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Aquichan

Print version ISSN 1657-5997On-line version ISSN 2027-5374

Aquichan vol.21 no.1 Bogotá Jan./Mar. 2021  Epub Apr 08, 2021

https://doi.org/10.5294/aqui.2021.21.1.5 

Article

Effectiveness of Ginger in the Treatment of Type 2 Diabetes Mellitus: A Pilot Study of the Randomized Clinical Trial Type*

Efectividad del jengibre en el tratamiento de la diabetes mellitus tipo 2: estudio piloto del tipo ensayo clínico aleatorizado**

Efetividade do gengibre no tratamento do diabetes mellitus tipo 2: estudo-piloto do tipo ensaio clínico randomizado***

Gerdane Celene Nunes Carvalho1 
http://orcid.org/0000-0001-9625-7617

José Claudio Garcia Lira Neto2 
http://orcid.org/0000-0003-2777-1406

Lívio César Cunha Nunes3 
http://orcid.org/0000-0002-1178-7940

Ana Maria Parente Garcia Alencar4 
http://orcid.org/0000-0003-0459-4291

Regina Lúcia Lino Marques5 
http://orcid.org/0000-0003-0242-2488

Marta Maria Coelho Damasceno6 
http://orcid.org/0000-0003-4461-0145

1 Universidade Estadual do Piauí, Brazil. gerdanecelene@pcs.uespi.br

2 Universidade Federal do Piauí, Brazil. jclira@ufpi.edu.br

3 Universidade Federal do Piauí, Brazil. liviocesar@ufpi.edu.br

4 Universidade Regional do Cariri, Brazil. ana.parente@urca.br

5 Centro de Pesquisas em Diabetes e Doenças Endócrino Metabólicas, Brazil. regina.lino@hemoce.ce.gov.br

6 Universidade Federal do Ceará, Brazil. marta.damasceno@pq.cnpq.br


ABSTRACT

Objective:

To analyze the effectiveness of ginger in the reduction of the glycemic, lipid and anthropometric levels in people with Type 2 Diabetes Mellitus.

Materials and method:

A double-blind pilot study of the randomized clinical trial type, conducted between October 2017 and January 2018. The inclusion criteria were as follows: individuals with type 2 diabetes, aged from 18 to 80 years old, using oral antidiabetic drugs, and with glycated hemoglobin values between 7 % and 10 %. The participants were randomized and allocated in two different groups. In the experimental group, the participants used 1.2 g of ginger and, in the control group, 1.2 g of placebo. The primary outcome was the reduction in blood glucose. The reduction in the lipid and anthropometric levels was the secondary outcome. The intervention lasted four weeks.

Results:

A total of 21 participants were included in the study. The use of 1.2 g of ginger resulted in noticeable reductions in the anthropometric and lipid levels in 30 days of follow-up, but it did not reduce the glycemic levels.

Conclusions:

In this study, it was shown that ginger capsules, in doses of 1.2 g a day, can help to reduce anthropometric measures and lipid levels in the population under study; however, it had no effect on the glycemic levels.

KEYWORDS (Source DeCS): Type 2 diabetes mellitus; ginger; clinical trial; primary health care; complementary therapies.

RESUMEN

Objetivo:

analizar la efectividad del jengibre en la reducción de los niveles glicémicos, lipídicos y antropométricos de personas con diabetes mellitus tipo 2.

Materiales y método:

estudio piloto, del tipo ensayo clínico aleatorizado, doble ciego, llevado a cabo entre octubre de 2017 y enero de 2018. Los criterios de inclusión fueron los siguientes: personas con diabetes tipo 2, de 18 a 80 años de edad, en uso de antidiabéticos orales y con valores de hemoglobina glicada entre 7 % y 10 %. Los participantes fueron aleatorizados y asignados en dos grupos distintos. En el grupo experimental, los participantes usaron 1,2 g de jengibre y, en el de control, 1,2 g de placebo. El resultado primario fue la reducción de la glicemia. La reducción de los niveles lipídicos y antropométricos fue el resultado secundario. La intervención duró cuatro semanas.

Resultados:

21 participantes formaron parte del estudio. El uso de 1,2 g de jengibre evidenció perceptibles reducciones de los niveles antropométricos y lipídicos en 30 días de seguimiento, pero no se mostró suficiente para reducir los niveles glicémicos.

Conclusiones:

en el estudio se demostró que cápsulas de jengibre, en dosis de 1,2 g por día, pueden ayudar a reducir medidas antropométricas y niveles lipídicos en la población del estudio, sin embargo, sin efecto en los niveles glicémicos.

