Next Article in Journal
Sporadic Parathyroid Adenoma: A Pilot Study of Novel Biomarkers in Females
Previous Article in Journal
Visual Outcomes in Ectopia Lentis in Marfan Syndrome: A Study of Four Surgical Techniques in Children and Adults
 
 
Search for Articles:
Title / Keyword
Author / Affiliation / Email
Journal
Article Type
 
 
Advanced Search
 
Section
Special Issue
Volume
Issue
Number
Page
 
Journals
Medicina
Volume 60
Issue 7
10.3390/medicina60071099
medicina-logo
Submit to this Journal Review for this Journal Propose a Special Issue
Article Menu

Article Menu

share Share announcement Help format_quote Cite question_answer Discuss in SciProfiles thumb_up
...
Endorse textsms
...
Comment
first_page
settings
Order Article Reprints
Font Type:
Arial Georgia Verdana
Font Size:
Aa Aa Aa
Line Spacing:
Column Width:
Background:
Brief Report

Quantum Medicine and Irritable Bowel Syndrome-Associated Chronic Low-Back Pain: A Pilot Observational Study on the Clinical and Bio-Psycho-Social Effects of Bioresonance Therapy

by
Giovanni Barassi
1,*,
Giuseppe Alessandro Pirozzi
2,
Angelo Di Iorio
3,
Raffaello Pellegrino
4,
Piero Galasso
1,
Dietmar Heimes
1,
Barbara Praitano
5,
Pier Enrico Gallenga
1,
Loris Prosperi
1,
Antonio Moccia
1 and
Maurizio Panunzio
2
1
Center for Physiotherapy, Rehabilitation and Re-Education (Ce.Fi.R.R.), Venue “G. d’Annunzio” University of Chieti-Pescara, 66100 Chieti, Italy
2
Responsible Research Hospital, 86100 Campobasso, Italy
3
Department of Innovative Technologies in Medicine & Dentistry, “G. d’Annunzio” University of Chieti-Pescara, 66100 Chieti, Italy
4
Department of Scientific Research, Campus Ludes, Off-Campus Semmelweis University, 6912 Lugano, Switzerland
5
Faculty of Medicine and Surgery, Degree Course in Physiotherapy, “Catholic University” of Rome/Campobasso, 86100 Campobasso, Italy
*
Author to whom correspondence should be addressed.
Medicina 2024, 60(7), 1099; https://doi.org/10.3390/medicina60071099
Submission received: 13 May 2024 / Revised: 25 June 2024 / Accepted: 3 July 2024 / Published: 5 July 2024
(This article belongs to the Topic New Advances in Physical Therapy and Occupational Therapy)
Browse Figures
Versions Notes

Abstract

:
Background and Objectives: Irritable bowel syndrome (IBS) is an invasive and potentially disabling syndrome characterized by a multitude of symptoms capable of reducing the quality of life of patients. Among the most disabling symptoms of IBS is certainly physical pain, which manifests itself mainly at the abdominal level but can also appear in other areas of the body, particularly in the form of chronic low-back pain (CLBP). Among the non-invasive methods of treating organ-specific pathologies and organ-related musculoskeletal problems, the use of Bioresonance Therapy (BT)—based on the administration of self-modulating Extremely Low-Frequency Electromagnetic Fields, capable of determining a rebalance of bio-electrical and metabolic activity in the presence of various functional alterations—is currently gaining acceptance. Therefore, we decided to monitor results obtained from patients suffering from IBS and CLBP subjected to a cycle of treatments with BT. Materials and Methods: We monitored 20 patients (12 women and 8 men, average age of 51 years) suffering from CLBP and other visceral symptoms related to IBS. Patients were monitored through the use of the Bristol Stool Form Scale (BSFS), the Fecal Calprotectin test and the Short-Form Health Survey 36 (SF-36), collected before (T0) and after (T1) the execution of the cycle of treatments. They undertook a treatment protocol consisting of eight sessions of BT carried out over about a month. Results: At the end of the treatments with BT, it was possible to observe a general and significant improvement in all the parameters observed, as well as a close inversely proportional correlation between the Calprotectin values detected and the quality of life experienced by the patients in relation to their perceived IBS symptoms. Conclusions: Overall, our pilot study would seem to suggest a potential beneficial effect of BT in modulating organic and musculoskeletal symptoms derived from IBS.

