The Nobel Prize of Physiology or Medicine, 1923: controversies on the discovery of the antidiabetic hormone.

AIMS: To analyze the main contributions to the discovery of the antidiabetic hormone in the period between 1889, the year in which Oskar Minkowski demonstrated that complete pancreatectomy in dogs caused diabetes, and the year 1923, the date in which the clinical use of insulin was consolidated. A main objective has been to review the controversies that followed the Nobel Prize and to outline the role of the priority rule in Science. METHODS: We have considered the priority rule defined by Robert Merton in 1957, which takes into account the date of acceptance of the report of a discovery in an accredited scientific journal and/or the granting of a patent, complemented by the criteria set out by Ronald Vale and Anthony Hyman (2016) regarding the transfer of information to the scientific community and its validation by it. The awarding of the Nobel Prize in Physiology or Medicine in October 1923 has represented a frame of reference. The claims and disputes regarding the prioritization of the contributions of the main researchers in the organotherapy of diabetes have been analyzed through the study of their scientific production and the debate generated in academic institutions. MAIN RESULTS AND CONCLUSIONS: (1) According to the criteria of Merton, Vale and Hyman, the priority of the discovery of the antidiabetic hormone corresponds to the investigations developed in Europe by E. Gley (1900), GL Zülzer (1908) and NC Paulescu (1920). (2) The active principle of the pancreatic extracts developed by Zülzer (acomatol), Paulescu (pancreina) and Banting and Best (insulin) was the same. (3) JB Collip succeeded in isolating the active ingredient from the pancreatic extract in January 1922, eliminating impurities to the point of enabling its use in the clinic. (4) In 1972, the Nobel Foundation modified the purpose of the 1923 Physiology or Medicine award to Banting and Macleod by introducing a new wording: "the credit for having produced the pancreatic hormone in a practical available form" (instead of "for the discovery of insulin").

I-European research, the cradle of the discovery of the antidiabetic hormone: the pioneer roles and the relevance of Oskar Minkowski and Eugène Gley.

AIMS: The introduction of hormonal treatment in severe diabetes in 1922 represented a clinical and social impact similar to that of antibiotic therapy. In October 1923, the Assembly of the Karolinska Institute decided to award the Nobel Prize in Physiology or Medicine to the Canadian Frederick Grant Banting and the Scottish John James Rickard Macleod, researchers at the University of Toronto (UT), for "the discovery of insulin a year before". A few weeks later, European and American researchers protested the decision. The controversy remains to this day. METHODS: We have conducted a comprehensive review of primary and critical sources focused on the organotherapy of animal and human diabetes mellitus since 1889, when Oskar Minkowski demonstrated the induction of experimental diabetes by total pancreatectomy in the dog, until the spring of 1923, when the Nobel Foundation had already received all the nominations for the award in Physiology or Medicine. RESULTS: The in-depth analysis of all these sources revealed that Europe was the cradle of the discovery of the antidiabetic hormone. The discovery involved multiple research steps headed by a long list of key investigators, mainly European. CONCLUSION: Marcel Eugène Émile Gley was the first to demonstrate the presence of the "antidiabetic principle" in extracts from "sclerosed" pancreas. The French physiologist pioneered the successful reduction of glycosuria and diabetic symptoms by the parenteral administration of pancreatic extracts to depancreatized dogs in experiments developed between 1890 and 1905, antedating insulin in two decades.

Live enteroviruses, but not other viruses, detected in human pancreas at the onset of type 1 diabetes in the DiViD study.

