CC BY-NC-ND 4.0 · Homeopathy 2022; 111(01): 010-021
DOI: 10.1055/s-0041-1732305
Review Article

The Clinical and Biological Effects of Homeopathically Prepared Signaling Molecules: A Scoping Review

1   Directorate of AYUSH, Health & Family Welfare Department, Govt of Delhi, New Delhi, India
Meeta Gupta
1   Directorate of AYUSH, Health & Family Welfare Department, Govt of Delhi, New Delhi, India
Ankit Gupta
1   Directorate of AYUSH, Health & Family Welfare Department, Govt of Delhi, New Delhi, India
2   International Institute for Integrated Medicine, Kingston, United Kingdom
› Author Affiliations


Background Signaling molecules such as cytokines and interleukins are key mediators for the immune response in responding to internal or external stimuli. Homeopathically prepared signaling molecules have been used therapeutically for about five decades. However, these types of products are not available in many countries and their usage by homoeopaths is also infrequent. The aim of this scoping review is to map the available pre-clinical and clinical data related to the therapeutic use of homeopathically prepared signaling molecules.

Methods We conducted a scoping review of clinical and pre-clinical studies of therapeutically used signaling molecules that have been prepared in accordance with an officially recognized homeopathic pharmacopoeia. Articles in peer-reviewed journals reporting original clinical or pre-clinical research of homeopathically prepared signaling molecules such as interleukins, cytokines, antibodies, growth factors, neuropeptides and hormones, were eligible. Non-English language papers were excluded, unless we were able to obtain an English translation. An appraisal of eligible studies took place by rating the direction of the outcomes on a five-point scale. The quality of the papers was not systematically assessed.

Results Twenty-eight eligible papers, reporting findings for four different manufacturers' products, were identified and reviewed. Seventeen papers reported pre-clinical studies, and 11 reported clinical studies (six experimental, five observational). A wide range of signaling molecules, as well as normal T-cell expressed specific nucleic acids, were used. A majority of the products (21 of 28) contained two or more signaling molecules. The most common clinical indications were psoriasis, vitiligo, rheumatoid arthritis, respiratory allergies, polycystic ovary syndrome, and herpes. The direction of the outcomes was positive in 26 papers and unclear in two papers.

Conclusion This scoping review found that there is a body of evidence on the use of homeopathically prepared signaling molecules. From a homeopathy perspective, these substances appear to have therapeutic potential. Further steps to explore this potential are warranted.



Signaling molecules such as cytokines and interleukins are key mediators for the immune response in responding to internal or external stimuli. In biology, information in molecular structures—the chemical properties of molecules that enable them to recognize and bind to one another—is central to the function of all processes. Signaling molecules are essential for the cross-talk between the psychological, neurological, endocrinological and immunological systems that form the psycho-neuro-endocrino-immunological network. This network is responsible for maintaining homeostasis, and correspondingly, a loss in the homeostatic equilibrium of signaling molecules can lead to the onset of various pathologies, including inflammatory, allergic and autoimmune diseases. This fits well into an emerging systemic view of life, which considers the presence of several interconnected features such as response to stress via hormetic regulation, maintenance of homeostasis and spatial compartmentalization to be the key hallmarks of human health.[1]

A core principle of homeopathy is the stimulation of self-regulation in diseased individuals via the administration of homeopathically prepared medicinal products based on the Principle of Similars. Consistent with the latter principle, the same substance can have inverse effects depending on the dose. Historically, this effect is referred to as the Arndt-Schultz principle;[2] in modern times this phenomenon, also referred to as hormesis, was extensively investigated by Prof. Edward Calabrese, who acknowledged that there is a relation between hormesis and homeopathy.[3] This type of adaptive response is often characterized by an inverse J-shaped dose–response curve (a low dose stimulates; a higher dose inhibits). Application of homeopathically prepared substances with the aim to stimulate an adaptive response (recovery) after an organism has lost its homeostatic equilibrium is also referred to as “postconditioning hormesis”.[4] This biphasic dose–response is also observed in the functioning of many signaling molecules and can, for instance, explain the mixed agonist/antagonist action of various cytokines.[5] [6]

