Urine Collection Research Articles

Exploring the impact of 3,3’-diindolylmethane on the urinary estrogen profile of premenopausal women

Background3,3’-diindolylmethane (DIM) is a phytonutrient derived from cruciferous vegetables that is an often-used supplement in the complementary and alternative medicine space. The most common goal for providers when recommending DIM to their patients is to alter estrogen metabolism, yet research into DIM’s effect on the estrogen profile is lacking in the published literature. The objective of this study was to comprehensively evaluate DIM’s effect on the urinary estrogen profile.MethodsIn this retrospective cohort study, we analyzed data from a clinical laboratory, including urinary estrogen and estrogen metabolite concentrations. Analyte concentrations were determined from dried urine samples using a gas chromatography-tandem mass spectrometry assay. Individuals were separated into two groups, either reporting taking DIM (N = 909) or reporting not taking DIM (N = 18,385). Comparisons between individuals in these two groups were made using the Wilcoxon rank sum test. Additionally, we were also able to explore a subset of women who had laboratory results in the database before and after initiating DIM treatment (N = 53). In this subset, differences were assessed with Wilcoxon signed rank tests.ResultsIn the larger group that was separated into women reporting either DIM use or no use, significant differences were observed in the concentrations of almost every urinary estrogen and estrogen metabolite (with the only exception being 2-methoxyestrone) in the urinary estrogen profiles of those taking DIM compared to those not taking DIM (all P values < 0.001). In the smaller subset of individuals with results before and after initiating DIM use, differences were only seen in 4 of the urinary estrogens and estrogen metabolites (P < 0.001 for estrone, estradiol, estriol, and 16-hydroxyestrone). Differences in total estrogens were significant in both the larger group and the smaller subset (both with P < 0.001). Additionally, observed differences in the ratios of metabolites followed a similar trend with more significant differences observed in the larger group. Notably, the 2-hydroxyestrone:16-hydroxyestrone ratio increased significantly in both the larger group and the smaller subset with results before and after DIM use.ConclusionsThe results of this study provide the most comprehensive evaluation to date of DIM’s effect on the urinary estrogen profile. Additionally, the results demonstrate that the dried urine collection and accompanying assay used capture changes that are similar in direction, but not necessarily magnitude, to previous reports in the literature. Considered together, these two things highlight the clinical validity and utility of this approach to the evaluation of DIM supplementation and suggest the need for additional studies using this approach to fully understand the potential clinical utility of DIM.

Determination of urine volume and glomerular filtration rate using d-serine and d-asparagine.

Measurement of glomerular filtration rate (GFR) is subject to inaccurate urine collection. Clearances of d-serine and d-asparagine, rare enantiomers of amino acids, are the measures of GFR since they are almost free of tubular secretion and reabsorption. We hypothesize that d-serine and d-asparagine can accurately determine urine volume and GFR. This cross-sectional observational study included 209 living kidney transplant donors and recipients for whom GFR was measured using the clearance of inulin. Assuming that urine excretions of d-serine and d-asparagine are constant and using urine levels of d-serine and d-asparagine from each urine collection, an equation for estimated urine volume (eUV) was established. Based on the eUV, the abnormal urine volume was replaced with an estimate with which the GFR was re-evaluated. Clearances of d-serine and d-asparagine were minor in proportional biases when compared with that of creatinine. Using 627 urine collection, the equation for eUV (mL/min) was established as 21.88/urine d-Ser (0.40+ 0.20 × log10(urine d-Asn)). Using eUV, we identified 20 instances where urine collection volumes varied significantly from the estimated values. After replacement with eUV, measured GFR (mGFR) was corrected to adjusted mGFR, which was within approximately 20mL/min/1.73m2 of the mGFR. d-Serine and d-asparagine are nearly completely excreted in urine after glomerular filtration, enabling the estimation of urine volume and correct mGFR. Besides reflecting GFR, d-serine and d-asparagine can be used to estimate urine volume. By applying the eUV method, mGFR determined using clearance methods becomes more accurate.

Skinny fat model of metabolic syndrome induced by a high-salt/sucrose diet in young male rats.

