of physical activity and exercise. 6 The primary known cause of death in individuals with Marfan syndrome is cardiovascular complications, such as aortic dissection, aortic leakage, and heart failure. Reference Pyeritz7 Therefore, for patients with Marfan syndrome and aortic involvement, lifelong monitoring and treatment are of utmost importance, including methods such as echocardiography Reference Judge and Dietz8 , pharmacology, surgery, psychological support, and physiotherapy. Reference Kaemmerer, Oechslin and Seidel5

Patients with Marfan syndrome experience a high degree of fatigue Reference Peters, Kong, Horne, Francomano and Biesecker9 , which is often associated with pain Reference Bathen, Velvin, Rand-Hendriksen and Robinson10 , an extensive and challenging symptom of Marfan syndrome. The pain affects patients with Marfan syndrome both physically and mentally Reference Speed, Mathur and Hand11 and has also been shown to worsen with increasing age. Reference Rand-Hendriksen, Johansen, Semb, Geiran, Stanghelle and Finset12

Quality of life and health-related quality of life are elusive and difficult-to-define concepts. Reference Karimi and Brazier13 The World Health Organization defines the quality of life as “an individual’s perception of their position in life in the context of the culture and value systems in which they live and in relation to their goals, expectations, standards and concerns” 14 , whilst health is a “state of complete physical, mental and social well-being and not merely the absence of disease or infirmity”. 15 Health-related quality of life in patients with Marfan syndrome was assessed in a systematic review from 2019 (of which 17 of 20 studies included adult patients) Reference Velvin, Wilhelmsen, Johansen, Bathen and Geirdal16 and in other studies published more recently. Reference Thijssen, Doze and Gökalp17,Reference Trawicka, Lewandowska-Walter, Majkowicz, Sabiniewicz and Woźniak-Mielczarek18 The systematic review reported on lower quality of life in patients with Marfan syndrome than the general population. Reference Velvin, Wilhelmsen, Johansen, Bathen and Geirdal16 However, no studies have been conducted in Sweden. We hypothesised that health-related quality of life would be lower in patients with Marfan syndrome in comparison with reference values for healthy, that women would have lower values than men, and furthermore that higher age could impact health-related quality of life negatively. The primary aim of this study was therefore to assess health-related quality of life among adult patients with Marfan syndrome in Sweden and to compare it with reference values for healthy individuals. The secondary aim was to investigate whether the outcomes of the Short-Form Health Survey differ among adult patients with Marfan syndrome according to sex and age.

Patients and methods

Study population

This was a descriptive registry study. Patients were informed verbally and in writing regarding the adult CHD registry, and if they accepted, they provided their written informed consent. The inclusion criteria were patients aged ≥18 years who were diagnosed with the International Classification of Diseases Tenth Revision code Q874 (Marfan syndrome), included in the physiotherapy registry for patients with adult CHD, and who had completed the self-assessment questionnaire Short-Form Health Survey between 1 April 2009 and 31 January 2023. In total, 1916 patients were identified in the adult CHD registry, among whom 47 patients had Marfan syndrome; of these, 33 patients met the inclusion criteria (Figure 1).

Figure 1. Flowchart illustrating the sampling process. n = number; ACHD = adult congenital heart disease; SF-36 = 36-item Short-Form Health Survey.

The 14 patients who were excluded owing to not having completed the Short-Form Health Survey were between 19 and 65 years old (median 26.5 years, interquartile range 22.0–45.0), and 35.7% (n = 5) of those patients were men. Furthermore, 13 of the 14 patients had NYHA class I, and one patient had NYHA class II. There was no statistically significant difference between the excluded and included patients regarding sex (p = 0.050), age (p = 0.346), or NYHA class (p = 0.613).