1. Introduction

Irritable bowel syndrome (IBS) is an invasive pathology of the digestive system that, according to statistics from the World Gastroenterology Organization, affects a percentage varying from 3.8% to 23% of the entire world population, referring to the various diagnostic criteria formulated by the ROME Foundation [1,2,3]. The percentage of IBS patients in search of treatment reaches 12% in primary care practice, representing the largest subgroup seen in gastroenterology clinics [1]. IBS is complex in terms of both etiopathogenesis and symptoms. It is usually classified into subgroups: IBS with constipation (IBS-C), IBS with diarrhea (IBS-D) and mixed IBS (IBS-M) [1].
Typically, IBS diagnosis is based on the observation of symptoms according to the Rome IV Criteria [4]: IBS is diagnosed when a patient presents recurrent abdominal pain on average at least 1 day/week in the last 3 months, with the first onset of symptoms dating back to at least 6 months before the first specialist visit [4]. This pain should be present during defecation or in association with a change in frequency or appearance of stool [4].
Although various mechanisms have been suggested for IBS, close neurobiological correlations underlying its development have been highlighted. In fact, the so-called “brain–gut microbiome” model is being increasingly investigated, exposing the existence of a complex series of physiological connections related to the development of IBS symptoms [5]. These neurophysiological connections develop along an organized and bidirectional communicational axis between the central nervous system and the digestive system; this axis enables an informational and operational exchange between intestinal functioning and the emotional and cognitive state of the body [6].
IBS symptoms can take on a visceral, somatic or neurological characterization, ranging from abdominal pain and cramps to anxiety and depression, sometimes invading even organs distant from the digestive system [7]. Moreover, pain may appear or radiate to areas adjacent to or distant from the abdominal one [5].
Among the symptoms, there is a high prevalence of chronic low-back pain (CLBP) in patients with IBS, reaching a percentage level of 29–37.3%, well above the 3.9–20.3% prevalence in the general population [8]. The severity of CLBP in IBS patients may seriously compromise their quality of life, making them 50% more likely to resort to spinal surgery, which often proves to be an unsuccessful and counterproductive strategy [9]. CLBP occurs significantly more in patients with IBS compared with patients with other pathologies of the digestive system, including inflammatory bowel disease (IBD) [10]. Therefore, functional gastrointestinal disorders (FGIDs), such as IBS, take a prominent place within the “functional somatic syndromes’’, together with chronic fatigue syndrome and fibromyalgia, with which they frequently overlap [11].
IBS can lead to different physiological-organic alterations, allowing to highlight some key aspects of its diagnosis and monitoring.
The first thing to check in the presence of IBS is the defecation quality, referring to the Bristol Stool Form Scale (BSFS). The BSFS is based on the observation of the shape and consistency of the feces. Typically, it enables the identification of constipation (grades 1 and 2), healthy defecation (grades 3 and 4) and a tendency toward fecal incontinence (grades 5, 6 and 7) [12]. The BSFS appears to be effective for identifying subforms of IBS such as IBS-C (grades 1 and 2) and IBS-D (grades 5, 6 and 7) according to the Rome IV Criteria [4].
A second factor to consider is Fecal Calprotectin (FC), which is a 36 kDa member of the S100 protein family derived from neutrophils and has direct antimicrobial and immune effects [13]. Calprotectin levels are proportional to the degree of any existing inflammation, and its concentration in feces is about six times that of plasma [13]. It is used to highlight intestinal inflammation, with values that typically exceed 50 mcg/g in the presence of intestinal inflammation (such as IBD) or intestinal dysmotility (as in the case of IBS) [14]. In fact, it seems that, in IBS, especially of the IBS-D type, there may still be a sub-clinical inflammatory state associated with the greater permeability of the intestinal membrane, leading to an increase in FC values [14].
Given the complexity of IBS, it is important to identify the most effective and minimally invasive therapies to improve the health of patients. In this regard, alternative and complementary therapies typical of other healthcare fields, such as, for example, rehabilitation, may also be useful.
One of the most innovative approaches in the field of somato-visceral disorders is that of Quantum Medicine (QM) [15,16,17,18,19]. This medical–health branch, which is spreading in the rehabilitation field, is based on the application of electromagnetic stimuli consistent with the electromagnetic activity of the human body, exploiting Extremely Low-Frequency Electromagnetic Fields (ELF-MFs), also known as Bioresonance Therapy (BT), to determine a rebalancing of the metabolic–neurophysiological activities of the organism and to counteract various pathological states [19]. The therapeutic effects of QM techniques seem to depend on different pathways. QM techniques are capable of counteracting oxidative stress, reducing levels of inflammation and increasing cellular metabolism and the production of mitochondrial ATP [15,16,17,18,19]. This therapeutic approach seems to be effective even for localized musculoskeletal disorders such as low-back pain [20].
Technically, BT is based on the concept that organic processes emit electromagnetic oscillations of different frequencies, intensities, durations and waveforms. These oscillations, which are also the basis of Bioresonance Diagnostics, appear to be organ-specific and pathology-specific [21,22,23,24]. BT uses ELF-MFs capable of functionally interfering with the altered frequencies in the body of the patient [25]. Specifically, Paul Schmidt developed a therapeutic system based on a 152 kHz carrier frequency, which is then modulated according to the feedback deriving from the electromagnetic field of the patient [26].
Therefore, based on these considerations, we carried out a pilot observational study to investigate the therapeutic potential of BT in the presence of IBS associated with CLBP.