PALABRAS CLAVE (Fuente DeCS): Diabetes mellitus tipo 2; jengibre; ensayo clínico; atención primaria de salud; terapias complementarias

RESUMO

Objetivo:

analisar a efetividade do gengibre na redução dos níveis glicêmicos, lipídicos e antropométricos de pessoas com diabetes mellitus tipo 2.

Materiais e método:

estudo-piloto, do tipo ensaio clínico randomizado, duplo-cego, realizado entre outubro de 2017 e janeiro de 2018. Os critérios de inclusão foram: pessoas com diabetes tipo 2, de 18 a 80 anos, em uso de antidiabéticos orais e com valores de hemoglobina glicada entre 7 % e 10 %. Os participantes foram randomizados e alocados em dois grupos distintos. No grupo experimental, os participantes usaram 1,2 g de gengibre e, no grupo controle, 1,2 g de placebo. O desfecho primário foi a redução da glicemia. A redução dos níveis lipídicos e antropométricos foi o desfecho secundário. A intervenção durou quatro semanas.

Resultados:

21 participantes fizeram parte do estudo. O uso de 1,2 g de gengibre trouxe perceptíveis reduções dos níveis antropométricos e lipídicos em 30 dias de acompanhamento, mas não se mostrou suficiente para a redução dos níveis glicêmicos.

Conclusões:

neste estudo, mostrou-se que cápsulas de gengibre, em doses de 1,2 g por dia, podem ajudar a reduzir medidas antropométricas e níveis lipídicos na população estudada, no entanto sem efeito nos níveis glicêmicos.

PALAVRAS-CHAVE (Fonte DeCS): Diabetes mellitus tipo 2; gengibre; ensaio clínico; atenção primária à saúde; terapias complementares

Introduction

Even after years of research, Type 2 Diabetes Mellitus (T2DM) is still characterized as one of the main chronic diseases in the world1. When diagnosed with this disease, the patient generally presents metabolic dysregulations that require continuous and expensive care. Currently, the clinical treatment is mainly focused on pharmacological interventions. However, oral antidiabetic medications are commonly associated with unwanted adverse effects that lead to discontinuation of therapy or clinical inertia, influencing the chronicity degree of the disease2.

With this in mind, a number of research studies have been developed in an attempt to incorporate strategies that can minimize the lack of medication adherence and improve glycemic control. Given the above, experts have highlighted the antidiabetic properties of food supplements traditionally used in different cultures around the planet. Among them, ginger (Zingiber officinale) stands out, which has been used both as a spice, especially in cooking, for its spicy acid flavor and unique aroma, and as herbal medicine in the treatment of arthritis, non-alcoholic fatty liver disease, primary dysmenorrhea, seasickness and oncological therapies3.

In addition to that, evidence has shown that ginger has the potential to reduce glycemic levels in people with T2DM, as well as its complications, as it interacts with different molecular pathways involved in the genesis of the disease, such as the inhibition of several transcriptional pathways, lipid peroxidation, reduction of carbohydrate metabolizing enzymes, and activation of the capacity of the antioxidant enzymes and low-density lipoprotein receptors. This cascade of events is reflected in the increase in insulin synthesis, in the reduction of insulin resistance, and in the accumulation of fat, in addition to the protective effects against complications arising from diabetes4-9.

A meta-analysis showed that ginger can be considered an effective and promising adjuvant in the treatment of T2DM, since it does not present important adverse events and has been beneficial in attenuating the glycemic, lipid or even anthropometric levels of people with the disease. Despite this, researchers continue to recommend new studies to explore the therapeutic capacity of this product3. In Brazil, studies on this topic are scarce and, for this reason, the objective of this research was to analyze the effectiveness of ginger in reducing glycemic, lipid and anthropometric levels in people with T2DM.

Methods

Type of study

This is a double-blind and placebo-controlled pilot study of the randomized clinical trial type, conducted between October 2017 and January 2018 according to the CONSORT recommendations in a Basic Health Unit (BHU) in the city of Picos, Piauí, Brazil.

Population

The population consisted of 50 individuals with T2DM, registered and monitored in a BHU located in the urban area of the municipality, selected for convenience.