Childhood and puberty can affect metabolism, leading to tissue injury and malfunction later in life. The consumption of high-processed foods rich in salt and sugar is increasing in middle- and high-income countries, especially among young people. It is necessary to evaluate the effects of high salt and sugar levels in the youth on most injured organs during metabolic challenges. We aimed to investigate whether high salt/sucrose intake affects whole-body development and leads to end-organ injury. Weaned Male Wistar rats were divided into two groups: a control group fed a standard diet (CO) and tap water, and an experimental group (SS) fed a standard diet and a beverage containing 1.8% NaCl and 20% sucrose instead of tap water. The animals were treated for 60 days, starting after weaning at 21 days of age, after which the animals were subjected to glucose and insulin tolerance tests, urine collection, and heart rate monitoring, and euthanized for sample collection at 81 days of age. SS showed reduced body weight gain and increased food intake of sodium/sucrose solution. Interestingly, high salt/sucrose intake led to increased body adiposity, liver lipid inclusion, heart rate, and renal dysfunction. SS exhibits increased levels of peroxisome proliferator-activated receptor alpha to counterbalance the hypertrophy of brown adipose tissue. Our findings reveal that the SS rat model exhibits non-obvious obesity with end-organ damage and preserved brown adipose tissue function. This model closely parallels human conditions with normal BMI but elevated visceral adiposity, providing a relevant tool for studying atypical metabolic disorders.

Raman Spectroscopic Analysis of Urinary Creatine and Phosphate in Athletes: Pre- and Post-Training Assessment.

The aim of this study was to detect biochemical components in the urine of bodybuilders who ingested creatine pretraining compared to individuals who did not ingest creatine after physical exercise using Raman spectroscopy. Twenty volunteers practicing bodybuilding were selected to collect pre- and post-training urine samples, where 10 volunteers ingested creatine 30 min before pretraining urine collection (creatine group), and 10 did not (control group). The samples were subjected to Raman spectroscopy, and the spectra of both creatine and control groups and the difference (post-pre) for both groups were analyzed. Principal component analysis (PCA) technique was applied to the samples. The results showed peaks of creatine and phosphate in urine after training (creatine post-training group), suggesting that part of the creatine was absorbed and metabolized, and part was excreted. Raman spectroscopy could be applied to detect biocompounds in urine, such as unmetabolized creatine and phosphate.

Evaluation of Standard Wire Loop Method in Determination of Significant Bacteriuria among Pregnant Women in Ekpoma

Standard wire loop method is a time-tested method for UTI diagnosis. The term "bacteriuria" means the presence of bacteria in urine. It may result from contamination during or after collection of urine or it may indicate the presence of bacteria in the bladder urine. There are several cultural quantitative techniques for determining bacteriuria but standard wire loop method is the most popular method though relatively simple and cheap. This study was carried out to evaluate the standard wire loop method for determination of significant bacteriuria among pregnant women in Ekpoma. A total of one hundred (100) early morning mid-stream urine samples from pregnant women attending antenatal clinics in Ekpoma and environs were collected aseptically using sterile, wide-mouthed, leak-proof universal bottles. Microscopic examination was carried out to detect the presence of pus cells, epithelial cells, red blood cells, yeast cells, crystals, parasites, bacteria and casts. Undiluted urine, 1:10and 1:1000 diluted urine samples were aseptically inoculated into blood agar and MacConkey agar using the Standard Loop method and compared with Miles and Mirsa method, it was incubated at 370C aerobically for 24 hours. After incubation colonies were counted and isolates identified by standard biochemical methods. Colony count of ≥105 CFU per ml were considered as significant growth. In vitro antibiotics susceptibility of bacterial isolates was determined using disc diffusion technique. The data generated was analyzed statistically using the chi-squared statistics to ascertain the significance of the results. Out of 100 urine samples collected 39(39%) samples yielded significant bacterial growth, while 61(61%) of the samples had no significant bacterial growth or no growth with higher prevalence in age group &lt;25 years which is a sexually active group than in other age group ≤35 years which had incidence rate of 12 (25%). Standard loop method gave false positive rates of 4/35 (11.4%) and false negative rates of 4/36 (11.1%). The standard loop was found to have a sensitivity of 100%, specificity of 88.9% and identical results in 76.3% of the samples. To reduce bacteriuria and consequently prevent UTIs, it is necessary to take the precautions by doing regular routine check-ups and appropriate treatment. For large scale urine surveys the method chosen should be reasonably accurate, fast and simple to use. The materials required should be minimal, stable and easily transported. It is recommended that the method of choice for most laboratories is the standard loop method.

Augmented Renal Clearance: Prevalence, Risk Factors and Underlying Mechanism in Critically Ill Patients with Subarachnoid Hemorrhage.

