Intestinal Microbial and Metabolic Alterations Following Successful Fecal Microbiota Transplant for D-Lactic Acidosis.

Fecal microbiota transplantation (FMT) involves the transfer of stool from a healthy individual into the intestinal tract of a diseased recipient. Although used primarily for recurrent Clostridium difficile infection, FMT is increasingly being attempted as an experimental therapy for other illnesses, including metabolic disorders. D-lactic acidosis (D-LA) is a metabolic disorder that may occur in individuals with short bowel syndrome when lactate-producing bacteria in the colon overproduce D-lactate. This results in elevated systemic levels of D-lactate, metabolic acidosis, and encephalopathy. In this study, we report the successful use of FMT for the treatment of recurrent D-LA in a child who was unresponsive to conventional therapies. Importantly, we also present profiles of the enteric microbiota, as well as fecal D-/L-lactic acid metabolites, before and longitudinally after FMT. These data provide valuable insight into the putative mechanisms of D-LA pathogenesis and its treatment.

An in vitro model of the horse gut microbiome enables identification of lactate-utilizing bacteria that differentially respond to starch induction.

Laminitis is a chronic, crippling disease triggered by the sudden influx of dietary starch. Starch reaches the hindgut resulting in enrichment of lactic acid bacteria, lactate accumulation, and acidification of the gut contents. Bacterial products enter the bloodstream and precipitate systemic inflammation. Hindgut lactate levels are normally low because specific bacterial groups convert lactate to short chain fatty acids. Why this mechanism fails when lactate levels rapidly rise, and why some hindgut communities can recover is unknown. Fecal samples from three adult horses eating identical diets provided bacterial communities for this in vitro study. Triplicate microcosms of fecal slurries were enriched with lactate and/or starch. Metabolic products (short chain fatty acids, headspace gases, and hydrogen sulfide) were measured and microbial community compositions determined using Illumina 16S rRNA sequencing over 12-hour intervals. We report that patterns of change in short chain fatty acid levels and pH in our in vitro system are similar to those seen in in vivo laminitis induction models. Community differences between microcosms with disparate abilities to clear excess lactate suggest profiles conferring resistance of starch-induction conditions. Where lactate levels recover following starch induction conditions, propionate and acetate levels rise correspondingly and taxa related to Megasphaeraelsdenii reach levels exceeding 70% relative abundance. In lactate and control cultures, taxa related to Veillonellamontpellierensis are enriched as lactate levels fall. Understanding these community differences and factors promoting the growth of specific lactate utilizing taxa may be useful to prevent acidosis under starch-induction conditions.

Quantitative analysis of fecal flora in goat kids with and without floppy kid syndrome.

BACKGROUND: Floppy kid syndrome (FKS) affects goat kids in the first month of life and is associated with high morbidity and mortality rates. The condition is characterized by neurological signs that can be ascribed to increased plasma D-lactate concentrations. The source of D-lactate has not been identified conclusively, but D-lactate-producing bacteria in the large intestine are thought to be involved. OBJECTIVES: To determine the number of colony-forming unit (CFUs) of certain groups of bacteria in the feces of kids with and without FKS. ANIMALS: Nineteen goat kids with clinical signs of FKS, acidemia (pH ≤ 7.2), and plasma D-lactate concentration >7 mM and 15 healthy goat kids without acidemia (pH >7.2) and D-lactate concentration <1 mM. METHODS: In this case-control study, the goat kids were examined clinically and blood was collected to measure D-lactate concentration, blood gases, and acid-base parameters. Fecal samples were collected and the total aerobic bacterial count and CFU counts of coliforms, enterococci, staphylococci, streptococci, lactobacilli, and clostridia were determined using the surface plating method. RESULTS: Goat kids with FKS had a mean plasma D-lactate concentration of 10.9 ± 3.7 mM compared with 0.3 ± 0.9 mM in healthy kids, and significantly greater CFU counts for enterococci, streptococci, staphylococci, and lactobacilli than healthy kids. CONCLUSIONS AND CLINICAL IMPORTANCE: The groups of bacteria present in greater numbers in the feces of goat kids with FKS include several D-lactate-producing species, which makes dysbacteriosis a likely cause of the increased plasma D-lactate concentration in FKS.