AIMS/HYPOTHESIS: Enterovirus (EV) infection of pancreatic islet cells is one possible factor contributing to type 1 diabetes development. We have reported the presence of EV genome by PCR and of EV proteins by immunohistochemistry in pancreatic sections. Here we explore multiple human virus species in the Diabetes Virus Detection (DiViD) study cases using innovative methods, including virus passage in cell cultures. METHODS: Six recent-onset type 1 diabetes patients (age 24-35) were included in the DiViD study. Minimal pancreatic tail resection was performed under sterile conditions. Eleven live cases (age 43-83) of pancreatic carcinoma without diabetes served as control cases. In the present study, we used EV detection methods that combine virus growth in cell culture, gene amplification and detection of virus-coded proteins by immunofluorescence. Pancreas homogenates in cell culture medium were incubated with EV-susceptible cell lines for 3 days. Two to three blind passages were performed. DNA and RNA were extracted from both pancreas tissue and cell cultures. Real-time PCR was used for detecting 20 different viral agents other than EVs (six herpesviruses, human polyomavirus [BK virus and JC virus], parvovirus B19, hepatitis B virus, hepatitis C virus, hepatitis A virus, mumps, rubella, influenza A/B, parainfluenza 1-4, respiratory syncytial virus, astrovirus, norovirus, rotavirus). EV genomes were detected by endpoint PCR using five primer pairs targeting the partially conserved 5' untranslated region genome region of the A, B, C and D species. Amplicons were sequenced. The expression of EV capsid proteins was evaluated in cultured cells using a panel of EV antibodies. RESULTS: Samples from six of six individuals with type 1 diabetes (cases) and two of 11 individuals without diabetes (control cases) contained EV genomes (p<0.05). In contrast, genomes of 20 human viruses other than EVs could be detected only once in an individual with diabetes (Epstein-Barr virus) and once in an individual without diabetes (parvovirus B19). EV detection was confirmed by immunofluorescence of cultured cells incubated with pancreatic extracts: viral antigens were expressed in the cytoplasm of approximately 1% of cells. Notably, infection could be transmitted from EV-positive cell cultures to uninfected cell cultures using supernatants filtered through 100 nm membranes, indicating that infectious agents of less than 100 nm were present in pancreases. Due to the slow progression of infection in EV-carrying cell cultures, cytopathic effects were not observed by standard microscopy but were recognised by measuring cell viability. Sequences of 5' untranslated region amplicons were compatible with EVs of the B, A and C species. Compared with control cell cultures exposed to EV-negative pancreatic extracts, EV-carrying cell cultures produced significantly higher levels of IL-6, IL-8 and monocyte chemoattractant protein-1 (MCP1). CONCLUSIONS/INTERPRETATION: Sensitive assays confirm that the pancreases of all DiViD cases contain EVs but no other viruses. Analogous EV strains have been found in pancreases of two of 11 individuals without diabetes. The detected EV strains can be passaged in series from one cell culture to another in the form of poorly replicating live viruses encoding antigenic proteins recognised by multiple EV-specific antibodies. Thus, the early phase of type 1 diabetes is associated with a low-grade infection by EVs, but not by other viral agents.

La découverte de l'insuline.

The first therapeutic benefits of insulin were recorded after the injection of pancreatic extract, given on January 23, 1922 in Toronto to a 14-year-old teenager. Until then, type I diabetes was always fatal, within weeks or months; the fatal outcome being delayed only at the cost of a drastic low-calorie diet. In previous decades, the importance of the pancreas in the development of diabetes had been pointed out, but all attempts to use a pancreatic extract had failed. It is with the objective of "neutralizing" the destructive effects of pancreatic juice (proteolytic) that the isolation of insulin was carried out by a research team which was totally improbable since it was headed by an orthopedic surgeon, Frederick Banting and a 22-year-old stagiaire, Charles Best. Their work was carried out in the university physiology laboratory of John Macleod and their outcome was made possible thanks to the skills of James Collip who purified the insulin preparation. Scientific reality invites us to emphasize that, Banting works, based on a wrong hypothesis, drew towards an historical discovery. Very quickly recognized as of major importance for medicine, the discovery was greeted by the attribution of the Nobel Prize in 1923. For a hundred years, insulin has not ceased to be an essential drug for tens of millions of patients in the world, but it has been a motor for scientific research: innovation in galenic pharmacy and biopharmacy, in fundamental chemistry as a subject for the study of the structure, analysis and synthesis of proteins, and finally, as a motor for the development of biotechnologies, since insulin was the first drug prepared by DNA-recombinant technology, and marketed in 1982.

Investigation of lipase-ligand interactions in porcine pancreatic extracts by microscale thermophoresis.

