Category Medical Study Notes

Investigation of Choice |medical notes

INVESTIGATION OF CHOICE for differnt conditions in brief
• Single Bone Metastasis – CT
• Multiple Bone Metastasis – Bone scan
• Spine Metasta sis – MRI
• Avascular necrosis- MRI
• Bone Density/Osteoporosis- DEXA (Dual energy x ray absorptiometry)
• Aneurysm/ AV Fistula- Angiography
• Dissecting Aneurysm (Stable) – MRI (Unstable)-Trans oesophageal USG
• Pericardial Effusion- Echocardiography
• Lobulated pericardial effusion- MRI > CT
• Minimum Pericardial Effusion- Echocardiography
• Ventricular Function- Echocardiography
• Radiotherapy/Chemotherapy induced cardiotoxicity- Endomyocardial Biopsy
• Pulmonary Embolism- CECT> Pulmonary Angiography > V/Q Scan
• Interstitial lung disease(Sarcoidosis)- HRCT
• Bronchiectasis- HRCT scan
• Solitary Pulmonary Nodule- High resolution CT (HRCT)
• Posterior Mediastinal Tumor- MRI
• Pancoast Tumor (Superior Sulcus Tumor) – MRI
• Minimum Ascites/Pericardial effusion/Pleural effusion – USG
• Traumatic Paraplegia- MRI
• Posterior Cranial Fossa – MRI
• Acute Haemorrhage- CT
• Chronic Haemorrhage- MRI
• Intracranial Space Occupying Lesion- MRI
• Primary brain tumour- contrast MRI (Gold standard however remains to be biopsy)
• Metastatic brain tumor- (Gadolinium) contrast enhanced MRI
• Temporal Bone-CT
• SAH Diagnosis- unenhanced CT
• SAH aetiology- 4 vessel MR Angiography > CT Angiography > DSA
• Nasopharyngeal angiofibroma- CECT scan
• Acoustic neuroma- Gadolinium DTPA enhanced MRI
• Obstetrics- USG
• Calcifications- CT
• Blunt abdominal Trauma- CT
• Acute Pancreatitis- CT
• GERD- pH manometer > endoscopy
• Dysphagia- Endoscopy
• Congenital hypertrophic pyloric stenosis- USG
• Extrahepatic biliary atresia- perioperative cholangiogram
• Obstructive Jaundice/GB Stones- USG
• Diverticulosis – barium enema
• Diverticulitis – CT scan
• Renal TB (early) – IVP (Late)- CT
• Posterior Urethral Valve- MCU
• Ureteric stone- non contrast CT
• Renal Artery Stenosis- Percutaneous Angiography
• Extraintestinal Amoebiasis- ELISA
• Discrete swelling(solitary nodule) of thyroid- FNAC

Flexor tendon injury zones
Flexor and Extensor zone in Tendon Injury in Hand

Flexor Zone for Tendon Injuries

 

  • Zone I contains only the FDP tendon and extends from the insertion of the FDP to the insertion of the FDS tendon.
  • Zone II is the area extending from the insertion of the FDS tendon to the distal palmar crease (proximal end of the A1 pulley). This area is also known as ‘No-Man’s land’, due to the shared flexor sheath and a higher risk of adhesions.
  • Zone III is the palm area from the distal palmar crease (proximal end of the A1 pulley) to the distal border of the transverse carpal ligament.
  • Zone IV is within the carpal tunnel.
  • Zone V is proximal to the carpal tunnel in the distal forearm.

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Embryological Develoment of Genital Structures Exam notes

Embryological Development of Genital structures:- 

1.Labia majors & scrotum- Genital swelling
2.L.minora & corpus of penis- Genital folds
3.Clitoris & Penis- Genital tubercle
4.Testes & Ovary- Genital ridge
5.Vaginal vestibule- Genital sinus
6.Germ cells- Yolk sac endoderm
7.vaginal upper 4/5th – mullerian duct
8.vaginal lower 1/5th- ur genital sinus
9.Appendix of testes- paramesonephric duct
10.Appendix of epididymiswolfian duct
11.organ of rossenmullermesonephric duct
12.Epididymis & vas mesonephric duct
13.trigone of bladderwolfian duct
14. Urinary bladderUro-genital sinus
15.uterus/ falopian tube/ cervix- paramesonephric duct.

