Clinical Toxicology PDF

Summary

This document provides an introduction to clinical toxicology, covering common pathophysiological mechanisms, causes, and risk assessment associated with chemical exposure. It details adverse effects and potential risks of various chemical agents.

Full Transcript

PhLE MODULE 4 – PHARMACOLOGY
CLINICAL TOXICOLOGY
TRANS BY MLVGA, RPh

COMMON MAJOR PATHOPHYSIOLOGIC MECHANISMS
INTRODUCTION Causes nerve excitability →
CNS Stimulation
seizures → brain damage
TOXICOLOGY Loss of airway protective reflexes
CNS Depression and respiratory drive →
respiratory depression
Study of poison, its mechanism of action,
Diarrhea
and its management Urination
Study of adverse effects / events of Parasympathomimetic
Miosis, muscle fasciculations
Bronchoconstriction, bradycardia
physical / chemical agents in humans, Effects (DUMBBELS)
Emesis
other organisms, and environment Lacrimation
Salivation, sweating
POISONS Mydriasis
Agitation
Sympathomimetic
Has deleterious effects; may cause Effects (MATHS)
Tachycardia
Hypertension
physical injuries or death Seizure, sweating
Sola dosis facit venenum – the dose makes Heart: Cardiac arrhythmias
the poison Vasculature:
Cardiovascular Effects
‣ Vasodilation → hypotension
Toxin – natural source ‣ Vasoconstriction → hypertension
Toxicants – man-made / artificial source Respiratory Effects Aspiration → bronchospasm
Interference with O2 transport and
Cellular Hypoxia
Side Effects – related to therapy utilization
Muscle breakdown with
Musculoskeletal
Adverse Effects – deleterious / toxic effects myoglobinuria → renal failure,
Effects
lactic acidosis, hyperkalemia
✓ Immune-mediated: hypersensitivity rxn
✓ Receptor-related: idiosyncrasy, tolerance,
RISK ASSESSMENT
or desensitization
✓ Others: teratogenicity Estimate potential effect on human health and
FDA PREGNANCY CATEGORIES
environmental significance of various types of
CATEGORY HUMANS ANIMALS chemical exposure
A (-) (-)
No human studies (-) Hazard – ability of a chemical agent to cause injury
B
(-) (+) in a given situation or setting
C No human studies (+)
D (+) Benefit > Risk Risk – expected frequency of the occurrence of an
E/X (+) Risk > Benefit
undesirable effect arising from exposure to a
chemical or physical agent
TERATOGENIC DRUGS
ACEi Renal dysgenesis AREAS OF TOXICOLOGY
Fetal alcohol syndrome
✓ Facial anomalies 1. Mechanistic – mechanism of toxicity
Alcohol ✓ Growth retardation
✓ Neuro-developmental 2. Descriptive – direct toxicity testing
defects
Carbamazepine Neural tube defect 3. Regulatory – decision making process using
Clear cell cervical carcinoma of the
Diethylstilbestrol information from: mechanistic and descriptive
vagina or cervix
Lithium Ebstein’s Anomaly (assess safety or if a substance possess a risk)
Methimazole Aplasia cutis
Phenytoin Fetal hydantoin syndrome SPECIALIZED AREAS OF TOXICOLOGY
Retinoids Heart and brain abnormalities
8th cranial nerve (vestibulocochlear) 1. Clinical Toxicology
Streptomycin
damage
Tetracycline Teeth discoloration, bone problems Study of adverse effects in humans caused
Thalidomide Phocomelia, amelia by incidental/accidental overdose
Valproic Acid Spina bifida / neural tube defect
Nasal hypoplasia / fetal warfarin Mechanistic + descriptive toxicology
Warfarin
syndrome

1 | PhLE Module 4 – MLVGA, RPh
 PhLE MODULE 4 – PHARMACOLOGY
CLINICAL TOXICOLOGY
TRANS BY MLVGA, RPh

2. Environmental Toxicology 2. According to Duration

Deals with the harmful effects of chemicals Acute – ↑ dose in short period of time (<
to the environment / organisms 24 hours)
Regulatory + descriptive toxicology Subacute – less than 1 month
Chronic – ↓ dose in longer period of time
3. Forensic Toxicology
(> 3 months)
Medicolegal aspects of poisoning Subchronic – duration is 1-3 months
Mechanistic + regulatory 3. According to Onset

TOXICOKINETICS Immediate – seen after single
administration
ABSORPTION Delayed – seen after a lapse of time