The reference group consisted of healthy Swedish men and women from the general population aged 15–64 years living in different geographical areas (n = 8930). Reference Sullivan and Karlsson19

Procedure

The clinic for patients with CHD at Sahlgrenska University Hospital/Östra Hospital treats and continuously monitors adult patients with CHD ≥ 18 years old. Patients are offered assessments of physical capacity (aerobic capacity and muscle function), physical activity level, and health-related quality of life by a physiotherapist, using methods previously described. Reference Kröönström, Johansson, Zetterström, Dellborg, Eriksson and Cider20,Reference Ashman Kröönström, Cider and Zetterström21 The Short-Form Health Survey is used to assess the patients’ health-related quality of life.

Short-Form Health Survey

The Short-Form Health Survey comprises 36 questions and is a generic self-assessment instrument used to measure health-related quality of life. Reference Ware, Snow, Kosinski and Gandek22 The translated standard Swedish Version 1.0 from the International quality of life assessment group was used. The instrument measures both mental and physical health using eight different subscales: (1) physical functioning, (2) role-physical, (3) bodily pain, (4) social functioning, (5) mental health, (6) role-emotional, (7) vitality, and (8) general health. Reference Ware, Snow, Kosinski and Gandek22

The eight subscales are individually scored on a scale of 0–100 points, and higher scores indicate better health-related quality of life. Reference Ware and Gandek23 Mental health, social functioning, vitality, and role-emotional are summed to create a mental component summary measure. The remaining four subscales are summed to create a physical component summary measure. Reference Ware and Gandek23 Summary measures are rated separately, ranging from 2 to 76 points for the physical component summary and -1–81 points for the mental component summary. Reference Ware, Kosinski and Keller24,Reference Taft, Karlsson and Sullivan25

The instrument has been tested for conceptual, criterion-based, and content validity, as well as internal consistency reliability, in a general population in Sweden, demonstrating good reliability and validity. Reference Sullivan, Karlsson and Ware26

Statistical analysis

Data were analysed using the IBM Statistical Package for Social Sciences version 28.0 (IBM Statistical Package for Social Sciences Inc., Armonk, NY, USA). Variables were described using various measures of central tendency and dispersion based on the scale level and distribution. The distribution of variables was assessed using histograms with a normal distribution curve. Non-normally distributed ratio data are described using the median and interquartile range, and nominal variables are presented as count and percentage. Study participants were divided into groups based on sex and age (≤ median or > median).

Health-related quality of life was assessed as ordinal data and was not normally distributed, and therefore, the median was used as a measure of central tendency, and the interquartile range was used as a measure of dispersion. To identify differences between the medians of two independent groups, the Mann–Whitney U test was used. Patient values were compared with healthy reference median values Mann–Whitney U test was used. Patient values were compared with healthy reference median values Reference Sullivan and Karlsson19 using the one-sample Wilcoxon signed-rank test. For the dropout analysis, the Mann–Whitney U test was applied for ratio data, and the chi-squared test was used for nominal and ordinal data. A significance level of p < 0.05 was adopted in all analyses.

The minimal clinically important difference for the Short-Form Health Survey has not been assessed in patients with Marfan syndrome, but it has been shown to be between 4 and 6 points for the mental component summary and physical component summary in other patient groups. Reference Witt, Krauss and Barbero27Reference Ogura, Yakoub and Christ29 In the current study, a 4-point minimal clinically important difference was applied for the analyses.

Results

The included patients were between 18 and 63 years old, and 66.7% (n = 22) of them were men. Among the included patients 81.8% (n = 27) were treated with medication (Table 1).

Table 1. Demographic data of the included patients

n= number; IQR = interquartile range 25th-75th percentile; ACE = angiotensin converting enzyme; ARB = angiotensin II antagonists; NYHA = New York Heart Association (functional classification).

* The total number of specific heart diagnoses is not equivalent to the sum of all heart diagnoses because four patients had two different diagnoses.

** The total number of surgeries is not equivalent to the sum of catheterisation, sternotomy, and thoracotomy because two patients had undergone multiple surgeries.

