Dermatology: Practical and Conceptual


Dermatology Practical & Conceptual

Original Article | Dermatol Pract Concept. 2022;12(1):e2022032 1

Study of the Visceral Adipose Tissue in a Cohort of 
Patients with Moderate-Severe Psoriasis Treated 

with Biological Therapy
Ruiz-Villaverde Ricardo, Ruiz-Carrascosa José C

1 Dermatology Department, Hospital Universitario San Cecilio, Granada, Spain

Key words: psoriasis, biological therapy, visceral adipose tissue, treatment, severity.

Citation: Ruiz-Villaverde R, Ruiz-Carrascosa JC. Study of the visceral adipose tissue in a cohort of patients with moderate-severe psoriasis 
treated with biological therapy. Dermatol Pract Concept. 2022;12(1):e2022032. DOI: https://doi.org/10.5826/dpc.1201a32

Accepted: August 21, 2021; Published: January 2022

Copyright: ©2022 Ruiz-Villaverde and Ruiz-Carrascosa. This is an open-access article distributed under the terms of the  Creative 
Commons Attribution-NonCommercial License (BY-NC-4.0), https://creativecommons.org/licenses/by-nc/4.0/, which permits unrestricted 
noncommercial use, distribution, and reproduction in any medium, provided the original authors and source are credited.

Funding: None.

Competing interests: None.

Authorship: Both authors have contributed significantly to this publication.

Corresponding author: Ricardo Ruiz-Villaverde. Servicio de Dermatología. Hospital Universitario San Cecilio, Granada, Spain.  
E-mail: ismenios2005@gmail.com

Introduction: Visceral adipose tissue (VAT) has a greater relationship with the genesis of the metabol-
ic syndrome and the pathology associated with obesity. 

Methods: A cross-sectional study of patients with moderate-severe psoriasis in the Psoriasis Unit of 
the San Cecilio University Hospital in Granada in the period July 1, 2020 - December 31, 2020, was 
performed. All the patients (n = 110) were receiving biological therapy to control the disease. The vari-
ables measured included age, sex, time since diagnosis, weight, height, body mass index (BMI), visceral 
and total fat, and severity parameters. The visceral fat index was evaluated using a bioimpedance scale, 
considering a cut-off point for a healthy level < 12.

Results: Our sample consisted of 110 patients with a mean age of 47.47 years, with a clear predom-
inance of males (61.7% of patients). After testing for normality using the Kolmogorov-Smirnov test, 
the Mann-Whitney U test for nonparametric data for independent samples was used, which revealed 
significant differences between the number of previous treatments and visceral fat (U = -2.235, P = 
0.025). No statistically significant differences were found when correlating total fat or visceral fat 
with BMI.

Conclusions: The results presented lead us to consider if the levels of VAT could be a factor that con-
tributes to some extent to therapeutic refractoriness. The determination of VAT using bioimpedance 
scales in patients with moderate-severe psoriasis is a valuable method to measure VAT.

ABSTRACT



2 Original Article | Dermatol Pract Concept. 2022;12(1):e2022032

Introduction

Adipose tissue generally considered a useful annex to provide 

protection, heat, and energy, has surpassed these activities, and 

as its study progresses it has positioned itself as an organ with 

neuroimmune-endocrine functions. Through the production of 

molecules such as hormones, antimicrobials, cytokines, and adi-

pokines, it participates in the function of various cells and organs, 

which allows it to intervene in the defense and homeostasis of the 

body. Fat deposits are different from each other, even between 

those of the same type of adipose tissue. Each one is complex, 

made up of different cells, with different functions and variations 

both in gene expression and in their response to hormones (the 

subcutaneous of the thighs responds to sex hormones, the neck, 

upper back and abdomen to corticosteroids) [1].

Visceral adipose tissue (VAT) is divided into omental or 

epiploic and mesenteric. It occupies the spaces between the 

abdominal organs and keeps them in place. It has lymph nodes 

and a greater number of blood vessels and adrenergic receptors 

than the rest of the white adipose tissue. Adipocytes in visceral 

tissue also express a greater number of receptors for cortico-

steroids, and in obesity, the enzyme 11 beta-hydroxysteroid 

dehydrogenase is overexpressed, which generates active sub-

stances from inactive glucocorticoids, stimulating adipogenesis 

and increase visceral fat. Therefore, visceral adipose tissue 

has a greater relationship with the genesis of the metabolic 

syndrome and the pathology associated with obesity [2, 3].

