TRANSITION SERIESTRANSITION SERIES

Topics for the Advanced EMTTopics for the Advanced EMT

CHAPTERCHAPTER

GeriatricsGeriatrics

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ObjectivesObjectives

• Discuss statistics relating to the geriatric imperative.

• Discuss pathophysiologic changes that occur to the body due to aging.

• Integrate assessment findings with related pathophysiology.

• Review current treatment strategies for geriatric patients.

IntroductionIntroduction

• People over the age of 65 make up the fastest-growing segment of the population.

• Changes in physiology due to aging have an effect on pathophysiology as compared to younger adults.

Introduction (cont’d)Introduction (cont’d)

• Geriatric patients typically have more than one disease and take more than one medication.

EpidemiologyEpidemiology

• Almost 40 million in 2008, or 12.8 of the population.

• Cardiovascular disease is the leading cause of death, followed by cancer, strokes, and COPD.

• They use ⅓ of all prescriptions.• The average geriatric patient takes 4.5

medications per day.

PathophysiologyPathophysiology

• Human body changes with age: cellular, organ, and system functions.

• Changes in normal physiology start around age 30.

• Process can be slowed with diet and exercise, but it cannot be stopped entirely.

Pathophysiology (cont’d)Pathophysiology (cont’d)

• Cardiovascular system– Degenerative process to the

myocardium– Damage to valves– Thickening of the walls– Loss of artery elasticity– Decrease in baroreceptor activity

Pathophysiology (cont’d)Pathophysiology (cont’d)

• Respiratory system– Size and strength of respiratory muscles

decrease.– Alveolar surfaces degrade, impairing gas

exchange.– Chemoreceptors begin to fail.– More turbulent airflow through the

bronchioles.

Pathophysiology (cont’d)Pathophysiology (cont’d)

• Nervous system– Nerve cells degenerate and die as early

as in the mid-20s.– Reflexes slow, proprioception falters.– Brain atrophies with a resultant increase

in CSF.– Regulation of basal bodily functions

becomes less sensitive.

Pathophysiology (cont’d)Pathophysiology (cont’d)

• Gastrointestinal system– Sense of taste and smell is diminished.– Cardiac sphincter becomes weaker.– Hepatic function decreases.– Lining of GI system degenerates,

resulting in lesser absorption of nutrients.

Pathophysiology (cont’d)Pathophysiology (cont’d)

• Endocrine system– Hormones that elevate blood pressure

and those that regulate fluid balance become deranged.

– Stimulation of adrenergic sites diminishes due to failure of sensitivity of receptor cells.

Pathophysiology (cont’d)Pathophysiology (cont’d)

• Musculoskeletal system– Loss of minerals from the bones.– Vertebral disks narrow.– Joints lose flexibility.– Synovial fluid thickens.

Pathophysiology (cont’d)Pathophysiology (cont’d)

• Renal system– Decrease in nephrons, kidneys shrink– Diminished ability to filter blood– Fluid and electrolyte disturbances

Pathophysiology (cont’d)Pathophysiology (cont’d)

• Integumentary system– Skin becomes thinner from a loss of

subcutaneous layer.– Replacement cells generate more

slowly.– Sense of touch is dulled, less

perspiration.– Less effectiveness as an external

barrier.

Changes in the body systems of the elderly.

Clues to Illness Found in the Scene Size-Up

Special Considerations in the Primary Assessment of the Geriatric Patient

Special Considerations in the Primary Assessment of the Geriatric Patient

Special Considerations in the Primary Assessment of the Geriatric Patient

Potential Differential Diagnoses Based on Clinical Findings in Geriatric Patients

Potential Differential Diagnoses Based on Clinical Findings in Geriatric Patients

Potential Differential Diagnoses Based on Clinical Findings in Geriatric Patients

Potential Differential Diagnoses Based on Clinical Findings in Geriatric Patients

Emergency Medical CareEmergency Medical Care

• Manual cervical spine considerations• Assess and maintain the airway.• Determine breathing adequacy.