Augmented renal clearance (ARC) is an increase in the measured creatinine clearance (CLCR), the cause of which remains poorly understood. ARC may be associated with drug underdosing and appears to be more frequent in patients with brain damage, such as subarachnoid hemorrhage (SaH), although the incidence of ARC remains poorly understood. The aim of this study was to investigate the prevalence of ARC in patients with SaH in a neurointensive care unit (neuro-ICU) and to identify factors associated with ARC. All consecutive patients hospitalized in the neuro-ICU of Bordeaux University Hospital between June 2018 and June 2019 for SaH treatment were retrospectively included. CLCR was measured daily via 24-h urine collection. ARC was defined as a CLCR ≥ 130mL/min/1.73 m2. The effects of different covariates on the time course of CLCR were investigated using a linear mixed model. Of the 205 included study participants, 168 developed ARC during their neuro-ICU stay; the estimated ARC prevalence was 82% (95% confidence interval 76-87) with a median of 4days (range 3-6days) after hemorrhage; ARC persisted for a median of 5days (range 2-8days). Patients with ARC were younger and had a lower BMI and lower mortality rate. In multivariate analysis, younger patients with a higher mean arterial pressure, no history of hypertension, and greater nitrogen loss were more likely to have ARC. Augmented renal clearance is very common in critically ill patients with SaH, persists over time, and seems to lack specific risk factors. Daily CLCR measurements could be essential.

Case Series of Thermal Cautery Artifact in Urine Cytology: An Uncommon Finding but a Potential Pitfall.

Therapeutic modalities used in bladder lesions/neoplasms (electrocautery, fulguration, and laser) could produce morphologic alterations leading to diagnostic challenges. While often seen on histology, they can present in urine cytology as atypia or even raise the concern for malignancy. Herein, we present clinicopathologic findings of four patients with cautery artifact in urine cytology. The authors' lists and a computerized search of urine cytology with features of thermal cautery artifact were collated. Slides and clinicopathologic variables (prior specimens, concurrent and follow-up surgical specimens, age, sex, manner of urine collection, cystoscopy, and treatment procedure during cystoscopy) were reviewed. Four cases were identified. Procedures performed during cystoscopy included laser therapy (n = 2), postbiopsy cauterization (n = 1), and fulguration (n = 1). All cases showed spindled cells with delicate bipolar cytoplasm, "cigar-shaped" nuclei, smooth to slightly irregular nuclear membranes, and arranged singly and loosely cohesive to lamellar stacks. Few atypical well-preserved, undistorted cells were identified in 2/4. The concurrent biopsies showed superficial cellular fragments with thermal artifact (n = 1) and rare atypical cells (n = 2). Follow-up biopsies in two cases had high-grade urothelial carcinoma both of which were diagnosed as atypical urothelial cells on cytology. Thermal cautery artifact in urine cytology is rare and can be seen following laser, electrocautery, and fulguration. The spindling artifact can render some degree of difficulty in assessing for the presence of urothelial atypia both in cytology and biopsy. Familiarity with these cytologic features, knowledge of the treatment procedure, attention to the cytologic findings of well-preserved cells and repeat sampling in cases with atypical urothelial cells in patients with history of malignancy is essential.

Adolescent Chlamydia Screening in Pediatric Primary Care: A Quality Improvement Project.

To increase Chlamydia trachomatis screening in adolescents 15-19 years of age from 7.8% to 15% following a 6-week implementation of universal chlamydia screening at three paediatric primary care (PPC) sites. Pre-implementation (1 January 2022-19 October 2022) and post-implementation (20 October 2022-1 June 2023) screening rates were tracked through run charts and compared via Chi-square testing. Universal opt-out chlamydia screening with universal urine collection for 15- to 19-year-old was implemented at well visits, along with patient and staff education, and sexually transmitted infection treatment protocols. Chlamydia trachomatis screening increased from 7.8% to 34.1% with implementation of universal opt-out chlamydia screening. Proportions of patients screened increased significantly among White individuals, males and privately insured individuals. A universal C. trachomatis screening project can be feasibly implemented in pediatric primary care and successfully increase adolescent chlamydia screening rates. Implementing a universal opt-out C. trachomatis screening project is feasible in PPC and can help achieve the public health goal of chlamydia identification and treatment. These findings will be impactful for both paediatric primary care and adolescent patients. The universal, opt-out C. trachomatis screening approach facilitated screening increases, improved equity in screening and led to increased case detection and treatment which has vast significance for those patients. This manuscript is submitted using the SQUIRE 2.0 guidelines for quality improvement reporting. Patient contribution included de-identified data collection of chlamydia screening rates of eligible adolescents 15-19 years old who attended routine well visits at the three PPC locations. The data were reviewed on a dashboard, then stratified by race, ethnicity, payor and sex assigned at birth.

