Clinical Trials Logo

Clinical Trial Details — Status: Completed

Administrative data

NCT number NCT05116982
Other study ID # SAT-EURECAT-01-20
Secondary ID
Status Completed
Phase N/A
First received
Last updated
Start date May 9, 2022
Est. completion date June 12, 2022

Study information

Verified date September 2022
Source Fundació Eurecat
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

Aluminum is a very abundant element in nature. Humans are exposed to this metal through the environment, diet, and drinking water, as well as through the consumption of certain medications. Aluminum is not an essential element for human, being able to become neurotoxic when it reaches the brain once ingested at very high doses and, above all, if there is also kidney dysfunction. Silicon is one of the most abundant elements on the planet and although it is not considered an essential element for humans, some beneficial activities have been documented. Silicon has been found to be readily available in food and that 41% of ingested silicon is excreted in the urine, with a significant correlation between silicon ingested with food and urinary silicon excretion. The most bioavailable silicon is that found in the form of silicic acid or orthosilicic acid. Numerous studies suggest that silicon can reduce the oral absorption of aluminum and / or improve its excretion and, therefore, protect against the adverse effects induced by the ingestion of aluminum. In a clinical study with healthy individuals as a control group for Alzheimer's disease, the levels of aluminum excretion were analyzed after the continuous ingestion of water enriched in silicon. The results in the first urine of the morning during the first week of ingestion of the enriched water showed that the excretion of aluminum was 136.9 ± 81.4 µmol / nmol creatinine while in the baseline week it was lower, 98.8 ± 64.3 nmol / nmol creatinine. These results indicated that the Al excreted came from Al stored in the body. The main objective of the study is to evaluate the effect of the consumption of three food supplements formulated with different silicon compounds (monomethylsilanetriol and / or silicic acid) on the urinary excretion of aluminum. The secondary objectives of the study are to evaluate: - the bioavailability of the silicon contained in three food supplements formulated with different silicon compounds. - the effect of the consumption of three food supplements formulated with different silicon compounds on urinary excretion of mercury, nickel, arsenic, cadmium, iron and copper. - the safety of the consumption of three food supplements formulated with different silicon compounds.


Description:

It will be conducted a single-center, randomized, controlled, double-blind clinical trial with four groups in parallel (placebo, Supplement A, Supplement B and Supplement C). The study will be carried out with a total of 40 individuals (10 individuals per group), men and women aged 40 to 65 years. Individuals will have normal serum creatinine levels: up to 1.1mg/dl in women and up to 1.4mg/dl in men. The investigational products involved in this study are four food supplements made from silicon compounds and the corresponding placebos. Each participant will receive a kit containing a bottle with 10 capsules and a bottle of 100 ml of liquid according to the treatments corresponding to the randomly assigned group. During the study, the volunteers will consume one capsule and 100ml of product each day for 7 days. The first morning urine will be collected during the 7 days of treatment and also during the previous 7 days to analyze the baseline values. In addition, on days 6 and 7 of the study, the urine will be collected in three fractions up to 24h to evaluate the bioavailability of silicon. Participants will make a total of 5 visits, including the pre-selection visit. In these visits, the following will be carried out: Revision of Inclusion and exclusion criteria; Informed consent signature;Safety biochemistry; Demographic variables (age, sex), anthropometric variables; Evaluation of dietary intake; Randomization; Delivery of the sampling material; Verification of compliance with dietary requirements; Collection of urine samples; Investigation product delivery; Determination of metals in urine; Registration of Medication and food supplements; concomitants adverse event registry.


