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π Hypercalcemia β Causes Made Easy (CHIMPANZEES)
π¦ Mnemonic: CHIMPANZEES
C β Calcium supplementation
H β Hyperparathyroidism (most common outpatient cause)
I β Iatrogenic causes; Immobilization
M β Multiple myeloma; Milk-alkali syndrome
P β Parathyroid hyperplasia
A β Alcohol-related causes
N β Neoplasms (most common inpatient cause)
Z β Zollinger-Ellison syndrome
E β Excess Vitamin D
E β Excess Vitamin A
S β Sarcoidosis
π‘ Quick Clinical Pearls
πΉ Hyperparathyroidism and malignancy account for most cases of hypercalcemia.
πΉ Classic symptoms:
"Stones, Bones, Groans, Thrones & Psychiatric Overtones"
πͺ¨ Kidney stones
𦴠Bone pain
π€’ Abdominal pain, constipation
π½ Polyuria (frequent urination)
π§ Confusion, depression, lethargy
πΉ ECG finding: Shortened QT interval β€οΈ
πΉ Emergency treatment:
IV normal saline π§
Calcitonin π©Ί
Bisphosphonates (e.g., Zoledronic acid) π
π Exam Tip:
When a question mentions high calcium + bone pain + anemia + renal failure, think Multiple Myeloma first.
βοΈ Common Headache Types
βΆοΈ Stress Headache (Tension-type) β Pain forms a tight band around the forehead and back of the head
β Dull, aching sensation
β Often triggered by stress, poor posture, or fatigue
βΆοΈ Migraine β Intense, throbbing pain on one side of the head
β Often associated with nausea, sensitivity to light/sound
β Can have visual auras before the headache starts
βΆοΈ Hypertension Headache β Pain usually at the back of the head or neck
β Often pulsating and occurs during high blood pressure spikes
β May worsen with physical activity
βΆοΈ Cluster Headache β Severe pain around one eye
β Occurs in clusters (repeated over weeks/months)
β May cause tearing, nasal congestion on the same side
βΆοΈ Sinus Headache β Pain and pressure around the forehead, cheeks, and nose
β Often worsens with movement or bending down
β Usually accompanied by sinus infection symptoms (e.g., nasal congestion)
βΆοΈ Post-Traumatic Headache β Develops after a head injury
β Pain can be localized or widespread
β May be accompanied by dizziness or memory issues
βΆοΈ TMJ Headache β Pain near the temples or jaw joint
β Associated with jaw clenching, grinding, or TMJ disorder
β Can radiate to ear or neck
βΆοΈ Exertion Headache β Triggered by physical activity (exercise, coughing, sex)
β Throbbing pain often at the front or sides of the head
β Usually short-lasting but intense
βΆοΈ Thunderclap Headache β Sudden, severe headache that reaches peak intensity within seconds
β Medical emergencyβcan indicate bleeding in the brain or aneurysm
β Requires immediate medical attention
π§ Parkinsonβs vs Huntingtonβs β Know the Difference
βΈ»
1οΈβ£ Parkinsonβs Disease
πΈ Mnemonic: TRAP
β’ Tremor β resting (βpill-rollingβ)
β’ Rigidity β cogwheel
β’ Akinesia / Bradykinesia
β’ Postural instability
πΈ Other features:
β’ Masked (expressionless) face
β’ Shuffling gait with reduced arm swing
β’ Micrographia, hypophonia
π§© Pathology: Degeneration of Substantia Nigra β β Dopamine
𧬠Genetics: Usually sporadic. Rare familial forms β SNCA, PARK2
βΈ»
2οΈβ£ Huntingtonβs Disease
πΈ The triad: CHOREA + COGNITION + PSYCHIATRIC
β’ Chorea β involuntary jerky, dance-like movements
β’ Dementia β personality changes, cognitive decline
β’ Psychiatric β depression, psychosis, impulsivity
πΈ Onset: Typically 30β50 years old
β’ Younger onset = more severe (anticipation!)
