All are about 45 cms or 18 inches:
Length of Vas deferens or ductus deferens
Length of thoracic duct
Length of Spinal cord
Femur (for 6 feet person)
Length of transverse colon
Distance from the incisor teeth to the cardiac end of the stomach
Umbilical cord at birth
Length of sartorius muscle
All are about 25 cms or 10 inches:
Length of Esophagus
Length of Ureter
Length of Duodenum
Length of Descending colon
All are about 10 cms or 4 inches:
Length of Trachea
Length of Fallopian or Uterine tube
Length of Common bile duct
Length of 3rd part of Duodenum (Transverse Duodenum)
Length of Posterior wall of Vagina
Anteroposterior measurement of Inlet of Pelvis
Transverse measurement of Outlet of Pelvis
All are about 4 cms or 1.5 inches:
Length of Auditory tube
Length of Anal canal
Length of Female urethra
Length of Cystic duct
Length of Common hepatic duct
Length of External acoustic/auditory meatus when measured from tragus
Length of Optic nerve
Length of Ovary
Length of Inguinal canal
Length of Femoral sheath
Thickness of Kidney
Width of Pons
All are about 1 inch or 2.5 cm
Length of Medulla
Length of Midbrain
Length of Pons
Length of 4th part of Duodenum (Ascending Duodenum)
Length of Ducts of Bartholin’s gland (Greater vestibular glands)
Diameter of Trachea
Diameter of Right main bronchus
Distance between Ureteric orifice in Empty bladder
Structures whose width is greater than length:
Pons varioli
Cecum
Prostate
Descent of Testis:
3rd month: Reaches Iliac fossa
6th month: Rests at Deep Inguinal ring
7th month: Traverses Inguinal canal
8th month: Reaches Superficial Inguinal ring
9th month: Descneds into Scrotum
Rule of 2s for Meckel’s Diverticulum:
Meckel’s Diverticulum is a congenital outpouching of the ileum that is a normal variant and is the remnant of omphalomesenteric (vitellointestinal) duct. It is a true diverticulum, that consists of all the layers of the intestinal wall (mucosa, submucosa and muscularis).
Occurs in 2% population
2 times more common in male
2 feet proximal to ileocecal valve
2 inches in length
2 years of age is typical for onset of symptoms
2 % are symptomatic
2 types of mucosa possible (Small intestine and Gastric)
Rule of 2s: 2nd week of Development (Embryology)
Trophoblast differentiates into 2 layers: Cytotrophoblast and Sycytiotrophoblast
Embryoblast forms 2 layers: Epiblast and Hypoblast
Extraembryonic mesoderm splits in 2 layers: Somatopleure and Splanchnopleure
2 cavities are formed: Amniotic cavity and Yolk sac cavity
Rule of 3s: Thoracic spine levelling
T1-3 (and T12) transverse processes are at the level of the corresponding thoracic spine.
T4-6 (and T11) transverse processes lie superiorly between its level’s spine and the spine of the thoracic segment above it.
T7-9 (and T10) transverse processes lie superiorly at the level of the superior segment’s spine.
Rule of 3s: 3rd week of Development
Bilaminar germ disc changes into trilaminar germ disc with 3 layers ectoderm, mesoderm and endoderm
Formation of 3 important structures: Notochord, Neural plate and Primitive streak
3 layered chorionic villi
3 carnegie stages
Dalley/Voss Rule of 3s of 2s: Sacral Plexus
For 3 sets of 3 nerves:
1st set of 3 nerves will all have 3 spinal contributions (3,3,3)
2nd set of will have 2 nerves with 3 spinal contributions and 1 nerve with 2 spinal contributions (3,3,2)
3rd set will have 1 nerve with 3 spinal contributions and 2 nerves with 1 spinal contribution (3,2,2)
1st set of nerves (3,3,3):
Superior gluteal nerve: 3 spinal contributions beginning from L4 (L4,L5,S1)
Inferior gluteal nerve: 3 spinal contributions beginning from L5 (L5,S1,S2)
Posterior femoral cutaneous nerve: 3 spinal contributions beginning from S1 (S1,S2,S3)
2nd set of nerves (3,3,2):
Nerve to Quadratus femoris: 3 spinal contributions beginning from L4 (L4,L5,S1)
Nerve to Obturator internus: 3 spinal contributions beginning from L5 (L5,S1,S2)
Nerve to Piriformis: 2 spinal contributions beginning from S1 (S1,S2)
3rd set of nerves (3,2,2):
Pudendal nerve: 3 spinal contributions beginning from S2 i.e. where you left off with pyriformis (S2,S3,S4)
Nerve to levator ani: 2 spinal contributions beginning from S3 (S3,S4)
Nerve to coccygeus:2 spinal contributions beginning from S4 (S4,S5)
Gate’s Rule of 4s: For Detecting Brainstem Lesion
There are 4 rules in Rules of 4s:
4 structures in the “M“idline begins with “M“: Motor pathway (Corticospinal Tract), Medial Lemniscus, Medial longitudinal fasciculus, Motor nucleus and nerves (CN 3,4,6,12)
4 structures to the “S“ide begins with “S“: Spinothalamic, Spinocerebellar tract, Sensory nucleus of CN V, Sympathetic pathway
4 Cranial nerves in Each of:
Medulla: 9,10,11,12
Pons: 5,6,7,8
Above Pons: 1,2,3,4
The 4 midline motor nuclei can exactly divide 12 (excluding 1 and 2 which are purely sensory) – 3, 4, 6 and12 (Remaining 4 motor nuclei are on sides/laterally i.e 5, 7, 9 and 11).
