A systematic review of the literature.

Descriptive and analytical articles that met the selection criteria published in the following databases were included: Medline, Cochrane, ClinicalKey, Pubmed, and ScienceDirect. The age of the participants was not considered an exclusion criterion.

A systematic review of the literature was conducted with a predetermined search strategy not limited to a database (Medline, Cochrane, Pubmed, ClinicalKey, ScienceDirect). Information from a secondary source was considered and the search pattern was sIRTctly followed to reduce the possibility of selection bias, as well as to have the possibility of replicating the search pattern by other researchers.

The search was carried out with a deadline of September 30, 2020. The Medical Subject Headings (MeSH) terms “Thermography” and “Microscopic angioscopy” were used. The keywords were included considering that population or diagnostic test with no MesH term according to the main objective of the search, and, in turn, to allow to find a greater number of articles to be screened in those cases in which an established MeSH term was already found.

In the construction of the search equations, each of the MeSH terms was crossed with the respective “Keywords”, using different Boolean operators (OR, AND, NOT) (see Table 1). Likewise, a gray literature search was applied. Study identification was not resIRTcted by language, age, or country of origin, yet the search was limited to humans. Abstracts and full-text articles were considered.

The following search arms were combined:

((((Raynaud's Disease [MeSH Terms])) OR (Raynaud's Disease)) OR (Raynaud's Disease)) OR (Raynaud's Phenomenon).

((Thermography [MeSH Terms]) OR (Temperature Mapping)) OR (Temperature Mappings).

(((((((Microscopic Angioscopy [MeSH Terms]) OR (Capillaroscopy)) OR (Nailfold Capillaroscopy)) OR (Videocapillaroscopy)) OR (Capillaroscopes)) OR (Videocapillaroscopy)) OR (Capillaroscopy, Nailfold)) OR (Nailfold capillaroscopes).

The information was collected from a secondary source, in the following order, according to the Prisma9 guidelines for systematic reviews and meta-analysis, considering the phases of identification, screening, eligibility, and inclusion: first, a search pattern was created according to the previously described strategy in Table 1; second, this search pattern was run independently by the two authors, in the following databases: Medline, Cochrane, Pubmed, ClinicalKey, and ScienceDirect. The information available in these databases was reviewed; third, a review of the articles was performed in line with the screening and elimination of duplicates phase, according to the Prisma9 guideline; fourth, having the number of articles without duplicates, a review of the titles and a summary of said articles was made; fifth, of the articles that met selection criteria and allowed the research question to be answered, those were selected to carry out the analysis of the full-text content; and finally, in a blind manner, after solving the disagreements by consensus during this identification phase, the same authors conducted the review and full-text analysis, independently, of the content of the articles that met the mentioned criteria. From there, the evidence was extracted to be able to identify the main differences in the detection of RP between NC and IRT.

In the same way, in addition to what was published in the aforementioned databases, a search was included in the "grey literature" that corresponds to experiences published in journals not included in the Index Medicus or other databases (thesis, abstracts from conferences, pharmaceutical industry reports, etc.).

All relevant data referring to the assessment with NC (videocapillaroscopic or microscopic) and protocols used before its performance, concomitant pharmacological intervention (if any, for example, vasodilators), the diagnostic comparator (IRT, type of device, technique aspects, use of mobile phones, type of radiation, etc.), and the context in which the two diagnostic tests have been used (early diagnosis, late follow-up, test in response to treatment, etc.). Likewise, the outcome measures in their maximum number, according to the different possible microvascular findings, primarily in data searching on the similarities and differences within the two techniques, were evaluated. Data related to the safety of diagnostic techniques, in case of being informed, were also extracted.

All the studies obtained through the search were synchronized with the Rayyan®10 web and mobile application program, validated for systematic searches. A spreadsheet in Excel format was designed with information on the primary (full-text review) and final articles (review of final articles) in separate sheets. During the selection phase, the Mendeley Desktop v1.19.2 software was used to evaluate full-text PDF articles, considering compliance with the eligibility criteria.

The variables that were analyzed were: country, year of publication, authors, journal, main and secondary study results, methodological evaluation, type of epidemiological design, estimates, main results, and conclusions.

The search strategy has been registered in the Mendeley Data repository (https://data.mendeley.com/datasets/5w9fbp3wyj/1 DOI: 10.17632/5w9fbp3wyj.1).

Being a secondary source investigation, results were subject to the quality of the information of the published articles; however, for the final review, compliance with criteria was considered according to the type of epidemiological design, compliance to objectives, information analysis, and the authors` research articles conclusions.

A review of the articles was done in duplicate, with two different researchers, who finally reviewed compliance with criteria to identify the level of evidence of the selected articles. Publication, selection, and observer biases were all considered.

For the analysis and presentation of results, the role of the reviewers was to try to explain the possible causes of results variations of the primary articles, since these may be due to chance, study design, sample size, or how the exposure (or intervention) and outcomes were measured.