2. Materials and Methods

This research was a pilot retrospective analytical observational study carried out at the Gemelli Molise Hospital (Campobasso, Italy) cooperating with Ce.Fi.R.R. (Center for Physiotherapy, Rehabilitation and Re-education) staff from November to August 2023.
The rehabilitation protocol observed is safe, as all the procedures applied comply with the safety regulations of the country where the study was made; the protocol is accessible to anyone who does not highlight specific contraindications during the initial clinical evaluation necessary for all patients who access the hospital; the only major contraindications to access the protocol are pregnancy, epilepsy, electrical implants, tumors, infections, tuberculosis and serious heart disease. The protocol does not constitute an experimental practice, as it applies the same procedures used for all patients who do not present the aforementioned contraindications. This study was conducted in accordance with the ethical principles of the Declaration of Helsinki. Written informed consent was obtained at enrolment from participants who were willing and able. Due to these considerations and the lack of incontrovertible national legislation regarding the need for the submission of retrospective and/or non-pharmacological observational studies to an ethics committee [27], normal ethics committee clearance was not required [28].
A total of 20 patients (12 women and 8 men; Caucasian ethnicity; average age of 51 years) were observed within the Gemelli Molise Hospital (Campobasso, Italy).
All patients turned to hospital specialists due to the presence of frequent episodes of abdominal pain accompanied by CLBP, which intensified mainly during defecation, with temporal criteria consistent with that of Rome IV for the diagnosis of IBS [4].
To assess the status of IBS before (T0) and after (T1) the therapeutic protocol, an evaluation of the patients was carried out using 3 validated diagnostic tools:
-
BSFS: The evaluation of the appearance of the stool was carried out by the doctors evaluating the patients observed through careful visual inspection of a stool sample collected at times T0 and T1.
-
FC: A Calprotectin assay was carried out on the same stool samples, collected at times T0 and T1, and used for the BSFS evaluation. The analysis of the samples was carried out at the Gemelli Molise Hospital (Campobasso, Italy) reference laboratories using an immunochromatographic kit with a densitometric reader for quantitative dosing, called CalFast XT (Eurospital S.p.A., Trieste, Italy).
-
Short-Form Health Survey 36 (SF-36): This is a questionnaire typically used to evaluate the general state of health of a patient, with particular reference to the physical and social limitations determined by their pathology. It consists of 36 questions divided into 8 subclasses: physical functioning (10 items), limitations due to physical health (4 items), limitations due to emotional problems (3 items), energy and fatigue (4 items), emotional well-being (5 items), social activities (2 items), pain (2 items), general health perception (5 items) and general health status variability in the last year (1 item) [29]. Various studies have highlighted how patients suffering from IBS have lower SF-36 scores than the average, not only in relation to the physical limitations of the pathology but also due to its psycho-emotional and social implications [30]. The questionnaire was administered to the patients at times T0 and T1.
In order to intervene in the diagnosed IBS, in agreement with the reference medical evaluators in undertaking an alternative therapeutic path, patients underwent treatment through BT. For this study, the BT device used was the Rayocomp PS 1000 Polar 4.0 Med (Rayonex Biomedical GmbH, Lennestadt, Germany). It is composed of an ELF-MF generator that transmits a magnetic field to a fabric mattress containing the emitting elements (Figure 1). The ELF-MFs of the device are imperceptible to the patient, producing no visual, auditory, thermal or tactile sensations.
The patient is made to lie on the BT mattress, positioned on a common physiotherapy table, in a supine and relaxed position, wearing underwear and deprived of all personal removable metal or electrical elements (jewelry, glasses, mobile phone, etc.), so as to limit any possible electromagnetic disturbance for the BT. The specific treatment programs for the pathology addressed are selected through the software of the ELF-MFs generator connected to the mattress, consistently with the protocols derived from the experiences of Paul Schmidt [26]. Each session involved the application of a program specifically designed for IBS, composed of the 12 phases indicated in Table 1, with each session lasting 65 min. Each patient underwent 1 session every 48 h for approximately 1 month, until completing a total of 8 sessions.
Data are reported as absolute number and frequency. Linear mixed models, with random intercept and random slope, were applied to assess the potential association between the times of the study and Calprotectin. Lastly, to assess variation in the SF-36 score and in every subscale, generalized estimating equations (GEEs) were applied with the Poisson option.
SAS 9.4 for Windows (SAS Institute Inc., Cary, NC, USA) was used for all data processing. We set the level of statistical significance at p < 0.05 (2-sided).

3. Results

At baseline, according to BSFS classification, 3 patients (15%) were classified as constipated (grade 1 or 2, IBS-C); 5 patients (25.0%) showed a normal fecal quality (grade 3 or 4); and 12 patients (60.0%) presented inconsistent fecal formation (grade 5 to 7, IBS-D). At the end of the study, only 1 (5%) subject reported constipation, while 5 patients (25.0%) had inconsistent fecal formation, and the remaining 14 subjects (70%) presented normal fecal formation. These results indicate a tendency toward normalization of fecal quality in patients treated with BT, especially those with an inconsistent fecal formation at time T0.
To assess whether a correlation between FC changes and the time of the study could be found, we used the linear mixed model approach. Independently from the time of the study, in the whole population, the mean value for FC was 62.76 ± 9.25; the estimated-ρ was equal to 33.3%, meaning that almost one-third of the total variance was attributable to between-subject differences. When the differences between times are considered in the model, the mean value for FC is statistically significantly higher at baseline (β ± SE: 34.27 ± 8.21; p-value < 0.001) compared with the follow-up. The comparison between the two models demonstrates that about 46.5% of the variance between subjects can be explained by time, meaning that the intervention halved the mean value of FC. The change in the BSFS score, when included in the model, is not statistically significant and does not change the strength of the association between the times of the study and Calprotectin.
Figure 2 reports the generalized estimating equation (GEE) estimates (β ± SE) for the comparison between times of the study (where follow-up is the reference time) for the items of the SF-36; all the models were adjusted for Calprotectin levels (Supplementary Material Table S1). Physical-role-limitation (−0.65 ± 0.22; p-value = 0.004), emotional-role-limitation (−0.68 ± 0.24; p-value = 0.006), vitality (−0.51 ± 0.11; p-value < 0.001) and physical-pain (−0.64 ± 0.13; p-value < 0.001) improved by at least 50% from baseline to the end of the study; all the other SF-36 items also significantly improved but to a lesser extent. Calprotectin was independently and statistically significant directly associated with physical pain (0.003 ± 0.001; p-value = 0.03) and vitality (0.002 ± 0.0001; p-value = 0.01); no second-order effect (time for Calprotectin) could be demonstrated (meaning that Calprotectin variation is directly associated with pain and vitality, independently of time).