All homeopathic medicinal products have undergone a process known as potentization, which involves stepwise serial dilution alternating with kinetic agitation (e.g., vigorous shaking with impact, also referred to as succussion, serial kinetic activation, etc.). Potentization of substances (involving kinetic agitation during each dilution step) is one of the core characteristics of homeopathically prepared medicinal products. Potentized signaling molecules have been in use for some time now and are available on the market as medicinal products in several countries. Whilst homeopathically prepared, no classical proving data are available. The latter situation is also applicable to many isopathic substances, but this is not a major problem because the conceptual relation between, e.g., the use of homeopathically prepared pollen and the indication hay fever is clear. Various trials on isopathic approaches have further publicized such approaches,[7] and subsequently these trials have been included in systematic reviews of homeopathy. This is currently less clear for the use of homeopathically prepared signaling molecules. On one hand, such products are defined by the WHO as homeopathic medicinal products if prepared in accordance with one of the recognized homeopathic pharmacopoeias.[8] On the other hand, there is a need to further clarify and communicate the relationship between the use of these products and homeopathy as a therapeutic system. The latter will also contribute toward further clarity on the regulatory status of such novel products in several countries, and thereby ensure or enhance market access.

There is currently a lack of awareness and understanding in the homeopathy community about the use and therapeutic position of potentized signaling molecules. To date, both clinical and pre-clinical studies on such products have been excluded from reviews, and therefore relatively little is known about the nature and extent of the available data.

Hahnemann developed homeopathy principally as a phenomenological medicinal system. This took place against the background of his justified criticism against mainstream medicine at the time, which was primarily based on the flawed theory of humoral pathology. Hahnemann was, however, firmly dedicated to aligning homeopathy with the natural sciences, but this connection has been weakened during the accelerating pace of scientific discoveries in the 20th and 21st century. In our opinion, it is important for both the recognition and further development of homeopathy that these connections are strengthened.

Signaling molecules are interesting substances because of their pivotal role in the biology of both health and disease. Moreover, these types of substances have been used therapeutically in homeopathy for approximately 50 years. There is a need to further map the available scientific data on these products, with a view to informing more formalized subsequent reviews. There is also a need to further clarify and discuss the homeopathic character and status of such products in the homeopathy community. This will also contribute to addressing the current regulatory policy gap with regard to such products. The aim of this scoping review is to map the available pre-clinical and clinical data on homeopathically prepared signaling molecules and to address the question of their position within the epistemological framework of homeopathy.



We conducted a scoping review of clinical and pre-clinical studies of homeopathically prepared signaling molecules that are used therapeutically. “Homeopathically prepared” was defined as being manufactured in accordance with one of the officially recognized homeopathic pharmacopoeias. Signaling molecules were defined as any molecule involved in endocrine, paracrine, autocrine, intracrine, and/or direct signaling. Antibodies were included within this broad definition, because of their involvement in the activation of the complement system via binding sites on the tail of their Y-shaped form. Nucleic acids such as DNA and RNA were included as well, because in addition to their main functions of creating, encoding and storing biological information in cells, they also serve to transmit and express that information inside and outside the nucleus.

Articles in peer-reviewed journals, reporting original clinical or pre-clinical research of therapeutically used homeopathically prepared signaling molecules, such as interleukins, cytokines, antibodies, growth factors, histamine, neuropeptides and hormones, were eligible. Experimental as well as observational designs, including clinical case reports, were permitted. Since this was a first exploration of the available literature, we decided on a post hoc basis to accept studies on combination products containing signaling molecules plus other homeopathic medicines, and also veterinary studies. English language papers were eligible, as well as non-English language papers of which we were able to obtain an English translation. No restrictions on the year of publication were applied.

The following types of papers were excluded: review articles or opinion pieces not reporting original research; second, similar, publications on the same original study; papers reporting on homeopathically prepared plant hormones in plant-based experimental studies.