Selection criteria

The inclusion criteria were as follows: individuals aged between 18 and 80 years old; using oral antidiabetic medications; with glycated hemoglobin (HbA1c) between 7 % and 10 %; and with preserved cognitive functions. The age group was determined for the following reasons: 1) individuals over 18 years of age have a better understanding of the disease and could be aware of the relationship of the study; 2) individuals over 80 years old begin to show a decline in their cognitive functions and, in order not to record any bias in this regard, we decided to limit such condition. The participants’ cognitive function was assessed by means of the Mini-Mental State Exam. The exclusion criteria were as follows: being allergic to ginger, being pregnant or lactating, being an alcohol or tobacco user, making use of insulin, having severe complications associated with T2DM (chronic kidney, ischemic, autoimmune, liver, severe cardiovascular, gastrointestinal and inflammatory diseases), and the use of ginger supplementation. In addition to that, discontinuity criteria were adopted, namely: hospitalization, having started insulin therapy and/or presenting an allergic reaction.

Definition of the sample

As this is a pilot study in which the researchers involved sought to evaluate the effectiveness and feasibility of the intervention proposal, in addition to estimating the sample size for a future study, the sample of this research was selected for convenience. Of the 50 patients recruited, only 41 were interested in participating and, of these, 17 were excluded for the following reasons: one used daily ginger supplementation; one had ascites; one was on insulin therapy; three reported having severe heart problems, and 11 had HbA1C results < 7 %. Thus, 24 participants were randomized.

The patients were randomly allocated in parallel groups (1:1), one being the experimental (ginger) and the other the control (placebo), each one with 12 people. Randomization was performed based on the HbA1c levels, by a researcher external to the study, using the R software, version 3.1.1. Each number of the randomization sequence was placed inside an envelope, sealed and given to the lead researcher only at the time of vial delivery. In this study, the participants and the lead researcher were kept blind.

Data collection

Before recruitment was started, the researcher responsible for the study met with the team of the BHU chosen and clarified the research to the professionals. The potential participants were recruited over the course of 15 days, through printed invitations made by the researcher and delivered by community health agents. Day and time were scheduled so that patients could attend the BHU.

In addition to the BHU nurse, the responsible researcher was present to clarify the intention of the research and to invite the patients to participate. For those who showed interest, the Free and Informed Consent Form (FICF) was presented, signatures were collected, and the HbA1c test was collected at the site. After this stage, with the results in hand, the patients were instructed on the possibility of participating in the study. Data collection was conducted at the same moment for those who were able and wanted to participate.

For data collection, the questionnaire used included socioeconomic variables (gender, skin color, schooling, occupation, etc.), anthropometric variables (waist circumference, hip circumference, neck circumference, waist-hip ratio, body adiposity index, body mass index, thigh circumference, waist-to-height ratio), clinical variables (blood pressure, time since T2DM diagnosis, episodes of hypo/hyperglycemia in the 30 days prior to collection) and laboratory variables (capillary blood glucose - CBG, fasting blood glucose - FBG, low density lipoprotein - LDL, high density lipoprotein - HDL, total cholesterol - TC, and triglycerides - TG). First, in order to guarantee data uniformity, the responsible researcher trained the other Nursing students and professionals involved in data collection.

As for the anthropometric variables, body weight was measured on an empty stomach, with the participants wearing light clothes and without shoes. Height was also measured with the participants barefooted, using a stadiometer attached to the scale. The body mass index (BMI) was calculated using the weight-to-height ratio (kg/m2), where < 18.5 kg/m2 indicated low weight; between 18.5 kg/m2 and 24.9 kg/m2, normal weight; between 25 kg/m2 and 29.9 kg/m2, overweight; and ≥ 30 kg/m2, obesity. Aged patients were classified as underweight when BMI ≤ 22 kg/m2, as with appropriate weight when BMI was between > 22 kg/m2 and < 27 kg/m2, and as overweight with BMI ≥ 27 kg/m210.

To measure neck circumference (NC), the participants were in a full standing position, with the head positioned in the Frankfurt horizontal plane. An inelastic tape was placed at the midpoint of the neck. In men, the measurement was taken just below the laryngeal prominence. NC was considered high when men presented values ≥ 39 cm, and ≥ 35 cm for women11. Waist circumference (WC) was measured with an inelastic measuring tape placed against the skin, at the midpoint between the iliac crest and the last rib at the end of the exhalation movement. The WC measure was considered according to gender, with cutoff points ≤ 90 cm for men and ≤ 80 cm for women11.

The hip circumference (HC) cutoff value was ≤ 100 cm for both genders11. The waist-to-height ratio (WHtR) showed a cutoff value of 0.5 for both genders. With regard to the waist-to-hip ratio (WHR), the cutoff points were 0.8 for women and 1.0 for men11. Regarding the body adiposity index (BAI), the values considered were 25 % for men and 35 % for women12. Thigh circumference (ThC) was measured with an inelastic measuring tape, at the midpoint between the inguinal crease and the proximal edge of the patella, and the cutoff values were ≥ 44 cm for men and ≥ 43.70 cm for women12.