Comparison between values for patients with Marfan syndrome and healthy reference values

A statistically significant difference in values was observed between patients with Marfan syndrome and healthy reference values in all scales, except for bodily pain, role-emotional, and physical component summary in women and bodily pain and physical component summary in men. Patients with Marfan syndrome had statistically significantly lower health-related quality of life levels compared with healthy reference values. A clinically relevant difference existed between values for patients with Marfan syndrome and healthy reference values regarding mental component summary, where patients with Marfan syndrome had a lower value (Figure 2, Supplementary Table S1). For both men and women with Marfan syndrome, vitality was the subscale with the greatest percentage difference in comparison with healthy reference values (Figure 2, Supplementary Figure S1). In the vitality subscale, 82% (9/11) of women and 73% (16/22) of men were below the reference value (Supplementary Figure S2).

Figure 2. Diagram comparing values for women (A) and men (B) with MFS to healthy reference values. MFS = Marfan syndrome; SF-36 = 36-item Short-Form Health Survey; PF = physical functioning; RP = role-physical; BP = bodily pain; GH = general health; VT = vitality; SF = social functioning; RE = role-emotional; MH = mental health; ref.= reference value.

Comparison between women and men with Marfan syndrome

A statistically significant difference was observed between women and men regarding vitality, where men had a higher value than women (p = 0.026). Other variables were not significantly different (Table 2).

Table 2. Results of SF-36 for the eight subscales and summary measures for patients with MFS. Data are median (interquartile range, 25th-75th percentile)

MFS = Marfan syndrome; SF-36 = 36-item Short-Form Health Survey; PF = physical functioning; RP = role-physical; BP = bodily pain; GH = general health; VT = vitality; SF = social functioning; RE = role-emotional; M = mental health; PCS = physical component summary; MCS = mental component summary.

Bold p-value, statistically significant with Mann–Whitney U test.

Comparison between age groups in patients with Marfan syndrome

A statistically significant difference was found when comparing women in the age groups 18–32 years and 33–63 years regarding physical functioning (p = 0.030), where women in the age group 33–63 years had a lower value. Men in the age group 33–63 years had significantly lower values than men in the age group 18–32 years regarding role-physical (p = 0.040), general health (p = 0.002), and physical component summary (p = 0.007). Other variables were not significantly different. A clinically relevant difference existed between age groups for both women and men regarding physical component summary, where patients aged 18–32 years had higher values (Supplementary Table S2).

Discussion

The results of the present study showed that patients with Marfan syndrome had lower health-related quality of life, which is in line with a previous systematic review Reference Velvin, Wilhelmsen, Johansen, Bathen and Geirdal16 reporting significantly lower health-related quality of life in patients with Marfan syndrome compared with general populations. The outcome of the Short-Form Health Survey differed in patients with Marfan syndrome aged ≥18 years compared with healthy reference values Reference Sullivan and Karlsson19 according to sex. For both men and women with Marfan syndrome, the medians for all scales were less than or equal to the healthy reference values. With the exception of bodily pain, role-emotional, and physical component summary, there was a significant difference between values for patients with Marfan syndrome and healthy reference values, where patients with Marfan syndrome had lower health-related quality of life. There was also a clinically relevant difference with healthy reference values regarding mental component summary, where patients with Marfan syndrome had a lower value. Furthermore, the vitality subscale showed the largest percentage difference compared with healthy reference values for both women and men with Marfan syndrome. Values for most of the study population (82% of women and 73% of men) were below the healthy reference value for the vitality subscale.

