Effects of Acute Sepsis on Renal Structure and Sympathetic Innervation in Mice

Alkhateeb, Tuqa

01 August 2017

Sympathetic nerves are important for renal physiology and sepsis pathophysiology. A recent study showed sprouting of sympathetic nerves in spleen of septic mice. This study was done to test if renal sprouting of sympathetic nerves also happens and to investigate renal morphology in septic mice. Cecal ligation and puncture (CLP) was used to induce sepsis and kidneys were removed for evaluation. Bowman’s space was diminished with cortical bubble cells present suggestive of acute renal pathology, however, renal function was unchanged. Acute sepsis did not affect either renal sympathetic innervation or non-neuronal cholinergic cells. Mouse kidneys had more epinephrine (EPI) than norepinephrine (NE) in both groups. This is most likely due to uptake of epinephrine by renal sympathetic nerves and may have no correlation with sepsis. In conclusion, septic mice showed minor renal pathology and no evidence of acute sympathetic nerve sprouting. Further studies are needed to understand the mechanism and consequences of elevated EPI in mice kidney.

sepsis

sympathetic

non-neuronal

cholinergic

renal structure

kidney

Animals

Biology

Infectious Disease

Nephrology

Pathology

Studies related to diseases affecting the kidney and urinary tract in children and their management

Roy, L. Paul

January 2005

Doctor of Medicine / Publications 1-49 represent studies that I have undertaken myself or conjointly over a 34 year period to investigate a variety of issues relating to diseases of the kidney and urinary tract in children. The studies were carried out at the Royal Alexandra Hospital for Children, Camperdown when I was Clinical Superintendent from 1968 - 1970; The Department of Paediatrics, University of Minnesota, Minneapolis, USA when I was Overseas Research Fellow of the Post Graduate Foundation in Medicine, University of Sydney, 1970 - 1972, then as Staff Physician in Nephrology at the Royal Alexandra Hospital for Children, Camperdown, 1972 - 1977, and then Head of that Department at the Hospital until 1995 and then as an Honorary Staff Specialist at that hospital. Some of the studies were done conjointly with members of the Renal Unit of Royal Prince Alfred Hospital where I hold an Honorary appointment and others conjointly with members of the Renal Unit of Prince Henry Hospital, Little Bay. I was appointed Clinical Associate Professor to the Department of Paediatrics and Child Health, University of Sydney in 1993. In 1966 paediatric nephrology was in the early phase of development as a medical subspecialty. There was no definitive textbook, the first was published in 1975 (Pediatric Nephrology, Ed. Mitchell I. Rubin. Williams and Wilkins.). In the preface to the 2nd edition of Renal Disease (Blackwell) in 1967 the editor D.A.K. Black noted that he had included a chapter on paediatric aspects which had been planned for the 1st edition in 1962 but ”it could not be arranged”. In the chapter on Renal Disease in Children the author, D.Macauly, comments that the mortality rate of acute renal failure in children was 50%. When I joined the resident staff of the Royal Alexandra Hospital for Children in 1966, children with renal disease were managed by general paediatricians. There was no active program for the treatment of children with acute or chronic renal failure. A small number of kidney biopsies had been performed by Dr Trefor Morgan who, together with Dr Denis Wade, had taught me the technique while I was a resident medical officer at the Royal Prince Alfred Hospital in the preceding year. With the guidance and support of Dr S.E.J. Robertson and Dr C. Lee, Honorary Medical Officers, and Dr R.D.K. Reye, Head of the Department of Pathology, I began performing kidney biopsies on children at the request of the paediatrician in charge. In the same year, encouraged again by Doctors Robertson and Lee, and by J.C.M. Friend and J. Brown, I introduced peritoneal dialysis for the treatment of children with acute renal failure, a technique which I had also been taught by Dr Trefor Morgan whilst I was a resident at Royal Prince Alfred Hospital. Dr Robertson encouraged me to present my experience in percutaneous renal biopsy in children at the Annual Meeting of the Australian Paediatric Association in 1968 and this study became the first paper I published in relation to disease of the urinary tract in children (1). In 1970 I was granted an Overseas Research Fellowship by the Post Graduate Foundation in Medicine, University of Sydney, to enable me to undertake a fellowship in the Department of Paediatrics at the University of Minnesota. I had the great fortune in undertaking studies in the new discipline of paediatric nephrology and related research under the guidance of Dr A. F. Michael, Dr R.L.Vernier and Dr A. Fish. I acquired the techniques of immunopathology and electron microscopy. On my return to Australia I established a Department of Nephrology at the Royal Alexandra Hospital for Children. I introduced immunofluorescent and electron microscopic studies for the kidney biopsies that I continued to perform and, with the support of Dr R.D.K. Reye, I provided the official reports of these studies until 1990. As a result these studies became part of the histopathologic service provided by the hospital. I continue to be consulted concerning the interpretation of some electron microscopic findings in renal tissue. With the assistance of Dr J.D. Harley I set up a laboratory in the Children’s Medical Research Foundation to continue and expand the studies I had commenced during my Fellowship. Establishing a dialysis and transplant program for children with end stage renal disease (ESRD) was extremely time consuming. At that time most children with ESRD died. The program was initially established jointly with the Renal Unit at Royal Prince Alfred Hospital in 1972 and eventually dialysis facilities were established at the Children’s Hospital using predominantly peritoneal dialysis. By 1978 the existence of the Unit was well known in the general community and articles appeared in the press. One prompted the late Sir Lorimer Dods, the first Professor of Paediatrics in Australia to write to me congratulating me on what I had achieved. He remarked “I have just read with special interest Shaun’s review in the SMH of some of your recent achievements in the field of renal failure in infancy and childhood and want to offer you my personal congratulations on all that you have achieved and are achieving in this area of paediatrics which, in my little world of yesterday, meant nothing more than progressive and unrelenting fatal illness”. Taking part in the development of a relatively new discipline led me to study a number of areas. I encouraged trainees to write reports concerning clinical observations and eventually I was joined by Fellows whom I encouraged and supported to study a number of different areas to ensure that children were being cared for in an environment of strong and open enquiry. This led to studies on investigations of chronic renal failure which Dr Elisabeth Hodson pursued and studies on urinary tract infection in small children for which Dr Jonathon Craig was awarded a PhD. As I had been a contributor and co-author in a number of these studies they have been included in my list of publications. As a result of this diversity I have listed the publications in 9 sections. The overall theme is to study diseases of the renal tract in children and treatments used to understand the processes and ensure the most effective treatment. Some published abstracts of papers presented at scientific meetings have been included to clarify invitations I received to prepare reviews and chapters on various subjects and my involvement in some conjoint studies. I was author or coauthor of several book chapters, reviews, editorials and certain published studies to which I was invited to contribute as a result of my primary studies and these I have included as “Derivative References”numbered 50-76.

