The kidneys are vital organs responsible for filtering and cleaning blood, removing waste products, and regulating electrolyte levels. To perform these essential functions, they require a constant and robust blood supply.

Bloody Supply to the Kidneys:

The kidneys receive their blood supply from the renal arteries, which branch off from the abdominal aorta—the main artery supplying the abdomen and lower body. The renal arteries enter the kidneys at the hilum, a notch on the medial side of each kidney, with each renal artery serving one kidney.

Inside the kidney, the renal artery divides into smaller branches known as segmental arteries. These five segmental arteries further branch into interlobar arteries, which travel between the cone-shaped renal pyramids.

The interlobar arteries ascend toward the kidney's surface, giving rise to arcuate arteries at the junction between the renal cortex and medulla. Arcuate arteries arch along the base of the pyramids and branch into interlobular arteries.

Interlobular arteries penetrate the renal cortex, supplying blood to the nephrons, the kidney's functional units. These arteries branch into two types of capillary networks: the peritubular capillaries and the vasa recta.

Peritubular capillaries surround the renal tubules, facilitating the exchange of substances between the blood and tubular fluid.

Vasa recta descend into the renal medulla and are important for maintaining the kidney's osmotic gradient, enabling the concentration of urine..

Venous Drainage from Kidneys

After the nephrons have filtered the blood, it is collected by a system of veins that mirror the path of the arterial supply but in reverse order.

Peritubular veins and vasa recta drain into the interlobular veins.

Interlobular veins merge to form the arcuate veins, which then combine into interlobar veins.

The interlobar veins converge to form the renal vein, which exits the kidney at the hilum and drains into the inferior vena cava.

To summarise, the kidneys receive their blood supply from the renal arteries, which branch into a series of smaller vessels that reach the nephrons. After filtration, the deoxygenated blood is carried away by a parallel set of veins.

Nerve Supply to the Kidneys:

The kidneys receive their nerve supply from a network of efferent (motor) and afferent (sensory) nerves which form an intricate system that plays a crucial role in renal function.

1. Efferent nerves originate from para- and prevertebral ganglia, which are part of the sympathetic nervous system. They regulate key processes such as glomerular filtration, sodium reabsorption, and renin release. Renin is an enzyme secreted by the juxtaglomerular cells of the kidneys that helps regulate blood pressure.
2. Afferent nerves transmit sensory information from the kidneys to the central nervous system, contributing to the regulation of fluid and electrolyte balance in response to the body's needs or environmental changes.

The renal plexus is a mixed axon bundle containing both efferent and afferent fibers. Sympathetic nerves influence filtration rates, urine flow, and blood pressure.

In addition to sympathetic innervation, the kidneys are also supplied by parasympathetic nerves of the autonomic nervous system. These nerves influence renal functions, such as the rate of filtration and urine production.

Disruption in this nerve supply can lead to significant renal disorders, compromising the kidneys' ability to maintain homeostasis.

The kidneys' intricate network of blood vessels and nerves is essential for filtering blood, maintaining fluid and electrolyte balance, and regulating blood pressure. The precise orchestration of arterial supply, venous drainage, and neural control ensures optimal kidney function. Understanding these systems is critical for diagnosing and treating renal disorders.