4. Discussion

The observation of the data we collected in a small population of IBS + CLBP patients highlights how the BT treatment significantly improved both the physical (BSFS and Calprotectin) and bio-psycho-social (SF-36) parameters under observation. This result, although preliminary, represents progress in the management of IBS.
IBS has a complex and multifactorial etiopathogenesis [31]. Several mechanisms have been suggested as possible contributing causes of the pathology, identifying factors ranging from neuroendocrine alterations of the hypothalamic–pituitary–adrenal (HPA) axis [32] to alteration of the intestinal microbiota [31,33], subclinical intestinal inflammation [32,34] and modification of the body’s immune response [31,35].
Given the complexity of IBS, it is difficult to define a targeted therapeutic approach, which, to date, is mainly based on the correction of diet and lifestyle, as well as on the administration of drugs only in certain specific cases [36,37]. Therefore, the identification of new non-invasive and easy-to-apply therapies for the treatment of such a complex syndrome may be useful.
Recently, the world of mechanical–physical medicine has started to show interest in new frontiers, such as QM. This new and mostly unexplored medical specialty is based on innovative discoveries regarding the physics of water, the coherence of cellular interactions inside tissues and the interaction of ultra-weak magnetic fields with the ionic systems of the cells themselves [38,39]. Human cellular radiations are weak, but they are still also messengers, elements of cohesion and coordinators of the body’s systems, in accordance with the definition of Biofields [40]. This property is called “coherence” [41] and defines a complex network of functional connections inside living beings [42].
Since these mechanisms are based on electromagnetic interactions, BT was developed to modulate the cellular activity and state of health of the body through functional–corrective ELF-MFs. In fact, several studies have highlighted how BT can produce positive effects in the human body, such as reduction in inflammation, immune modulation and increased regeneration [15]. Such effects occur in multiple systems of the body, including the intestines [26] and the musculoskeletal system [20].
Our pilot study highlights how the fecal quality of our patients showed a generalized improvement; in fact, at time T1, 70% of the patients were in the normal range according to the BSFS (grades 3–4) [12].
Furthermore, this study highlights a significant improvement in FC values of the observed patients treated with BT. These findings agree with what has already been highlighted by some studies regarding the effectiveness of BT in the treatment of intestinal problems [26,43]. This improvement could be attributable to the ability of BT to interact with the inflammatory processes underway in the target tissues, probably through an interleukin-dependent mechanism [44].
The observed improvement in FC values faithfully follows the trend of the quality-of-life values highlighted by patients using SF-36 subscales. In fact, all SF-36 values showed a significant improvement in relation to physical-role-limitation, emotional-role-limitation, vitality and physical-pain, demonstrating a close correlation between intestinal inflammation and the patient’s quality of life. In this regard, other studies have highlighted the connection between FC levels and the quality of life of some subgroups of patients suffering from intestinal pathologies [45,46]. According to our findings, FC appears to be a strong predictor of symptoms capable of worsening the quality of life of IBS patients. Furthermore, the levels of intestinal inflammation detected on average in IBS patients observed through Calprotectin dosage would suggest that, even in the absence of a clear inflammatory component typical of IBD (with a cut-off variably indicated in the literature from 50 mcg/g to over 120 mcg/g [47,48]), in the presence of IBS, there may still be a level of subclinical inflammation capable of worsening and perpetuating its symptoms [14].
Among all the SF-36 parameters, the fact that the patients’ physical pain was also reduced, in terms of both abdominal pain and musculoskeletal pain, especially as CLBP, is particularly relevant. Considering the intrusiveness of CLBP in the lives of individuals with IBS [8,9], the fact that BT reduced their perceived pain appears interesting and worthy of attention.
Importantly, no adverse events or side effects related to the device, treatment or protocol were reported in the study.
Regarding this pilot study, it is important to underline some limitations. Firstly, given its observational retrospective nature, it was impossible to select a large and homogeneous sample, especially in terms of gender distribution. The small sample size, despite the fact that the observed patients came from a hospital with an intrinsically high number of general users, derives from the fact that BT, like other instrumental therapies, to date, still is a complementary therapy for IBS and/or CLBP and other disorders, rather than a first-line treatment, such as pharmacological, nutritional or surgical interventions [49,50]. Therefore, to date, the number of patients who, in agreement with their specialist doctors, undertake a path of this type, is still rather limited compared with the total population affected by IBS. Indeed, most of the patients undertook a conventional treatment path, which makes it difficult to observe a large number of individuals treated with an alternative approach outside of a dedicated experimental setting. Furthermore, due to time and data collection reasons, it was not possible to plan the presence of a control group or a follow-up.
Any future studies on this topic should be designed from the start as RCTs with follow-ups and a bigger and better-distributed sample to bypass these limitations. It may be particularly useful to use stratified sampling based on sex, age and IBS subtype. Furthermore, we suggest using a control group subjected to a sham treatment with the BT device turned off in order to verify the influence of the placebo effect on the results. In fact, we cannot rule out the possibility that the beneficial effects of BT in our study may be related to casual elements, so future studies are needed to prove our hypothesis right or wrong. The results obtained in this pilot observational study are encouraging, at least in terms of the short-term efficacy of BT for IBS with CLBP, although data should be analyzed with caution.
In addition to the suggested strategies for containing the limitations identified, it is necessary to produce new studies on the topic to also clarify how BT effects may vary depending on specific exposure parameters or targeted cell types, as well as underlying pathological mechanisms [51]. In this regard, it could be useful to resort to extensive blood tests, biopsy and colonoscopic examinations of the intestinal system to obtain a clearer idea of the influence of BT on the state of health of target tissues [52]. It would also be important to investigate in depth, through specific questionnaires and instrumental analyses, how this therapy can correct the psycho-emotional and social aspects related to IBS with CLBP [30]. This is especially true considering how musculoskeletal dysfunctions tend to produce further disorders over time, such as depression and kinesiophobia [53,54]. Moreover, it could be useful to consider advanced instruments capable of objectifying the psycho-physiological state of patients with musculoskeletal and psycho-emotional dysfunctions, which could also compromise their compliance with active and passive therapeutic treatments [55,56,57].
As a final note, we would like to point out that QM is strongly establishing itself in medical specialties [58,59,60], and we await verification of further applications that stand the test of time.

5. Conclusions

BT seems to be effective for IBS patients. Given the non-invasiveness, the relatively low cost and the beneficial effects of this treatment, it is strongly suggested to further investigate this approach in patients suffering from IBS and other painful and invasive pathologies. In fact, considering the clinical and bio-psycho-social invasiveness of IBS, it is important to investigate new approaches, especially if they belong to extremely recent medical specialties, as in the case of QM. These investigations will allow us to understand whether these techniques have significant therapeutic properties.
Since the field of instrumental, alternative and complementary therapies is typically of rehabilitative interest, the diffusion of these techniques in the gastroenterology fields is currently limited, with the consequence of slowing down investigations on the effectiveness of these treatments.
It would be desirable to reach an even greater dialog between internal and organ medicine and the rehabilitation field so as to speed up research on innovative therapeutic approaches such as BT or other rehabilitation techniques for the benefit of patients affected by musculoskeletal or organ-related pathologies.