π§© Pathology: Degeneration of Caudate Nucleus β loss of GABA neurons
𧬠Genetics: Autosomal Dominant β CAG trinucleotide repeat expansion on chromosome 4
βΈ»
3οΈβ£ Head-to-Head Comparison
β Movement type
β’ Parkinsonβs β TOO LITTLE movement (hypokinesia)
β’ Huntingtonβs β TOO MUCH movement (hyperkinesia)
β Pathology
β’ Parkinsonβs β Substantia Nigra (β Dopamine)
β’ Huntingtonβs β Caudate Nucleus (β GABA)
β Genetics
β’ Parkinsonβs β mostly sporadic
β’ Huntingtonβs β always autosomal dominant, 100% penetrance
β Treatment
β’ Parkinsonβs β Levodopa/Carbidopa (replace dopamine)
β’ Huntingtonβs β Tetrabenazine for chorea (no disease-modifying therapy)
βΈ»
β οΈ Exam Pearl
πΉ Huntingtonβs shows ANTICIPATION β each generation presents earlier and more severely
πΉ If you see choreiform movements + psychiatric symptoms in a young adult β think Huntingtonβs first
βΈ»
π Master movement disorders and all of neurology in our high-yield neurology book:
π www.mediconotes.com
βΈ»
#Parkinsons #Huntingtons #Neurology #MovementDisorders #MedicalEducation
Multiple Sclerosis (MS): Autoimmune Demyelination, Types, Symptoms, Diagnosis & Long-Term Management
#MultipleSclerosis #MSAwareness #Neurology #DemyelinatingDisease
Guillain-Barre Syndrome (GBS): Pathophysiology, Symptoms, Diagnosis & Management
#GuillainBarreSyndrome #GBS #Neurology
#MedicalEducation #VikaasShandily
Motor neuron lesions refer to damage in the nerve cells that control muscle movement, categorized into upper motor neuron lesions and lower motor neuron lesions.
#physicaltherapy #Physiotherapy #Rehabilitation #neuroscience #neurology
Understanding the Monro-Kellie Doctrine
The Monro-Kellie Doctrine is a principle that describes the fixed volume relationship among the components within the cranial cavity. These components include brain tissue, blood, and cerebrospinal fluid (CSF). It helps explain how changes in the volume of one component can affect the others and the overall intracranial pressure (ICP).
Components:
Brain Tissue: Represents about 80% of the cranial cavity volume.
Blood: Accounts for approximately 10% of the volume.
Cerebrospinal Fluid (CSF): Makes up the remaining 10%.
The Doctrine's Principle:
Fixed Volume: The total volume within the cranial cavity is fixed because the skull is rigid and non-expandable.
Compensation Mechanism: An increase in the volume of one component (e.g., brain tissue due to oedema, blood due to haemorrhage, or CSF due to hydrocephalus) must be compensated by a decrease in the volume of another component to maintain a stable ICP.
Compensatory Mechanisms:
CSF Shifts: CSF can be displaced into the spinal subarachnoid space.
Blood Volume Changes: Venous blood can be displaced from the intracranial compartment.
Brain Tissue Compliance: Limited capacity to accommodate changes due to its relatively inelastic nature.
#nursingclinicals #pathophysiologyexam #pathophysiologyclass #pathophysiologynotes #nursingstudentsofinstagram #nursingstudentnotes #studentnurses #futurenurses #nursingresources #nurseintraining #nurseinprogress #nursetobe #nursingassociates #traineenursingassociates #traineenursingassociate #studentnursestruggles #studentparamedicuk #studentparamedicsuk #studynursing #studentnurseuk #studentnurse #nursingnotes #nursingschool #nursingstudent #studentnursesofinstagram #studentparamedic #pathophysiology
The Babinski Reflex π¦Ά
Also known as the plantar reflex is evoked when pressure is applied to the lateral aspect of the sole of the the foot, running from the heel to the toes across to the big toe.
A normal or absent Babinski occurs when the toes go downward (plantar flexion)
A abnormal or positive Babinski occurs with dorsiflexion of the big toe, with the other toes fanning out. While abnormal in adults this is a normal finding in infants through the age of two.
A positive Babinski is associated with central nervous system π§ disorders such as spinal cord trauma, spinal cord tumor, multiple sclerosis, amyotrophic lateral sclerosis and stroke
Available now! Telegram Research 2025 β the year's key insights 