The most accurate way to measure visceral fat level is 

with a computerized tomography (CT) or magnetic resonance 

imaging (MRI) scan. But without doubt, the most practical 

and simple way that will allow us to also measure many 

other parameters with greater or lesser precision depending 

on their quality is through a bioimpedance scale. Our body is 

normally made up of 50% to 70% water. Fat tissue barely has 

10% so it is a worse conductor, generating resistance to the 

passage of electricity. This fact is used by bioimpedance scales 

to measure the time it takes for the electricity to pass through 

our body. Considering our weight, age and race, the percent-

age of body fat, visceral and bone density may be calculated.

Objectives

• To know the total and average visceral fat composition 

in a cohort of patients with moderate-severe psoriasis 

treated with biological therapy in a tertiary hospital using 

a biompedance scale.

• Establish the correlation of visceral adipose tissue with 

the body mass index (BMI) of the patients that make up 

this cohort.

• Establish if there is a relationship with the number of 

treatments and, therefore, refractoriness to them in patients 

with moderate-severe psoriasis.

Methods

A cross-sectional study of patients with moderate-severe 

psoriasis in the Psoriasis Unit of the San Cecilio University 

Hospital in Granada in the period July 1, 2020 - December 

31, 2020 was performed. Patients were obtained by consec-

utive sampling. All patients signed an informed consent that 

they could revoke at any time during the study. The study is 

approved by the Ethics Committee of our hospital with code 

HUSC-DER-005.

The diagnosis of moderate-severe psoriasis was estab-

lished when the patient met the following requirements 

(Psoriasis Area Severity Index [PASI] > 10, Body Surface Area 

[BSA] > 10 and / or Dermatology Life Quality Index [DLQI] 

> 10). All the patients were receiving biological therapy to 

control the disease. 

The variables measured included age, sex, time since diag-

nosis, weight, height, BMI, visceral and total fat, and severity 

parameters (PASI, BSA, DLQI). All previous treatments 

that the patient had received, including systemic treatments 

and biological treatments, were considered. Treatment with 

biologically effective UVB phototherapy was excluded as a 

treatment to consider. Only the overall number of treatments 

was considered in those patients where the cause of switching 

was a primary or secondary failure, excluding safety reasons.

The visceral fat index was evaluated using a bioimpedance 

scale (Kanthor®), considering a cutoff point for a healthy level 

< 12 [4, 5].

The statistical software IMB SPSS version 25 in its macOS 

version was used for all analyses. The Kolmogorov Smirnov 

test was used to test the normality of the data. Measures of 

central tendency and dispersion were used depending on the 

nature of the data. Outcome variables were selected according 

to clinical criteria. The visceral fat variable was categorized 

according to the healthy cutoff point < 12 in a binomial 

variable for the analyses. Spearman correlation test for 

non-parametric samples as well as the Mann-Whitney U test 

for independent samples were used to study the association 

and relationship between the variables collected. A statistical 

significance level of P < 0.05 was set.

Results

Our sample consisted of 110 patients with a mean age of 

47.47 years, with a clear predominance of males (61.7% of 

patients). The whole sample was placed to the right of the 

cutoff point considered as pathological in relation to the 

determination of visceral fat. The rest of the characteristics 

evaluated are reported in Table 1.

After testing for normality using the Kolmogorov-Smirnov 

test, the Mann-Whitney U Test for nonparametric data for 

independent samples was used, which revealed significant  



Original Article | Dermatol Pract Concept. 2022;12(1):e2022032 3

Table 1. Clinical and anthropometric 
characteristics of the participants. 

Outcome Values

Age 47.47 ± 13.47 yearss

Gender  

     Male 74 (61.7)

     Female 46 (38.3)

Time since diagnosis 
(years)

22.84 ± 12.81 years

Weight (kg) 82.79 ± 21.00

Height (m) 1.70 ± 0.1

BMI 28.49 ± 6.10

Visceral Fat 11.97 ± 7.30

Total Fat 29.02 ± 11.36

PASI 12.93 ± 5.23

BSA 15.18 ±7.42

DLQI 11.72 ± 4.66

Data are presented as mean ± standard deviation or n (%), 
as appropriate. 

events, which have characteristically been associated with 

elevated BMI [4].