Associated deficits of 4 Midline “M” structures:
Motor pathway (or corticospinal tract): contralateral weakness of the arm and leg.
Medial Lemniscus: contralateral loss of vibration and proprioception in the arm and leg.
Medial longitudinal fasciculus: ipsilateral internuclear ophthalmoplegia (failure of adduction of the ipsilateral eye towards the nose and nystagmus in the opposite eye as it looks laterally).
Motor nucleus and nerve: Ipsilateral loss of affected cranial nerve function (3, 4, 6 or 12).
Associated deficits of 4 Side “S” structures:
Spinocerebellar pathways: ipsilateral ataxia of the arm and leg.
Spinothalamic pathway: contralateral alteration of pain and temperature affecting the arm, leg and rarely the trunk.
Sensory nucleus of 5th Cranial nerve: ipsilateral alteration of pain and temperature on the face in the distribution of the 5th cranial nerve (this nucleus is a long vertical structure that extends in the lateral aspect of the pons down into the medulla).
Sympathetic pathway: Ipsilateral Horner’s syndrome i.e ptosis, miosis, anhydrosis.
Associated deficits of 4 Cranial nerves in Medulla:
9th or Glossopharyngeal: ipsilateral loss of pharyngeal sensation
10th or Vagus: ipsilateral palatal weakness
11th or Spinal accessory: ipsilateral weakness of the trapezius and sternocleidomastoid muscles
12th or Hypoglossal: ipsilateral weakness of the tongue
Associated deficits of 4 cranial nerves in Pons:
5th or Trigeminal: ipsilateral alteration of pain, temperature and light touch on the face back as far as the anterior two-thirds of the scalp and sparing the angle of the jaw
6th or Abducens: ipsilateral eye abduction weakness
7th or Facial: ipsilateral facial weakness
8th or Auditory: ipsilateral deafness
Associated deficits of 4 cranial nerves above Pons:
1st or Olfactory: not in midbrain.
2nd or Optic: not in midbrain.
3rd or Occulomotor: impaired adduction, supraduction and infraduction of the ipsilateral eye (eye is turned out and slightly down)
4th or Trochlear: eye unable to look down when the eye is looking in towards the nose
Applying the knowledge:
Pathways and tracts pass through the entire length of brainstem and can be likened to “meridians of longitude” whereas the cranial nerves can be likened to “parallels of latitude”. To establish the site of brainstem lesion, you need to detect the point of intersection of the meridians of longitude and parallels of latitude. Thus a medial brainstem syndrome will consist of the deficits of 4 “M”s and the relevant motor cranial nerve, and a lateral brainstem syndrome will consist of the deficits of 4 “S”s and either the 9–11th cranial nerve if in the medulla, or the 5th, 7th and 8th cranial nerve if in the pons.
Example:
58 years old lady with left hemiparesis, Left side loss of proprioception and right sided tongue deviation.
Left hemiparesis is associated with deficit of Motor or corticospinal pathway of Right side which lies medially
Left sided loss of proprioception is associated with deficit of medial lemniscus of Right side which lies medially
Right sided tongue deviation is associated with deficit of Cranial nerve 12 on Right side which lies medially in medulla
Diagnosis: Medial medullary syndrome due to lesion in right vertebral artery
Rule of 7s: For Orbit
There are 7 bones, 7 intraorbital muscles and 7 nerves in orbit
7 Bones: Frontal, Ethmoid, Lacrimal, Sphenoid, Zygomatic, Palatine, Maxilla
7 intraorbital muscles: Levator palpebrae, 4 recti (Superior, Inferior, Medial and Lateral), 2 oblique (Superior and Inferior)
7 orbital nerves: Optic (CN II), Occulomotor (CN III), 3 branches of Opthalmic nerve (CN V1) – Frontal, Nasociliary, Lacrimal, Abducens nerve (CN VI)
Rule of 9s: Surface area of Skin
Adults:
9 % in head and neck
9% in each upper limb
18% in front of the trunk
18% in back of the trunk (including buttocks)
18% in each lower limb
1% in perineum
Children:
18% in head and neck
9 % in each limb
18% in front of the trunl
18% in back of the trunk
13.5% in each lower limb
1% in perineum
Source:http://medchrome.com/