Kidneys -- Diseases.

Urinary organs -- Diseases.

Pediatric nephrology.

Pediatric urology.

Urinary tract infections in children.

Characterisation of markers associated with systemic inflammation in children with Chronic Kidney Disease.

Nairn, Judith

January 2008

Chronic Kidney Disease (CKD) is a progressive condition that in the majority of cases leads to End Stage Renal Failure (ESRD) and the need for dialysis, with the only cure being renal transplant. CKD affects both adults and children; however the underlying causes of the disease are different. CKD in adults is most commonly secondary to diabetes and/or hypertension while CKD in children is usually caused by congenital structural abnormalities that result directly in renal dysfunction. There have been numerous reports of inflammatory and immunological disturbances in adult CKD that involve both the cellular and humoral immune systems. Consequences of these include an increased rate of cardiovascular disease (CVD), decreased response to vaccinations, as well as increased rates of infection, anaemia and malnutrition. Children with CKD display many of the clinical complications seen in adult kidney disease that are associated with inflammatory and immunological changes. In adults however, many of the primary conditions associated with CKD are inherently pro-inflammatory; therefore it is not clear whether the inflammatory changes observed in adults with CKD are due to pre-existing inflammatory conditions, renal disease per se or a combination of both. The majority of CKD in children is caused by conditions that are not inflammatory in nature. This presents a unique opportunity to study the inflammatory consequences of CKD alone, without the added complication of underlying inflammatory disorders. Despite this, there has been little investigation of the inflammatory and immunological status of children with CKD. Some very recent studies have shown that children with CKD have an increased systemic inflammatory state[1-3], however the nature of these immunological and inflammatory changes remains poorly defined. Identification of the specific inflammatory processes that occur in CKD may provide new treatment targets and the opportunity to develop urgently needed new therapies. The purpose of this thesis is to investigate the presence of immunological changes associated with inflammation in children with CKD. This is the first study to include children with very mild disease, and the significant changes that are present in the early stages of the disease are of particular note. I have shown that CKD in children is an intrinsically inflammatory condition, with increased accumulation of markers of oxidative stress and production of pro-inflammatory cytokines. The inflammatory markers identified in this study may be applied as a foundation for more sensitive diagnostic markers of disease progression as well as provide a basis for novel treatment strategies in this group of patients. Early identification of increased inflammation is a prerequisite for the application of preventive strategies. In addition, a better understanding of the level and mechanisms of systemic inflammation in children with CKD may enable a more accurate assessment of their risk of other inflammatory conditions such as CVD, anaemia, muscle wasting, and malnutrition. Future research that specifically focuses on the reasons and mechanisms for different rates of disease progression may emerge as a result of this study. Importantly, the findings of this study may have implications in the long term treatment of disease and may allow identification of new treatment strategies to achieve better patient outcomes. The outcomes of the study are: • Better definition of inflammatory profiles in paediatric CKD and correlation with disease severity and progression, which should contribute to improved management strategies. • Identification of new treatment targets to reduce the damage caused by chronic systemic inflammation. • Mechanistic understanding of the relationship of the inflammatory profile in regard to source leucocytes or other contributing cell types. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1330366 / Thesis (Ph.D.) -- University of Adelaide, School of Paediatrics and Reproductive Health, 2008

Kidney disease.