To be considered hypertensive, the participants should have blood pressure values over 139/89 mmHg, according to the VII Brazilian Guideline on Arterial Hypertension. Below this value, they were classified as normotensive13.

The laboratory data corresponded to the values established by the Brazilian Diabetes Society14 and by the VI Brazilian Guideline on the Prevention of Dyslipidemias and Atherosclerosis15, with FBG (≤ 100 mg/dL), HbA1c (< 7 %), TC (≤ 90 mg/dL), TG (≤ 150 mg/dL), LDL (≤ 100 mg/dL) and HDL (≥ 40 mg/dL). 10 mL blood samples were collected after 12 to 14 hours of fasting. The samples were centrifuged at room temperature, at 3000 rpm for 10 minutes, to separate the serum from the blood cells. FBG, TG, TC, LDL, HDL, and HbA1c were determined by the enzymatic colorimetric method with commercially available kits (Pars Azmun Co., Tehran, Iran) in an automated analyzer (Abbott, Alcyon 300 model, Abbott Park, IL, USA).

In this study, the participants in the experimental group received 60 capsules of 600 mg/each, with ginger (Zingiber officinale). The CG participants received 60 capsules of 600 mg/each, with microcrystalline cellulose (placebo). All the participants were instructed to take two capsules a day, one 30 minutes before breakfast and another 30 minutes before dinner, daily, for 30 days. Both the ginger and the placebo were encapsulated and packaged in identical, opaque white plastic vials, properly sealed. Each vial was numbered, and the dosage and the participant’s name were printed on its label. The experiment participants were carefully instructed to avoid changes in their physical activity routines or eating patterns during the study period.

All the participants were instructed to return after the 30 days of intervention. In addition to that, guidelines were given on the continuity of ingestion of medications for T2DM, prescribed by the physicians, and on the usual care for managing the disease. Although foreign studies prove a safety ginger dose of up to 6 g/day, in Brazil, the maximum dosages allowed in compounding pharmacies for daily consumption are 2 g for fresh ginger and 1.2 g for 0.1 % ginger dry extract. Thus, ginger dry extract was selected, in which the daily dose was distributed in two 600 mg capsules instead of fresh ginger, which would have its daily dose divided into four capsules.

For production of the ginger capsules, the rhizome was used, processed in the form of powder, and the final product was 0.1 % ginger dry extract. In addition to that, an extraction was performed with water as solvent and starch as excipient. Drying was done by spray dryer. As for the physical aspects, the concentration of the extract in water was 33.51 %, and alcohol, 0.89 %. Dosage was 0.36 % for total gingerols (6-gingerol, 10-gingerol, 6-shogaol). In addition to the physical-chemical test carried out by the manufacturer, a microbiological test was performed, with values within normality for the amount of bacteria, fungi and yeasts, and the purity test measured heavy metals such as lead, copper, and antimony.

The use of ginger is authorized in Brazil and does not require permission to be used in research studies. Therefore, the concept of “Access to the Genetic Heritage” available in Provisional Measure 2,186-16/2001 does not apply. It is worth remembering that this spice, despite being originally from the island of Java, Indonesia, is widely used in the tropical regions of the world.

After the purchase of 0.1 % ginger dry powdered extract by Gemini Indústria de Insumos Farmacêuticos Ltda, the weighing, encapsulation, and repetition of the quality control tests, such as the physical-chemical test, were carried out in a compounding pharmacy that has the green seal of quality, the seal of excellence in franchising, and the Sinamm Diploma. Weighing was computed using an analytical balance. The ginger and placebo capsules were prepared by a private laboratory, certified by the National Health Surveillance Agency, in compliance with the international standards for handling products and medications. After preparation, the capsules were analyzed by pharmacists associated with the Federal University of Piauí, through biochemical and toxicological tests. The primary outcome was the reduction in the levels of FBG and CBG. The reduction in the lipid and anthropometric levels was established as the secondary outcome.

Data analysis and treatment

The data were analyzed by intention to treat, by repeating the values of the last evaluation, according to the CONSORT recommendations. The confounding variables were minimized through randomization in parallel groups (1:1). For the scalar variables, data was presented as mean and standard deviation or as median, minimum, and maximum. In the categorical variables, data was presented in the form of frequency and prevalence rate, in order to investigate associations between risk factors and disease. The Mann-Whitney’s U test was used to analyze the characteristics of the groups. To verify the behavior of the numerical variables, at both moments, the Wilcoxon test was used. A significance level of 5 % was adopted. Pearson’s chi-square test or Fisher’s exact test for categorical variables were used to investigate the association between the variables. The statistical analyses were performed with the Statistical Package for the Social Sciences software, version 22.0 (United States) and the R program, version 3.3.1.

