Medical Concepts

 DRUG-INDUCED NEPHROTOXICITY Drug-Induced Nephrotoxicity is increasingly recognized as a significant contributor to kidney disease including Acute Kidney Injury (KI) and chronic kidney disease (CKD). Nephrotoxicity has a wide spectrum, reflecting damage to different nephron segments based upon individual drug-mechanisms. 1. ACE-INHIBITORS: ACE-Inhibitors are frequently associated with Proteinuria and Renal Insufficiency. The prevalence of Proteinuria in Captopril treated patient is estimated to be 1%. The risk of Renal Insufficiency is greater with long-acting ACE Inhibitors such as Lisinopril or Enalapril than with Captopril. Immune complex glomerulopathy is a major contribute to ACE Inhibitor nephrotoxicity. Predisposing factors include: Hyponatremia Diuretic therapy Pre-existing renal impairment Congestive Heart Failure (CHF) Diabetes Mellitus Recovery of renal function usually follows ACE-Inhibitor discontinuation. 2. CEPHLOSPORIN: The cephalosporin antibiotics are capable of pro

 DRUG-INDUCED OTOTOXICITY What is drug Induced Ototoxicity? Drug-Induced ototoxicity can affect hearing (auditory or cochlear function0, balance (vestibular function) depending on the drug. Drugs of almost every class have been reported to produce tinnitus (sounds in ear), as have placebos. The following agents are associated with measurable changes in hearing or vestibular defect when administered systemically. 1. AMINOGLYCOSIDES: Aminoglycosides antibiotics can cause cochlear or vestibular toxicities. Cochlear toxicity: occurs as progressive hear loss, starting with highest tones and advancing to lower tones. Thus, considerable damage can occur before the patient recognizes it. S ymptoms of Vestibular damage : include;  Dizziness Vertigo Ataxia Both forms of ototoxicity are bilateral and potentially reversible, but permanent damage is common and can progress even after discontinuation of aminoglycosides. Clinically detectable ototoxicity in as many as 5% patients. Most aminoglycosid

 PORTAL HYPERTENSION Definition: "Portal Hyperension is present when the hepatic venous pressure gradient exceeds 10mmHg and risk of variceal bleeding increases beyond a gradient of 12mmHg." Classification: According to The Site of Action: 1. Pre-Hepatic, Pre-Sinusoidal:     Caused by;          Portal vein thrombosis due to sepsis          Abdominal trauma including surgery. 2. Intra-hepatic pre-sinusoidal:    Caused by;          Schistosomiasis         Congenital hepatic fibrosis         Drugs         Sarcoidosis 3. Sinusoidal:     Caused by;          Cirrhosis         Polycystic liver disease        Nodular regenerative hyperplasia        Metastatic malignant disease 4. Intrahepatic Post-sinusoidal:     Caused by;        Veno-occlusive disease 5. Post-hepatic post-sinusoidal:   Caused by;       Budd-Chiari syndrome Etiology: Cirrhosis Schistosomiasis Portal vein thrombosis Drugs Fibrosis Clinical Features: Variceal bleeding Congestive gastropathy Renal failure Iron deficien

 GASTROINTESTINAL DECONTAMINATION AFTER POISONING GI-decontamination can be achieved by the administration of: Activated Charcoal Gastric Lavage Ipecac-induced Emesis Whole-Bowel Irrigation Indication for GI-decontamination: Ingestion of a known toxic dose Ingestion of an unknown dose of a known toxic substance Ingestion of a substance of known toxicity * For all methods of GI-decontamination, the value of the procedure diminishes with time. Some investigators now question the usefulness of gastric lavage, or ipecac-induced emesis more than 1 hr after ingestion.* *In general, activated charcoal is the most useful agent for preventing absorption of ingested toxic substance. Other methods may be considered if the ingested substance is not adsorbed by activated charcoal or if circumstances do not permit its prompt  administration. * 1.Activated Charcoal: Activated charcoal is a non-specific absorbent that binds unabsorbed toxins within the GIT.  Activated charcoal is not effective for abs

MEDICAL EMERGENCY- POISONING Management of the poisoned patient involves procedures designed to prevent the absorption, minimize the toxicity, and hasten the elimination to the suspected toxin. The prompt employment of appropriate emergency management procedures often can prevent unnecessary morbidity and mortality. A Regional Poison Center is a practitioner's best source of definitive treatment information and should be consulted in all poisonings, regardless of the apparent simplicity of the case. In all cases, every attempt should be made to accurately identify the toxin, estimate the quantity involved, and determine the time that has passed since the exposure. These data, plus patient-specific parameters such as age, weight, sex, and underlying medical condition or drug-use will assist the person and the Regional Poison Center in designing an appropriate therapeutic plan for the patient. POISONING BY TOPICAL EXPOSURES: Immediately irrigate affected areas with a copious amount

  MEDICAL EMERGENCY- CARDIAC ARREST AND BASIC LIFE SUPPORT Definition: " Cardiac Arrest is a medical emergency requiring a systematic approach". Early recognition must be followed by prompt, effective application of Basic Life Support (BLS) techniques to sustain the patient until Advanced Life Support (ALS) capabilities are available. Management: The management of Cardiac Arrest is a 4-step approach: Recognition and Assessment BLS Advanced Cardiovascular Life Support (ACLS) Post-resuscitation Care 1. RECOGNITION AND ASSESMENT Verify that the respiration and circulation have ceased: Loss of consciousness Loss of functional ventilation (respiratory arrest or inadequate respiratory effort) Loss of functional perfusion (No pulse). 2. BASIC LIFE SUUPORT (BLS) The goal in cardiac arrest is the restoration of spontaneous circulation (ROSC). The first step towards achieving this ROSC goal is prompt initiation of BLS, where the goal is to rapidly and effectively perfuse the tissues wi

  MEDICAL EMERGENCY- ANAPHYLAXIS Definition: " Anaphylaxis is a systemic response to exposure to an allergen caused by rapid, IgE-mediatd release of histamine and other mediators from tissue mast cells and circulating basophils". Symptoms: Symptoms usually occur within a few seconds or minutes of exposure but can be delayed or recur many hours after apparent resolution (exposure). Causes: Upper airway obstruction Cardiovascular collapse are the most common causes of death in anaphylaxis. Treatment: The treatment of anaphylaxis is directed towards its three Major Presentations : Skin Manifestations: Angioedema, Urticaria Respiratory distress: Wheezing, Stridor, Dyspnea from laryngeal edema, laryngospasm and bronchospasm Hypotension All specific treatment measures should be accompanied by basic resuscitative measures including clear airway, supplemented oxygen and IV access. General Therapy and Skin Manifestations: 1. Epinephrine HCl, IM or SC, 0.3-0.5mg ; may repeat q(every)