– High-flow via NRB with adequate breathing.

– High-flow via PPV @ 10-12/min if inadequate.

– Maintain saturation >95%.

Emergency Medical Care (cont’d)Emergency Medical Care (cont’d)

• Assess circulatory components.– Check pulse, skin characteristics.– Control major bleeds.

Emergency Medical Care (cont’d)Emergency Medical Care (cont’d)

• Initiate transport with Paramedic intercept.

• Position the patient:– Sitting up if able to maintain own

airway.– Lateral recumbent with altered

mentation.– Supine if immobilized.

Emergency Medical Care (cont’d)Emergency Medical Care (cont’d)

• Constantly monitor airway, breathing, and circulation.

• Mental status changes are key to determining improvement or deterioration.

Case StudyCase Study

• Your EMS unit is dispatched for a “possible cardiac arrest” in the low-income housing district. Upon arrival, police escort you into a single-bedroom dwelling where an unresponsive elderly male is found in bed. The report is that the neighbor hasn't seen him in a few days so he asked the building manager to gain access.

Case Study (cont’d)Case Study (cont’d)

• Scene Size-Up– Standard precautions taken.– Scene is safe, no entry or egress

problems.– 70–75-year-old male, about 200 pounds.

Case Study (cont’d)Case Study (cont’d)

• Scene Size-Up– Patient dressed in pajamas, time is 1430

hrs.– NOI is unknown/unresponsive, possible

arrest.– Friend is on scene, but is not much help

regarding history.

Case Study (cont’d)Case Study (cont’d)

• Describe possible ways to learn of the patient's medical history.

• For each body system, name at least one differential that could cause unresponsiveness.– Nervous– Respiratory– Cardiac– Endocrine

Case Study (cont’d)Case Study (cont’d)

• Primary Assessment Findings– Patient unresponsive.– Pupils reactive, membranes dry, tongue

furrowed.– Some vomitus in airway, gurgling with

breathing.

Case Study (cont’d)Case Study (cont’d)

• Primary Assessment Findings (continued)– Respirations rapid and deep.– Carotid pulse 120/min, peripheral pulse

absent.– Peripheral skin warm and dry.

Case Study (cont’d)Case Study (cont’d)

• How would you prioritize this patient?• What are the patient's life threats, if

any? • What care should be administered

immediately?

Case Study (cont’d)Case Study (cont’d)

• Medical History– Unknown

• Medications– Glucophage found in bathroom

• Allergies– Unknown

Case Study (cont’d)Case Study (cont’d)

• Pertinent Secondary Assessment Findings– Pupils reactive to light, membranes dry.– Airway patent, patient breathing fast

and deep.– Central pulse present, peripheral

absent.– Skin is dry, delayed capillary refill.

Case Study (cont’d)Case Study (cont’d)

• Pertinent Secondary Assessment Findings (continued)– No bruising, guarding or rigidity to

abdomen.

– BGL 710mg/dL, SpO2 96% on high flow.

– B/P 82/62, HR 112, RR 28 and deep.– No other findings contributory to this

report.

Case Study (cont’d)Case Study (cont’d)

• Is this a structural or metabolic cause of unresponsiveness?

• What is the likely underlying cause for the emergency?

• Explain the pathology for the following:– Unresponsiveness– Rapid heart rate, dehydration findings

Case Study (cont’d)Case Study (cont’d)

• Care provided:– Patient immobilized as a precaution.– High-flow oxygen via NRB mask.– Patient loaded on wheeled cot and taken

to ambulance.– Initiated intravenous access.– Emergent transport to the hospital.

SummarySummary

• Geriatric patients, like pediatric patients, have an altered physiology that needs to be considered given illness and injuries.

• The normal decline in the body systems renders them susceptible to a multitude of emergencies.

Summary (cont’d)Summary (cont’d)

• Carefully manage and closely watch elderly patients, as they may deteriorate suddenly.