A Comparative Randomized Cross-Over Trial to Examine Efficacy of Urine Capture and Comfort of Two Male External Urine Collection Devices in Healthy Male Volunteers.

This study assessed the efficiency of urine collection using external urine collection devices over two voids in a group of morbidly obese and non-obese men. Prospective single-blind comparative crossover study. We assessed the comparative urine capture efficiency of two commercially available male external urine management systems. Continent consenting men were randomized to use each device for a single void. The proportion of urine captured by each device expressed as a percentage of the total volume voided in grams was calculated and compared. Results were compared between morbidly obese (BMI≥40 kg/m2) and non-morbidity (BMI≤40 kg/m2) men. Fifty-nine men completed the study; their mean (standard deviation, SD) age was 40.8 (SD 12.4) years. For void 1, the mean proportion of urine capture for Device A was 97.8% (SD 10.0); for Device B it was 90.7% (SD 20.7). For void 2, the mean proportion of urine capture for Device A was 91.1% (SD 25.8); for Device B it was 85.2% (SD 21.7). The mean difference between devices was 6.6% (95% CI 0.18, 13.0), P =.044. Stratified by weight, in the morbidly obese men, Device A captured 99.7% (SD 0.88) of the first void versus 83.5% (SD 32.2) for Device B. Analysis of the second voids found that Device A captured 80.8% (SD 36.9) versus 79.3% (SD 23.3) for Device B. Device A (the investigational device) performed significantly better than Device B in capture rates when compared based on voided volume, order of void, or BMI category. Device A male external catheter system is an effective option for urine management in both obese and non-obese men.

Nutritional values of soybean meal from different sources in multiparous sows

This study determined the available energy content, apparent total tract digestibility (ATTD) of nutrients, and ileal amino acid (AA) digestibility of soybean meal (SBM) from different sources in non-gestating, non-lactating sows. In Exp. 1, 24 multiparous Landrace × Yorkshire (LY) sows (parity 3–5) were allotted to a replicated 12 × 3 Youden square design consisting of 12 diets and 3 periods. The 12 diets included 11 test diets containing SBM from different sources and a corn-based diet. Each period included a 5-d adaptation and a 5-d total fecal and urine collection. In Exp. 2, 8 multiparous LY sows (parity 3–5) were allotted to a replicated 4 × 3 Youden square design with 4 diets and 3 periods. The 4 diets included a nitrogen-free diet and 3 SBM diets (3 representative SBM samples were selected from Exp. 1). Our results showed that the coefficient of variation of ether extract, crude fiber, neutral detergent fiber, and acid detergent fiber levels in 11 SBM samples were > 20%. There were no differences in digestible energy (DE), metabolizable energy (ME), and the ATTD of gross energy, nitrogen, and neutral detergent fiber values between different SBM samples (P > 0.05). Additionally, no differences in AA digestibility were identified among the 3 representative SBM samples (P > 0.05). In conclusion, there were no differences in DE, ME, and AA digestibility between different SBM samples fed to multiparous non-gestating sows. When formulating diets for sows, it is important to consider the differences in the nutritional value of SBM at different physiological stages.

Predicting urinary stone recurrence: a joint model analysis of repeated 24-hour urine collections from the MSTONE database

To address the limitations in existing urinary stone recurrence (USR) models, including failure to account for changes in 24-hour urine (24U) parameters over time and ignoring multiplicity of stone recurrences, we presented a novel statistical method to jointly model temporal trends in 24U parameters and multiple recurrent stone events. The MSTONE database spanning May 2001 to April 2015 was analyzed. A joint recurrent model was employed, combining a linear mixed-effects model for longitudinal 24U parameters and a recurrent event model with a dynamic first-order Autoregressive (AR(1)) structure. A mixture cure component was included to handle patient heterogeneity. Comparisons were made with existing methods, multivariable Cox regression and conditional Prentice-Williams-Peterson regression, both applied to established nomograms. Among 396 patients (median follow-up of 2.93 years; IQR, 1.53–4.36 years), 34.6% remained free of stone recurrence throughout the study period, 30.0% experienced a single recurrence, and 35.4% had multiple recurrences. The joint recurrent model with a mixture cure component identified significant associations between 24U parameters - including urine pH (adjusted HR = 1.991; 95% CI 1.490–2.660; p < 0.001), total volume (adjusted HR = 0.700; 95% CI 0.501–0.977; p = 0.036), potassium (adjusted HR = 0.983; 95% CI 0.974–0.991; p < 0.001), uric acid (adjusted HR = 1.528; 95% CI 1.105–2.113, p = 0.010), calcium (adjusted HR = 1.164; 95% CI 1.052–1.289; p = 0.003), and citrate (adjusted HR = 0.796; 95% CI 0.706–0.897; p < 0.001), and USR, achieving better predictive performance compared to existing methods. 24U parameters play an important role in prevention of USR, and therefore, patients with a history of stones are recommended to closely monitor for future recurrence by regularly conducting 24U tests.