The evaluation of binding affinities between large biomolecules and small ligands is challenging and requires highly sensitive techniques. Microscale thermophoresis (MST) is an emerging biophysical technique used to overcome this limitation. This work describes the first MST binding method to evaluate binding affinities of small ligands to lipases from crude porcine pancreatic extracts. The conditions of the MST assay were thoroughly optimized to successfully evaluate the dissociation constant (Kd) between pancreatic lipases (PL) and triterpenoid compounds purified from oakwood. More precisely, the fluorescent labeling of PL (PL*) using RED-NHS dye was achieved via a buffer exchange procedure. The MST buffer was composed of 20 mM NaH2PO4 + 77 mM NaCl (pH 6.6) with 0.05% Triton-X added to efficiently prevent protein aggregation and adsorption, even when using only standard, uncoated MST capillaries. Storage at -20 °C ensured stability of PL* and its fluorescent signal. MST results showed that crude pancreatic extracts were suitable as a source of PL for the evaluation of binding affinities of small ligands. Quercotriterpenoside-I (QTT-I) demonstrated high PL* binding affinity (31 nM) followed by 3-O-galloylbarrinic acid (3-GBA) (500 nM) and bartogenic acid (BA) (1327 nM). To enrich the 50 kDa lipase responsible for the majority of hydrolysis activity in the crude pancreatic extracts, ammonium sulfate precipitation was attempted and its efficiency confirmed using capillary electrophoresis (CE)-based activity assays and HRMS. Moreover, to accurately explain enzyme modulation mechanism, it is imperative to complement binding assays with catalytic activity ones.

Neuroprotective, anti-α-glucosidase and prolipase active flavonoids from Good King Henry (Chenopodium bonus-henricus L.).

Nine glycosides of patuletin, 6-methoxykaempferol and spinacetin from Good King Henry (Chenopodium bonus-henricus L.) were investigated for neuroprotective, anti-α-glucosidase and lipase activities. All tested flavonoids (100 µM) showed statistically significant neuroprotective activities on isolated rat brain synaptosomes using 6-hydroxydopamine in vitro model. They preserved synaptosome viability as well as the reduced glutathione level. 6-Methoxykaempferol glycoside 9 possessed the most prominent neuroprotective and antioxidant effects, within the same range as silibinin (100 µM). Anti-α-glucosidase and lipase activities of the tested compounds were established by measuring the levels of the released 4-nitrophenol using LC-MS here for the first time. Patuletin glycosides 2 and 7 possessed similar activity to acarbose with IC50 210, 249 and 206 µM, respectively. All flavonoids exhibited prolipase activity and could be used in the treatment of cachexia. The most active were flavonoids, which contain esterified ferulic acid.

One hundred years ago: the dawning of the insulin era.

The dawn of the insulin era can be placed in 1921, when Banting and Best started their experiments which led, a year later, to the successful treatment of diabetes. They were preceded by the discoveries of the pancreatic cause of diabetes by Minkowski and von Mering in 1889 and of the islets by Paul Langerhans in 1869. The achievement of the first targeted treatment in medical history was a landmark of medical progress. However, it was accompanied by a mixture of human greatness and misery. Genius and recklessness, ambition and deception, camaraderie and rivalry, selflessness and pursuit of glory went along with superficial search of the existing literature, poor planning, faulty interpretation of results, failure to reproduce them, and misquoting of reports from other laboratories. Then as now, such faults surface whenever human nature aims to push forward the boundaries of knowledge and pose a real challenge in today's world, as the scientific method strives to keep healthy in the face of growing anti-scientific feelings.

Preventive Effect of High-Dose Digestive Enzyme Management on Development of Nonalcoholic Fatty Liver Disease after Pancreaticoduodenectomy: A Randomized Controlled Clinical Trial.