Ecology and pathogenicity of gastrointestinal Streptococcus bovis.

Streptococcus bovis is an indigenous resident in the gastrointestinal tracts of both humans and animals. S. bovis is one of the major causes of bacterial endocarditis and has been implicated in the incidence of human colon cancer, possibly due to chronic inflammatory response at the site of intestinal colonization. Certain feeding regimens in ruminants can lead to overgrowth of S. bovis in the rumen, resulting in the over-production of lactate and capsular polysaccharide causing acute ruminal acidosis and bloat, respectively. There are multiple strategies in controlling acute lactic acidosis and bloat. The incidence of the two diseases may be controlled by strict dietary management. Gradual introduction of grain-based diets and the feeding of coarsely chopped roughage decrease the incidence of the two disease entities. Ionophores, which have been used to enhance feed conversion and growth rate in cattle, have been shown to inhibit the growth of lactic acid bacteria in the rumen. Other methods of controlling lactic acid bacteria in the ruminal environment (dietary supplementation of long-chain fatty acids, induction of passive and active immune responses to the bacteria, and the use of lytic bacteriophages) have also been investigated. It is anticipated that through continued in-depth ecological analysis of S. bovis the characteristics responsible for human and animal pathogenesis would be sufficiently identified to a point where more effective control strategies for the control of this bacteria can be developed.

[D-lactic acidosis in a child with short bowel syndrome]. / Acidose d-lactique chez un enfant présentant un syndrome de grêle court.

INTRODUCTION: d-lactic acidosis is a rare and severe complication of short bowel syndrome in children that may result from important ileal bacterial overgrowth by lactobacilli. Intestinal flora (Lactobacilli) is responsible for the production of d-lactic acid after fermentation of food carbohydrates. OBSERVATION: We report on the case of a 6-year-old child with a short bowel syndrome treated with both home enteral and parenteral nutrition. The patient suddenly presented with acute neurological symptoms including dysarthria and disorientation. Biological analysis revealed metabolic acidosis, increased plasma d-lactic acid assessed by organic acid chromatography analysis and a very important increase in expired hydrogen during glucose breath test. Lactobacillus fermentum (known to produce d and L isomers of lactic acid) was isolated in the gastric liquid and rectal swabs. Clinical and biological evolution was rapidly favourable after treatment with intravenous sodium bicarbonate, antibiotic therapy and interruption of enteral nutrition. CONCLUSION: d-lactic acidosis should be suspected when neurological symptoms occur in a child with short bowel syndrome. They can be prevented by treating intestinal bacterial overgrowth.

Yeast mediates lactic acidosis suppression after antibiotic cocktail treatment in short small bowel?

During acidotic periods in a girl with a short small bowel, very high D-lactic acid concentrations were measured in blood and urine; the patient's characteristic faecal flora contained mainly lactobacilli, and during antibiotic cocktail treatment also many yeasts. In this case report we sought to understand the beneficial effect of the antibiotic cocktail. Microbiological analysis was performed in faecal samples. Total lactic acid in serum and urine was studied using capillary gas chromatography-mass spectrometry, and D- and L-lactic acid in serum and urine by enzymatic assay. The results were coupled to patient's condition. Antibiotic cocktail therapy reduced the acidosis-associated symptoms, faecal lactobacilli and D-lactic acid production, but simultaneously the antibiotic therapy strongly increased the percentage of yeast in the faecal flora. Four to six weeks after each course of treatment the percentage of yeast decreased, whereas the percentage of intestinal lactobacilli increased; D-lactic acid also simultaneously increased in blood and urine. The patient felt well and showed a high percentage of intestinal yeast, but she often suffered from acidosis owing to a high percentage of lactobacilli. The yeast was identified as the pathogenic Candida glabrata. From the mentioned data together with data from the literature it was concluded that during several weeks the selected pathogenic yeast, C. glabrata, acted as a microbiological and metabolic buffer. Shortly after the course of antibiotic treatment this intestinal yeast strongly competed with the intestinal lactobacilli and thus prevented renewed rapid growth, massive D-lactic acid production from glucose and consequently also D-lactic acid-associated acidosis. The emergence of this yeast led us to consider probiotic lactobacilli or yeast for therapeutic use. The lack of knowledge regarding bile acid-deconjugating activity in both lactobacilli and probiotic yeast means that a final recommendation is not yet possible.

