FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2004081822> ?p ?o ?g. }

• W2004081822 endingPage "450" @default.
• W2004081822 startingPage "445" @default.
• W2004081822 abstract "Both clinical and experimental reports clearly show that shock wave lithotripsy (SWL) causes acute renal effects in a majority, if not all, treated kidneys. SWL-induced acute renal damage may result in severe injury to the nephron, microvasculature, and the surrounding interstitium. In addition, at least three chronic adverse effects have been identified when shock waves are administered at a therapeutic dose. These include (1) an accelerated rise in arterial blood pressure, (2) a decrease in renal function, and (3) an increased rate of stone recurrence. The clinical and experimental data that document tissue injury as a result of shock wave treatment are compelling, but have not allowed us to determine the factors responsible for the adverse acute side effects or to identify conditions that may predispose a patient to serious long-term health problems. Thus, there is an urgent need for incisive, fundamental experimental studies to establish the safe limits for shock wave delivery. To accomplish this goal, animal experimentation is required so that the time course and severity of acute and chronic alterations can be followed in a model that closely mimics human renal structure and functions. The minipig provides this model. Both clinical and experimental reports clearly show that shock wave lithotripsy (SWL) causes acute renal effects in a majority, if not all, treated kidneys. SWL-induced acute renal damage may result in severe injury to the nephron, microvasculature, and the surrounding interstitium. In addition, at least three chronic adverse effects have been identified when shock waves are administered at a therapeutic dose. These include (1) an accelerated rise in arterial blood pressure, (2) a decrease in renal function, and (3) an increased rate of stone recurrence. The clinical and experimental data that document tissue injury as a result of shock wave treatment are compelling, but have not allowed us to determine the factors responsible for the adverse acute side effects or to identify conditions that may predispose a patient to serious long-term health problems. Thus, there is an urgent need for incisive, fundamental experimental studies to establish the safe limits for shock wave delivery. To accomplish this goal, animal experimentation is required so that the time course and severity of acute and chronic alterations can be followed in a model that closely mimics human renal structure and functions. The minipig provides this model." @default.
• W2004081822 created "2016-06-24" @default.
• W2004081822 creator A5008304633 @default.
• W2004081822 creator A5014551797 @default.
• W2004081822 creator A5055310751 @default.
• W2004081822 creator A5069066834 @default.
• W2004081822 creator A5077975973 @default.
• W2004081822 creator A5078290026 @default.
• W2004081822 date "1991-04-01" @default.
• W2004081822 modified "2023-10-10" @default.
• W2004081822 title "Shock Wave Lithotripsy-Induced Renal Injury" @default.
• W2004081822 cites W191367333 @default.
• W2004081822 cites W1988732050 @default.
• W2004081822 cites W2005799195 @default.
• W2004081822 cites W2008416655 @default.
• W2004081822 cites W2010429169 @default.
• W2004081822 cites W2021834627 @default.
• W2004081822 cites W2034650089 @default.
• W2004081822 cites W2035501762 @default.
• W2004081822 cites W2048936888 @default.
• W2004081822 cites W2051969663 @default.
• W2004081822 cites W2068871773 @default.
• W2004081822 cites W2095357166 @default.
• W2004081822 cites W2097801906 @default.
• W2004081822 cites W2123942168 @default.
• W2004081822 cites W2138309628 @default.
• W2004081822 cites W2298664188 @default.
• W2004081822 cites W2398963077 @default.
• W2004081822 cites W2402099836 @default.
• W2004081822 cites W2412496015 @default.
• W2004081822 cites W2418946426 @default.
• W2004081822 cites W2419146115 @default.
• W2004081822 cites W4236172092 @default.
• W2004081822 cites W4244687251 @default.
• W2004081822 cites W4247020019 @default.
• W2004081822 cites W4366079548 @default.
• W2004081822 cites W94162627 @default.
• W2004081822 doi "https://doi.org/10.1016/s0272-6386(12)80639-1" @default.
• W2004081822 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/2008914" @default.
• W2004081822 hasPublicationYear "1991" @default.
• W2004081822 type Work @default.
• W2004081822 sameAs 2004081822 @default.
• W2004081822 citedByCount "86" @default.
• W2004081822 countsByYear W20040818222012 @default.
• W2004081822 countsByYear W20040818222013 @default.
• W2004081822 countsByYear W20040818222014 @default.
• W2004081822 countsByYear W20040818222015 @default.
• W2004081822 countsByYear W20040818222016 @default.
• W2004081822 countsByYear W20040818222017 @default.
• W2004081822 countsByYear W20040818222020 @default.
• W2004081822 countsByYear W20040818222021 @default.
• W2004081822 countsByYear W20040818222022 @default.
• W2004081822 countsByYear W20040818222023 @default.
• W2004081822 crossrefType "journal-article" @default.
• W2004081822 hasAuthorship W2004081822A5008304633 @default.
• W2004081822 hasAuthorship W2004081822A5014551797 @default.
• W2004081822 hasAuthorship W2004081822A5055310751 @default.
• W2004081822 hasAuthorship W2004081822A5069066834 @default.
• W2004081822 hasAuthorship W2004081822A5077975973 @default.
• W2004081822 hasAuthorship W2004081822A5078290026 @default.
• W2004081822 hasConcept C126322002 @default.
• W2004081822 hasConcept C126894567 @default.
• W2004081822 hasConcept C141071460 @default.
• W2004081822 hasConcept C159641895 @default.
• W2004081822 hasConcept C197934379 @default.
• W2004081822 hasConcept C2777950166 @default.
• W2004081822 hasConcept C2780091579 @default.
• W2004081822 hasConcept C2780472472 @default.
• W2004081822 hasConcept C2781231759 @default.
• W2004081822 hasConcept C2781300812 @default.
• W2004081822 hasConcept C2991844318 @default.
• W2004081822 hasConcept C3018013779 @default.
• W2004081822 hasConcept C71924100 @default.
• W2004081822 hasConcept C84393581 @default.
• W2004081822 hasConceptScore W2004081822C126322002 @default.
• W2004081822 hasConceptScore W2004081822C126894567 @default.
• W2004081822 hasConceptScore W2004081822C141071460 @default.
• W2004081822 hasConceptScore W2004081822C159641895 @default.
• W2004081822 hasConceptScore W2004081822C197934379 @default.
• W2004081822 hasConceptScore W2004081822C2777950166 @default.
• W2004081822 hasConceptScore W2004081822C2780091579 @default.
• W2004081822 hasConceptScore W2004081822C2780472472 @default.
• W2004081822 hasConceptScore W2004081822C2781231759 @default.
• W2004081822 hasConceptScore W2004081822C2781300812 @default.
• W2004081822 hasConceptScore W2004081822C2991844318 @default.
• W2004081822 hasConceptScore W2004081822C3018013779 @default.
• W2004081822 hasConceptScore W2004081822C71924100 @default.
• W2004081822 hasConceptScore W2004081822C84393581 @default.
• W2004081822 hasIssue "4" @default.
• W2004081822 hasLocation W20040818221 @default.
• W2004081822 hasLocation W20040818222 @default.
• W2004081822 hasOpenAccess W2004081822 @default.
• W2004081822 hasPrimaryLocation W20040818221 @default.
• W2004081822 hasRelatedWork W2018510722 @default.
• W2004081822 hasRelatedWork W2035279759 @default.
• W2004081822 hasRelatedWork W2052579981 @default.
• W2004081822 hasRelatedWork W2316908468 @default.
• W2004081822 hasRelatedWork W2328179628 @default.

• next