The outcome of the Short-Form Health Survey differed significantly among our patients with Marfan syndrome aged ≥18 years based on sex, where men had a higher value than women in the vitality subscale. Otherwise, there were no statistically significant differences between the sexes. Previously published studies have shown divergent results regarding differences in self-assessed health-related quality of life between men and women with Marfan syndrome. Similar to our findings, a Norwegian Reference Rand-Hendriksen, Johansen, Semb, Geiran, Stanghelle and Finset12 and a North American study Reference Goldfinger, Preiss and Devereux30 reported no significant difference by sex. These studies included 84 and 389 patients with Marfan syndrome, respectively. Reference Rand-Hendriksen, Johansen, Semb, Geiran, Stanghelle and Finset12,Reference Goldfinger, Preiss and Devereux30 However, in two other studies, Reference Thijssen, Doze and Gökalp17,Reference Trawicka, Lewandowska-Walter, Majkowicz, Sabiniewicz and Woźniak-Mielczarek18 there was a statistically significant difference between sexes. In a Dutch study Reference Thijssen, Doze and Gökalp17 conducted among 123 patients with Marfan syndrome, women had significantly lower scores for physical functioning and physical component summary. A Polish study Reference Trawicka, Lewandowska-Walter, Majkowicz, Sabiniewicz and Woźniak-Mielczarek18 that included 35 patients with Marfan syndrome also found that women had significantly lower scores for physical functioning and physical component summary as well as for general health, vitality, mental health, and mental component summary. The present study was the first conducted in a Swedish population. Health-related quality of life can vary between different countries depending on several factors. Norway is a neighbouring country to Sweden and has a similar healthcare system where care is tax-financed, which speculatively could lead to a more divergent population than in countries where health care is not tax-financed. The results of the Norwegian population of patients with Marfan syndrome Reference Rand-Hendriksen, Johansen, Semb, Geiran, Stanghelle and Finset12 generally showed lower scores in all 10 domains of health-related quality of life than results found in the present study; however, commonly both studies found that vitality was the subscale with the lowest values of the eight subscales.

Sullivan et al. (1998) Reference Sullivan and Karlsson19 assessed health-related quality of life in the general population of Sweden. The results showed that men had higher health-related quality of life than women for all subscales. Reference Sullivan and Karlsson19 In an English study, men in the general population had higher scores for all subscales compared with women, except for general health. Reference Jenkinson, Coulter and Wright31 In the current study, vitality was the only subscale with a statistically significant difference by sexes. However, similarities with the general population can be observed; general health was the only subscale where women had higher scores than men. The absence of differences between sexes in the present study could possibly be explained by the study population’s size of 33 participants, with 11 women and 22 men. Furthermore, it could be argued that other factors may influence health-related quality of life more significantly than sex. According to Goldfinger et al. (2017) Reference Goldfinger, Preiss and Devereux30 who assessed the physical subscales and the physical component summary of the Short-Form Health Survey, factors such as educational level, income, health insurance, and employment have the greatest impact on health-related quality of life in patients with Marfan syndrome. Additionally, Sullivan et al. (1998) Reference Sullivan and Karlsson19 highlight that lower educational level and unemployment correlate with lower health-related quality of life in the Swedish general population.

Women aged 18–32 years had significantly higher physical functioning than women aged 33–63 years. Men aged 18–32 years had significantly higher role-physical, general health, and physical component summary than men aged 33–63 years. There was also a clinically relevant difference between age groups for both women and men regarding physical component summary, where patients aged 18–32 years had a higher value. This is consistent with the findings of other studies Reference Rand-Hendriksen, Johansen, Semb, Geiran, Stanghelle and Finset12,Reference Goldfinger, Preiss and Devereux30,Reference Vanem, Rand-Hendriksen, Brunborg, Geiran and Røe32 that discussed how domains related to physical health are most affected by increased age in Marfan syndrome. Sullivan et al. (1998) Reference Sullivan and Karlsson19 demonstrated that physical health was most affected by older age in the general population of Sweden. However, the present study population was younger, with a median age of 32 years, and included a small number of participants. Despite this, statistically significant differences were noted in terms of physical health, where the age group >median reported lower scores. Ageing contributes to a reduction in maximal aerobic capacity, decreased muscle mass, and diminished explosive strength, which has significant implications for physical function and activities of daily living. Reference Young33