Urine Contamination Prevalence Using a Midstream Collection Device Compared with Clean Voided Collections in Dogs.

Collecting clean-caught voided urine samples is minimally invasive, but contamination occurs when urine passes through the nonsterile urethra and external genitalia. Discarding the initial urine stream may reduce these contaminants. This study hypothesized that using a midstream urine collection device would decrease bacterial and cellular contamination as compared with cleanly caught voided urine. This descriptive cross-sectional study collected urine from dogs using standard clean-caught (SCC), midstream collection device (MCD), and cystocentesis (CYS) techniques. Urinalysis and aerobic urine culture characteristics were recorded with each characteristic's prevalence described using percentages and 95% confidence intervals for each mode of collection. Positive urine culture prevalence did not differ between SCC and MCD (adjusted P value = .099); however, CYS had a lower prevalence compared with SCC and MCD (adjusted P values of <.001 [CYS versus SCC] and 0.009 [CYS versus MCD]). For other variables, there was no difference in prevalence when comparing SCC with MCD. There was no identified advantage to collecting urine using an MCD as compared with the SCC technique. Either option is a suitable alternative when CYS is not practical; however, clinicians need to interpret results cautiously because bacterial contamination is more common as compared with CYS.

The GREENWATER study: patients' green sensitivity and potential recovery of injected contrast agents.

The environmental footprint of iodinated contrast agents (ICAs) and gadolinium-based contrast agents (GBCAs) is noteworthy. This study assesses: (1) patients' "green sensitivity" as measured by their acceptance in a sustainability study and (2) the resulting potential reduction of contrast residuals in wastewater. After ethical approval, participants scheduled for administration of ICAs or GBCAs for diagnostic purposes were enrolled in this prospective observational study from July 2022 to October 2023. They were asked to prolong their hospital stay by up to 60 min to collect their first urine in dedicated canisters, thereby measuring the recovery rates of ICAs and GBCAs as found/theoretical ratio of concentrations. Mann-Whitney U, χ2 tests, and multivariable regression analysis were used. Patients scheduled for contrast-enhanced CT or MRI (n = 455) were screened; 422 (92.7%) accepted to participate. We enrolled 212 patients administered with ICAs and 210 administered with GBCAs. The median recovery rate was 51.2% (interquartile range 29.2-77.9%) for ICAs and 12.9% (9.0-19.3%) for GBCAs. At multivariable analysis, a significant effect of patient age (ICAs, p = 0.001; GBCAs, p = 0.014), urine volume (p < 0.001 for both), and time interval from contrast administration to urine collection (p < 0.001 for both) on recovery rates was found for both contrast agents; injected contrast volume (p = 0.046) and saline flushing usage (p = 0.008) showed asignificant effect only for ICAs. The high patient enrollment compliance (93%) and potential recovery rates of 51% (ICAs) and 13% (GBCAs) play in favor of sustainable practices in reducing the environmental footprint of contrast agents. Question How many patients are willing to extend their stay in radiology by up to 60 min to help reduce the environmental impact of contrast agents? Findings Over 90% of screened patients agreed to extend their stay by up to 60 min and collect their urine in dedicated containers. Clinical relevance Patients demonstrated a high willingness to cooperate in reducing the environmental impact of contrast agents, allowing for a potential recovery of approximately 51% for iodinated and 13% for gadolinium-based contrast agents.

Development of Prediction Equations for Digestible and Metabolizable Energy in 15 Cereal Processing By-Products Fed to Growing Pigs.