Potentially relevant publications were identified by approaching the known manufacturers of homeopathically prepared signaling molecules, and by studying the reference lists of the provided publications. The Scopus abstract and citation database of peer-reviewed literature was used for electronically searching the published literature. While hormesis may help to explain some of the effects observed in association with the low doses used in homeopathy, hormesis does not entail potentization as a specific process for homeopathic medicinal products. So, while “low dose” related terms were used as part of the search strategy to identify potentially eligible papers, only papers involving homeopathically prepared substances were included in this review.

The following search terms were used: low dose, low-dose medicine, low-dose cytokine, low-dose multi-component medication, sequential kinetic activation, SKA, ultra-low dose, ultralow dose, adrenaline/Adrenalinum, Citomix, GUNA-Interleukin, GUNA-FGF, GUNA-Anti-IL, histamine/Histaminum, micro-immunotherapy, 2LARTH, 2LHERP, 2LPARK, 2LPAPI, 2LALERG, and antibody containing preparations. The end date of the literature search was July 31st, 2020.

The following variables were collected for each of the identified studies: first author, publication year, journal, study objective(s), type(s) of signaling molecules concerned, research design, clinical domain/application, results, and main conclusions as reported by the authors.

The categories of study designs were pre-defined as follows: randomized clinical trials (double blind, parallel groups, placebo controlled; double blind, placebo controlled; comparative clinical; double blind, placebo-controlled two-period crossover; double blind, comparative; double blind, active-controlled; active-controlled); observational studies (prospective case series; case series; prospective non-comparative cohort; prospective comparative cohort; retrospective comparative cohort; retrospective non-comparative cohort; matched pairs); and pre-clinical studies (in vitro, ex vivo; in vitro; in vivo).

An appraisal of all eligible studies took place by rating the direction of the findings as reported in one of the following categories: clearly positive; tentatively positive; unclear; tentatively negative; clearly negative. The quality of the papers was not systematically assessed. The assessment of the direction of the evidence was based on: (1) the conclusions as reported by the authors; (2) the consistency of the results; and (3) the identification of methodological flaws. For instance, a lack of consistency in the results (some test results are significant, while others are non-significant) would lead to a downgrading of one category in the assessment of the direction of the evidence. Also, the identification of significant or obvious methodological weaknesses in the paper would lead to an assessment of “unclear”, even if the results were reported as positive by the authors.

The papers were independently assessed by all four authors. Consensus on the assessment of the direction of the evidence was reached on the basis of discussion if/as appropriate.

We did not deem it necessary to comprehensively chart the data. Nonetheless, to help with visualizing the direction of outcomes, arrows of three different colors were used. Upward facing vertical green arrows for clearly positive outcomes, upward angled (45 degrees) yellow arrows for a tentatively positive direction of the results, a horizontal orange arrow for an unclear direction of the outcomes, and a downward facing red arrow for a tentatively or clearly negative direction of the outcomes. Reporting of this paper follows the PRISMA extension guidelines for scoping reviews.[9]



The screening process is summarized in [Fig. 1].

Zoom Image
Fig. 1 Flow diagram. Selection process for eligible papers.

During pre-screening, 169 papers related to the Russian company Materia Medica Holding were excluded on the grounds that these products were not manufactured in accordance with one of the recognized pharmacopoeias. Nonetheless, their product range contains serially diluted and kinetically agitated purified antibodies against a variety of molecules such as IFN-γ, TNF-ɑ, prostate-specific antigen, endothelial NO synthase, erythropoietin, S-100 protein, β-Unit insulin receptor, bradykinin, histamine, morphine, and CD-4 co-receptor.

Eight of the remaining 36 studies were excluded,[10] [11] [12] [13] [14] [15] [16] [17] leaving 17 publications related to GUNA products,[18] [19] [20] [21] [22] [23] [24] [25] [26] [27] [28] [29] [30] [31] [32] [33] [34] eight to LABO'LIFE products,[35] [36] [37] [38] [39] [40] [41] [42] two to Boiron products[43] [44] and one to a product manufactured by Laboratorios Medicor[45] as the principal basis for this scoping review.