Supplementary Materials

The following supporting information can be downloaded at: https://www.mdpi.com/article/10.3390/medicina60071099/s1, Table S1: Generalized estimating equations (GEE) estimates (β ± SE), and relative p-value for the comparison between times of the study (where follow-up is the reference time) for the items of the SF-36, all the models were adjusted for Calprotectin level.

Author Contributions

Conceptualization, G.B., G.A.P., P.G. and M.P.; methodology, G.B. and D.H.; software, A.D.I.; validation, G.B. and M.P.; formal analysis, A.D.I.; investigation, G.B., B.P. and A.M.; resources, G.B. and M.P.; data curation, A.D.I.; writing—original draft preparation, G.B. and L.P.; writing—review and editing, L.P., P.E.G. and R.P.; visualization, G.B. and R.P.; supervision, M.P.; project administration, G.B.; funding acquisition, G.B. and M.P. All authors have read and agreed to the published version of the manuscript.

Funding

This research received no external funding.

Institutional Review Board Statement

Ethical review and approval were waived for this study due to the fact that the rehabilitation protocol to which the patients were subjected is safe and is accessible to all patients who do not highlight specific contraindications to the initial clinical evaluation necessary for all patients who access the facility where the study is carried out; furthermore, the protocol does not constitute an experimental practice, as it is the same assessment and therapeutic protocol used for all patients who do not present the aforementioned contraindications. By virtue of all these considerations and the lack of incontrovertible national legislation regarding the need for the submission of retrospective and/or non-pharmacological observational studies to an ethics committee, normal ethics committee clearance was not required.

Informed Consent Statement

Written informed consent was obtained at enrolment from participants who were willing and able.

Data Availability Statement

The data presented in this study, due to the preservation of the privacy of interested parties, could be made available upon motivated and reasonable private request to the corresponding author.

Conflicts of Interest

The authors declare no conflicts of interest.