Although BMI is a clinical marker of obesity, this obesity 

is an heterogeneous condition with varying CV and meta-

bolic manifestations [6]. Obesity causes increased levels of 

proinflammatory cytokines (TNFα and IL6). High levels of 
TNFα would produce a reduction in adiponectin levels, which 
would lower HDL cholesterol levels, increase triglycerides 

and insulin resistance. This leads to an increase in VAT and 

IL6 levels that perpetuate the inflammatory process [5]. In 

our study, it is shown in a cohort of 110 patients treated with 

biological therapy that the mean is right at the cutoff point 

considered pathological for visceral fat levels (11.97 +/- 7.30; 

VAT > 12) and we reported a statistical correlation with the 

number of previous treatments the patient had received. This 

makes us wonder if these levels could be a factor that con-

tributes to some extent to therapeutic refractoriness. We were 

unable to find statistically significant differences when trying 

to establish a correlation between BMI levels and visceral fat 

levels. Interestingly, the mean BMI of the presented cohort 

does not exceed 30 points that mark the limit of obesity, but 

there is a clear overweight, as well as the levels of visceral fat 

that have not reached the limit considered as pathological.

Different techniques (mainly imaging) have been pos-

tulated to determine VAT. Coronary CT angiography is a 

non-invasive imaging technique, of great prognostic utility 

and a predictor of CV events. Sajja et al have shown in a 

one-year study that the reduction in VAT volume measured 

by this technique is associated with an improvement in the 

coronary artery burden [7].

Other techniques include ultrasonography (USG), which 

is regarded as a radiation technique with a lower cost than 

the one of CT [8]. USG measures the maximal thickness of 

preperitoneal mass at the anterior surface of the liver and the 

minimal thickness of subcutaneous fat in the upper median 

abdomen. Gönul et al performed the first study using this 

technique, in which they concluded a higher prevalence of 

Table 2. Bivariate correlations between number of previously treatments and  
anthropometric variables.

 
Age Gender BMI Total Fat

Categorised Visceral 
Fat

Number of 
previously 
treatments

Age   0,015 0.411** 0.180* 0.087 -0.023

Gender 0,015   -0.231* -0.392** -0.433** 0.119

BMI 0.411** -0.231*   0.691** 0.629** -0.059

Total Fat 0.180* -0.392** -691**   0.733** -0.158

Categorised visceral fat 0,087 -0.433** 0-629** 0.733**   -0.205*

Number of previously 
treatments

-0,023 0.119 -0.059 -0.158 -0.205*  

Spearman correlation coefficient. *Correlation is significant at the 0.05 level; **Correlation is significant at the 0.01 level.

differences between the number of pre-treatments and vis-

ceral fat: U = -2.235; P = 0.025). These results showed a 

positive correlation between high levels of visceral fat with 

a greater number of previous treatments. No statistically 

significant differences were found when correlating total fat 

or visceral fat with BMI (Table 2).

Conclusions

Psoriasis is a chronic inflammatory disease that is associated 

with a high degree of systemic and vascular inflammation. 

It is known to cause an increase in cardiovascular (CV) risk 

factors, coronary artery disease and myocardial infarction. 

VAT is associated with this vascular inflammation and CV 



4 Original Article | Dermatol Pract Concept. 2022;12(1):e2022032

metabolic syndrome in patients with psoriasis but with an 

abdominal fat index similar to the control group [9]. As in 

our study, in this case with an imaging technique, the authors 

were unable to establish a relationship between visceral fat 

levels and other markers related to metabolic syndrome.

Finally, studies have also been conducted using 18F-Flu-

orodeoxyglucose positron-emission tomography to measure 

VAT volume and its relationship with vascular inflammation 

in patients with psoriasis. It shows how new treatments for 

moderate-severe psoriasis lower the volume of VAT and vas-

cular inflammation, which is why VAT is an important CV 

biomarker [10].