Relevant data from the papers were extracted into two tables: one with the data on the included studies ([Supplementary Table 1], available online only), and a second one with the excluded studies ([Supplementary Table 2], available online only).

The main data on the 28 included papers are summarized in [Table 1].

Table 1

Summary of main findings

1st Author, year


Type of signaling molecule(s)

Research design

Clinical domain/indication

Direction of outcome[a]


Barygina et al 2015[18]

Journal of Dermatological Science

IL-10, IL-4, bFGF and β-endorphin


Dermatology: vitiligo

Preliminary findings suggesting that the four investigated signaling molecules may be useful in the treatment of vitiligo.

Barygina et al 2016[19]

Journal of Dermatological Science

IL-10, IL-4, bFGF and β-endorphin


Dermatology: psoriasis

Letter to the editor, reporting that some of the signaling molecules reduced oxidative stress in lesional fibroblasts.

Cardani et al 2013[20]

Gastroenterology Research

IL-10 and anti-IL-1 antibody


Gastroenterology: colitis

An inflammation modulating effect was observed via a variety of measurements. Consistency between the different outcome measures adds some confidence to the finding that these molecules may be useful in the treatment of inflammatory bowel disease.

Carello et al 2017[21]

Italian Journal of Pediatrics


Interferon-γ and

Galium Heel

Clinical, experimental

Dermatology: eczema

Whilst some preliminary positive results are reported, the signaling molecules were used in conjunction with another product, preventing the (exclusive) attribution of effects to the signaling molecules.

D'Amico et al 2012[22]

Journal of Cancer Therapy



Oncology: non-small cell lung CA

Low dose IL-12 modulated some of the T-cell populations in a positive direction, but not all of the changes were superior to the control group.

Fiorito et al 2016[23]

Comparative Immunology, Microbiology and Infectious Diseases

IL-12, IFN-γ

Clinical, experimental

Veterinary medicine; (feline) herpes virus infections

Randomized, blinded placebo-controlled pilot trial. After 1 year of treatment, the PCR viral assay became negative in 80% of cats on active treatment compared with none of the cats on placebo. Clinical signs also improved more in the active group as compared with placebo.

Floris et al 2018[35]

Journal of Inflammation Research

IL-1β, IL-2, TNF-α, SNA


Rheumatology; reducing chronic inflammation

The preparation reduced the expression of some pro-inflammatory mediators extracted from monocytes of healthy volunteers. The contribution of the SNAs is not clearly discussed/explained.

Floris et al 2020[36]


IL-1, IL-4, IL-5, IL-6, IL-10, IL-12, IL-13, TNF- α, TGF-β, Histaminum, SNA-HLA-2


Respiratory medicine; allergies

Some evidence suggesting effects on IgE-mediated inflammation; not all doses and effects were statistically significant.

Floris et al 2020[37]

International Journal of Rheumatology

IL-1β, TNF-α, IL-2, SNAs targeting HLA class I, class II, and Human IL-2


Rheumatology; rheumatoid arthritis

The preparation reduced the clinical, serological, and histological markers of inflammation in mice. Highly diluted IL-2 as well as SNAs targeting IL-2 appears to successfully downregulate IL-2.

Floris et al 2018[38]

Journal of Biological Regulators and Homeostatic Agents

RANTES chemotactic cytokine

Clinical, observational

Dentistry; maxillary surgery

Comparative observational study, suggesting that RANTES C27 can downregulate RANTES levels in immuno-compromised patients undergoing maxillary surgery, with sufficiently high levels of RANTES at baseline. The small, heterogeneous group of patients included in this observational study make these findings very preliminary.