It can be expected that physical functioning and bodily pain affect patients with Marfan syndrome because pain is commonly present in this patient population Reference Peters, Kong, Horne, Francomano and Biesecker9 and has been shown to impact physical function. Reference Speed, Mathur and Hand11 However, in the current study, there was no statistically significant difference by age group or sex, compared with healthy reference values in terms of the bodily pain subscale. Marfan syndrome is a rare disease with both physical Reference Ho, Tran and Bektas2,Reference Kaemmerer, Oechslin and Seidel5,Reference Judge and Dietz8 and mental impacts, Reference Kaemmerer, Oechslin and Seidel5,Reference Peters, Kong, Horne, Francomano and Biesecker9 which could partly explain the lower health-related quality of life in patients with Marfan syndrome. Furthermore, Sullivan et al. (1998) Reference Sullivan and Karlsson19 showed that the vitality subscale has a strong correlation with fatigue in the Swedish general population. Rand-Hendriksen et al. (2010) Reference Rand-Hendriksen, Johansen, Semb, Geiran, Stanghelle and Finset12 have also discussed whether low vitality scores in patients with Marfan syndrome could be attributed to fatigue and reduced physical endurance. Reference Rand-Hendriksen, Johansen, Semb, Geiran, Stanghelle and Finset12 Fatigue is a common symptom in patients with Marfan syndrome Reference Peters, Kong, Horne, Francomano and Biesecker9 , which could explain the large percentage difference between values for patients with Marfan syndrome and healthy reference values on the vitality subscale. Additionally, women have been shown to experience more fatigue than men Reference Peters, Kong, Horne, Francomano and Biesecker9 .

A systematic review assessing physical activity as a future therapy for patients with Marfan syndrome only found one study in humans. Reference Jouini, Milleron, Eliahou, Jondeau and Vitiello34 Benninghoven et al. Reference Benninghoven, Hamann and von Kodolitsch35 have demonstrated the effects of a 3-week rehabilitation programme, including daily exercise, for patients with Marfan syndrome. The results showed statistically significant improvement in the vitality, mental health, bodily pain, and mental component summary scales. The study also showed a statistically significant reduction in fatigue. Reference Benninghoven, Hamann and von Kodolitsch35 Therefore, a rehabilitation programme may improve both physical and mental health; thus, it is important for enhancing the health-related quality of life of patients with Marfan syndrome.

The current study indicated that an impact on the health-related quality of life exists in the Swedish population of patients with Marfan syndrome, but more studies with larger study populations in this area are required to draw more reliable conclusions.

Strengths and limitations

The small sample size in the current study can be considered a limitation. However, Marfan syndrome is a rare and understudied condition, which means that even a smaller study population can yield relevant results. Furthermore, the population size is comparable to previous studies on this population. Reference Velvin, Wilhelmsen, Johansen, Bathen and Geirdal16,Reference Trawicka, Lewandowska-Walter, Majkowicz, Sabiniewicz and Woźniak-Mielczarek18 Nevertheless, when applying the results to the entire population with Marfan syndrome, the size of the study population must be considered, and the fact that significant results might not have been achieved.

The use of the Short-Form Health Survey as a standardised self-assessment instrument enhances the study. Reliability and validity have not been specifically tested in the patient population with Marfan syndrome, but the Short-Form Health Survey is the most commonly used instrument for assessing health-related quality of life in these patients. Reference Velvin, Wilhelmsen, Johansen, Bathen and Geirdal16 Furthermore, the minimal clinically important difference has not been specifically tested on the Marfan syndrome population. However, in a study Reference Vanem, Rand-Hendriksen, Brunborg, Geiran and Røe32 that assessed health-related quality of life in patients with Marfan syndrome using the Short-Form Health Survey, a 4-point difference was applied as the minimal clinically important difference. Therefore, a 4-point difference was used in the present study.