BACKGROUND: Nonalcoholic fatty liver disease (NAFLD) is a complication of pancreaticoduodenectomy (PD). We conducted a randomized clinical trial to determine if high-dose digestive enzymes prevented the development of NAFLD after PD. STUDY DESIGN: This parallel-group, nonblinded, multicenter study enrolled patients undergoing elective PD at Shinshu University School of Medicine, from June 2011 to April 2017. Patients were randomly assigned to receive normal-dose (Excelase: 3.0 g/day [Meiji Seika Pharma Holdings Co, Ltd]) or high-dose digestive enzyme treatment (Excelase: 3.0 g/day; Pancreatin [Tokyo Chemical Industry Co Ltd]: 3.0 g/day; Berizym [Kyowa Pharmaceutical Industry Co Ltd]: 3.0 g/day; and Toughmac-E [Ono Pharmaceutical Co, Ltd]: 3.0 g/day) within 1 week after surgery. Because patients in the control group switched interventions upon receiving a diagnosis of NAFLD, intention-to-treat analysis was used. The primary endpoint was incidence of NAFLD within 1 year, and the secondary endpoints were the incidences of NAFLD at 1, 3, 6, and 12 months and the rate of improvement in NAFLD with high-dose transfer in the control group. The secondary analysis comprised assessment of risk factors for the development of NAFLD. RESULTS: Eighty-four patients were randomly assigned (42 per group), 80 of whom were finally analyzed (39 normal-dose, 41 high-dose). The incidence of NAFLD was significantly lower in the high-dose (8 of 41) compared with the normal-dose (25 of 39) patients (p < 0.001). Multivariate analysis identified normal-dose (odds ratio [OR] 14.65, p < 0.001), total protein ≤ 6.5g/dL (OR 9.01, p = 0.018), pre-albumin ≤ 22.0 mg/dL (OR 7.71, p = 0.018), and pancreatic function diagnostic test ≤ 70% (OR 6.66, p = 0.009) as independent risk factors. There were no adverse effects. The model was accurate (c-index = 0.92) and reliable (Hosmer-Lemeshow test p = 0.32). CONCLUSIONS: High-dose administration of digestive enzymes significantly reduced the onset of NAFLD after PD compared with normal-dose administration. Registration number: UMIN000005595 (http://www.umin.ac.jp/ctr/).

Study of the gastrointestinal bioavailability of a pancreatic extract product (Zenpep) in chronic pancreatitis patients with exocrine pancreatic insufficiency.

INTRODUCTION: The Food and Drug Administration in 2006 required that all pancreatic enzyme products demonstrate bioavailability of lipase, amylase, and protease in the proximal small intestine. METHODS: In this phase I open-label, randomized, crossover trial, 17 adult chronic pancreatitis (CP) patients with severe exocrine pancreatic insufficiency (EPI) underwent two separate gastroduodenal perfusion procedures (Dreiling tube suctioning and [14C]-PEG instillation by an attached Dobhoff tube in the duodenal bulb). Patients received Ensure Plus® alone and Ensure Plus with Zenpep (75,000 USP lipase units) in random order. The bioavailability of Zenpep was estimated by comparing the recovery of lipase, amylase, chymotrypsin activity in two treatment conditions. 14C-PEG was used to correct duodenal aspirates volume. The primary efficacy endpoint was lipase delivery in the duodenum after Zenpep administration under fed conditions. Secondary efficacy endpoints included chymotrypsin and amylase delivery, serum CCK levels, and measuring duodenal and gastric pH. RESULTS: Zenpep administration with a test meal was associated with significant increase in duodenal aspiration of lipase (p = 0.046), chymotrypsin (p = 0.008), and amylase (p = 0.001), compared to the test meal alone, indicating release of enzymes to the duodenum. Lipase delivery was higher in the pH subpopulation (the efficacy population with acid hypersecretors excluded) (p = 0.01). Recovery of [14C]-PEG was 61%. Zenpep was generally well tolerated. All adverse events were mild and transient. CONCLUSIONS: In CP patients with severe EPI, lipase, chymotrypsin and amylase were released rapidly into the duodenum after ingestion of Zenpep plus meal compared to meals alone. Results also reflected the known pH threshold for enzyme release from enteric coated products.

Pancreatic Extracts for the Treatment of Diabetes (1889-1914): Acomatol.