Our study has some limitations. It is a cross-sectional 

study, which has measured the visceral fat of our patients at 

a specific and determined moment. Although there is indeed 

a statistically significant correlation between the number of 

previous biological treatments (used due to refractoriness to 

treatment) and the levels of visceral fat, we have not been able 

to detect an association with other characteristics that have 

been used as biomarkers and prognoses factors in metabolic 

syndrome such as BMI. Furthermore, we have not been able 

to establish a correlation with imaging techniques already 

used in other studies due to the lack of availability of these 

techniques in our centre.

As a conclusion to our study, we want to value the deter-

mination of VAT using bioimpedance scales in patients with 

moderate-severe psoriasis. Further studies are required to 

determine its correlation with other characteristics of the 

disease and its positioning in relation to its determination 

using other imaging techniques already discussed.

References

1. Vega-Robledo GB, Rico-Rosillo MG. Adipose tissue: Immune 

function and alterations caused by obesity. Rev Alerg Mex. 

2019;66(3):340-353. Spanish. DOI: 10.29262/ram.v66i3.589. 

PMID: 31606018.

2. Rehrer CW, Karimpour-Fard A, Hernandez TL, et al. Regional 

differences in subcutaneous adipose tissue gene expression. 

Obesity (Silver Spring). 2012;20(11):2168-2173. DOI: 10.1038/

oby.2012.117. PMID: 22627919; PMCID: PMC3434286.

3. Vohl MC, Sladek R, Robitaille J, et al. A survey of genes dif-

ferentially expressed in subcutaneous and visceral adipose tis-

sue in men. Obes Res. 2004;12(8):1217-1222. DOI: 10.1038/

oby.2004.153. PMID: 15340102. 

4. Toussirot E, Aubin F, Desmarets M, et al. Visceral adiposity in 

patients with psoriatic arthritis and psoriasis alone and its rela-

tionship with metabolic and cardiovascular risk. Rheumatology 

(Oxford). 2021;60(6):2816-2825. DOI: 10.1093/rheumatology/

keaa720. PMID: 33232483.

5. Goolam Mahyoodeen N, Crowther NJ, Pillay L, et al. Relation-

ship of visceral fat and adipokines with cardiometabolic diseases 

in psoriasis. Acta Derm Venereol. 2019; 99:1218–1223. DOI: 

10.2340/00015555-3327. PMID: 31580467.

6. Budu-Aggrey A, Brumpton B, Tyrrell J, et al. Evidence of a causal 

relationship between body mass index and psoriasis: A mende-

lian randomization study. PLoS Med. 2019;16(1):e1002739.

DOI:10.1371/journal.pmed.1002739. PMID: 30703100; PM-

CID: PMC6354959.

7. Sajja A, Abdelrahman KM, Reddy AS, et al. Chronic inflammation 

in psoriasis promotes visceral adiposity associated with noncalci-

fied coronary burden over time. JCI Insight. 2020;5(22):e142534. 

DOI: 10.1172/jci.insight.142534. PMID: 33104056; PMCID: 

PMC7710282.

8. Balci A, Balci DD, Yonden Z, et al. Increased amount of visceral 

fat in patients with psoriasis contributes to metabolic syndrome. 

Dermatology. 2010;220(1):32-37. DOI: 10.1159/000254482. 

PMID: 19887761.

9. Gönül M, Tatar İ, Canpolat F, Işıl Kurmus G, Ergin C, Heki-
moğlu B. Evaluation of abdominal fat index by ultrasonography 
and its relationship with psoriasis and metabolic syndrome. 

Postepy Dermatol Alergol. 2017;34(5):453-456. DOI: 10.5114/

ada.2017.71111. PMID: 29507560. PMCID: PMC5831280..

10. Rivers JP, Powell-Wiley TM, Dey AK, et al. Visceral Adiposity in 

Psoriasis is Associated With Vascular Inflammation by 18F-Flu-

orodeoxyglucose Positron-Emission Tomography/Computed 

Tomography Beyond Cardiometabolic Disease Risk Factors in 

an Observational Cohort Study. JACC Cardiovasc Imaging. 

2018;11(2 Pt 2):349-357. DOI: 10.1016/j.jcmg.2017.08.014. 

PMID: 29055628. PMCID: PMC5803350.