Examination of umbilicus

Look the shape and position of umbilicus.
Describe the normal position of umbilicus :

  • Umbilicus lies more or less in the midway between xiphlsternum and symphysis pubis
  • Normally It is inverted and slightly retracted.
  • The slit is circular, le. neither horizontal nor vertical (the slit is transverse in ascites, and vertical in the presence of ovarian cyst).

Causes of inverted and everted umbilicus :
Everted—Seen in any condition giving rise to increased intra-abdominal tension like ovarian
cyst, pregnancy, hydramnios. severe gaseous distension etc.
Inverted—Normally in health and in obesity.
Slit of umbilicus
Vertical slit is noted in – Ovarian tumor – Horizontal slit in  – Ascites
Omphalolith – presence of inspissated desquamated epithelium and other debris

  • Umbilicus is buried in fat in obesity
  • Increase in distance between umbilicus and xiphisternum  noted in upper abdominal mass and ascites
  • Increase in distance between umbilicus and symphysis pubis observed in Lower abdominal mass
  • Shift of umbilicus to opposite side occur to due to masses of lumbar and iliac fossa
  • Metastatic deposit in the umbilicus is noted in Sister Joseph nodule.

copyright @ Dr. Ramjee

chest xray
Reading Abdominal X-ray another common x-ray to read in hospital.

Reading Abdominal X-ray another common x-ray to read in hospital.
Remember mnemonics to read an abdominal X-ray. First simply can remember Gases, Masses, Bones, Stones. A systematic approach to AXR interpretation is essential to avoid missing significant pathological changes and pathological changes.
steps to read abdominal x-ray systematically
• See ownership, adequacy and technical quality of the film. Name and date of birth of the patient and date radiograph was taken Projection,
• Posture (e.g. supine or erect).
• Then see for the adequacy of exposure
• Look for ‘gases, masses, bones and stones’.
• Gases
• Look for normal or abnormal intraluminal and extraluminal gas distribution. (Note: high inter-observer variability in interpretation of gas patterns)
• Small bowel
 Intraluminal gas is usually minimal, centrally located within numerous tight loops of small diameter (2.5–3.5 cm), distinguished by valvulae conniventes (Stack of coins), characteristic mucosal folds that stretch all the way across the small bowel loops.
• Large bowel
 Has a mixture of gas and faeces located within loops of larger diameter (3–5 cm) around the periphery, with haustra, which are mucosal folds that stretch only part-way across the diameter of the large bowel loops.
• Abnormal findings include:
• Dilated loops of small or large bowel- obstruction, ileus or inflammation
• Air–fluid levels on erect AXR—more than 5 fluid levels, greater than 2.5 cm in length is abnormal and associated with obstruction, ileus, ischaemia and gastroenteritis.
• Intramural Gas -ischaemic colitis
• Intraperitoneal gas—perforated viscus or penetrating abdominal injury Rigler’s Sign(double-wall sign) occurs when both sides of the bowel wall can be visualised and is a good indication of free intraperitoneal gas. However the sensitivity for detecting perforation on AXR is low and is best confirmed as subdiaphragmatic air on erect CXR or with a CT scan.
• Extraperitoneal gas—within the soft tissues, retroperitoneal structures or chest in infection or trauma.
• Masses
• Look for the size and position of the solid organ shadows of the liver, spleen, kidneys and bladder
• Identify the retroperitoneal shadow of the psoas muscles. Bulging of the lateral margin or obliteration of the psoas shadow may indicate retroperitoneal pathology. Look for the dilated, calcified sac of a ruptured aortic aneurysm, or adjacent bony trauma (e.g. transverse process fractures).
• Bones
• Look for abnormalities of the visible bones such as the ribs, spine, sacrum and pelvis (e.g. fractures, scoliosis, degenerative disease, tumours and metastatic deposition).
• These may be incidental or provide additional information on the cause of the abdominal pain.
• Stones
• Look for renal, ureteric and bladder stones/calcification.
• Trace the course of the ureter from the pelvis of the kidney, along the tips of the lumbar spine transverse processes, over the sacroiliac joint, down to the ischial spine and medially to the bladder; 80–90% of renal tract stones are radio-opaque, but will require non-contrast CT or USS to confirm their position in the ureter.
• Examine the RUQ and transpyloric plane at the level of L1 for evidence of gallstones (15% radio-opaque) or pancreatic calcification. Again, confirmation with USS or CT is indicated