RM
+
Human spleen light micrograph
RM
+
Light micrograph showing two arteries and three large veins located in a spleen trabecula In the spleen the incoming blood vessels are placed in the
RM
+
Seminiferous tubules light micrograph
RM
+
Human parotid gland light micrograph
RM
+
Human parotid gland light micrograph
RM
+
Human parotid gland light micrograph
RM
+
Human parotid gland light micrograph
RM
+
Sage leaf SEM
RM
+
Pine needle SEN
ED
+
Clematis stem Coloured scanning electron micrograph (SEM) of a section through a Clematis sp stem Within the central pith (dark green) are six vasc
RM
+
Olive leaf SEM
RM
+
Pine needle
RM
+
Pine needle SEM
RM
+
Olive leaf SEM
RM
+
Sage leaf SEM
RM
+
Maize (Zea mays) stem light micrograph
RM
+
Maize (Zea mays) stem light micrograph
RF
+
Plant parenchyma structure illustration
RM
+
Cirrhosis
ED
+
Clematis stem Coloured scanning electron micrograph (SEM) of a section through a Clematis sp stem Within the central pith (green) are six vascular
RM
+
Hepatocarcinoma
RM
+
Hepatocarcinoma
RM
+
Hepatocarcinoma
RM
+
Hepatocarcinoma
RM
+
Human polycystic kidney
RM
+
Human polycystic kidney
RM
+
Human polycystic kidney
RM
+
Human adenopathies
RM
+
Human thyroid gland light micrograph
ED
+
Starch grains Coloured scanning electron micrograph (SEM) of starch grains (yellow) in the parenchyma of a Clematis sp plant Starch is synthesised
RM
+
Thyroid and parathyroid gland light micrograph
RM
+
Human thyroid gland light micrograph
RM
+
Human thymus light micrograph
RM
+
Human thymus light micrograph
RM
+
Human thymus light micrograph
RM
+
Human submandibular gland light micrograph
RM
+
Human submandibular gland light micrograph
RM
+
Human pineal gland light micrograph
RM
+
Human pineal gland light micrograph
ED
+
Rhubarb stem Coloured scanning electron micrograph (SEM) of a transverse section through a rhubarb stem Rheum rhaponticum Xylem vessels are seen on
RM
+
Human pineal gland light micrograph
RM
+
Human pineal gland light micrograph
RM
+
Normal premature newborn baby brain development ultrasound
RM
+
Encephalitis due to Haemophilus influenzae light micrograph
RM
+
Encephalitis due to Haemophilus influenzae light micrograph
RM
+
Encephalitis due to Haemophilus influenzae light micrograph
RM
+
Congenital mesoblastic nephroma light micrograph
RM
+
Clear cell renal carcinoma light micrograph
RM
+
Clear cell renal carcinoma light micrograph
ED
+
Light micrograph of normal human thyroid gland The parenchyma of the gland consists of closed vesicles surrounded by a network of blood vessels (deep
RM
+
Clear cell renal carcinoma light micrograph
RM
+
Red pulp of the spleen light micrograph
RM
+
Lymphosarcoma in human kidney light micrograph
RM
+
Testicle Leydig cells light micrographs
RM
+
Fluorescence light micrograph of a transverse section through the petiole of a Ctenanthe setosa plant showing vascular bundles (red) Vascular bundles
RM
+
Fluorescence light micrograph of a transverse section through the petiole of a Ctenanthe setosa plant showing a vascular bundle (red) Vascular bundle
RM
+
Fluorescence light micrograph of a transverse section through the petiole of a Ctenanthe setosa plant showing vascular bundles (red) Vascular bundles
RM
+
Fluorescence light micrograph of a transverse section through the petiole of a Ctenanthe setosa plant showing vascular bundles (red) Vascular bundles
RM
+
Fatty liver disease light micrograph
ED
+
Dutchmans pipe plant stem Light micrograph of a section through the stem of a dutchmans pipe plant (Aristolochia sipho) The inner blue circle is a
RM
+
Fatty liver disease light micrograph
RF
+
Axial computed tomography (CT) scan of the brain of a patient with renal carcinoma showing multiple haemorrhagic lesion (multiple white round lesion)
RF
+
Axial computed tomography (CT) scan of the brain of a patient with renal carcinoma showing multiple haemorrhagic lesion (multiple white round lesion)
RM
+