This study was conducted in the clinical setting and spanned over several years; the possibilities of changing societal conditions during this time period were not possible to analyse. Data regarding sociodemographic factors such as educational level, income, marital status, and employment were unavailable in the current study and therefore could not be evaluated, which is a limitation. Fourteen patients with Marfan syndrome were excluded because they did not complete the Short-Form Health Survey questionnaire, but the reasons for these patients choosing not to participate were not recorded. However, there was no statistically significant difference between excluded and included patients with Marfan syndrome in terms of sex, age, or NYHA classification.

The reference values used in the present study were from the year 2002; more recent values would however have been preferable but do not exist. Finally, in the current study, we could not draw conclusions about whether the outcome of the Short-Form Health Survey differs in terms of values for patients with Marfan syndrome aged ≥18 years compared with healthy reference values Reference Sullivan and Karlsson19 concerning age owing to noncomparable age groups and the absence of individual data for healthy.

Conclusion

In the present study, adult patients with Marfan syndrome exhibited significantly lower health-related quality of life levels measured using the Short-Form Health Survey in comparison with healthy reference values across most scales. Within the patient group, differences were also found according to sex and age. Further research can investigate if individualised exercise training can enhance health-related quality of life in patients with Marfan syndrome, with a particular focus on vitality.

Supplementary material

The supplementary material for this article can be found at https://doi.org/10.1017/S1047951124025770.

Acknowledgements

The authors would like to extend special acknowledgement to Linda Johansson and Anna-Klara Zetterström for their help in the clinical setting, as well as to all the staff at the Physiotherapy Unit at Sahlgrenska University Hospital/Östra. We also thank Analisa Avila, MPH, ELS, of edanz (www.edanz.com/ac) for editing a draft of this manuscript.

Financial support

This work was supported by the Swedish Fund for Congenital Heart Defects (grant number 3/20 FO), the Swedish state under the agreement between the Swedish government and the county council, the ALF agreement (grant number 965264), and the Sahlgrenska University Hospital research funds (grant number SU-984492).

Competing interests

None.

Ethical standard

The authors assert that all procedures contributing to this work comply with the Helsinki Declaration of 1975, as revised in 2008, and have been approved by the Swedish Ethical Review Authority (Dnr: 226-13 and 2021-02149).