BACKGROUND: Historical review on the early development of organotherapy for diabetes [pancreatic extracts (PE)] and its relationship with the social and political circumstances. AREAS OF UNCERTAINTY: The diagnosis of diabetes relied only in the presence of glycosuria and cardinal symptoms. Blood glucose determinations were not regularly available, requiring large volumes for sampling. Micromethods for glycemia were developed just in the last years of the investigated period. Hypoglycemia remains undiscovered. Isolation and purification of PE were difficult tasks due to the unknown chemical structure of the antidiabetic hormone. DATA SOURCES: (1) Berliner Medizinhistoriches Museum der Charité (Humboldt University). (2) GeDenKort Charité-Wissenschaft in Verantwortung. (3) Geheim Staatsarchiv Preußischer Kulturbesitz. (4) Archival Collections, University of Toronto: Thomas Fisher Rare Book Library. Academy of Medicine Collection, F. G. Banting Papers, C. H. Best Papers, J. J. R. Macleod Papers. (5) National Library of Medicine: Pubmed search for the topic of history of insulin. History of Medicine-on syllabus archive. (6) Selected books: The Discovery of Insulin (M. Bliss); Diabetes, Its Medical and Cultural History (D. von Engelhardt); Brown-Séquard (M. J. Aminoff); Diabetes: The Biography (R. Tattersall); The Endocrine Organs (E. Schäfer); The Internal Secretions (E. Gley); Health, race and German politics between national unification and Nazism, 1870-1945 (P. Weindling). THERAPEUTIC ADVANCES: Demonstration that diabetes is a pancreatic disease. The outstanding progress of medical physiology led to the birth of endocrinology and the key concepts of homeostasis. Experimental scientists designed new procedures for complete pancreatectomy and elaboration of PE containing the antidiabetic principle. Organotherapy achieved complete success in the treatment of myxedema and partial success in the treatment of experimental and clinical diabetes. CONCLUSIONS: The organotherapy of diabetes was an obliged step to facilitate the identification of the antidiabetic hormone. Organotherapy of diabetes was a paradigm for the integration of basic and applied knowledge about hormone action and development of endocrine pharmacology.

A first approach for an evidence-based in vitro digestion method to adjust pancreatic enzyme replacement therapy in cystic fibrosis.

BACKGROUND: Patients with cystic fibrosis have to take enzymatic supplements to allow for food digestion. However, an evidence-based method to adjust Pancreatic Enzyme Replacement Therapy (PERT) is inexistent, and lipid content of meals is used as a rough criterion. OBJECTIVE: In this study, an in vitro digestion model was set up to determine the theoretical optimal dose (TOD) of enzymatic supplement for a selection of foods, which is the dose that allows for maximum lipolysis extent. METHODS: A static in vitro digestion model was applied to simulate digestion of eight foods covering a wide range of lipid contents. First, the dose of the enzymatic supplement was fixed at 2000 lipase units per gram of fat (LU/g fat) using intestinal pH and bile salt concentration as variables. Second, intestinal pH and bile salt concentrations were fixed and the variable was the dose of the enzymatic supplement. Lipolysis extent was determined by measuring the free fatty acids released from initial triglycerides content of foods after digestion. Results in terms of percentage of lipolysis extent were fitted into a linear-mixed segmented model and the deducted equations were used to predict the TOD to reach 90% of lipolysis in every food. In addition, the effect of intestinal pH and bile salt concentration were investigated. RESULTS: The predictive equations obtained for the assessed foods showed that lipolysis was not only dependent on the dose of the enzyme supplement or the lipid content. Moreover, intestinal pH and bile salt concentration had significant effects on lipolysis. Therefore an evidence-based model can be developed taking into account these variables. CONCLUSIONS: Depending on food characteristics, a specific TOD should be assigned to achieve an optimal digestion extent. This work represents a first step towards an evidence-based method for PERT dosing, which will be applied in an in vivo setting to validate its efficacy.

Agenesis of dorsal pancreas in a young adult: a rare cause of diabetes mellitus.

Dorsal pancreatic agenesis is an extremely rare entity characterised by absence of body and tail of pancreas, while there are so many other developmental anomalies of the pancreas that have been reported. Here we report a 25-year-old young man who presented with pain in the abdomen, recurrent loose stools and hyperglycaemia. On radiological imaging study, there was complete agenesis of the dorsal pancreas except for thin stripe of tissue at the level of the uncinate process. Both exocrinedysfunction and endocrine dysfunction were present in this patient. Patient was supplemented with pancreatic enzyme preparation and insulin.

Nicolai Kravkov's pancreotoxine.