Gariboldi et al 2009[24]

Pulmonary Pharmacology and Therapeutics

IL-12, IFN-γ


Respiratory medicine; allergies

Low dose IL-12 and IFN–γ reduced bronchial hyper-responsiveness in mice, as further confirmed by histological and IgE analyses. Succussion increased the activity of the preparation, providing support for the importance of the potentization process.

Jenaer et al 2000[39]

British Homeopathic Journal

DNA, RNA, two types of SNAs

Clinical, observational

Gynecology; genital herpes

Observational study in patients, suggesting that the homeopathic product prevented or reduced attacks in patients with chronic recurring genital herpes. The nature of the SNAs used is not described. Further RCTs are necessary.

Lilli et al 2019[40]

Degenerative Neurological and Neuromuscular Disease

SNA-s and non-defined immune mediators


Neurology; Parkinson's disease

Findings suggesting that the product can reduce oxidative stress in an in vitro model.

Ingredients of the product are not described, making it impossible to further assess the potential mechanism of action.

Lotti et al 2015[25]

Journal of Biological Regulators and Homeostatic Agents

FGF, IL-4, IL-10, anti-IL-1

Clinical, observational

Dermatology; vitiligo

Results suggesting that the product can augment the effects of phototherapy in patients with vitiligo.

Retrospective observational design and low patient numbers make these data preliminary.

Mancini et al 2018[26]

International Immunopharmacology

Progesterone, IL-10


Gynecology; endometriosis

Promising effects of low dose progesterone and IL-10 alone and in combination on multiple endometrial cell-lines, suggesting added value of the combination.

Martin-Martin et al 2017[27]

Drug Design, Development and Therapy

IL-4, IL-10, anti-IL-1 antibodies

Clinical, experimental

Rheumatology; rheumatoid arthritis

Randomized, open-label trial in rheumatoid arthritis patients suggesting that the homeopathic products can help maintain low levels of disease activity. Further trials with larger numbers of patients and longer follow-up are warranted.

Naidoo and Pellow 2013[43]


Histaminum and

cat saliva

Clinical, experimental

Dermatology; allergy

Randomized placebo-controlled trial in subjects with cat allergy, with positive results. Histaminum was used in conjunction with another product, preventing the (exclusive) attribution of effects to histaminum.

Poitevin et al 1988[44]

British Journal of Clinical Pharmacology

Lung histamine and Apis mellifica


Respiratory medicine/dermatology; allergy

In vitro study, demonstrating inhibition of anti-igE-induced degranulation of basophils. These effects were only observed at particular potency levels.

Radice et al 2015[28]

Translational Oncology

IL-4, IL-12


Oncology; colon carcinoma

In this in vitro, ex vivo study, enhanced production of IL-12 and Th1 polarization was seen in cells from normal donors and early carcinoma rather than from advanced stages.

Low numbers of donors make these results preliminary.

Radice et al 2014[29]

International Immunopharmacology



Oncology; colorectal cancer

SKA IFN-γ treatment was found effective but less compared with r-IFN- γ in increasing NK cell activity, and only in cells from non-metastatic cases.

Roberti et al 2014[30]

Journal of Biological Regulators and Homeostatic Agents

IL-4, IL-10, IL-11

Clinical, experimental

Dermatology; psoriasis

This crossover trial reports “within-group” analyses only, and there is no indication in the data that the effect was superior to placebo.

Apart from methodological concerns, the low number of recruited patients does not permit reliable conclusions with regard to the safety of the product.

Ruiz-Vega et al 2005[45]




Neurology; sleep

This in vivo study reports significant effects of histamine 30C compared with control on sleep patterns as measured via EEG. Whilst demonstrating biological effects, the clinical relevance of these findings is not entirely clear.

Tagliacarne et al 2018[31]

Immunology Letters

G-CSF, IFN-γ, IL-1β, IL-2, IL-4, IL-6 plus 6 other homeopathic ingredients


ENT medicine; cells recovered from adenoidectomies or adeno-tonsillectomies

The product modulated a broad range of immune cells involved in the early immune response against respiratory infections.