References

  1. Saha, L. Irritable bowel syndrome: Pathogenesis, diagnosis, treatment, and evidence-based medicine. World J. Gastroenterol. 2014, 20, 6759. [Google Scholar] [CrossRef] [PubMed]
  2. Barbalho, S.M.; Goulart, R.D.A.; Araújo, A.C.; Guiguer, É.L.; Bechara, M.D. Irritable bowel syndrome: A review of the general aspects and the potential role of vitamin D. Expert Rev. Gastroenterol. Hepatol. 2019, 13, 345–359. [Google Scholar] [CrossRef] [PubMed]
  3. Priya, O.; Parr, H.; Barberio, B.; Black, C.J.; Savarino, E.V.; Ford, A.C. Global prevalence of irritable bowel syndrome according to Rome III or IV criteria: A systematic review and meta-analysis. Lancet Gastroenterol. Hepatol. 2020, 5, 908–917. [Google Scholar]
  4. Lacy, B.E.; Patel, N.K. Rome criteria and a diagnostic approach to irritable bowel syndrome. J. Clin. Med. 2017, 6, 99. [Google Scholar] [CrossRef] [PubMed]
  5. Mayer, E.A.; Ryu, H.J.; Bhatt, R.R. The neurobiology of irritable bowel syndrome. Mol. Psychiatry 2023, 28, 1451–1465. [Google Scholar] [CrossRef]
  6. Carabotti, M.; Scirocco, A.; Maselli, M.A.; Severi, C. The gut-brain axis: Interactions between enteric microbiota, central and enteric nervous systems. Ann. Gastroenterol. Q. Publ. Hell. Soc. Gastroenterol. 2015, 28, 203–209. [Google Scholar]
  7. Gallenga, C.E.; Mura, M.; Gallenga, P.E. Suggestions on gut-eye cross-talk: About the chalazion. Int. J. Ophthalmol. 2022, 15, 1566. [Google Scholar] [CrossRef] [PubMed]
  8. Shiha, M.G.; Aziz, I. Physical and psychological comorbidities associated with irritable bowel syndrome. Aliment. Pharmacol. Ther. 2021, 54, S12–S23. [Google Scholar] [CrossRef]
  9. Longstreth, G.F. Avoiding unnecessary surgery in irritable bowel syndrome. Gut 2007, 56, 608–610. [Google Scholar] [CrossRef]
  10. Maxton, D.G.; Morris, J.; Whorwell, P.J. More accurate diagnosis of irritable bowel syndrome by the use of ’non-colonic’ symptomatology. Gut 1991, 32, 784–786. [Google Scholar] [CrossRef]
  11. Van Oudenhove, L.; Vandenberghe, J.; Demyttenaere, K.; Tack, J. Psychosocial factors, psychiatric illness and functional gastrointestinal disorders: A historical perspective. Digestion 1954, 82, 201–210. [Google Scholar] [CrossRef]
  12. Blake, M.R.; Raker, J.M.; Whelan, K. Validity and reliability of the Bristol Stool Form Scale in healthy adults and patients with diarrhoea-predominant irritable bowel syndrome. Aliment. Pharmacol. Ther. 2016, 44, 693–703. [Google Scholar] [CrossRef] [PubMed]
  13. Ayling, R.M.; Kok, K. Fecal calprotectin. Adv. Clin. Chem. 2018, 87, 161–190. [Google Scholar]
  14. Melchior, C.; Aziz, M.; Aubry, T.; Gourcerol, G.; Quillard, M.; Zalar, A.; Coëffier, M.; Dechelotte, P.; Leroi, A.M. Ducrotté, P Does calprotectin level identify a subgroup among patients suffering from irritable bowel syndrome? Results of a prospective study. United Eur. Gastroenterol. J. 2017, 5, 261–269. [Google Scholar] [CrossRef] [PubMed]
  15. Barassi, G.; Proietti, M.; Spaggiari, P.; Colombo, A. Quantum Medicine and the Immune System. In Handbook of Cancer and Immunology, 1st ed.; Springer International Publishing: New York, NY, USA, 2023; pp. 1–24. [Google Scholar]
  16. Gonzalez, M.J.; Sutherland, E.; Olalde, J. Quantum functional energy medicine: The next frontier of restorative medicine. J. Restor. Med. 2020, 9, 1–7. [Google Scholar] [CrossRef]
  17. Faramarzpour, M.; Ghaderinia, M.; Abadijoo, H.; Aghababa, H. The Possibility of Quantum Medicine in Cancer Research: A Review. Biophys. Rev. Lett. 2021, 16, 21–40. [Google Scholar] [CrossRef]
  18. Paolo, D.I. Quantum Physics between Matter, Information and Consciousness: The Case of Quantum Medicine. Turk. Online J. Educ. Technol. 2022, 187–193. Available online: https://www.researchgate.net/profile/Traci-Eshelman-Ramey/publication/372782409_Homelessness_Liaisons’_Strategies_to_Promote_School_Connectedness_During_Extended_School_Closures/links/64c83ba9862f8d2999873fee/Homelessness-Liaisons-Strategies-to-Promote-School-Connectedness-During-Extended-School-Closures.pdf#page=191 (accessed on 22 May 2024).
  19. Barassi, G.; Pokorski, M.; Pellegrino, R.; Supplizi, M.; Prosperi, L.; Marinucci, C.; Di Simone, E.; Mariani, C.; Younes, A.; Di Iorio, A. Quantum medicine: A role of extremely low-frequency magnetic fields in the Management of Chronic Pain. In Integrative Clinical Research, 1st ed.; Springer International Publishing: New York, NY, USA, 2022; pp. 23–28. [Google Scholar]
  20. Foletti, A.; Baron, P. Towards a biophysical approach to different levels of low back pain. In Proceedings of the 2016 Progress in Electromagnetic Research Symposium (PIERS), Shanghai, China, 8–11 August 2016; pp. 592–595. [Google Scholar]
  21. Emelyanov, V.A.; Klimenko, P.D.; Baranov, V.V.; Klimenko, D.P.; Rybakov, V.A.; Siakerski, V.S. Use of bio-resonance effects for medical diagnostics and therapy. In Proceedings of the European Microwave Conference (EuMC) 2009, Rome, Italy, 29 September–1 October 2009; pp. 1591–1594. [Google Scholar]
  22. Ebrahimi, M.; Sharifov, S.; Salili, M.; Chernosova, L. An introduction to impact of bio-resonance technology in genetics and epige-netics. Epigenetics Territ. Cancer 2015, 495–513. [Google Scholar] [CrossRef]
  23. Foletti, A.; Grimaldi, S.; Lisi, A.; Ledda, M.; Liboff, A.R. Bioelectromagnetic medicine: The role of resonance signaling. Electromagn. Biol. Med. 2013, 32, 484–499. [Google Scholar] [CrossRef]
  24. Badau, D.; Badau, A.; Trambitas, C.; Trambitas-Miron, D.; Moraru, R.; Stan, A.A.; Oancea, B.M.; Turcu, I.; Grosu, E.F.; Grosu, V.T.; et al. Differences between active and semi-active students regarding the parameters of body composition using bioimpedance and magnetic bioresonance technologies. Int. J. Environ. Res. Public Health 2021, 18, 7906. [Google Scholar] [CrossRef]
  25. Muresan, D.; Salcudean, A.; Sabau, D.C.; Bodo, C.R.; Grecu, I.G. Bioresonance therapy may treat depression. J. Med. Life 2021, 14, 238. [Google Scholar] [CrossRef] [PubMed]
  26. Dartsch, P.C.; Heimes, D. Bioresonance According to Paul Schmidt (BaPS) and its Beneficial Effects on the Integrity of the Intestinal Barrier in vitro. Adv. Bioeng. Biomed. Sci. Res. 2022, 5, 180–185. [Google Scholar]
  27. De Sanctis, V.; Soliman, A.T.; Daar, S.; Tzoulis, P.; Fiscina, B.; Kattamis, C. Retrospective observational studies: Lights and shadows for medical writers. Acta Bio Medica Atenei Parm. 2022, 93, e2022319. [Google Scholar]
  28. Winter, E.M.; Maughan, R.J. Requirements for ethics approvals. J. Sports Sci. 2009, 27, 985. [Google Scholar] [CrossRef]
  29. Ware, J.E. SF-36 health survey. Manual and interpretation guide. Health Inst. 1993, 6, 1–6. [Google Scholar]
  30. Trindade, I.A.; Melchior, C.; Törnblom, H.; Simrén, M. Quality of life in irritable bowel syndrome: Exploring mediating factors through structural equation modelling. J. Psychosom. Res. 2022, 159, 110809. [Google Scholar] [CrossRef] [PubMed]
  31. Chen, Y.; Feng, S.; Li, Y.; Zhang, C.; Chao, G.; Zhang, S. Gut microbiota and intestinal immunity—A crosstalk in irritable bowel syndrome. Immunology 2024, 172, 1–20. [Google Scholar] [CrossRef]
  32. Ng, Q.X.; Soh, A.Y.; Loke, W.; Lim, D.Y.; Yeo, W.S. The role of inflammation in irritable bowel syndrome (IBS). J. Inflamm. Res. 2018, 21, 345–349. [Google Scholar] [CrossRef] [PubMed]
  33. Pittayanon, R.; Lau, J.T.; Yuan, Y.; Leontiadis, G.I.; Tse, F.; Surette, M.; Moayyedi, P. Gut microbiota in patients with irritable bowel syndrome—A systematic review. Gastroenterology 2019, 157, 97–108. [Google Scholar] [CrossRef]
  34. Georgescu, D.; Iurciuc, M.S.; Petre, I.; Georgescu, L.A.; Szasz, F.; Ionita, I.; Ancusa, O.E.; Ionita, M.; Lighezan, D. Chronic pelvic pain and irritable bowel syndrome: Is subclinical inflammation bridging the gap. Rev. De Chim. 2019, 70, 3634–3637. [Google Scholar] [CrossRef]