Regarding the presentation of results, all the steps of the review development process were detailed in a clear and organized way. A flowchart (Prisma flowchart) was prepared, which represents the article selection process, specifying the initial number of potentially eligible articles according to the performed search, up to those finally included, specifying the reasons why papers that were not finally considered were excluded. Similarly, the graphical representation of the results of the included studies was performed.

A narrative extraction was carried out on the tools used to measure outcomes, including quantitative data referring to effect measures, such as means, standard deviations, medians, and p values ​​(in the case of being informed by the source articles, although these cannot be statistically grouped). A comprehensive search of the source articles was carried out on the concordance value of the microvascular findings between the two tests, if any (to estimate the common effect), and the statistical tools to calculate it. Studies were grouped according to their design. A synthesis without meta-analysis was proposed as a qualitative data analysis and not a quantitative analysis, given the heterogeneity of the articles, following the suggested SWIM11 guideline. For this purpose, the outcomes related to the type of classification of the microvascular findings were assessed (in all the articles that reported them), according to the two techniques, being the type of capillaroscopic pattern12 (according to the EULAR Study Group on Microcirculation in Rheumatic Diseases and the Scleroderma Clinical IRTals Consortium Group on Capillaroscopy, or others if described) and thermal pattern findings detailed in IRT. Consequently, and following the Prisma9 guideline, the variables to be evaluated were, for NC: category 1, non-scleroderma pattern (normal or non-specific abnormalities), and category 2, early, active, or late scleroderma pattern. For IRT: digital basal temperature, the temperature on the back, temperature gradient, and post-test cold test at different temperature levels.

The two authors independently evaluated the level of evidence of the selected studies, applying the Joanna Briggs Institute level of evidence checklist.13

Additionally, the studies selected and considered for definitive inclusion were assessed for methodological quality before their inclusion in the review. Standardized tools for critical appraisal of the evidence from the JBI The Joanna Briggs Institute Critical Appraisal Tools for Use in Systematic Reviews Checklist were used, according to the different types of epidemiological designs of the articles that were included to assess the risk of bias.

For the development of this systematic review, current national and international guidelines that seek to protect human participants in medical research and guarantee compliance with legal provisions14 were considered. Within national regulations, following Resolution 8430 of 1993, this systematic review is considered risk-free research.

In this systematic review, the number of articles found in the databases was 1397, of which 401 were discarded because they were duplicates. Two initial filters were carried out: the first by title and the second by the abstract content; consequently, 41 articles remained, of which 19 were excluded (another disease [n = 6]; no use of the two diagnostic tools [n = 13]). Due to their eligibility, 22 articles were selected for full-text reading. When reviewing these manuscripts and applying the inclusion and exclusion criteria, 17 papers were rejected: seven narrative review articles, one incorrect study design, one used new diagnostic equipment [thermographic duosensor], four did not evaluate NC as a technique, three did not assess IRT as a technique, and one with no full-text availability for its revision.

All 22 articles were available in the databases in full text, except for one written in Polish; despite an extensive search on the internet, carried out both by the researchers and through bibliographic resource management centers of the institutions to which the authors are affiliated, not possible to obtain. An email was sent to the author, personally and directly, without obtaining a response. Finally, five articles15–19 were selected to be included in the systematic review (see Table 2 Description of the full-text articles and those included in the final review). Of these, three had a case-control and two had cross-sectional designs.

The Prisma supplementary check table was prepared (see Annex 1 in additional material). A summary of the search process is presented below, using the Prisma diagram, according to systematic reviews and meta-analyses guidelines9 (see Figs. 1 and 2).

Figure 1.

Diagrama PRISMA para selección de artículos.

(0.31MB).

Figure 2.

Causas de Exclusión.

(0.16MB).

In the present systematic review of the literature, to the knowledge of the authors, the microvascular findings of these two diagnostic tools, NC (microscopic or videocapillaroscopy) and IRT, when used concomitantly in RP, were assessed for the first time. Although this disease is not very prevalent, the complications that occur in secondary RP are very serious and disabling, and the quantification of the microvascular alterations that occur in patients with RP secondary to connective tissue disease is notoriously difficult, which makes it necessary to improve the timely diagnostic process.

Objective measures are needed to help distinguish primary from secondary RP, determine its nature, and performing careful monitoring in those with secondary disease to determine its association with other disorders.1

According to the latest expert consensus on NC and image analysis conducted in 2020,12 NC is a non-invasive and safe tool for evaluating microcirculation morphology, increasingly used by international clinicians, both in daily practice and in the research context, to differentiate primary from secondary RP, predicting disease progression, and monitoring treatment effects.

The gold standard for the evaluation of RP is high magnification videocapillaroscopy. The capillaroscopic pattern for the development of connective tissue disease has a high predictive value (47%)20; nailfold NC is indicated in all patients with Raynaud's symptoms.