Inclusion of six other homeopathic ingredients prevents the attribution of the treatment effects to the signaling molecules.

Tessaro et al 2017[32]

Journal of Reproductive Infertility

Progesterone, IL-10


Gynecology; polycystic ovary syndrome

Consistent positive effects on multiple outcome parameters, i.e. hormonal analyses, morphological evaluation of ovaries and immunohistochemistry, suggest a possible role in the treatment of PCOS.

Tessaro et al 2015[33]

Journal of Ovarian Research

Recombinant human FSH (rh-FSH)


Gynecology; polycystic ovary syndrome

The findings suggest that SKA FSH could attenuate some of the characteristic of PCOS in the mouse model. However, the effects did not mimic the effects of rhFSH, i.e., the oocyte maturation rate.

Thomas et al 2016[41]

Advances in Infectious Diseases

IL-1, IL-2, IFN-α, RNA, and two types of SNAs

Clinical, observational

Oncology; cervical cancer

The overall results show a clear reduction of HR-HPV infection in the treated patients, without reaching statistical significance.

Comparative observational study with low patient numbers warranting the conduct of confirmatory RCT.

Uberti et al 2017[34]

Cells, Tissues, Organs



Dermatology; burn injuries, chronic ulcers, etc.

SKA ACh positively influenced keratinocyte functions such as cell viability, proliferation and migration, for better wound healing. Non-kinetically activated low dose ACh did not have the same effects.

Van der Brempt et al 2011[42]

Revue Française D'Allergogie

IL-1, IL-4, IL-5, IL-6, IL-10, IL-12, IL-13, TNF- α, TGF-β, Histaminum, SNA-HLA-2

Clinical, experimental

ENT medicine; allergic rhinitis

In this placebo-controlled pilot trial, the primary outcome measure (rhinitis symptom score) did not reach statistical significance compared with placebo. Rescue medication use, as well as a combined score, was statistically significantly less in the active group compared with placebo.

Abbreviations: ACh, acetylcholine; b-FGF, basic fibroblasts growth factor; g-CCF, granulocyte-colony stimulating factor; IL, interleukin; IFN-γ, interferon gamma; NK-cells, natural killer cells; RANTES, Regulated on-Activation, Normal T-cell Expressed and Secreted; rIFN-γ, recombinant interferon-gamma; SNA, specific nucleic acids (very short single strands of DNA molecules); SKA, serial kinetic activation; SNA-HLA-2, SNAs targeting human leucocyte antigen type II; TGF-β, tumor growth factor β; TNF-α, tumor necrosis factor α; PCOS, polycystic ovary syndrome; ENT, ear, nose & throat.

a Key to the directions of outcome: = clearly positive; = tentatively positive; = uncertain; = tentatively negative; = clearly negative.

A wide range of signaling molecules are utilized in the products, as well as normal T-cell expressed specific nucleic acids consisting of very short single strands of DNA molecules. A clear majority of products (21 of 28) are derived from a combination of two or more signaling molecules.

Seventeen papers reported pre-clinical studies, and 11 reported clinical studies (six experimental, five observational). The direction of outcome is positive in the great majority of the papers, and the results are unclear in only two of the papers. Sixteen of the studies report a tentatively positive outcome, which was most commonly due to the inclusion of relatively few subjects in the clinical studies, positive but equivocal findings, non-significance of some of the outcome assessments, etc.

The clinical indications studied are given in [Table 2], showing that the most commonly studied have been psoriasis, vitiligo, rheumatoid arthritis, respiratory allergies, polycystic ovary syndrome, and herpes.