The study was conducted to determine the nutrient digestibility and digestible (DE) and metabolizable energy (ME) of 15 cereal processing by-products and to develop prediction equations for DE and ME based on the chemical composition in growing pigs. A total of 36 crossbred pigs were chosen and divided into three blocks according to a three 12 × 3 Youdin square experimental design. Twelve pigs in each block were allocated into six diets including a basal diet and five test diets. The feeding experiment included three periods, and each dietary treatment contained six replicates. Each period lasted 12 days, including 7 d of dietary adaption and 5 d of total feces and urine collection. The results showed that the coefficients of variation for EE, NDF, ADF, CP, and GE among 15 cereal processing by-products were 86.78%, 49.82%, 51.14%, 14.95%, and 6.26%, respectively. There were significant differences in DE, ME, and ME/DE (DM basis) among 15 cereal processing by-products (p < 0.05), ranging from 11.55 MJ/kg to 17.64 MJ/kg, from 10.90 MJ/kg to 17.40 MJ/kg, and from 89.41% to 98.63%, respectively. The digestibility of GE, DM, NDF, ADF, and CP showed a significant difference among 15 cereal processing by-products (p < 0.05). The DE and ME contents showed a negative correlation to NDF and ADF (p < 0.05), and the prediction equations for DE and ME (as-fed basis) were DE (MJ/kg) = -0.4597 × ADF (%) + 0.5988 × GE (MJ/kg) + 6.0138 (R2 = 0.74; p < 0.05) and ME (MJ/kg) = 1.0440 × DE (MJ/kg) - 1.1235 (R2 = 0.98; p < 0.05). On a DM basis, the optimal prediction equations for DE and ME were DE (MJ/kg DM) = -0.1451 × NDF (%) + 0.3026 × CP (%) + 13.8595 (R2 = 0.72; p < 0.05) and ME (MJ/kg DM) = 1.1155 × DE (MJ/kg DM) + 0.0363 × ADF (%) - 2.3412 (R2 = 0.99; p < 0.05). In conclusion, there were large variations in the chemical composition, nutrients digestibility, and available energy among the 15 different samples of cereal processing by-products. It is reasonable to develop prediction equations for DE and ME based on the chemical composition of cereal by-products for growing pigs.

Postpartum cardiac reverse remodeling is reflected in urine proteome

Abstract Background The impact of postpartum cardiac reverse remodeling (RR) on urinary proteome, particularly in pregnant women with cardiovascular risk (CVR) factors who show long-term increased risk of cardiovascular disease and mortality is unknown. Purpose To profile the urinary proteome in pregnant women with/without CVR factors to identify proteins associated with postpartum RR. Methods Our study included a prospective cohort of 32 healthy and 27 obese and/or hypertensive and/or diabetic pregnant women who underwent transthoracic echocardiography, pulse-wave-velocity, and urine collection at the 3rd trimester and 6-months postpartum. Shotgun HPLC-MS/MS profiled proteins. Generalized linear mixed-effects models were used to identify associations between urinary proteins and left ventricle mass (LVM), a surrogate of RR. Results The presence of at least one CVR factor was associated with worse LVM RR. We identify 6 (alpha-galactosidase A [GLA], sialate O-acetylesterase [SIAE], trans-golgi network integral membrane protein 2 [TGOLN2], sortilin [SORT1], desmoglein-2 [DSG2] and neuroblast differentiation-associated protein [AHNAK]) and 11 (serotransferrin [TF], inter-α-trypsin inhibitor heavy chain 4 [ITIH4], complement C3 [C3], transketolase [TKT], fibronectin [FN1], ubiquitin-like modifier-activating enzyme 1 [UBA1], cell division control protein 42 homolog [CDC42], glutathione s-transferase P1 [GSTP1], sodium/potassium-transporting ATPase subunit alpha-1 [ATP1A1], ADP-ribosylation factor 1 [ARF1] and pro-cathepsin H [CTSH]) proteins associated with high and low LVM regression, respectively. These proteins were functionally linked with insulin-like growth factor (IGF) transport and uptake regulation by IGF binding-proteins, platelet activation, signaling and aggregation and the immune system’s activity. The concentration of IGF-1 in urine samples was associated with low LVM regression after delivery. Conclusions Urine proteome reflects postpartum cardiac RR. Specifically, eight urine proteins (GSTP1, ARF1, FN1, SORT1, SIAE, GLA, ITIH4 and DGS2) show clinical value in identifying women at higher risk for incomplete postpartum RR. In addition, the association between IGF and postpartum LVM regression was validated.