Ethical aspects

The study was approved by a Research Ethics Committee under opinion No. 2017 (CAAE: 71423617.3.0000.5209), registered in the Brazilian Network of Clinical Trials (RBR-2rt2wy / TRIAL: U111-1202-1650), and followed all the ethical recommendations of the Brazilian National Health Council, according to Resolutions 466/2012 and 580/2018. All the participants were informed about the benefits and risks of the study and were free to abandon it, at any time and for any reason.

Results

A total of 24 participants received guidelines on the study, signed the FICF and were randomized, with 12 being allocated to the EG and the CG each. Subsequently, three EG participants were discontinued for the following reasons: two for travel reasons and one for reporting tachycardia. Thus, 21 individuals concluded the study (Figure 1).

Source: Own elaboration.

Figure 1. Flowchart of the participants involved in the study. Picos, Piauí, Brazil, 2017 

Most of the patients were female (66.7 %), brown-skinned (66.7 %), and with a mean age of 57.9 years old (SD ± 9.22). The overall mean schooling of the participants was 6.95 years (SD ± 5.1) and 85.7 % lived with a partner or family members. One third of the participants stated being unemployed, received unemployment benefits or had the income of another family member, where 85.8 % had a monthly income of one to three minimum wages (value of the monthly minimum wage effective in 2017 in Brazil), and 85.7 % were married or in a stable union.

When asked about hyperglycemia or hypoglycemia episodes in the 30 days prior to the intervention, 66.7 % of the participants reported episodes of hyperglycemia and none of hypoglycemia. Almost half of the individuals (47.6 %) reported going to nursing and medical appointments every six months, and a large proportion (76.23 ± 4.27) only measures glycemic and lipid levels twice a year. In this study, arterial hypertension was the disease most associated with T2DM (61.9 %). Of the research participants, only one reported heartburn as an adverse effect.

In Table 1, it can be seen that, after the intervention with ginger, the researchers did not identify significant differences in the percentage values of the variables analyzed.

Table 1 Distribution of the data of the patients with T2DM according to clinical, anthropometric and laboratory variables, before and after the intervention. Picos, Piauí, Brazil, 2017 