Parameters: BIOAVAILABILITY (F) – rate 4. Reversible vs Irreversible
and extent of absorption; extent / fraction
of drug that enters systemic circulation Reversible – reversed by administration of
Affected by: the antidote
o Physical Properties – lipid soluble Irreversible – permanent damage,
= ↑ extent; water soluble = ↓ carcinogenic, and teratogenic effects
extent FACTORS THAT INFLUENCE EFFECTS OF POISON
o Gastric Emptying Rate – ↓ GER =
↓ absorption ROUTE
o Health of GIT
Oral
o First pass effect – hepatic
o Most common or important
metabolic
o ↑A = lipid soluble
DISTRIBUTION o ↓GER = delay absorption (ex.
anticholinergic)
Parameter: VOLUME OF DISTRIBUTION Dermal
(Vd) o lipid soluble = ↑ damage
Affected by: Protein binding – ↑ PB = ↓ o ↑ absorption – (ex. phenol)
VD Inhalation – gases/particle < 0.5μm;
𝑑𝑜𝑠𝑒 systemic or local effect
𝑉𝑑 = IV
𝑝𝑙𝑎𝑠𝑚𝑎 𝑐𝑜𝑛𝑐𝑒𝑛𝑡𝑟𝑎𝑡𝑖𝑜𝑛
IM
METABOLISM AND EXCRETION Rectal
Parameter: CLEARANCE – rate by which a Concentration – ↑ conc = ↑ toxicity
known volume of plasma is cleared by drug
Affected by: Liver and kidney function – PATIENT-RELATED FACTOR
specially in pediatric and geriatric px
Age (Pediatric)
POISONS Child Inutero
✓ 1-2 weeks – conception /
EFFECTS OF POISONS implantation; abortion
✓ 3-8 weeks – embryogenesis
1. According to Extent / Location
period; morphologic change (ex.
Local – Ex. Phenol ACEi)
Remote – Ex. Paraquat → Pulmonary ✓ > 8 weeks – minor physiologic
fibrosis changes
Systemic – Ex. Metabolic acidosis Examples:

2 | PhLE Module 4 – MLVGA, RPh
 PhLE MODULE 4 – PHARMACOLOGY
CLINICAL TOXICOLOGY
TRANS BY MLVGA, RPh

✓ Tetracycline – teeth discoloration PRIMARY SURVEY
and bone problems
AIRWAY
✓ ACEi – renal dysgenesis
✓ Diethylstilbestrol (DES) – uterine Should be cleared of any obstruction or
/ cervical cancer to daughter any vomitus
✓ Thalidomide – phocomelia → Optimize airway position
limb deformities Place the neck and head in “sniffing”
Age (Geriatric) – ↓ liver/kidney function; ↓ muscle position
mass; ↑ fat deposition Apply the jaw-thrust maneuver
Place the patient in a head-down, left-
Tolerance / Tachyphylaxis – increase dose sided position
to get same effect (Ex. Nitrates, Morphine) CAUTION: Do not perform neck
✓ Dispositional Tolerance – ↓ amt manipulation if neck injury is suspected
of chemical agent reaching the Management:
circulation ✓ Remove any obstruction
✓ Desensitization – ↓ response of ✓ Administer / provide artificial
receptors to an agent airway via insertion of oral airway
Idiosyncrasy and Pharmacogenetics or insertion of endotracheal tube
✓ G6PD Deficiency – triggers: sulfa
drugs, antimalarials, analgesics, BREATHING
acetanilide, antibiotics (nalidixic
Assess O2 saturation – using pulse
acid), INH, nitrofurantoin
oximeter
NORMAL: 95-100% O2
RR: 12-21 breathes/min
ABG: For determination of acidosis /
alkalosis; NORMAL: 7.40-7.45
Management:
✓ Pseudocholinesterase Deficiency ✓ O2 supplementation if O2 sat is
– ex. Succinylcholine → malignant 90/60 mmHg
INGESTION
✓ Pulse rate: 65-100 bpm
Management: 1. Lavage
✓ For HTN:
▪ Give 200mL PNSS IV Passage of tube via mouth or nose down
bolus to consume 1L to stomach followed by sequential
▪ Check breath sounds administration of warm saline solution and
✓ Pulseless / bradycardic: removal of small volume of liquids
▪ Start chest compression Used for massive ingestion
▪ Initial: 30 comp/min Contraindications:
o Unconscious patients
DEPRESSED MENTAL STATUS o Ingestion of corrosive substances
o Ingestion of SR and enteric-
Assessment:
coated tablets
✓ Check for responsiveness (tap /
sternal rub) 2. Dilution / Neutralization – CI in alkali and acids
✓ Check for capillary blood glucose;
NORMAL: 70-200 g/dL 3. Emesis (Syrup of Ipecac / Apomorphine) – toxin
Differential Diagnosis: does not cause rapid onset coma / convulsion →
✓ Hypoglycemia – Mgt. Dextrose aspiration
50/50 Contraindications (4C’s)
✓ Alcohol intoxication – Mgt. Vit B1
100mg IV (for the prevention of ✓ Children