Pediatric nephrology.

Cytokines.

T cells.

Prevalence, Predictors, and Outcomes Associated with Late Start of Chronic Kidney Disease Care Amongst Adults with End-stage Renal Disease

Singhal, Rajni

20 December 2011

Using Ontario health administrative data, we identified 12,143 adults with chronic kidney disease (CKD) who received outpatient nephrology care prior to start of renal replacement therapy (RRT) in order to study the effect of care-related factors in predicting late start of predialysis care (PDC, defined as first outpatient nephrology visit <6 months prior to RRT start) and to explore covariates which further quantify the PDC received. Lack of an usual provider of primary care (OR 0.76; 95%CI 0.66, 0.87) predicted late start of PDC. In addition to late start of PDC, number of nephrology visits (OR 0.97 per visit; 95% CI 0.96, 0.98), and having seen a nephrologist in only 1 or 2 of the 6 months prior to RRT start (OR 1.33; 95%CI 1.18, 1.51), were also independent predictors of one-year mortality, suggesting that other measures of PDC are needed to better characterize the care received.

end-stage renal disease

dialysis

chronic kidney disease care

late referral

nephrology care

mortality

predictors

survival

Role of the SDF-1/CXCR4/eNOS Signaling Pathway in Chronic Kidney Disease

Chen, Li-Hao (Henry)

21 November 2012

Loss of the renal microvasculature is a common feature of almost all forms of chronic kidney disease (CKD). Here we explored the role of the angiogenic chemokine stromal cell-derived factor-1-alpha (SDF-1) and its cognate receptor CXCR4 in experimental and human CKD. CXCR4 was present on endothelial cells and podocytes, while SDF-1 was detectable on podocytes, arteriolar smooth muscle cells, interstitial fibroblasts and occasional endothelial cells. CXCR4 mRNA was elevated in the kidneys of rats with CKD and chronic antagonism of CXCR4 accelerated renal decline and capillary loss. Acute SDF-1 infusion activated glomerular endothelial nitric oxide synthase (eNOS) in vivo, while functional response to SDF-1 was impaired in glomerular endothelial cells derived from eNOS-/- mice. Finally, CXCR4 mRNA was also found to be increased in biopsies of patients with secondary focal segmental glomerulosclerosis. These observations indicate that local eNOS-dependent SDF-1/CXCR4 signaling exerts a compensatory reno-protective effect in the setting of CKD.

chronic kidney disease

SDF-1

CXCR4

eNOS

nephrology

focal and segmental glomerulosclerosis

0306

0307

0379

0566

Prevalence, Predictors, and Outcomes Associated with Late Start of Chronic Kidney Disease Care Amongst Adults with End-stage Renal Disease

Singhal, Rajni

20 December 2011

Using Ontario health administrative data, we identified 12,143 adults with chronic kidney disease (CKD) who received outpatient nephrology care prior to start of renal replacement therapy (RRT) in order to study the effect of care-related factors in predicting late start of predialysis care (PDC, defined as first outpatient nephrology visit <6 months prior to RRT start) and to explore covariates which further quantify the PDC received. Lack of an usual provider of primary care (OR 0.76; 95%CI 0.66, 0.87) predicted late start of PDC. In addition to late start of PDC, number of nephrology visits (OR 0.97 per visit; 95% CI 0.96, 0.98), and having seen a nephrologist in only 1 or 2 of the 6 months prior to RRT start (OR 1.33; 95%CI 1.18, 1.51), were also independent predictors of one-year mortality, suggesting that other measures of PDC are needed to better characterize the care received.

end-stage renal disease

dialysis

chronic kidney disease care

late referral

nephrology care

mortality

predictors

survival

Role of the SDF-1/CXCR4/eNOS Signaling Pathway in Chronic Kidney Disease

Chen, Li-Hao (Henry)