The article reviews the life and work of an outstanding Russian pharmacologist Professor Nikolai Kravkov (1865-1924). Among his many scientific achievements, he worked on an extract from the pancreas of animals in the early 1920s and was successful in isolating the internal secretion, which he named "pancreotoxine." This reduced blood glucose levels in animals and diabetic humans. Kravkov's work on the isolation of pancreotoxine was going on coincidentally with F. Banting's and C. Best's research of insulin, but their methods of isolation of the hormone were quite different.

Retrospective cohort analysis on pancreatic enzyme substitution in very low birthweight infants with postnatal growth failure.

OBJECTIVE: To evaluate the effects of pancreatic enzyme substitution (PES) in selected very low birthweight (VLBW) infants with poor postnatal growth despite intensified nutritional support. DESIGN: Retrospective historic cohort study with matched controls. SETTING: Single level III neonatal intensive care unit. PATIENTS: Infants with a gestational age at birth <32 weeks and birth weight <1500 g born between 1 January 2005 and 31 December 2014 (n=26) who received PES for restricted postnatal growth despite intensified enteral nutritional support in comparison with infants matched for birth weight, birth year, gestational and postnatal age (n=52). INTERVENTIONS: PES 15-93 mg/g fat with enteral feeds. MAIN OUTCOME MEASURES: The difference in SD score (SDS) differences for weight during the 7 days before and after onset of PES and weight gain in g/kg/d. Data are presented as median (P10-P90). RESULTS: Gestational age was 26.6 (24.4-29.9) weeks in enzyme substituted versus 26.4 (24.7-29.9) weeks in matched controls, and birth weight was 648(420-950)g versus 685(453-949)g. SDS differences for weight improved after onset of PES by 0.18(-0.12 to 0.53) in PES infants versus -0.04(-0.31 to 0.44) in controls. Weight gain increased in the PES group from 13.6 (4.2-22.9) g/kg/day in the week before to 19.0 (10.9-29.1) g/kg/day in the week after the onset of PES. There was no difference in weight gain in substituted subgroups receiving formula/pasteurised human milk versus unpasteurised human breast milk or who had pancreatic-specific elastase-1 concentrations in stool >200 µg/g versus≤200 µg/g. No adverse effects were noted. CONCLUSIONS: PES in selected VLBW infants with growth failure despite intensified enteral nutritional support was associated with a significant increase in weight gain in the first 7 days of PES.k.

Pancreatic exocrine insufficiency in patients with chronic heart failure and its possible association with appetite loss.

BACKGROUND: Appetite loss is one complication of chronic heart failure (CHF), and its association with pancreatic exocrine insufficiency (PEI) is not well investigated in CHF. AIM: We attempted to detect the association between PEI and CHF-induced appetite. METHODS: Patients with CHF were enrolled, and body mass index (BMI), left ventricular ejection fraction (LVEF), New York Heart Association (NYHA) cardiac function grading, B-type natriuretic peptide (BNP), serum albumin, pro-albumin and hemoglobin were evaluated. The pancreatic exocrine function was measured by fecal elastase-1 (FE-1) levels in the enrolled patients. Appetite assessment was tested by completing the simplified nutritional appetite questionnaire (SNAQ). The improvement of appetite loss by supplemented pancreatic enzymes was also researched in this study. RESULTS: The decrease of FE-1 levels was found in patients with CHF, as well as SNAQ scores. A positive correlation was observed between SNAQ scores and FE-1 levels (r = 0.694, p < 0.001). Pancreatic enzymes supplement could attenuate the decrease of SNAQ scores in CHF patients with FE-1 levels <200 µg/g stool and SNAQ < 14. CONCLUSIONS: Appetite loss is commonly seen in CHF, and is partially associated with pancreatic exocrine insufficiency. Oral pancreatic enzyme replacement therapy attenuates the chronic heart failure-induced appetite loss. These results suggest a possible pancreatic-cardiac relationship in chronic heart failure, and further experiment is needed for clarifying the possible mechanisms.

[Correction of small bowel function as a new direction for treating patients with metabolic syndrome]. / Korrektsiia narushenii funktsional'nogo sostoianiia tonkoi kishki kak novoe napravlenie lecheniia bol'nykh s metabolicheskim sindromom.