Variables Pre-intervention p* Post-intervention p*
Total Ginger Placebo Total Ginger Placebo
Blood pressure 0.661 0.397
Normal 12 (57.1 %) 06 (66.7 %) 06 (50 %) 14 (66.7 %) 05 (55.5 %) 09 (75 %)
Hypertension 09 (42.8 %) 03 (33.3 %) 06 (50 %) 07 (33.3 %) 04 (44.5 %) 03 (25 %)
BMI 0.659 1
Eutrophic 06 (28.6 %) 02 (22.2 %) 04 (33.3 %) 05 (23.8 %) 02 (22.2 %) 03 (25 %)
Overweight/Obesity 15 (71.4 %) 07 (77.8 %) 08 (66.7 %) 16 (76.2 %) 07 (77.8 %) 09 (75 %)
WC 1 0.603
Normal 03 (14.3 %) 01 (11.1 %) 02 (16.7 %) 04 (19 %) 01 (11.1 %) 03 (25 %)
Altered 18 (85.7 %) 08 (88.9 %) 10 (83.3 %) 17 (81 %) 08 (88.9 %) 09 (75 %)
NC 0.331 0.397
Normal 06 (28.6 %) 04 (44.4 %) 02 (16.7 %) 07 (33.3 %) 04 (44.4 %) 03 (25 %)
Altered 15 (71.4 %) 05 (55.6 %) 10 (83.3 %) 14 (66.7 %) 05 (55.6 %) 09 (75 %)
HC 1 1
Normal 07 (33.3 %) 04 (33.3 %) 03 (33.3 %) 08 (38.1 %) 05 (41.7 %) 03 (33.3 %)
Altered 14 (66.7 %) 08 (66.7 %) 06 (66.7 %) 13 (61.9 %) 07 (58.3 %) 06 (66.7 %)
ThC 1 1
Normal 02 (09.5 %) 01 (11.1 %) 01 (8.3 %) 02 (09.5 %) 01 (11.1 %) 01 (08.3 %)
Altered 19 (90.5 %) 08 (88.9 %) 11 (91.7 %) 19 (90.5 %) 08 (88.9 %) 11 (91.7 %)
WHR 1 1
Normal 06 (28.6 %) 03 (33.3 %) 03 (25 %) 07 (33.3 %) 03 (33.3 %) 04 (33.3 %)
Altered 15 (71.4 %) 06 (66.7 %) 09 (75 %) 14 (66.7 %) 06 (66.7 %) 08 (66.7%)
BAI‡ 0.367 0.642
Normal 08 (38.1 %) 02 (22.2 %) 06 (50 %) 07 (33.3 %) 02 (22.2 %) 05 (41.7 %)
Altered 13 (61.9 %) 07 (77.8 %) 06 (50 %) 14 (66.7 %) 07 (77.8 %) 07 (58.3%)
NTR 1 0.486
Normal 01 (4.8 %) 01 (8.3 %) - 02 (9.5 %) 02 (16.7 %) -
Altered 20 (95.2 %) 11 (91.7 %) 09 (100 %) 19 (90.5 %) 10 (83.3 %) 09 (100 %)
Capillary blood glucose 1 0.229
Normal - - - 03 (14.3 %) - 03 (25 %)
Altered 21 (100 %) 09 (100 %) 12 (100 %) 18 (85.7 %) 09 (100 %) 09 (75 %)
Fasting blood glucose 1 0.229
Normal - - - 03 (14.3 %) - 03 (25 %)
Altered 21 (100 %) 09 (100 %) 12 (100 %) 18 (85.7 %) 09 (100 %) 09 (75 %)
Total cholesterol 0.396 1
Normal 09 (42.9 %) 05 (55.6 %) 04 (33.3 %) 05 (23.8 %) 02 (22.2 %) 03 (25 %)
Altered 12 (57.1 %) 04 (44.4 %) 08 (66.7 %) 16 (76.2 %) 07 (77.8 %) 09 (75 %)
HDL 0.087 1
Normal 12 (57.1 %) 03 (33.3 %) 09 (75 %) 15 (71.4 %) 06 (66.7 %) 09 (75 %)
Altered (low) 09 (42.9 %) 06 (66.7 %) 03 (25 %) 06 (28.6 %) 03 (33.3 %) 03 (25 %)
LDL 1 0.673
Normal 06 (28.6 %) 03 (33.3 %) 03 (25 %) 08 (38.1 %) 04 (44.4 %) 04 (33.3 %)
Altered 15 (71.4 %) 06 (66.7 %) 09 (75 %) 13 (61.9 %) 05 (55.6 %) 08 (66.7 %)
Triglycerides 1 0.553
Normal 04 (19 %) 02 (22.2 %) 02 (16.7 %) 03 (14.3 %) 02 (22.2 %) 01 (08.3 %)
Altered 17 (81 %) 07 (77.8 %) 10 (83.3 %) 18 (85.7 %) 07 (77.8 %) 11 (91.7 %)

* Fisher’s exact test; †Body Mass Index; ‡Body Adiposity Index.

Source: Own elaboration.

As for the mean values of the anthropometric and laboratory variables, the participants who used ginger had reductions in weight (75.1-74.4/p = 0.021), BMI (29.5-29.3/p = 0.031), WC (100.8-99.7/p = 0.050), NC (36.7-36.1/p = 0.293), HC (105.0-104.4/p = 0.066), ThC (47.1-46.7/p = 0.483), BAI (33.41-32.92/p = 0.066), HDL (37.78-45.08/p = 0.086), and LDL (113.99-108.50/p = 0.038) (as well as a 95 % confidence interval) (Table 2).

Table 2. Distribution of the mean values of the patients with T2DM, according to clinical, anthropometric and laboratory variables, before and after the intervention. Picos, Piauí, Brazil, 2017 