Recruitment information / eligibility

Status Completed
Enrollment 47
Est. completion date June 12, 2022
Est. primary completion date June 12, 2022
Accepts healthy volunteers Accepts Healthy Volunteers
Gender All
Age group 40 Years to 65 Years
Eligibility Inclusion Criteria: - Men and women aged 40 to 65. - Individuals with normal serum creatinine levels: up to 1.1 mg/dl in women and up to 1.4 mg/dl in men. Exclusion Criteria: - Individuals taking any type of medication and/or supplement containing aluminum, including antacids. - Individuals who take food supplements and/or medication that contains mercury, nickel, arsenic, cadmium, iron, copper, and silicon. - Individuals who eat mineral-enriched foods. - Individuals allergic to any component of the dietary supplements of the study. - Individuals with urge, stress or mixed urinary incontinence. Involuntary loss of urine accompanied by symptoms of both urge or stress urinary incontinence diagnosed by your primary care physician. In case of absence of diagnosis, the IU-4 questionnaire will be carried out. - Pregnancy or breastfeeding. - Individuals with any chronic gastrointestinal disease. - Individuals with chronic kidney disease (or serum creatinine levels = 1.7 mg/dl in men and = 1.5 mg/dl in women). - Be participating or have participated in a clinical trial or study of nutritional intervention in the last 30 days before study inclusion. - Being a smoker. - Consume 2 or more Standard Beverage Units daily or 17 weekly in women, or consume 4 or more Standard Beverage Units daily or 28 weekly in mens. - Individuals whose condition does not allow them to carry out the study procedures strictly. - Individuals with diseases with manifest symptoms that may influence the objectives of the study. - Individuals with BMI= 30 kg/m^2. - Individuals whose consumption of foods rich in silicon, aluminum, mercury, nickel, arsenic, cadmium, iron and copper are high.

Study Design


Related Conditions & MeSH terms


Intervention

Dietary Supplement:
ORGONO Living Silica Acacia Gum-MMST Powder
Participants will consume one capsule per day and one bottle per day. Capsule composition: Acacia Gum 336.1 mg/capsule; Monomethylsilanetriol 34.9 mg/capsule; Hydroxypropyl methylcellulose 95 mg/capsule. Bottle composition: water 100 ml. Silicon content per dose: 10.4 mg.
ORGONO Living Silica Malto-OSA Powder
Participants will consume one capsule per day and one bottle per day. Capsule composition: Maltodextrin 311.4 mg/capsule; Silicic acid 35.6 mg/capsule; Hydroxypropyl methylcellulose 95 mg/capsule. Bottle composition: water 100 ml. Silicon content per dose: 10.4 mg.
ORGONO Living Silica Collagen Booster
Participants will consume one capsule per day and one bottle per day. Capsule composition: Hydroxypropyl methylcellulose 320 mg/capsule. Bottle composition: water 99.9646 g/100 ml; Silicic acid 23.65 mg/100 ml; Monomethylsilanetriol 11.75 mg/100 ml. Silicon content per dose: 10.4 mg.
Placebo
Participants will consume one capsule per day and one bottle per day. Capsule composition: Hydroxypropyl methylcellulose 320 mg/capsule. Bottle composition: water 100 ml.

Locations

Country Name City State
Spain Grupo de investigación de nutrición, estrés oxidativo y biodisponibilidad. Universidad Católica de Murcia (UCAM) Guadalupe Murcia
Spain Eurecat Reus

Sponsors (5)

Lead Sponsor Collaborator
Fundació Eurecat Catholic University of Murcia (UCAM), San Antonio Technologies S.L., Silicium Laboratories S.L., Zaidin Experimental Station, Spanish Council for Scientific Research (CSIC) Agency