AIM: To provide a rationale for and to evaluate the therapeutic efficiency of the combined use of pancreatic enzymes and actovegin in the combination therapy of patients with metabolic syndrome (MS) on the basis of comprehensive clinical and functional studies of the small bowel (SB). SUBJECTS AND METHODS: In the course of treatment, 120 patients with MS (verified using the diagnostic criteria elaborated by the All-Russian Research Society of Cardiology (2009)) underwent a comprehensive study of SB function: an isolated study of resorptive processes; evaluation of parietal and cavitary digestion, motor-evacuation function. The peripheral blood levels of gastrin, insulin, cortisol, thyroxine and thyrotropin were determined. RESULTS: The combined use of pancreatic enzymes and actovegin has a positive impact on the clinical and functional state of SB, which was manifested as restoration of its hydrolysis and absorption, as well as motor-evacuation function in the patients with MS. The treatment resulted in reductions in the levels of triglycerides from 2.85±0.34 to 1.53±0.18 mmol/l (p<0.01), total cholesterol from 6.08±0.16 to 5.19±0.21 mmol/l (p<0.05), and atherogenic factor from 5.21±0.28 to 2.93±0.34 (p<0.05). Posttreatment HOMA-IR decreased from 4.22±0.8 to 2.12±0.8. There were no substantial changes in insulin levels and insulin resistance index in the patients on standard therapy. CONCLUSION: The combined use of pancreatic enzymes and actovegin is pathogenetically sound in correcting SB dysfunctions and may be one of the most effective directions for the treatment of patients with MS.

The Prolidase Activity, Oxidative Stress, and Nitric Oxide Levels of Bladder Tissues with or Without Tumor in Patients with Bladder Cancer.

This study was designed to evaluate the malondialdehyde (MDA), glutathione (GSH) and nitric oxide (NO) levels, and also prolidase, glutathione peroxidase (GSH-Px), superoxide dismutase (SOD) enzyme activities in malignant and benign cancers of bladder tissue. A total of 59 patients admitted to our clinic due to microscopic or macroscopic haematuria, were prospectively included in the study. Because of some reasons (no request to participate in the study, the inability to reach, other malignancies, alcohol consumption, metabolic disease), eight patients were excluded from study. Of the 51 patients, 25 were bladder tumor patients, and 26 were patients without cancers. The bladder tissue samples were obtained from all patients under anesthesia (spinal, epidural or general) for the measurement of MDA, GSH and NO levels, and prolidase, GSH-Px and SOD enzyme activities. Among the patients with bladder cancers, 7 patients were females and 18 patients were males, with an average age of 68.4 ± 2.49. Among patients without tumors, 6 patients were females and 20 patients were males, with an average age of 58 ± 2.05. In patients with bladder tumors, the oxidants (MDA, NO, prolidase) were higher, and the antioxidants (SOD, GSH, GSH-Px) were lower than those in patients without tumors. It was concluded that the oxygen free radicals play a role in the etiology of bladder cancers similar to many other tumors and inflammatory conditions. Therefore, we assume that antioxidants may provide benefits in the prevention and treatment of bladder cancer.

Insulin: Almost a Century of Lifesaving.

The identification and purification of insulin in 1922 changed life for individuals with type 1 diabetes mellitus (T1DM). Its discovery was, to a certain extent, serendipitous. Although medical researchers suspected that some type of hormone was responsible for carbohydrate metabolism, by the end of the 19th century they had made little progress. When World War I broke out, efforts stalled. A somewhat cantankerous group of Canadian researchers led by Frederick Grant Banting, a surgeon, are credited with insulin's discovery. Their initial research was discredited and criticized for poor technique. Regardless, they persevered, and in January 1922 they successfully treated their first patient. A mere nine months later, collaboration between the University of Toronto and Eli Lilly Company made insulin available in North America. Derived from beef and pork pancreases, the 40 unit/mL product little resembled today's more refined human insulin. While insulin is indispensable to individuals with T1DM, it is also used or being studied for several different conditions. Some researchers have dubbed Alzheimer's disease "type 3 diabetes" because of similar aberrations in the blood-brain barrier and protein deposits.