Estudo clínico e características do suco ruminal de caprinos com acidose láctica induzida experimentalmente / Clinical study and characteristics of the ruminal fluid of goats in experimentally induced lactic acidosis

Este trabalho teve por objetivo estudar os efeitos da acidose láctica ruminal, induzida experimentalmente em caprinos, sobre o quadro clínico, as características físico-químicas e microbiológicas do fluido ruminal. Para tal, foram utilizados dez animais, sem raça definida (SRD), com peso médio de 25 kg, machos, com um a dois anos de idade, fistulados, clinicamente sadios e mantidos em baias. Após se estabelecer os padrões de normalidade para as variáveis estudadas, os animais foram induzidos experimentalmente a ter a acidose ruminal empregando-se a sacarose, na dose de 15 g/kg de peso corporal. As observações clínicas e laboratoriais foram realizadas nos intervalos de 4, 8, 12, 16, 24, 32, 48, 72, 96, 120 e 144 horas, após a indução (PI) onde se avaliou a intensidade do processo da acidose láctica ruminal. Os caprinos estudados apresentaram manifestações clínicas de acidose láctica ruminal já a partir das 4 horas PI, cujos sinais como apatia, anorexia, taquicardia, atonia ruminal, distensão abdominal e diarréia de intensidade variável foram observados. As características do suco ruminal sofreram alterações, ocorreu a redução do pH para valores inferiores a 5, a cor tornou-se leitosa, o odor ácido e a consistência aquosa. O tempo de atividade de sedimentação (TAS) reduziu seus valores, e a dinâmica da fauna e flora ficaram comprometidas, havendo um predomínio da microbiota Gram-positiva. Ao término do período de observação constatou-se que em alguns animais não ocorreu o restabelecimento pleno das variáveis analisadas.

D(-)-lactic acid-producing probiotics, D(-)-lactic acidosis and infants.

There is mounting evidence that ingestion of selected probiotics can modify disease morbidity for specific conditions affecting humans, and there is growing interest in the amelioration or prevention of disease with probiotics. Modulation in gene expression of the cellular elements of the intestinal mucosa and interbacterial interactions are leading theories as to the mechanism whereby probiotics can effect benefit for the host. Furthermore, gene-environmental interactions are considered to be important in the development of disease in those at genetic risk. With the intestinal tract harbouring large numbers of bacteria, alteration of the microbial environment with probiotic microbes is being considered as a controllable factor that may limit disease expression for those at genetic risk. This reasoning has led to interest in the administration of probiotics to infants. However, there are significant developmental changes occurring in many organ systems from the time of parturition and during the first months of life. Because there is little in the published scientific medical literature regarding the effects of long-term administration of probiotics to infants, potential problems must be considered; one such issue is that of administration of D(-)-lactate-producing probiotics. An appraisal of the current knowledge of this potential adverse effect is the subject of this communication.

Effects of epinephrine and norepinephrine on hemodynamics, oxidative metabolism, and organ energetics in endotoxemic rats.