  35. Aguilera-Lizarraga, J.; Hussein, H.; Boeckxstaens, G.E. Immune activation in irritable bowel syndrome: What is the evidence? Nat. Rev. Immunol. 2022, 22, 674–686. [Google Scholar] [CrossRef] [PubMed]
  36. Camilleri, M. Diagnosis and treatment of irritable bowel syndrome: A review. Jama 2021, 325, 865–877. [Google Scholar] [CrossRef] [PubMed]
  37. Brenner, D.M.; Sayuk, G.S. Current US Food and Drug Administration-approved pharmacologic therapies for the treatment of irritable bowel syndrome with diarrhea. Adv. Ther. 2022, 37, 83–96. [Google Scholar] [CrossRef] [PubMed]
  38. Freund, J.A.; Schimansky-Geier, L.; Hänggi, P. Frequency and phase synchronization in stochastic systems. Chaos Interdiscip. J. Nonlinear Sci. 2003, 13, 225–238. [Google Scholar] [CrossRef] [PubMed]
  39. Jerman, I.; Berden, M.; Ružič, R. Biological influence of ultraweak supposedly EM radiation from organisms mediated through water. Electro-Magnetobiology 1996, 15, 229–244. [Google Scholar] [CrossRef]
  40. Rubik, B. The biofield hypothesis: Its biophysical basis and role in medicine. J. Altern. Complement. Med. 2002, 8, 703–717. [Google Scholar] [CrossRef] [PubMed]
  41. Liboff, A.R. The Warburg hypothesis and weak ELF biointeractions. Electromagn. Biol. Med. 2020, 39, 45–48. [Google Scholar] [CrossRef]
  42. Montagnier, L.; Del Giudice, E.; Aïssa, J.; Lavallee, C.; Motschwiller, S.; Capolupo, A.; Polcari, A.; Romano, P.; Tedeschi, A.; Vitiello, G. Transduction of DNA information through water and electromagnetic waves. Electromagn. Biol. Med. 2015, 34, 106–112. [Google Scholar] [CrossRef]
  43. Karakos, P.; Grigorios, T.; Theodoros, K.; Theodoros, L. The effectiveness of bioresonance method on human health. Open Epidemiol. J. 2019, 8, 1–8. [Google Scholar] [CrossRef]
  44. Chepurnaya, S.L. The use of bioresonance therapy in the activation of T-lymphocytes by interleukins. In Proceedings of the XXIII International Conference “Theoretical and Clinical Aspects of the Application of Bioresonance and Multiresonance Therapy”, Moscow, Russia, 21–22 April 2017; Electronic Library IMEDIS. Volume 25, pp. 105–108. [Google Scholar]
  45. Beaufils, F.; Mas, E.; Mittaine, M.; Addra, M.; Fayon, M.; Delhaes, L.; Clouzeau, H.; Galode, F.; Lamireau, T.; Bui, S.; et al. Increased fecal calprotectin is associated with worse gastrointestinal symptoms and quality of life scores in children with cystic fibrosis. J. Clin. Med. 2020, 9, 4080. [Google Scholar] [CrossRef]
  46. Ardelean, M.V.; Kundnani, N.R.; Sharma, A.; Dumitru, M.; Buzas, R.; Rosca, C.I.; Dahdal, D.; Ottman, N.; Ardelean, O.F.; Daniel-Marius, D.S.; et al. Fecal calprotectin–a valuable predictor of microscopic colitis. Eur. Rev. Med. Pharmacol. Sci. 2022, 26, 9382–9392. [Google Scholar] [PubMed]
  47. Catanzaro, R.; Maugeri, A.; Sciuto, M.; He, F.; Balakrishnan, B.; Marotta, F. Rational Use of Fecal Calprotectin in Irritable Bowel Syndrome and Inflammatory Bowel Disease. Acta Medica Iran. 2021, 59, 197–202. [Google Scholar] [CrossRef]
  48. El-Mrasey, I.M.; Shamaa, G.T.; Issa, M.A.; Hussein, M.Z.; Selim, A.F. Psychimmunological Aspects and Quality of Life in Patients with Irritable Bowel Syndrome. Int. Neuropsychiatr. Dis. J. 2023, 20, 101–111. [Google Scholar] [CrossRef]
  49. Paine, P. Current and future treatment approaches for pain in IBS. Aliment. Pharmacol. Ther. 2021, 54, S75–S88. [Google Scholar] [CrossRef] [PubMed]
  50. Tetali, B.; Suresh, S. Management of irritable bowel syndrome: A narrative review. Transl. Gastroenterol. Hepatol. 2024, 9, 26. [Google Scholar] [CrossRef]
  51. Mannerling, A.C.; Simkó, M.; Mild, K.H.; Mattsson, M.O. Effects of 50-Hz magnetic field exposure on superoxide radical anion formation and HSP70 induction in human K562 cells. Radiat. Environ. Biophys. 2010, 49, 731–741. [Google Scholar] [CrossRef]
  52. Black, C.J. Diagnosis and investigation of irritable bowel syndrome. Aliment. Pharmacol. Ther. 2021, 54, S33–S43. [Google Scholar] [CrossRef]
  53. Brindisino, F.; Garzonio, F.; Di Giacomo, G.; Pellegrino, R.; Olds, M.; Ristori, D. Depression, fear of re-injury and kinesiophobia resulted in worse pain, quality of life, function and level of return to sport in patients with shoulder instability: A systematic review. J. Sports Med. Phys. Fit. 2023, 63, 598–607. [Google Scholar] [CrossRef]
  54. Malfliet, A.; Coppieters, I.; Van Wilgen, P.; Kregel, J.; De Pauw, R.; Dolphens, M.; Ickmans, K. Brain changes associated with cognitive and emotional factors in chronic pain: A systematic review. Eur. J. Pain 2017, 21, 769–786. [Google Scholar] [CrossRef]
  55. Perpetuini, D.; Russo, E.F.; Cardone, D.; Palmieri, R.; Filippini, C.; Tritto, M.; Pellicano, F.; De Santis, G.P.; Pellegrino, R.; Calabrò, R.S.; et al. Psychophysiological Assessment of Children with Cerebral Palsy during Robotic-Assisted Gait Training through Infrared Imaging. Int. J. Environ. Res. Public Health 2022, 19, 15224. [Google Scholar] [CrossRef]
  56. Jamalouei, R. Investigating the effectiveness of acceptance and commitment therapy on treatment compliance and pain intensity in patients with irritable bowel syndrome. J. Res. Behav. Sci. 2023, 21, 22–31. [Google Scholar]
  57. Salazar-Méndez, J.; Leão Ribeiro, I.; Garrido-Castillo, M.; Gacitúa, J. Effects of pain neuroscience education on psycho-emotional and cognitive variables in individuals with chronic musculoskeletal pain: A systematic review of randomised clinical trials. Eur. J. Physiother. 2024, 26, 33–41. [Google Scholar] [CrossRef]
  58. Franceschelli, S.; D’Andrea, P.; Farina, M.; Gallenga, C.E.; Grilli, A.; Pesce, M.; Di Donato, A.; Lucchetta, D.; Ambrosini, G.; Benedetti, S.; et al. Short term effects of extremely low irradiance photobiomodulation on retinal function, in age related macular degeneration. Eur. J. Ophthalmol. 2024. [Google Scholar] [CrossRef]
  59. Bisiani, J.; Anugu, A.; Pentyala, S. It’s Time to Go Quantum in Medicine. J. Clin. Med. 2023, 12, 4506. [Google Scholar] [CrossRef] [PubMed]
  60. Goswami, A.; Onisor, V.R. Quantum Integrative Medicine: A New Paradigm for Health, Disease Prevention, and Healing; Monkfish Book Publishing: Rhinebeck, NY, USA, 2023. [Google Scholar]
Medicina 60 01099 g001
Figure 1. The Rayocomp PS 1000 Polar 4.0 Med BT device used to treat the observed patients.
Figure 1. The Rayocomp PS 1000 Polar 4.0 Med BT device used to treat the observed patients.
Medicina 60 01099 g001
Medicina 60 01099 g002
Figure 2. GEE estimates (β ± SE) for the comparison between times of the study for the items of the SF-36.
Figure 2. GEE estimates (β ± SE) for the comparison between times of the study for the items of the SF-36.
Medicina 60 01099 g002
Table 1. Specific program designed for IBS for the BT device used in the study.
Table 1. Specific program designed for IBS for the BT device used in the study.
Internal Program NumberProgram FocusTime
00.00Analysis Preparation5 min
01.00Vitalization Complete5 min
02.00Acupuncture Meridians Complete5 min
31.12ATP Production Colon5 min
31.16ATP Production Small Intestines5 min
35.10Raising the Defence Capacity, Basic Program5 min
70.19Digestive Organs10 min
46.00Digestive System, Physiology Complete5 min
47.70Irritable Bowel Syndrome5 min
75.10Stress Reduction5 min
31.50Basic Detoxification Program5 min
01.00Vitalization Complete5 min
Disclaimer/Publisher’s Note: The statements, opinions and data contained in all publications are solely those of the individual author(s) and contributor(s) and not of MDPI and/or the editor(s). MDPI and/or the editor(s) disclaim responsibility for any injury to people or property resulting from any ideas, methods, instructions or products referred to in the content.