References

The National Board of Health and Welfare. The National Board of Health and Welfare. Marfan syndrome, 2023. https://www.socialstyrelsen.se/kunskapsstod-och-regler/omraden/sallsynta-halsotillstand/marfans-syndrom/ [Accessed 4 Jan 2023].Google Scholar
Ho, NCY, Tran, JR, Bektas, A. Marfan’s syndrome. Lancet 2005; 366: 19781981.CrossRefGoogle ScholarPubMed
Dietz, HC, Cutting, GR, Pyeritz, RE, et al. Marfan syndrome caused by a recurrent de novo missense mutation in the fibrillin gene. Nature 1991; 352: 337339.CrossRefGoogle ScholarPubMed
Hollister, DW, Godfrey, M, Sakai, LY, Pyeritz, RE. Immunohistologic abnormalities of the microfibrillar-fiber system in the Marfan syndrome. N Engl J Med 1990; 323: 152159.CrossRefGoogle ScholarPubMed
Kaemmerer, H, Oechslin, E, Seidel, H, et al. Marfan syndrome: what internists and pediatric or adult cardiologists need to know. Expert Rev Cardiovasc Ther 2005; 3: 891909.CrossRefGoogle ScholarPubMed
Physical Activity Guidelines. The Marfan Foundation. 2017. https://marfan.org/wp-content/uploads/2021/09/FINAL-Physical-Activity-Guidelines-11_17.pdf [Accessed 12 Jan 2023]Google Scholar
Pyeritz, RE. The Marfan syndrome. Annu Rev Med 2000; 51: 481510.CrossRefGoogle ScholarPubMed
Judge, DP, Dietz, HC. Marfan’s syndrome. Lancet 2005; 366: 19651976.CrossRefGoogle ScholarPubMed
Peters, KF, Kong, F, Horne, R, Francomano, CA, Biesecker, BB. Living with Marfan syndrome I. Perceptions of the condition. Clin Genet 2001; 60: 273282.CrossRefGoogle ScholarPubMed
Bathen, T, Velvin, G, Rand-Hendriksen, S, Robinson, HS. Fatigue in adults with Marfan syndrome, occurrence and associations to pain and other factors. Am J Med Genet A 2014; 164: 19311939.CrossRefGoogle Scholar
Speed, TJ, Mathur, VA, Hand, M, et al. Characterization of pain, disability, and psychological burden in Marfan syndrome. Am J Med Genet A 2017; 173: 315323.CrossRefGoogle ScholarPubMed
Rand-Hendriksen, S, Johansen, H, Semb, SO, Geiran, O, Stanghelle, JK, Finset, A. Health-related quality of life in Marfan syndrome: a cross-sectional study of Short Form 36 in 84 adults with a verified diagnosis. Genet Med 2010; 12: 517524.CrossRefGoogle ScholarPubMed
Karimi, M, Brazier, J. Health, health-related quality of life, and quality of life: what is the difference? Pharmacoeconomics 2016; 34: 645649.CrossRefGoogle ScholarPubMed
World Health Organization. WHOQOL : Measuring Quality of Life. 1995. https://www.who.int/healthinfo/survey/whoqol-qualityoflife/en/. Accessed 12 Jan 2023.Google Scholar
World Health Organization. Constitution of the World Health Organization. 2006. https://www.who.int/about/accountability/governance/constitution. Accessed 19 Jan 2024.Google Scholar
Velvin, G, Wilhelmsen, JE, Johansen, H, Bathen, T, Geirdal, AØ. Systematic review of quality of life in persons with hereditary thoracic aortic aneurysm and dissection diagnoses. Clin Genet 2019; 95: 661676.CrossRefGoogle ScholarPubMed
Thijssen, CGE, Doze, DE,Gökalp, AL et al.Male-female differences in quality of life and coping style in patients with Marfan syndrome and hereditary thoracic aortic diseases. J Genet Couns 2020; 29: 12591269.CrossRefGoogle ScholarPubMed
Trawicka, A, Lewandowska-Walter, A, Majkowicz, M, Sabiniewicz, R, Woźniak-Mielczarek, L. Health-related quality of life of patients with Marfan syndrome-Polish study. Int J Environ Res Public Health 2022; 19: 6827.CrossRefGoogle ScholarPubMed
Sullivan, M, Karlsson, J. The Swedish SF-36 health survey III. Evaluation of criterion-based validity: results from normative population. J Clin Epidemiol. 1998; 51: 11051113.CrossRefGoogle ScholarPubMed
Kröönström, LA, Johansson, L, Zetterström, A-K, Dellborg, M, Eriksson, P, Cider, A. Muscle function in adults with congenital heart disease. Int J Cardiol 2014; 170: 358363.CrossRefGoogle ScholarPubMed