OBJECTIVE: To determine whether epinephrine increases lactate concentration in sepsis through hypoxia or through a particular thermogenic or metabolic pathway. DESIGN: Prospective, controlled experimental study in rats. SETTING: Experimental laboratory in a university teaching hospital. INTERVENTIONS: Three groups of anesthetized, mechanically ventilated male Wistar rats received an intravenous infusion of 15 mg/kg Escherichia coli O127:B8 endotoxin. Rats were treated after 90 min by epinephrine ( n=14), norepinephrine ( n=14), or hydroxyethyl starch ( n=14). Three groups of six rats served as time-matched control groups and received saline, epinephrine, or norepinephrine from 90 to 180 degrees min. Mean arterial pressure, aortic, renal, mesenteric and femoral blood flow, arterial blood gases, lactate, pyruvate, and nitrate were measured at baseline and 90 and 180 min after endotoxin challenge. At the end of experiments biopsy samples were taken from the liver, heart, muscle, kidney, and small intestine for tissue adenine nucleotide and lactate/pyruvate measurements. MEASUREMENTS AND RESULTS: Endotoxin induced a decrease in mean arterial pressure and in aortic, mesenteric, and renal blood flow. Plasmatic and tissue lactate increased with a high lactate/pyruvate (L/P) ratio. ATP decreased in liver, kidney, and heart. The ATP/ADP ratio did not change, and phosphocreatinine decreased in all organs. Epinephrine and norepinephrine increased mean arterial pressure to baseline values. Epinephrine increased aortic blood flow while renal blood low decreased with both drugs. Plasmatic lactate increased with a stable L/P ratio with epinephrine and did not change with norepinephrine compared to endotoxin values. Nevertheless epinephrine and norepinephrine when compared to endotoxin values did not change tissue L/P ratios or ATP concentration in muscle, heart, gut, or liver. In kidney both drugs decreased ATP concentration. CONCLUSIONS: Our data demonstrate in a rat model of endotoxemia that epinephrine-induced hyperlactatemia is not related to cellular hypoxia.

The hepatosplanchnic area is not a common source of lactate in patients with severe sepsis.

OBJECTIVE: To investigate the role of the splanchnic region in the hyperlactatemia of septic patients. DESIGN: Prospective, observational study. SETTING: Thirty-one-bed mixed medicosurgical intensive care unit. PATIENTS: Ninety invasively monitored and mechanically ventilated patients with severe sepsis. MEASUREMENTS AND MAIN RESULTS: Splanchnic lactate balance was measured in all patients. Splanchnic blood flow was determined by using the primed continuous indocyanine green infusion technique in 69 patients. In 71 patients, gastric mucosal Pco2 and the Pco2 gap (the difference between gastric and arterial Pco2) also were determined by using gas tonometry with an automated gas analyzer. In each patient, arterial, mixed-venous, and hepatic venous blood samples were obtained to determine hemoglobin oxygen saturations and lactate concentrations. Arterial and hepatic venous lactate concentrations were determined in triplicate and were averaged, and the arterial hepatic venous difference in lactate and lactate consumption were calculated. The splanchnic region produced lactate in only six of the 90 patients. Mean arterial pressure, cardiac index, arterial lactate, hepatic venous oxygen saturation, and catecholamine use were similar in the six patients with splanchnic lactate production and in the 84 others. The arterial hepatic venous differences in lactate and splanchnic lactate consumption were related directly to arterial lactate concentrations (y = 0.073x + 0.209, r(2) =.06, p <.05, and y = 0.06x + 0.183, r(2) =.08, p <.05, respectively) but were not related to Pco2 gap, to the gradient between mixed-venous and hepatic venous oxygen saturations, or to bilirubin concentrations. CONCLUSIONS: Splanchnic lactate release is uncommon in septic patients, even when hyperlactatemia is severe.

Management of the patient with short bowel syndrome.

Extensive resection of the small bowel results in impaired digestion of macronutrients and malabsorption of nutrients, fluid, electrolytes, and minerals. Gastric acid hypersecretion and alterations in gut hormonal response further contribute to the problem. Diarrhea, dehydration, electrolyte and acid/base abnormalities, and macronutrient and micronutrient deficiencies ensue, and is termed the short bowel syndrome (SBS). Rare disorders, such as essential fatty acid deficiency and D-lactic acidosis, are a greater concern for the SBS patient. These patients' lives are significantly impacted, and they require close monitoring by a medical team knowledgeable about the disease and its nutritional, metabolic, and psychosocial consequences. Immediate therapies are directed toward fluid resuscitation, wound healing, and initiation of early nutrition support. After medical stabilization, multiple nutritional and medicinal therapies are used to aid bowel adaptation and prevent medical crisis. Advanced practice nurses should be knowledgeable about SBS to educate patients and families about this disease, associated therapies and changes in lifestyle, and how to detect and manage acute changes in medical condition.

Fecal microflora in a patient with short-bowel syndrome and identification of dominant lactobacilli.