Variables Placebo Ginger
Pre-intervention Post-intervention p* Pre-intervention Post-intervention p*
Systolic pressure 122.5 (100 - 165) 120 (105 - 160) 0.514 125 (99 - 175) 125 (104 - 140) 0.362
Diastolic pressure 75 (70 - 100) 76 (66 - 110) 0.959 80 (70 - 100) 80 (70 - 91) 0.205
Weight 70.5 (59.2 - 95.7) 69.8 (57.8 - 97.1) 0.108 75.1 (46 - 90.3) 74.4 (46.3 - 89.5) 0.021
BMI† 27 (22.8 - 34.2) 27 (22.3 - 34.3) 0.283 29.5 (20.4 - 34.8) 29.3 (20.6 - 34.5) 0.031
WC‡ 99 (81 - 109.9) 97.1 (78.7 - 114.5) 0.050 100.8 (79 - 106) 99.7 (78.7 - 105.5) 0.050
NC§ 37.6 (33.9 - 41.9) 37.7 (33.7 - 43.5) 0.220 36.7 (32.6 - 44.9) 36.1 (32.6 - 45.5) 0.293
HC|| 103.3 (94 - 114.8) 103.6 (93 - 115.1) 0.306 105 (88.2 - 120) 104.5 (88.4 - 120.6) 0.066
ThC 47.5 (38.9 - 50.9) 47.1 (40.7 - 52) 0.388 47.1 (37.3 - 60) 46.7 (37.7 - 58.7) 0.483
WHR** 0.9 (0.7 - 1.0) 0.9 (0.7 - 1) 0.106 0.9 (0.8 - 1) 0.9 (0.8 - 1) 0.236
BAI†† 32.3 (24.9 - 49.8) 31.5 (24.2 - 50) 0.306 33.4 (29.9 - 47) 32.9 (29.8 - 46.4) 0.066
WHtR‡‡ 0.6 (0.5 - 0.7) 0.5 (0.48 - 0.69) 0.093 0.6 (0.52 - 0.71) 0.6 (0.5 - 0.71) 0.577
Capillary blood glucose 243 (144 - 360) 216 (142.2 - 345.6) 0.754 203.4 (131.4 - 306) 207 (111.6 - 253.8) 0.953
Fasting blood glucose 223.2 (135 -369) 226.8 (136.8 - 363.6) 0.844 198 (117 -318.6) 223.2 (111.6 - 261) 0.859
Total cholesterol 235.8 (139.2 - 309.3) 204.9 (139.2 - 278.4) 0.480 185.6 (123.7 - 282.2) 197.2 (135.3 - 239.7) 0.953
HDL 46.4 (19.3 - 65.7) 50.2 (30.9 - 65.7) 0.239 34.8 (23.2 - 69.6) 42.5 (30.9 - 61.8) 0.086
LDL 135.3 (65.7 - 587.7) 112.1 (69.6 -165.8) 0.071 112.1 (69.6 -185.6) 108.2 (42.5 -131.4) 0.038
Triglycerides 186 (79.7 -345.4) 203.7 (106 -354.2) 0.347 194.3 (115.1-504.8) 248 (124 -575.7) 0.260

* Wilcoxon Test; †Body Mass Index; ‡Waist Circumference; §Neck Circumference; ||Hip Circumference; ¶

Thigh Circumference; **Waist-to-Hip Ratio; ††Body Adiposity Index; ‡‡Waist-to-Height Ratio.

Source: Own elaboration.

Discussion

The results of this study showed that the daily intake of 1.2 g of ginger reduced weight, BMI, WC and LDL in 30 days of follow-up. Studies that used ginger in people with T2DM, with a focus on reducing blood sugar levels, also found positive results in reducing the anthropometric levels (weight, BMI and WC)16-19. Although directly linked to the diagnosis of T2DM, changes in the anthropometric levels - caused by the accumulation of fat - are still poorly investigated in studies that address the use of ginger.

In this research, although ginger has improved the lipid profile ranges, such as LDL (112.14-108.27 mg/dL, p = 0.038) and HDL (34.08-42.53 mg/dL, p = 0.086), there was no unanimity in the consistency of the individual results. A similar study, involving 80 people with T2DM, with 41 using 3 g/day of ginger, for eight weeks, concluded that the product reduces LDL levels and increases HDL levels17. Iranian researchers conducted a clinical trial with 64 patients for two months, in which the participants used 2 g/day of ginger and achieved a reduction in the mean LDL values (77.33-65.73 mg/dL, p = 0.04). However, when analyzing the impact on HDL, the results were negative, as the levels of this cholesterol decreased (42.53-38.66 mg/dL, p = 0.28)16. Amounts of ginger smaller than these have not been shown to be effective in reducing the lipid levels20.

Results like these are important, since it is already firmly established in the literature that insulin resistance in the peripheral tissues is intimately associated to the high amount of circulating lipids and to the accumulation of tissue lipids, which indicates a high need for control, essential to minimize secondary complications of T2DM and of associated diseases21. Ginger has enzymes that inhibit the metabolism of carbohydrates, preventing hyperglycemia or the perpetuation of insulin resistance, and appears to modulate the action of insulin while regulating blood glucose homeostasis21.