Sodium and potassium intake in adults: the Italian Health Examination Survey 2023 – CUORE Project

Abstract Background The WHO recommends a 30% relative reduction in mean population intake of salt/sodium within 2025 (baseline 2010) and an adequate potassium intake. To these ends, the Italian Ministry of Health (MoH) has strengthened prevention/health promotion. To update the assessment of the habitual salt and potassium intake in the Italian general adult population, national health examination surveys (HESs), funded by the MoH-CCM, are conducted within the CUORE Project. Methods In 2023 a new HES started including salt and potassium intake assessment by the use of 24h urine collection. Up to now, data from random samples of residents in 7 Regions (of 20 regions) distributed in North, Centre and South of Italy and aged 35-74 years are available (686 men, 702 women). Urinary excretion is assayed by a central lab. Persons with urinary volume &amp;lt; 500 ml and/or a urinary creatinine content referred to body weight outside the range of population mean ± 2 standard deviations are excluded. Results Out of 657 men and 671 women, mean level of salt per day was 9,2 g (95% CI: 9,0-9.5 g) and 7,1 g (6,9-7,3 g) respectively, and mean level of potassium per day was 2,9 g (2,8-3,0 g) and 2,4 g (2,3-2,5 g) respectively. A salt intake level lower than the WHO recommended target of 5g/day was detected in 9,5 % (5,2 -13,9 %) of men and 23,7 % (17,5 -29,9 %) of women and a potassium intake level higher than the WHO recommended target of 3510 mg/day was detected in 22,4 % (16,3 -28,6 %) of men and 9,7 % (5,4 -14,0 %) of women. Conclusions These preliminary data showed that in Italian adults the average salt intake is still higher and the average potassium intake is still lower than recommended. Compared to 2008, the habitual salt intake decreased of about 12% in 2018 and remained stable in 2023; the habitual potassium intake remained stable in 2008, 2018 and 2023.These results justify and encourage the ongoing preventive initiatives of MoH, facilitating the meeting of WHO targets. Key messages • In Italian adults the average salt intake is still higher than recommended and the habitual salt intake decreased compared to 15 years ago. • In Italian adults the average potassium intake is still lower than recommended and remained stable compared to 15 years ago.

Urine chloride trajectory and relationship with diuretic response in acute heart failure.

Sodium excretion is a well-defined marker used to assess diuretic response in acute heart failure (AHF). Despite a strong pathophysiological background, the role of urine chloride excretion has not been described and established yet. We aimed to evaluate chloride trajectory during intensive diuretic treatment in AHF patients and examine its potential role in predicting poor diuretic response. The study was conducted on 50 AHF patients. Participants were included within the first 36h of hospitalization. They received furosemide dose adjusted for body weight (half in bolus, half in 2h infusion). Post-diuretic hourly urine collection with biochemical analysis was performed. In general, the concentrations of urine chloride (uCl-) and sodium (uNa+) at the baseline samples exhibited a comparable level (71±39 vs. 70±44mmol/L, respectively; P=0.99), but across all post-furosemide study timepoints, uCl- remained significantly higher than uNa+ since 1 to 6h of the study. In this course, both ions (uCl- and uNa+) reached peak values in 2h (114±28 vs. 97±34mmol/L, respectively; P<0.01). The pattern of uCl- dominance over uNa+ concentration was also observed in separate analyses of patients naïve to furosemide and those chronically exposed to furosemide. Regardless of these patterns, naïve to furosemide individuals excreted more ions (both uCl- and uNa+) than chronically exposed patients at all timepoints. Additionally, a strong, linear correlation between uCl- and uNa+ was observed in each post-furosemide timepoint (the strongest in 1h r=0.87; P<0.001). Both interdependent ions concentration was almost parallel when analysed in chronic furosemide users and those naïve to furosemide separately [uCl-=0.85*uNa++28.82, P<0.001, R2=0.83 for chronic furosemide users, and uCl-=0.72*uNa++41.55, P<0.001, R2=0.65 for naïves to furosemide (linear regression model)]. Moreover, uCl- (with cutoff point: 72mmol/L) was a satisfactory predictive factor for poor diuretic response (<100mL/h in 6h since the beginning of furosemide infusion) [odds ratio (OR) 95% confidence interval (CI): 39.0 (3.8-405.00)]. It presented those properties also after adjusting for urine creatinine [cutoff point: 0.296mmol/mg-OR (95% CI): 81.0 (8.0-816.0)]. Urine chloride and sodium are highly interrelated during decongestion of AHF patients. The uCl- (cutoff 72mmol/L) exhibits better prognostic abilities to identify poor diuretic response than uNa+.