Table 2

Clinical indications of the studies

Clinical indication

N studies

Respiratory allergies


Rheumatoid arthritis


Polycystic ovary syndrome






Cat allergy


Cervical cancer




Colon carcinoma


Colorectal cancer






Feline herpes virus infections


Genital herpes


Maxillary surgery


Non-small cell lung cancer


Parkinson's disease


Sleep disturbance








This scoping review found that there is a significant and growing body of evidence on the use of homeopathically prepared signaling molecules. The majority of the data involves pre-clinical research and only a minority involves clinical trials. Overall, the pre-clinical data are varied, and generally promising. A few of the clearly positive pre-clinical studies were published in high impact factor journals. Whilst the observational studies are promising, and the majority of clinical trials have tentatively positive results, further trials are needed, including high quality confirmatory clinical trials. Homeopathically prepared signaling molecules are used in a wide variety of clinical domains, with dermatology being the most advanced in terms of the accumulation of both pre-clinical and clinical studies.

The main strength of this review is that for the first time the studies on these types of products are summarized and brought to the attention of the homeopathy community via publication in a peer-reviewed homeopathy journal.

A limitation inherent to a scoping review is that the quality of the papers is not systematically assessed. A further limitation is that we may have missed articles only held in databases other than Scopus, such as for instance the Web of Science. However, Scopus is considered to be comprehensive in the domain of health-related topics, so we do not expect that we have missed a significant number of articles.

Another weakness is that grading the direction of the evidence (as reported in [Table 1]), based on independent review by four assessors followed by consensus discussion if appropriate, is a non-validated method. Despite this, we did feel it provided some added value to the results and conclusions as reported by the papers' authors ([Supplementary Table 1], available online only), especially because one of the main purposes of a scoping review is to provide the reader with a first orientation regarding the available data.

The high volume of studies related to Materia Medica Holding products came as a surprise to us. One of the reasons for this was that these products have not always been positioned on the market as “homeopathic medicinal products”. From a regulatory point of view, this is strictly speaking correct, because only products that are manufactured in accordance with a recognized homeopathic pharmacopoeia are recognized as homeopathic medicinal products.[46] However, from a practical point of view, these products have undergone a potentization process involving serial dilution alternating with kinetic agitation (referred to as release-activation), very similar to preparation in accordance with the German Homeopathic Pharmacopoeia (personal communication). Despite debate over the homeopathic nature of these products,[47] most third parties point to a variety of arguments which support the notion that these products are homeopathic.[48] Some of these publications[49] [50] [51] have even been retracted after the editors realized that the products investigated were homeopathic, in some cases even explicitly stating its homeopathic nature as the principal reason for the retraction.[52] [53] [54] Whilst these papers therefore did not meet the inclusion criteria for this scoping review, we recognize as limitation that a significant number of relevant papers were not included. This gap should be addressed in a complementary scoping review.

The majority of the published material reported positive, or tentatively positive, results and all of the identified research was funded by the manufacturing companies concerned. Little or no research has been conducted to date by independent research groups without links to funding by the industries concerned. Publication bias can therefore not be excluded. We conducted a limited search on to see if we could identify any completed clinical trials (using the same search terms as described in the Methods section) that were not subsequently published. This search yielded one trial of 2LALERG in seasonal allergic rhinitis that was completed in 2016[55] and that did not demonstrate superiority to placebo. Due to problems with the design and execution of this trial, its authors decided not to publish it (personal communication). In all scenarios, further confirmatory studies are needed.

Whilst the identified studies related to the therapeutic effectiveness of histamine were limited/inconclusive, it is worth mentioning that high dilution research on the effects of histamine on basophil degranulation is one of the best-established basic research models, and after more than 20 years of work on these models, the biological effects of 15–17cH potencies of histamine have been confirmed,[56] [57] and reproduced in large multi-center studies.[58] [59]

The volume of the identified studies, and the response to some publications on these types of products in the scientific literature, clearly confirm the need to address the position of these products within homeopathy.

There is a need to formally assess the quality of the identified studies, using established criteria. Some further work may need to be done on the model validity of this category of papers from a homeopathy perspective.[60] Further discussion would be needed in particular on how to assess the judgmental domains “Rationale for the choice of the particular homeopathic medicine” and “The extent to which homeopathic principles are reflected in the intervention”.