Ultrasound scans showing the normal brain development of a newborn baby at less than 2 months old born prematurely at 34 weeks The scan shows a pare
RM
+
Banana (Musa sp) fruit stalk light micrograph
RM
+
Ultrasound showing the normal brain development of a newborn baby at less than 2 months old born prematurely at 34 weeks The scan shows the normal p
RM
+
Coloured ultrasound scan in right parasagittal plane showing the normal brain development of a newborn baby at less than 2 months old born prematurel
RM
+
Coloured ultrasound scan in right parasagittal plane showing the normal brain development of a newborn baby at less than 2 months old born prematurel
RM
+
Coloured ultrasound scan showing the normal brain development of a newborn baby at less than 2 months old born prematurely at 34 weeks The scan show
ED
+
Rhubarb stem Coloured scanning electron micrograph (SEM) of a longitudinal section through a rhubarb stem Rheum rhaponticum Cut xylem vessels are c
RM
+
Coloured ultrasound scan showing the normal brain development of a newborn baby at less than 2 months old born prematurely at 34 weeks The scan show
RM
+
Premature baby normal brain development ultrasound scan
RM
+
Ultrasound scan showing the normal brain development of a newborn baby at less than 2 months old born prematurely at 34 weeks The scan shows a norma
RM
+
Premature brain normal brain development ultrasound scan
RM
+
Premature brain normal brain development ultrasound scan
RM
+
Premature baby normal brain development ultrasound scan
RM
+
Ultrasound showing the normal brain development of a newborn baby at less than 2 months old born prematurely at 34 weeks The frontal scan through t
RM
+
Normal premature newborn baby brain development ultrasound
RM
+
Ultrasound showing the normal brain development of a newborn baby at less than 2 months old born prematurely at 34 weeks The frontal scan through t
ED
+
False-colour scanning electron micrograph of a cut stem of the white dead nettle Lamium album The hollow centre is produced by the collapse of thin-
RM
+
Ultrasound showing the normal brain development of a newborn baby at less than 2 months old born prematurely at 34 weeks The frontal scan which pas
RM
+
Ultrasound showing the normal brain development of a newborn baby at less than 2 months old born prematurely at 34 weeks The frontal scan which pas
RM
+
Ultrasound showing the normal brain development of a newborn baby at less than 2 months old born prematurely at 34 weeks The scan shows the normal p
RM
+
Ultrasound showing the normal brain development of a newborn baby at less than 2 months old born prematurely at 34 weeks The scan shows the normal p
RM
+
Ultrasound showing the normal brain development of a newborn baby at less than 2 months old born prematurely at 34 weeks The scan shows the normal p
RM
+
Ultrasound showing the normal brain development of a newborn baby at less than 2 months old born prematurely at 34 weeks The scan shows the normal p
RM
+
Kidney parenchyma light micrograph
RM
+
Kidney cortex light micrograph
RM
+
Calcifications in human pineal gland light micrograph
ED
+
False-colour scanning electron micrograph of a horizontal section through oak heartwood the wood (secondary xylem) of the tree Quercus robur The ima
RM
+
Human pineal gland lobulation light micrograph
RM
+
Human pineal gland lobulation light micrograph
RM
+
Human pineal gland lobulation light micrograph
RM
+
Human pineal gland lobulation light micrograph
RM
+
Human pineal gland light micrograph
RM
+
Human pineal gland lobulation light micrograph
RM
+
Calcium concretions in human pineal gland light micrograph
RM
+
Calcium concretions in human pineal gland light micrograph
RM
+
Human pineal gland lobulation light micrograph
ED
+
Scanning electron micrograph of a cut stem of the white dead nettle Lamium album The hollow centre is produced by the collapse of thin-walled pith c
786
0
https://www.afloimages.com/search/parenchyma.html