Fecal microflora and lactate concentrations in blood and feces obtained from a patient (a 5 year-old boy) with short-bowel syndrome (SBS) were compared during acidosis to results for the normal condition (no SBS symptoms). The taxonomical position of the lactobacilli found predominantly in the feces sample obtained 2 days before the fifth attack was also studied. The D-lactate level in serum obtained 1 day after the fourth attack was 10-fold higher than that for the normal condition, although there was not a great difference in L-lactate levels. D-Lactate (3.91 mM) and L-lactate (2.86 mM) were also detected in the feces samples collected 2 days before the fifth attack, while no lactate was detected in the feces sample for the normal condition. The counts of total fecal bacteria, especially anaerobic bacteria such as members of the family Bacteroidaceae, were found to be low. The counts of lactobacilli and the total population of lactobacilli relative to total fecal bacteria in the feces 2 days before the fifth attack (40.4%) were extremely high. In this case, a majority of the lactobacilli were D-lactate producers as determined by homolactic fermentation. These lactobacilli were identified as Lactobacillus delbrueckii subsp. lactis. The percentages of bifidobacteria relative to total fecal bacteria in feces samples obtained both 2 days before the fifth attack (50.9%) and for normal condition (61.9%) were also high, although these bacteria were L-lactate producers. In the feces samples for the normal condition, the D-lactate producers decreased to less than 10(9) per g, while the counts of L- or DL-lactate producers were 100-fold higher than the numbers in feces samples obtained 2 days before the fifth attack. These results suggested that an increase in the level of D-lactate producers, such as L. delbrueckii subsp. lactis, in the colon may be associated with the clinical expression of metabolic acidosis.

Role of bacteria in the pathogenesis of short bowel syndrome-associated D-lactic acidemia.

Previously, we have demonstrated that short bowel syndrome (SBS) patients suffer daily from D-lactic acidemia; in these patients rather high amounts of (bacterial) D-lactate emerge in blood and urine with a circadian rhythm. The aim of this study was to establish the microbial basis of D-lactic acidemia in SBS. Therefore, faecal flora of (young and adult) SBS-patients was analysed qualitatively and quantitatively, and compared to that of controls. The isolated bacterial species were screened for massive D- and/or L-lactate production after in vitro growth. After introduction of oral feeding in SBS-infants shortly after the resection, lactobacilli increased from < or = 1% up to 60 +/- 5% of the faecal flora within 2-3 weeks. In the faeces of patients with oral feeding the lactate producers Lactobacillus acidophilus and Lactobacillus fermentum were the major resident bacteria (each with 10(10)-10(12) cfu/g faeces). During active growth in vitro these lactobacilli produced massive amounts of D- and L-lactic acid from glucose. Use of oral antibiotics in two SBS-children did not reduce the total numbers of lactobacilli, but caused shifts within the intestinal populations of at least lactobacilli. It is concluded that the strongly reduced intestinal capacity for carbohydrate absorption and the oral consumption of easily fermentable carbohydrates form the physiological basis for D-lactic acidemia in SBS, and that the fermentative D-lactate production by intestinal bacteria, especially the abundant, resident lactobacilli, forms its microbial basis. In these patients the antimicrobial and therapeutic effects of antibiotics are unpredictable.

Sepsis and serum cytokine concentrations.

OBJECTIVE: To look for relationships between the classification of sepsis and plasma cytokine concentrations. DESIGN: Prospective, consecutive entry study of patients meeting severe sepsis criteria and having bacteriologically documented infections. SETTING: University hospital, surgical intensive care unit. PATIENTS: Fifty consecutive patients developing severe sepsis or septic shock between December 1991 and December 1993. MEASUREMENTS AND MAIN RESULTS: Concentrations of tumor necrosis factor, interleukin (IL)-6, IL-8, and leukemia inhibitory factor were measured by immunoradiometric assay in the plasma of patients as soon as they developed severe sepsis or septic shock. Septic shock patients were divided into three groups in a blinded fashion (i.e., without knowing the results of the concentrations of cytokines), according to the presence of sustained hyperlactacidemia and to the rapidity of the onset of sepsis. Peak concentrations of all cytokines were statistically different between severe sepsis and septic shock patients. This finding was almost exclusively due to the data from patients with rapid onset of septic shock, who demonstrated very high but transient cytokine concentrations. Septic shock patients may thus have different profiles in the time course of their cytokine concentrations. The transient, high peak concentrations of cytokines were also related to transient leukopenia. Among the cytokines measured, IL-8 appeared to be the one that correlated best with lactacidemia, the presence of disseminated intravascular coagulation, severe hypoxemia, the Acute Physiology and Chronic Health Evaluation II score, and mortality rate. CONCLUSIONS: According to the profiles of the cytokines, septic shock patients do not represent a homogeneous population. These profiles should be described in order to distinguish between patients, and the profiles may be useful to identify those patients susceptible to new therapies.