Although the results did not show that fasting blood glucose or capillary blood glucose were reduced after the intervention, different studies highlight the hypoglycemic effect of ginger in non-insulin-dependent T2DM patients17-18,22-27. The outcomes of this study and others with a similar objective can be supported by differences in the patients’ responses, the duration of the disease, the dose, the intervention time or because of the type of therapeutic regimen. In general, all this evidence shows that the consumption of a moderate dose of ginger can modify the glycemic and lipid status, and reduce the anthropometric parameters of people with diabetes, pointing out the value of the product in the management of the disease. Thus, it is possible to say that ginger can even be used as an adjunct, but not exclusive, therapy for the control of T2DM. In addition to that, it is important to note that ginger is a low-cost product, easily found and with great potential to be introduced into the daily lives of people with T2DM and comorbidities associated with lipid alteration.

Undoubtedly, the results of research studies like this support the health team in the use of products like ginger in the clinical practice, increasing the management power of people with T2DM, especially in primary care. Likewise, it is also necessary to take into account that the current scenario requires greater autonomy, preparation and leadership from these professionals in the creation of policies that disseminate effective and innovative practices, as highlighted by the Nursing Now campaign28-30.

Based on our observations and on data from other research studies, it is possible that ginger is considered a promising supplement for T2DM therapy when hypertriglyceridemia and hyperlipidemia cannot be satisfactorily controlled by means of other strategies, such as exercise, diet and prescription medications. A research study on the cost-effectiveness of the product is also important, since the use of ginger can be part of the economic and health strategies used by the Brazilian government to control T2DM.

Study limitations

As a limitation of this pilot study we point out the intervention time, of only 30 days, which seems to be short to show metabolic changes in patients with diabetes, as well as the sample size, precluding data generalization. Another limitation of the research was the therapeutic dose of only 1.2 g per day - the maximum dose allowed by the Brazilian government. In addition to that, the need to monitor and record the dietary pattern and the practice of physical exercises by the participants is emphasized, since they can influence the outcomes found.

Conclusions

This study identified that ginger, in doses of 1.2 g/day, for 30 days, can help to reduce some anthropometric and lipid levels in people with T2DM, but it does not have enough hypoglycemic power to reduce the investigated glycemic levels. In addition to that, inconsistencies found in the literature, with positive and negative results in studies of this nature, raise the need for further research studies. Therefore, caution is required when using the results. Nurses must lead research studies like this, as they are at the forefront of care for people with T2DM, especially in primary care. In addition, policy makers are expected to expand the list of recommendations for this product and to provide opportunities for developing new studies that take into account the limiting aspects of this research, especially the size of the daily therapeutic dose.

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* This article derives from the doctoral thesis entitled “Efeito do gengibre (Zingiber officinale) no controle glicêmico e lipêmico de pessoas com diabetes tipo 2: ensaio clínico randomizado duplo-cego controlado por placebo”, presented to the Graduate Program in Nursing at the Universidade Federal do Ceará and funded by the Conselho Nacional de Desenvolvimento Científico e Tecnológico, Grant: 310496/2017-9. Available in:http://www.repositorio.ufc.br/handle/riufc/36485.

** El artículo es resultado de la tesis doctoral “Efeito do gengibre (Zingiber officinale) no controle glicêmico e lipêmico de pessoas com diabetes tipo 2: ensaio clínico randomizado duplo-cego controlado por placebo” (“Efecto del jengibre (Zingiber officinale) en el control glicémico y lipémico de personas con diabetes tipo 2: ensayo clínico aleatorizado doble ciego controlado por placebo”), presentada al Programa de Posgrado en Enfermería de la Universidade Federal do Ceará y financiada por el Consejo Nacional de Desarrollo Científico y Tecnológico, Grant: 310496/2017- 9. Disponible en: http://www.repositorio.ufc.br/handle/riufc/36485.

*** Este artigo é derivado da tese de doutorado intitulada “Efeito do gengibre (Zingiber officinale) no controle glicêmico e lipêmico de pessoas com diabetes tipo 2: ensaio clínico randomizado duplo-cego controlado por placebo”, apresentada ao Programa de Pós-Graduação em Enfermagem da Universidade Federal do Ceará e financiada pelo Conselho Nacional de Desenvolvimento Científico e Tecnológico, Grant: 310496/2017- 9. Disponível em: http://www.repositorio.ufc.br/handle/riufc/36485.

Conflict of interests: None declared.

To reference this article / Para citar este artigo / Para citar este artículo: Carvalho GNC, Lira-Neto JCG, Nunes LCC, Alencar AMPG, Marques RLL, Damasceno MMC. Effectiveness of ginger in the treatment of Type 2 Diabetes Mellitus: A pilot study of the randomized clinical trial type. Aquichan. 2021;21(1):e2115. DOI:https://doi.org/10.5294/aqui.2021.21.1.5

Received: July 27, 2020; Revised: November 09, 2020; Accepted: December 15, 2020

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