Ashman Kröönström, L, Cider, Å, Zetterström, A-K et al. Exercise capacity, physical activity, and health-related quality of life in adults with CHD. Cardiol Young 2020; 30: 668673.CrossRefGoogle ScholarPubMed
Ware, JE, Snow, KK, Kosinski, M, Gandek, B. SF-36 health survey: manual and interpretation guide. Nimrod Press, Boston, Massachusetts, USA, 1993.Google Scholar
Ware, JE, Gandek, B. Overview of the SF-36 health survey and the International Quality of Life Assessment (IQOLA) project. J Clin Epidemiol 1998; 51: 903912.CrossRefGoogle ScholarPubMed
Ware, JE, Kosinski, M, Keller, SD. SF-36 physical and mental health summary scales: a user’s manual. Health Assessment Lab, Boston, Massachusetts, USA, New England Medical Center, 1994.Google Scholar
Taft, C, Karlsson, J, Sullivan, M. Do SF-36 summary component scores accurately summarize subscale scores? Qual Life Res 2001; 10: 395404.CrossRefGoogle ScholarPubMed
Sullivan, M, Karlsson, J, Ware, JE Jr. The Swedish SF-36 Health Survey-I. Evaluation of data quality, scaling assumptions, reliability and construct validity across general populations in Sweden. Soc Sci Med 1995; 41: 13491358.CrossRefGoogle ScholarPubMed
Witt, S, Krauss, E, Barbero, MAN et al. Psychometric properties and minimal important differences of SF-36 in idiopathic pulmonary fibrosis. Respir Res 2019; 20: 47.CrossRefGoogle ScholarPubMed
Badhiwala, JH, Witiw, CD, Nassiri, F et al. Minimum clinically important difference in SF-36 scores for use in degenerative cervical myelopathy. Spine 2018; 43: E12601266.CrossRefGoogle ScholarPubMed
Ogura, K, Yakoub, MA, Christ, AB, et al. What are the minimum clinically important differences in SF-36 scores in patients with orthopaedic oncologic conditions? Clin Orthop Relat Res 2020, 478:21482158.CrossRefGoogle ScholarPubMed
Goldfinger, JZ, Preiss, LR, Devereux, RB et al. Marfan syndrome and quality of life in the GenTAC registry. J Am Coll Cardiol 2017; 69: 28212830.CrossRefGoogle ScholarPubMed
Jenkinson, C, Coulter, A, Wright, L. Short Form 36 (SF36) health survey questionnaire: normative data for adults of working age. BMJ 1993; 306: 14371440.CrossRefGoogle ScholarPubMed
Vanem, TT, Rand-Hendriksen, S, Brunborg, C, Geiran, OR, Røe, C. Health-related quality of life in Marfan syndrome: a 10-year follow-up. Health Qual Life Outcomes 2020; 18: 376.CrossRefGoogle ScholarPubMed
Young, A. Ageing and physiological functions. Philos Trans R Soc Lond B Biol Sci, 1997, 352:18371843.CrossRefGoogle ScholarPubMed
Jouini, S, Milleron, O, Eliahou, L, Jondeau, G, Vitiello, D. Is physical activity a future therapy for patients with Marfan syndrome? Orphanet J Rare Dis 2022; 10: 46.CrossRefGoogle Scholar
Benninghoven, D, Hamann, D, von Kodolitsch, Y et al. Inpatient rehabilitation for adult patients with Marfan syndrome: an observational pilot study. Orphanet J Rare Dis 2017; 12: 127.CrossRefGoogle ScholarPubMed
Figure 0

Figure 1. Flowchart illustrating the sampling process. n = number; ACHD = adult congenital heart disease; SF-36 = 36-item Short-Form Health Survey.

Figure 1

Table 1. Demographic data of the included patients

Figure 2

Figure 2. Diagram comparing values for women (A) and men (B) with MFS to healthy reference values. MFS = Marfan syndrome; SF-36 = 36-item Short-Form Health Survey; PF = physical functioning; RP = role-physical; BP = bodily pain; GH = general health; VT = vitality; SF = social functioning; RE = role-emotional; MH = mental health; ref.= reference value.

Figure 3

Table 2. Results of SF-36 for the eight subscales and summary measures for patients with MFS. Data are median (interquartile range, 25th-75th percentile)

Supplementary material: File

Stanek Sörner et al. supplementary material

Stanek Sörner et al. supplementary material
Download Stanek Sörner et al. supplementary material(File)
File 82.6 KB