Country where clinical trial is conducted

Spain, 

Outcome

Type Measure Description Time frame Safety issue
Primary Urinary excretion of aluminum Aluminum levels in the first morning urine will be determined before consuming the dietary supplement every day for 6 days and after consuming the dietary supplement every day for 6 days. Furthermore, at days 6th and 7th urinary aluminum levels will be determined in three fractions of time (8:30-11:30 hours; 11:30h-14:30 hours; 14:30-24 hours) before and after consumption of the dietary supplement, respectively. Urinary excretion of aluminium will be calculated by means of the average excreted levels of aluminium in urine for 7 days and considering the difference between the levels excreted in urine before and after the consumption of each silicon supplement.
Aluminum levels in urine will be quantified by Inductively Coupled Plasma-Optical Emission Spectrometry and will be expressed by mmol of excreted creatinine.
7 days
Secondary Bioavailability of silicon The bioavailability of silicon will be calculated by urine silicon concentration. Silicon levels will be determined in three fractions of time (8:30-11:30 hours; 11:30-14:30 hours; 14:30-24 hours) before and after consumption of the dietary supplement. Silicon bioavailability will be calculated by the difference in the sum of silicon levels in all urine fractions before and after consumption of each silicon supplement. Silicon levels in urine will be measured by Inductively Coupled Plasma-Optical Emission Spectrometry and will be expressed by volume of urine. 24 hours
Secondary Urinary excretion of mercury Mercury levels in the first morning urine will be determined before consuming the dietary supplement every day for 6 days and after consuming the dietary supplement every day for 6 days. Furthermore, at days 6th and 7th urinary mercury levels will be determined in three fractions of time (8:30-11:30 hours; 11:30h-14:30 hours; 14:30-24 hours) before and after consumption of the dietary supplement, respectively. Urinary excretion of mercury will be calculated by means of the average excreted levels of mercury in urine for 7 days and considering the difference between the levels excreted in urine before and after the consumption of each silicon supplement.
Mercury levels in urine will be quantified by Inductively Coupled Plasma-Optical Emission Spectrometry and will be expressed by mmol of excreted creatinine.
7 days
Secondary Urinary excretion of nickel Nickel levels in the first morning urine will be determined before consuming the dietary supplement every day for 6 days and after consuming the dietary supplement every day for 6 days. Furthermore, at days 6th and 7th urinary nickel levels will be determined in three fractions of time (8:30-11:30 hours; 11:30h-14:30 hours; 14:30-24 hours) before and after consumption of the dietary supplement, respectively. Urinary excretion of nickel will be calculated by means of the average excreted levels of nickel in urine for 7 days and considering the difference between the levels excreted in urine before and after the consumption of each silicon supplement.
Nickel levels in urine will be quantified by Inductively Coupled Plasma-Optical Emission Spectrometry and will be expressed by mmol of excreted creatinine.
7 days
Secondary Urinary excretion of arsenic Arsenic levels in the first morning urine will be determined before consuming the dietary supplement every day for 6 days and after consuming the dietary supplement every day for 6 days. Furthermore, at days 6th and 7th urinary arsenic levels will be determined in three fractions of time (8:30-11:30 hours; 11:30h-14:30 hours; 14:30-24 hours) before and after consumption of the dietary supplement, respectively. Urinary excretion of arsenic will be calculated by means of the average excreted levels of arsenic in urine for 7 days and considering the difference between the levels excreted in urine before and after the consumption of each silicon supplement.
Arsenic levels in urine will be quantified by Inductively Coupled Plasma-Optical Emission Spectrometry and will be expressed by mmol of excreted creatinine.
7 days
Secondary Urinary excretion of cadmium Cadmium levels in the first morning urine will be determined before consuming the dietary supplement every day for 6 days and after consuming the dietary supplement every day for 6 days. Furthermore, at days 6th and 7th urinary cadmium levels will be determined in three fractions of time (8:30-11:30 hours; 11:30h-14:30 hours; 14:30-24 hours) before and after consumption of the dietary supplement, respectively. Urinary excretion of cadmium will be calculated by means of the average excreted levels of cadmium in urine for 7 days and considering the difference between the levels excreted in urine before and after the consumption of each silicon supplement.
Cadmium levels in urine will be quantified by Inductively Coupled Plasma-Optical Emission Spectrometry and will be expressed by mmol of excreted creatinine.
7 days