21 November 2012

Loss of the renal microvasculature is a common feature of almost all forms of chronic kidney disease (CKD). Here we explored the role of the angiogenic chemokine stromal cell-derived factor-1-alpha (SDF-1) and its cognate receptor CXCR4 in experimental and human CKD. CXCR4 was present on endothelial cells and podocytes, while SDF-1 was detectable on podocytes, arteriolar smooth muscle cells, interstitial fibroblasts and occasional endothelial cells. CXCR4 mRNA was elevated in the kidneys of rats with CKD and chronic antagonism of CXCR4 accelerated renal decline and capillary loss. Acute SDF-1 infusion activated glomerular endothelial nitric oxide synthase (eNOS) in vivo, while functional response to SDF-1 was impaired in glomerular endothelial cells derived from eNOS-/- mice. Finally, CXCR4 mRNA was also found to be increased in biopsies of patients with secondary focal segmental glomerulosclerosis. These observations indicate that local eNOS-dependent SDF-1/CXCR4 signaling exerts a compensatory reno-protective effect in the setting of CKD.

chronic kidney disease

SDF-1

CXCR4

eNOS

nephrology

focal and segmental glomerulosclerosis

0306

0307

0379

0566

Decision Making by Patients Awaiting Kidney Transplant

Solomon, Daniel Aran

13 September 2010

Involving patients in medical decisions by acknowledging patients personal values and individual preferences has become an important goal of providing ethical medical care. Despite a general movement towards a model of shared decision-making, many patients do not fully meet their preferred role in practice. The decision whether or not to accept a kidney once it is offered to a patient awaiting transplant has historically been made predominantly by the transplant surgeon with little involvement from the patient. Because dialysis can provide long-term renal replacement, declining a kidney is a viable option. Patient changes over time and inherent heterogeneity of donor kidneys make this an authentic decision requiring careful analysis of costs and benefits from the patient perspective. The purpose of this study is to improve our understanding of how patients and transplant surgeons prioritize different factors when deciding whether or not to accept a kidney that has become available, in order to empower patients to become more involved in the decision-making process. Phase I: We developed a comprehensive list of factors that patients might consider important through qualitative interviews with patients, and deliberation with a transplant surgeon (SK) and a transplant nephrologists (RF). Phase II: We quantified the relative importance of each factor for patients on the transplant list and for transplant surgeons with a computerized survey using Maximum Differences Scaling. We developed relative importance scores using Heirarchical Bayes analysis, and tested for associations between patient characteristics and relative importance scores using Spearmans correlation coefficient and the Mann Whitney U test for continuous and categorical variables respectively. Of the factors evaluated, patients placed the greatest value on Kidney quality, How closely matched you are to the kidney, and How strongly your surgeon feels you should accept the kidney. Relative importance of different factors did not change based on patient demographic characteristics. Patients who are on the waiting list longer give less importance to kidney quality (standard beta estimate -0.23, p value 0.03) and more importance to How difficult it is for you to be matched to a donor (ie whether or not you are sensitized) (standard beta estimate 0.28, p value 0.01). Surgeons placed the greatest value on Kidney quality, How difficult it is for the patient to be matched to a kidney (ie whether or not the patient is sensitized), and The age of the donor. This pilot study suggests a role for standardized education tools to help empower patients to be involved in this difficult decision. Development of decision aids can be guided by the results of this project.

kidney transplantation

renal dialysis

directed tissue donation

patient participation

nephrology

health surveys

The association of various HLA-A, -B and -DR loci with membranous glomerulonephritis, IgA nephropathy, and focal segmental glomerulosclerosis in KwaZulu-Natal renal patients.

January 2007

This KwaZulu-Natal (KZN) based study investigates hypertension, glomerulonephritides and the rarity of IgA Nephropathy (IgAN) in Africans in association with the Human Leukocyte Antigen (HLA). A retrospective hypertensive study found a positive association with HLA-B40 (P c<0.05) and HLA-B15 (Pc<0.02) in Indians and Africans respectively. No association was found in Whites. A prospective study showed glomerulonephritides to be positively associated with HLA-A33 in Indians (Pc 0.049). No associations were found with glomerulonephritides in Africans and Whites. Combined Race groups show no HLA associations. HLA-A30; HLA-A34; HLA-A29; HLA-B42; HLA-B58; HLA-B70 and HLA-DR11 were extremely significantly higher in Africans compared to Indians and Whites (all P<0.0001). In conclusion, HLA-B40 and I 1LA-B15 are possible disease susceptibility markers in Indian and African hypertensives; HLA-A33 is a possible disease susceptibility marker for glomerulonephritides in Indians and alleles in linkage might be responsible for the rarity of IgAN in Africans but further studies need to be employed. / Thesis (M.Med)-University of KwaZulu-Natal, 2007.

Glomerulonephritis.

Immune complex diseases.

Kidney glomerulus--Diseases.

Theses--Nephrology.

Fibromuscular dysplasia of the renal arteries: studies on aetiology

Bofinger, A. M.

Unknown Date

No description available.

321012 Nephrology and Urology