Insulin Resistance in Hypercalciuric Calcium Kidney Stone Patients

Rational and ObjectiveDiabetes and uric acid kidney stones are strongly associated. Patients with calcium kidney stones also have higher risk of developing diabetes compared to non-kidney stone patients yet this has not been further investigated. We aimed to characterize insulin resistance in calcium kidney stone patients. Study DesignObservational Setting & PopulationThis study was performed in the University of Chicago Clinical Research Center. Kidney stone patients (N=42) were selected for having idiopathic hypercalciuria and calcium stones with no other medical conditions and controls (N=27) were healthy. ExposuresAll participants presented to the Clinical Research Center in a fasting state and at least 2 timed fasting blood and urine were collected prior to a fixed breakfast. Six additional timed blood and urine collections were performed after breakfast. OutcomesWe compared fasting and fed indices of insulin resistance between the groups. Analytic ApproachWe used t-tests and multivariable linear regression models. A sensitivity analysis removing all patients who had ever been on a thiazide diuretic was also performed. ResultsIn separate multivariable linear models, kidney stone patients had higher fasting serum insulin (24 (3 to 46pmol/L), p=0.03) and higher homeostatic model of insulin resistance (HOMA-IR) (1.0 (0.2 to 1.8), p=0.02). In separate multivariable linear models, kidney stone patients had higher fed serum glucose (10 (2 to 18mg/dL), p=0.01). Results were similar in a sensitivity analysis removing all patients who had ever been on a thiazide diuretic. There were no differences in urine composition based on HOMA-IR levels. LimitationsSingle institution. Small sample size limited subanalyses by different calcium stone types. ConclusionsCalcium kidney stone patients without diabetes or other medical conditions demonstrated signs of insulin resistance compared to healthy matched controls.

Periodontitis and pre-eclampsia among pregnant women in Rwanda: A case-control study.

Several studies have indicated that the presence of periodontitis during pregnancy could increase the risk of developing pre-eclampsia, thereby negatively influencing pregnancy outcomes for both the mother and child. Notably, despite the high prevalence of both periodontitis and adverse pregnancy outcomes in Rwanda, there exists a crucial evidence gap concerning the precise relationship between periodontitis and pre-eclampsia. The aim of this study was to assess the association between periodontitis and pre-eclampsia amongst pregnant women in Rwanda. Employing an unmatched 1:2 case-control design, we studied 52 pre-eclamptic and 104 non-pre-eclamptic pregnant women aged ≥18 years at two referral hospitals in Rwanda. Pre-eclampsia was defined as a systolic blood pressure ≥ 140 and diastolic blood pressure ≥ 90 mm Hg, diagnosed after 20 weeks of gestation and proteinuria of ≥300mL in 24 hours of urine collection. Periodontitis was defined as the presence of two or more teeth with one or more sites with a pocket depth ≥ 4mm and clinical attachment loss >3 mm at the same site, assessed through clinical attachment loss measurement. Bivariate analysis and logistic regression were used to estimate Odds ratio (ORs) and 95% confidence interval. The prevalence of periodontitis was significantly higher among women with pre-eclampsia, compared to pregnant women without pre-eclampsia, at 90.4% and 55.8%, respectively (p< 0.001). Pregnant Women with periodontitis were 3.85 times more likely to develop pre-eclampsia after controlling for relevant confounders (adjusted Odds Ratio [aOR] = 3.85, 95%CI = 1.14-12.97, p<0.05). This study results indicates that periodontitis is significantly associated with pre-eclampsia among pregnant women in Rwanda. These findings suggest that future research should explore whether enhancing periodontal health during pregnancy could contribute to reducing pre-eclampsia in this specific population.

Associations between Dietary Patterns, Fluoride Intake and Excretion in Women Exposed to Fluoridated Salt: A Preliminary Study

Abundant information exists on fluoride intake and excretion in populations exposed to fluoridated water, but not fluoridated salt, where fluoride is eaten through a combination of foods and beverages. This study assessed associations between dietary patterns, fluoride intake and excretion in Mexican women exposed to fluoridated salt. We estimated dietary fluoride intake and excretion (mg/day) from 31 women using 24-h recalls (ASA24) and 24-h urine collections (HDMS diffusion method) and assessed agreement among both estimates of exposure with a Bland-Altman plot. Dietary patterns among the sample were explored by Principal Component Analysis and associations between these patterns and both fluoride intake and excretion were estimated. using Quantile Regressions. Median dietary fluoride intake and excretion were 0.95 and 0.90 mg/day, respectively, with better agreement at values below 1.5 mg/day. We identified three dietary patterns: “Urban Convenience”, “Plant-based” and “Egg-based”. The “Urban Convenience” pattern, characterized by dairy and convenience foods was associated with an increase of 0.25 mg and 0.34 mg of F in the 25th and 50th percentiles of intake respectively, (p &lt; 0.01), and a marginal 0.22 mg decrease in urinary fluoride (p = 0.06). In conclusion, in this sample of Mexican women, a dietary pattern rich in dairy and convenience foods, was associated with both fluoride intake and excretion.