Secondary Urinary excretion of iron Iron levels in the first morning urine will be determined before consuming the dietary supplement every day for 6 days and after consuming the dietary supplement every day for 6 days. Furthermore, at days 6th and 7th urinary iron levels will be determined in three fractions of time (8:30-11:30 hours; 11:30h-14:30 hours; 14:30-24 hours) before and after consumption of the dietary supplement, respectively. Urinary excretion of iron will be calculated by means of the average excreted levels of iron in urine for 7 days and considering the difference between the levels excreted in urine before and after the consumption of each silicon supplement.
Iron levels in urine will be quantified by Inductively Coupled Plasma-Optical Emission Spectrometry and will be expressed by mmol of excreted creatinine.
7 days
Secondary Urinary excretion of copper Copper levels in the first morning urine will be determined before consuming the dietary supplement every day for 6 days and after consuming the dietary supplement every day for 6 days. Furthermore, at days 6th and 7th urinary copper levels will be determined in three fractions of time (8:30-11:30 hours; 11:30h-14:30 hours; 14:30-24 hours) before and after consumption of the dietary supplement, respectively. Urinary excretion of copper will be calculated by means of the average excreted levels of copper in urine for 7 days and considering the difference between the levels excreted in urine before and after the consumption of each silicon supplement.
Copper levels in urine will be quantified by Inductively Coupled Plasma-Optical Emission Spectrometry and will be expressed by mmol of excreted creatinine.
7 days
Secondary Urinary levels of creatinine Creatinine levels in the first morning urine will be determined before consuming the dietary supplement every day for 6 days and after consuming the dietary supplement every day for 6 days. Furthermore, at days 6th and 7th urinary creatinine levels will be determined in three fractions of time (8:30-11:30 hours; 11:30h-14:30 hours; 14:30-24 hours) before and after consumption of the dietary supplement, respectively.
Creatinine levels in urine will be quantified by a colorimetric kit.
14 days
Secondary Security The safety of the dietary supplements will be evaluated through the analysis of renal markers (urea and creatinine), liver markers (transaminases) and blood count at pre-selection visit and after the consumption of the silicon supplement for 7 days. To measure the security of each silicon supplement, results obtained after each silicon supplement ingestion will be compared with results obtained before its consumption. 7 days
Secondary Adverse events Adverse events will be recorded throughout the study from the initial visit to the final visit. Every day for 14 days
See also
  Status Clinical Trial Phase
Completed NCT05544786 - Relative Bioavailability Study of Nirmatrelvir/Ritonavir Oral Powder Relative to the Commercial Tablets and Estimation of the Effect of Food on Bioavailability of the Nirmatrelvir/Ritonavir Oral Powder in Healthy Participants. Phase 1
Completed NCT04744233 - Bioavailability of Carotenoids From Orange Juice in a Cross-over Study in Healthy Subjects. N/A
Completed NCT05561075 - Oral Bioavailability of Pterostilbene Cocrystal Compared to Its Free Form (BIOPTERO) N/A
Completed NCT03873909 - Bioavailability of Carotenoids Present in Mamey Sapote (Pouteria Sapota (Jacq.) H. E. Moore & Stearn) Fruit N/A
Completed NCT03353857 - Drug-drug Interaction Between Rifampicin and Progestins/Ethinylestradiol and Midazolam Phase 1
Completed NCT05121506 - A Study to Investigate the Bioavailability and Skin Absorption of CBD and THC From GT4 Technology in Healthy Adults Phase 1
Completed NCT01267201 - A Study Comparing Drug Availability Of Methylprednisolone In Liquid Form Versus Methylprednisolone In Tablet Form Phase 1
Completed NCT02538393 - Relative Bioavailability of Sorafenib Tablet for Oral Suspension Phase 1
Completed NCT04207372 - Protein Digestibility of Whey and Zein. N/A
Completed NCT01853800 - Relative Bioavailability of Oral Suspension of Rivaroxaban Compared to Standard Tablet Phase 1
Completed NCT00714584 - Pharmacokinetics of Naltrexone Following Intravenous and Oral Routes of Administration in Healthy Volunteers Phase 1
Completed NCT04876261 - Bioavailability of Hydroxytyrosol From Olive Watery Extract Supplements N/A
Completed NCT03886597 - Nutritional Intervention With Table Olives in Healthy Volunteers Phase 1/Phase 2
Completed NCT06289140 - Oral Bioavailability of a New Formulation of Pterostilbene Cocrystal in Comparison With Its Free Form (BIOPTERO2) N/A
Completed NCT05439408 - Comparative Bioavailability of XS004 (Dasatinib) Formulation G and SPRYCEL® (Dasatinib) in Healthy, Adult Subjects Under Fasting Conditions Phase 1
Completed NCT03951025 - Study of the Bioavailability of a Food Supplement Rich in Melatonin Administered Sublingually and Orally (MELATONIN) Phase 2
Completed NCT03984916 - Study of the Bioavailability of Three Hesperidin Extracts. N/A
Completed NCT02966704 - Stable Isotope Method to Assess Dietary Protein Quality N/A
Completed NCT02847117 - Bioavailability of the Microconstituents of Natural Chios Mastiha in Healthy Adults. N/A
Completed NCT03048110 - Drug-drug Interaction (DDI) Study to Assess ODM-201 as a Victim of CYP3A4 Inhibition or Induction Phase 1