We are of the opinion that these types of products potentially serve a bridge function between homeopathy and the natural sciences. Whilst many questions remain, it is clear that the homeopathic method of preparation is essential for releasing the “bioregulatory” action of these products. It is as yet unclear whether this is due to some sort of primary action of the homeopathically prepared substances and/or whether the homeopathic medicine acts as a catalyst for various biological processes. We feel that the group of signaling molecules is of particular interest in this regard because the scientific understanding of the actions of these molecules is still expanding rapidly, and this can provide a useful platform for linking homeopathic principles to modern pharmacology and biology. The ground is potentially fertile for this, because the use of these signaling molecules in higher doses based on a conventional pharmacological approach has largely failed, as illustrated for instance by attempts to use IFN-γ.[61] [62] Further discussion on what makes this new class of products homeopathic is urgently needed. The mere fact that these products have not undergone a classical Hahnemannian proving is, in our opinion, insufficient as an argument to dismiss this class of products as non-homeopathic. Interestingly, it is well documented that cytokines in higher than physiological concentrations are actually pathogenetic.[63] Physiological as well as pathogenetic effects of these molecules may also provide some hints regarding their possible homeopathic uses. To our knowledge, the latter aspect has not been sufficiently explored. We also think that the time is right to move from a purely phenomenological approach to a more modern one that involves phenomenology as well as pathophysiological reasoning. Hahnemann himself tried to do something similar when endeavoring to integrate the dominant (now obsolete) miasma theory into the therapeutic framework of homeopathy.

It is conceivable that it will be possible to at least partly connect the therapeutic effects of homeopathically prepared signaling molecules to the emerging field of low-dose medicine[64] and stimulation of hormetic regulation. On the other hand, experts in the field have pointed out that the observation of hormetic effects in itself does not constitute any sort of explanatory theory for the effects of homeopathic medicines.[2] [3] It is therefore important also to acknowledge the distinctions between homeopathy and hormesis. A detailed discussion on this topic is outside the scope of this article. Additionally, modern approaches have been proposed,[65] which link the science of molecular networks with patients' autoregulatory capacity. Signaling molecules are pivotal elements in these molecular networks. This could therefore provide a modern framework for the stimulation of self-regulation that is aimed for in homeopathy. Further interactions with molecular biologists, immunologists and pharmacologists will be needed to advance this process.

As borne out by 200 years of homeopathy history, biological materials provide a key source for homeopathic medicinal products. Signaling molecules are amongst the most information dense molecules from a biological perspective. For instance, it has been demonstrated that IL-6 signaling requires only a few IL-6 molecules.[64] Therefore, from a homeopathy perspective, it is quite conceivable that these types of substances have therapeutic potential. Further steps to explore this potential are warranted.



  • Signaling molecules are pivotal elements in the body's self-regulating molecular networks.

  • Homeopathically prepared signaling molecules have been used therapeutically for approximately five decades, though this fact is not well known.

  • This scoping review systematically identified the available clinical and pre-clinical data for the first time.

  • A surprising volume of promising data was identified.

  • Further steps to explore the therapeutic use of homeopathically prepared signaling molecules are warranted.


Conflict of Interest

Robbert van Haselen has provided consultancy services to GUNA, one of the pharmaceutical companies manufacturing and distributing homeopathically prepared signaling molecules. There is no conflict of interest for the other authors.


The authors thank Guna, Labo'Life, and Materia Medica Holding for their support with identifying studies and available translations.

Authors' Contributions

Both R.K. Manchanda and R. van Haselen were involved in the planning, conduct, analysis, and writing of the article. Drs. M. Gupta and A. Gupta were involved in the assessment of the literature papers and in the writing of the article. All authors agree to the contents of the manuscript.

Supplementary Material

Address for correspondence

Robbert van Haselen, MSc
International Institute for Integrated Medicine
Suite 467, 29 Castle Street, Kingston KT1 1DN
United Kingdom   

Publication History

Received: 23 March 2021

Accepted: 04 June 2021

Publication Date:
19 November 2021 (online)

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