Share and Cite

MDPI and ACS Style

Barassi, G.; Pirozzi, G.A.; Di Iorio, A.; Pellegrino, R.; Galasso, P.; Heimes, D.; Praitano, B.; Gallenga, P.E.; Prosperi, L.; Moccia, A.; et al. Quantum Medicine and Irritable Bowel Syndrome-Associated Chronic Low-Back Pain: A Pilot Observational Study on the Clinical and Bio-Psycho-Social Effects of Bioresonance Therapy. Medicina 2024, 60, 1099. https://doi.org/10.3390/medicina60071099

AMA Style

Barassi G, Pirozzi GA, Di Iorio A, Pellegrino R, Galasso P, Heimes D, Praitano B, Gallenga PE, Prosperi L, Moccia A, et al. Quantum Medicine and Irritable Bowel Syndrome-Associated Chronic Low-Back Pain: A Pilot Observational Study on the Clinical and Bio-Psycho-Social Effects of Bioresonance Therapy. Medicina. 2024; 60(7):1099. https://doi.org/10.3390/medicina60071099

Chicago/Turabian Style

Barassi, Giovanni, Giuseppe Alessandro Pirozzi, Angelo Di Iorio, Raffaello Pellegrino, Piero Galasso, Dietmar Heimes, Barbara Praitano, Pier Enrico Gallenga, Loris Prosperi, Antonio Moccia, and et al. 2024. "Quantum Medicine and Irritable Bowel Syndrome-Associated Chronic Low-Back Pain: A Pilot Observational Study on the Clinical and Bio-Psycho-Social Effects of Bioresonance Therapy" Medicina 60, no. 7: 1099. https://doi.org/10.3390/medicina60071099

Article Metrics

Article metric data becomes available approximately 24 hours after publication online.
Back to TopTop