Infección por Gardnerella vaginalis en parejas heterosexuales: estudio ultraestructural en células de descamación del epitelio estratificado / Gardnerella vaginalis infection in heterosexual couples: ultrastructural al study in descamation cells of stratified epithelium

La vaginosis bacteriana es una de las infecciones más frecuentes en la edad reproductiva de la mujer. La flora normal de lactobacilos es sustituída por concentraciones relativamente elevadas de Gardnerella vaginalis (GV), bacteroides anaerobios, Mobiluncus y Mycoplasma. El objetivo de este trabajo es hacer un análisis morfológico de los posibles mecanismos de adhesión y penetración de GV en la pareja heterosexual tanto en el epitelio escamoso de la pared vaginal como en el líquido seminal. Para cumplir con nuestro objetivo se estudiaron 10 parejas con cultivo de GV que tenían de 3 a 4 días de abstenencia sexual. Las mujeres presentaron al menos 3 de los 4 criterios de Amsel. Se obtuvieron muestras de las paredes laterales de la vagina y de líquido seminal, éstas se dividieron en dos partes: 1) para realizar cultivos para GV, Ureaplasma urealyticum y Mycoplasma hominis, y 2)para un análisis ultraestructural. Las muestras fueron procesadas con las técnicas habituales para microscopía electrónica. En las células vaginales se encontraron bacterias semejantes a GV en forma libre, adherencias a la membrana plasmática y dentro del citoplasma celular. En el líquido seminal se encontraron numerosas células ureterales de descamación que presentaron, al igual que en la mujer, bacterias en forma libre, adherida a la membrana plasmática y dentro del citoplasma. En 4 casos se encontraron bacterias semejantes a mycoplasma y un caso con partículas que sugieren citomegalovirus. En este trabajo se concluye que: 1) el varón presenta células uretrales semejantes a células guía" de la vagina de la mujer 2) la GV coloniza el epitelio ureteral del varón, 3) el varón es capaz de infectar y/o reinfectar a la mujer

Effects of the ionophores monensin and tetronasin on simulated development of ruminal lactic acidosis in vitro.

A continuous coculture of four ruminal bacteria, Megasphaera elsdenii, Selenomonas ruminantium, Streptococcus bovis, and Lactobacillus sp. strain LB17, was used to study the effects of the ionophores monensin and tetronasin on the changes in ruminal microbial ecology that occur during the onset of lactic acidosis. In control incubations, the system simulated the development of lactic acidosis in vivo, with an initial overgrowth of S. bovis when an excess of glucose was added to the fermentor. Lactobacillus sp. strain LB17 subsequently became dominant as pH fell and lactate concentration rose. Both ionophores were able to prevent the accumulation of lactic acid and maintain a healthy non-lactate-producing bacterial population when added at the same time as an excess of glucose. Tetronasin was more potent in this respect than monensin. When tetronasin was added to the culture 24 h after glucose, the proliferation of lactobacilli was reversed and a non-lactate-producing bacterial population developed, with an associated drop in lactate concentration in the fermentor. Rises in culture pH and volatile fatty acid concentrations accompanied these changes. Monensin was unable to suppress the growth of lactobacilli; therefore, in contrast to tetronasin, monensin added 24 h after the addition of glucose failed to reverse the acidosis. Numbers of lactobacilli and lactate concentrations remained high, whereas pH and volatile fatty acid concentrations were low.