In their review article, Herrick and Murray6 point out that NC is the method that best helps to differentiate primary from secondary RP, referring to microvascular findings in the nailfold as normal in primary RP, but abnormal in most patients with secondary RP. Such results are shared in the same way by Lambova in his review article in 2016.20 However, some authors consider that videocapillaroscopes are relatively expensive and require special training.21 Nonetheless, this has been refuted by more recent studies, such as the capillaroscopy study group of the Pan American League of Rheumatology (PANLAR),22 which found that there is moderate agreement among rheumatologists for the identification of SS videocapillaroscopy patterns and substantial agreement, regardless of previous experience in identifying normal and abnormal images. The agreement for active and late pattern identification is higher than for early pattern.

Some researchers suggest that for those who do not have access to this resource, a low magnification dermatoscope or USB microscope (conventional–microscopic) can be used, in which the capillaries are directly visualized through an optical magnification system of approximately 10−100×, mainly in the finger nailfold.23

On the other hand, IRT measures surface temperature, an indirect measure that assesses digital vascular function. Until now, it is a technique with which few rheumatologists are familiar; its use has been limited mainly to specialized centers and research.

Recently, the performance of low-cost thermography was tested through portable cameras connected to mobile devices,24 and it stands out that it is a novel and portable tool, but with a lower sensitivity than the wide-field microscope, which works acceptably, even in inexperienced hands. However, there are no studies that show that it can replace NC. Table 3 depicts some characteristics of the NC and IRT.

An interesting group in which IRT represents a promising and reliable instrument to diagnose and monitor peripheral circulation disorders could be the pediaIRTc population; in this group, IRT is a trustworthy and reproducible method, which could be used to avoid complications when other diagnostic tools are employed. In the present review, one of the studies15, demonstrates this, and mentions IRT as a diagnostic method capable of evaluating thermal images to distinguish primary from secondary RP and acrocyanosis, based on the analysis of the rewarming pattern of acrocyanosis in children; however, the authors15 highlight different sources of poor quality.

On the other hand, some experts differ from the previous concept, such as Jayanetti et al.19, authors of one of the studies included in this review, who disagree with the use of IRT as a tool for assessing childhood RP. Their study19 was the first to conduct a detailed evaluation of capillary dimensions in children using videocapillaroscopy and demonstrated that cold challenge testing and measurement of capillary dimensions are feasible in children with RP, as well as that these children have abnormal overheating.

Finally, these two techniques (IRT and NC) may play a role in the diagnosis and evaluation of childhood RP, and although the findings are not similar in the two studies, they do provide some recommendations for further studies in this population.

In this review, additional studies16–18 conducted in the adult population were analyzed, which offer some similar results to each other.

Sternbersky et al.16 demonstrated that the combined results of IRT and microscopic NC determined the final diagnosis (Table 1). IRT distinguishes healthy patients from those with RP, and microscopic NC can be used to differentiate primary from secondary RP. IRT can also detect which fingers are most affected and can direct the focus of the NC. It could be concluded from this study that, being non-invasive, the IRT examination is a safe method for patients, including a cold-pressure test (CPT). However, the use of a CPT is contraindicated for patients with critical digital ischemia, where it could cause significant progression. Unfortunately, the authors did not perform an assessment of concordance between the two diagnostic tests to conclude comparing the two techniques, and additionally, more studies would be required to demonstrate the diagnostic performance using the two techniques. Murray et al.17 used microscopic laser Doppler, IRT, and NC imaging to measure cutaneous blood vessel function and nailfold capillary morphology. The key finding of this study was that capillary morphology as measured by NC discriminates better than blood flow (as measured by laser Doppler and IRT between patients with SS, RP, and controls. However, classification is further improved if all three techniques are combined, allowing 94% of patients (compared to 89% using NC alone) to be correctly classified. Scolnik et al.18 compared symptom characteristics and objective assessment of digital microvascular function using IRT (and nailfold videocapillaroscopy when available) in patients with FMS (reporting Raynaud symptoms) and primary RP. There were no differences in the thermal pattern in individuals with RP and non-specific NC abnormalities when compared with RP patients without NC abnormalities. Additional prospective studies are required to verify these findings.

Although it is true that in this systematic review of the literature few studies were found that compared NC with IRT, it is worth mentioning that the latter has been compared with other techniques. In this regard, Wilkinson et al.24 compared IRT with speckle contrast laser for primary RP and found that both demonstrated good potential as outcome measures; laser speckle contrast, standard IRT, and mobile thermography had very high convergent validity.

This study has the following weaknesses: the search strategy protocol was not registered in the Prospero repository, although it was registered in the Mendeley Repository Data, following the Prospero guidelines. Likewise, the characteristics of the different populations studied are heterogeneous (two studies in the pediaIRTc population, and three studies in adults), with no possibility of matching, either by sex or age.

There is wide variability in secondary RP-associated disorders (FMS, acrocyanosis, SS), with different objectives in each of the studies15,17,18; in one of the papers, the capillaroscopic technique used was unclear.15

The variables and outcomes to be analyzed did not use a common effect measure across the studies; therefore, they prevented its estimate in all papers.